Update documentation for release 3.11

Automatically upload release assets after building for release

.github/workflows/build-all-versions.yml

@@ -14,7 +14,7 @@ jobs:
     strategy:
       matrix:
         os: [ubuntu-latest, macos-latest, windows-latest]
-        cabal: ["3.2"]
+        cabal: ["latest"]
         ghc:
           - "8.6.5"
           - "8.8.3"
@@ -33,7 +33,7 @@ jobs:
     - uses: actions/checkout@v2
       if: github.event.action == 'opened' || github.event.action == 'synchronize' || github.event.ref == 'refs/heads/master'
 
-    - uses: actions/setup-haskell@v1.1.4
+    - uses: haskell/actions/setup@v1
       id: setup-haskell-cabal
       name: Setup Haskell
       with:
@@ -65,7 +65,7 @@ jobs:
     runs-on: ubuntu-latest
     strategy:
       matrix:
-        stack: ["2.3.3"]
+        stack: ["latest"]
         ghc: ["7.10.3","8.0.2", "8.2.2", "8.4.4", "8.6.5", "8.8.4"]
         # ghc: ["8.8.3"]
 
@@ -73,11 +73,12 @@ jobs:
     - uses: actions/checkout@v2
       if: github.event.action == 'opened' || github.event.action == 'synchronize' || github.event.ref == 'refs/heads/master'
 
-    - uses: actions/setup-haskell@v1.1.4
+    - uses: haskell/actions/setup@v1
       name: Setup Haskell Stack
       with:
-        # ghc-version: ${{ matrix.ghc }}
-        stack-version: ${{ matrix.stack }}
+        ghc-version: ${{ matrix.ghc }}
+        stack-version: 'latest'
+        enable-stack: true
 
     - uses: actions/cache@v1
       name: Cache ~/.stack
@@ -90,6 +91,6 @@ jobs:
         stack build --system-ghc --stack-yaml stack-ghc${{ matrix.ghc }}.yaml
         # stack build --system-ghc --test --bench --no-run-tests --no-run-benchmarks
 
-    # - name: Test
-    #   run: |
-    #     stack test --system-ghc
+    - name: Test
+      run: |
+        stack test --system-ghc --stack-yaml stack-ghc${{ matrix.ghc }}.yaml

.github/workflows/build-binary-packages.yml

@@ -2,7 +2,8 @@ name: Build Binary Packages
 
 on:
   workflow_dispatch:
-  release:
+  release: 
+    types: ["created"]
 
 jobs:
 
@@ -10,11 +11,13 @@ jobs:
 
   ubuntu:
     name: Build Ubuntu package
-    runs-on: ubuntu-18.04
-    # strategy:
-    #   matrix:
-    #     ghc: ["8.6.5"]
-    #     cabal: ["2.4"]
+    strategy:
+      matrix:
+        os:
+        - ubuntu-18.04
+        - ubuntu-20.04
+
+    runs-on: ${{ matrix.os }}
 
     steps:
     - uses: actions/checkout@v2
@@ -53,19 +56,33 @@ jobs:
     - name: Upload artifact
       uses: actions/upload-artifact@v2
       with:
-        name: gf-${{ github.sha }}-ubuntu
+        name: gf-${{ github.event.release.tag_name }}-${{ matrix.os }}.deb
         path: dist/gf_*.deb
         if-no-files-found: error
 
+    - name: Rename package for specific ubuntu version
+      run: |
+        mv dist/gf_*.deb dist/gf-${{ github.event.release.tag_name }}-${{ matrix.os }}.deb
+
+    - uses: actions/upload-release-asset@v1.0.2
+      env:
+        GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
+      with:
+        upload_url: ${{ github.event.release.upload_url }}
+        asset_path: dist/gf-${{ github.event.release.tag_name }}-${{ matrix.os }}.deb
+        asset_name: gf-${{ github.event.release.tag_name }}-${{ matrix.os }}.deb
+        asset_content_type: application/octet-stream
+
 # ---
 
   macos:
     name: Build macOS package
-    runs-on: macos-10.15
     strategy:
       matrix:
         ghc: ["8.6.5"]
         cabal: ["2.4"]
+        os: ["macos-10.15"]
+    runs-on: ${{ matrix.os }}
 
     steps:
     - uses: actions/checkout@v2
@@ -92,19 +109,33 @@ jobs:
     - name: Upload artifact
       uses: actions/upload-artifact@v2
       with:
-        name: gf-${{ github.sha }}-macos
+        name: gf-${{ github.event.release.tag_name }}-macos
         path: dist/gf-*.pkg
         if-no-files-found: error
+    
+    - name: Rename package
+      run: |
+        mv dist/gf-*.pkg dist/gf-${{ github.event.release.tag_name }}-macos.pkg
+
+    - uses: actions/upload-release-asset@v1.0.2
+      env:
+        GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
+      with:
+        upload_url: ${{ github.event.release.upload_url }}
+        asset_path: dist/gf-${{ github.event.release.tag_name }}-macos.pkg
+        asset_name: gf-${{ github.event.release.tag_name }}-macos.pkg
+        asset_content_type: application/octet-stream
 
 # ---
 
   windows:
     name: Build Windows package
-    runs-on: windows-2019
     strategy:
       matrix:
         ghc: ["8.6.5"]
         cabal: ["2.4"]
+        os: ["windows-2019"]
+    runs-on: ${{ matrix.os }}
 
     steps:
     - uses: actions/checkout@v2
@@ -136,16 +167,18 @@ jobs:
         cp /mingw64/bin/libpgf-0.dll /c/tmp-dist/c
         cp /mingw64/bin/libgu-0.dll /c/tmp-dist/c
 
+    # JAVA_HOME_8_X64 = C:\hostedtoolcache\windows\Java_Adopt_jdk\8.0.292-10\x64
     - name: Build Java bindings
       shell: msys2 {0}
       run: |
-        export PATH="${PATH}:/c/Program Files/Java/jdk8u275-b01/bin"
+        export JDKPATH=/c/hostedtoolcache/windows/Java_Adopt_jdk/8.0.292-10/x64
+        export PATH="${PATH}:${JDKPATH}/bin"
         cd src/runtime/java
         make \
-          JNI_INCLUDES="-I \"/c/Program Files/Java/jdk8u275-b01/include\" -I \"/c/Program Files/Java/jdk8u275-b01/include/win32\" -I \"/mingw64/include\" -D__int64=int64_t" \
+          JNI_INCLUDES="-I \"${JDKPATH}/include\" -I \"${JDKPATH}/include/win32\" -I \"/mingw64/include\" -D__int64=int64_t" \
           WINDOWS_LDFLAGS="-L\"/mingw64/lib\" -no-undefined"
         make install
-        cp .libs//msys-jpgf-0.dll /c/tmp-dist/java/jpgf.dll
+        cp .libs/msys-jpgf-0.dll /c/tmp-dist/java/jpgf.dll
         cp jpgf.jar /c/tmp-dist/java
 
     - name: Build Python bindings
@@ -157,7 +190,7 @@ jobs:
         cd src/runtime/python
         python setup.py build
         python setup.py install
-        cp /usr/lib/python3.8/site-packages/pgf* /c/tmp-dist/python
+        cp /usr/lib/python3.9/site-packages/pgf* /c/tmp-dist/python
 
     - name: Setup Haskell
       uses: actions/setup-haskell@v1
@@ -180,6 +213,18 @@ jobs:
     - name: Upload artifact
       uses: actions/upload-artifact@v2
       with:
-        name: gf-${{ github.sha }}-windows
+        name: gf-${{ github.event.release.tag_name }}-windows
         path: C:\tmp-dist\*
         if-no-files-found: error
+
+    - name: Create archive
+      run: |
+        Compress-Archive C:\tmp-dist C:\gf-${{ github.event.release.tag_name }}-windows.zip
+    - uses: actions/upload-release-asset@v1.0.2
+      env:
+        GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
+      with:
+        upload_url: ${{ github.event.release.upload_url }}
+        asset_path: C:\gf-${{ github.event.release.tag_name }}-windows.zip
+        asset_name: gf-${{ github.event.release.tag_name }}-windows.zip
+        asset_content_type: application/zip

.github/workflows/build-python-package.yml

@@ -25,7 +25,7 @@ jobs:
 
     - name: Install cibuildwheel
       run: |
-        python -m pip install git+https://github.com/joerick/cibuildwheel.git@master
+        python -m pip install git+https://github.com/joerick/cibuildwheel.git@main
 
     - name: Install build tools for OSX
       if: startsWith(matrix.os, 'macos')

.gitignore

@@ -53,6 +53,10 @@ DATA_DIR
 
 stack*.yaml.lock
 
+# Output files for test suite
+*.out
+gf-tests.html
+
 # Generated documentation (not exhaustive)
 demos/index-numbers.html
 demos/resourcegrammars.html

Makefile

@@ -1,31 +1,48 @@
-.PHONY: all build install doc clean gf html deb pkg bintar sdist
+.PHONY: all build install doc clean html deb pkg bintar sdist
 
 # This gets the numeric part of the version from the cabal file
 VERSION=$(shell sed -ne "s/^version: *\([0-9.]*\).*/\1/p" gf.cabal)
 
+# Check if stack is installed
+STACK=$(shell if hash stack 2>/dev/null; then echo "1"; else echo "0"; fi)
+
+# Check if cabal >= 2.4 is installed (with v1- and v2- commands)
+CABAL_NEW=$(shell if cabal v1-repl --help >/dev/null 2>&1 ; then echo "1"; else echo "0"; fi)
+
+ifeq ($(STACK),1)
+  CMD=stack
+else
+  CMD=cabal
+  ifeq ($(CABAL_NEW),1)
+    CMD_PFX=v1-
+  endif
+endif
+
 all: build
 
 dist/setup-config: gf.cabal Setup.hs WebSetup.hs
-	cabal configure
+ifneq ($(STACK),1)
+	cabal ${CMD_PFX}configure
+endif
 
 build: dist/setup-config
-	cabal build
+	${CMD} ${CMD_PFX}build
 
 install:
-	cabal copy
-	cabal register
+ifeq ($(STACK),1)
+	stack install
+else
+	cabal ${CMD_PFX}copy
+	cabal ${CMD_PFX}register
+endif
 
 doc:
-	cabal haddock
+	${CMD} ${CMD_PFX}haddock
 
 clean:
-	cabal clean
+	${CMD} ${CMD_PFX}clean
 	bash bin/clean_html
 
-gf:
-	cabal build rgl-none
-	strip dist/build/gf/gf
-
 html::
 	bash bin/update_html
 
@@ -35,7 +52,7 @@ html::
 deb:
 	dpkg-buildpackage -b -uc
 
-# Make an OS X Installer package
+# Make a macOS installer package
 pkg:
 	FMT=pkg bash bin/build-binary-dist.sh
 

README.md

@@ -30,13 +30,16 @@ GF particularly addresses four aspects of grammars:
 
 ## Compilation and installation
 
-The simplest way of installing GF is with the command:
+The simplest way of installing GF from source is with the command:
 ```
 cabal install
 ```
+or:
+```
+stack install
+```
 
-For more details, see the [download page](http://www.grammaticalframework.org/download/index.html)
-and [developers manual](http://www.grammaticalframework.org/doc/gf-developers.html).
+For more information, including links to precompiled binaries, see the [download page](http://www.grammaticalframework.org/download/index.html).
 
 ## About this repository
 

RELEASE.md

@@ -45,6 +45,8 @@ but the generated _artifacts_ must be manually attached to the release as _asset
 
 ### 4. Upload to Hackage
 
+In order to do this you will need to be added the [GF maintainers](https://hackage.haskell.org/package/gf/maintainers/) on Hackage.
+
 1. Run `make sdist`
 2. Upload the package, either:
     1. **Manually**: visit <https://hackage.haskell.org/upload> and upload the file `dist/gf-X.Y.tar.gz`

WebSetup.hs

@@ -26,6 +26,14 @@ import Distribution.PackageDescription(PackageDescription(..))
   so users won't see this message unless they check the log.)
 -}
 
+-- | Notice about contrib grammars
+noContribMsg :: IO ()
+noContribMsg = putStr $ unlines
+  [ "Example grammars are no longer included in the main GF repository, but have moved to gf-contrib."
+  , "If you want them to be built, clone the following repository in the same directory as gf-core:"
+  , "https://github.com/GrammaticalFramework/gf-contrib.git"
+  ]
+
 example_grammars :: [(String, String, [String])] -- [(pgf, subdir, source modules)]
 example_grammars =
    [("Letter.pgf","letter",letterSrc)
@@ -50,11 +58,8 @@ buildWeb gf flags (pkg,lbi) = do
   contrib_exists <- doesDirectoryExist contrib_dir
   if contrib_exists
   then mapM_ build_pgf example_grammars
-  else putStr $ unlines
-    [ "Example grammars are no longer included in the main GF repository, but have moved to gf-contrib."
-    , "If you want these example grammars to be built, clone this repository in the same top-level directory as GF:"
-    , "https://github.com/GrammaticalFramework/gf-contrib.git"
-    ]
+  -- else noContribMsg
+  else return ()
   where
     gfo_dir = buildDir lbi </> "examples"
 

debian/changelog

@@ -1,3 +1,9 @@
+gf (3.11) bionic focal; urgency=low
+
+  * GF 3.11
+
+ -- Inari Listenmaa <inari@digitalgrammars.com>  Sun, 25 Jul 2021 10:27:40 +0800
+
 gf (3.10.4-1) xenial bionic cosmic; urgency=low
 
   * GF 3.10.4

debian/rules

@@ -16,9 +16,9 @@ override_dh_shlibdeps:
 override_dh_auto_configure:
 	cd src/runtime/c && bash setup.sh configure --prefix=/usr
 	cd src/runtime/c && bash setup.sh build
-	cabal update
-	cabal install --only-dependencies
-	cabal configure --prefix=/usr -fserver -fc-runtime --extra-lib-dirs=$(CURDIR)/src/runtime/c/.libs --extra-include-dirs=$(CURDIR)/src/runtime/c
+	cabal v1-update
+	cabal v1-install --only-dependencies
+	cabal v1-configure --prefix=/usr -fserver -fc-runtime --extra-lib-dirs=$(CURDIR)/src/runtime/c/.libs --extra-include-dirs=$(CURDIR)/src/runtime/c
 
 SET_LDL=LD_LIBRARY_PATH=$$LD_LIBRARY_PATH:$(CURDIR)/src/runtime/c/.libs
 
@@ -26,10 +26,10 @@ override_dh_auto_build:
 	cd src/runtime/python && EXTRA_INCLUDE_DIRS=$(CURDIR)/src/runtime/c EXTRA_LIB_DIRS=$(CURDIR)/src/runtime/c/.libs python setup.py build
 	cd src/runtime/java && make CFLAGS="-I$(CURDIR)/src/runtime/c -L$(CURDIR)/src/runtime/c/.libs" INSTALL_PATH=/usr
 	echo $(SET_LDL)
-	-$(SET_LDL) cabal build
+	-$(SET_LDL) cabal v1-build
 
 override_dh_auto_install:
-	$(SET_LDL) cabal copy --destdir=$(CURDIR)/debian/gf
+	$(SET_LDL) cabal v1-copy --destdir=$(CURDIR)/debian/gf
 	cd src/runtime/c && bash setup.sh copy prefix=$(CURDIR)/debian/gf/usr
 	cd src/runtime/python && python setup.py install --prefix=$(CURDIR)/debian/gf/usr
 	cd src/runtime/java && make INSTALL_PATH=$(CURDIR)/debian/gf/usr install

doc/gf-developers-old-cabal.t2t

@@ -0,0 +1,201 @@
+GF Developer's Guide: Old installation instructions with Cabal
+
+
+This page contains the old installation instructions from the [Developer's Guide ../doc/gf-developers.html].
+We recommend Stack as a primary installation method, because it's easier for a Haskell beginner, and we want to keep the main instructions short.
+But if you are an experienced Haskeller and want to keep using Cabal, here are the old instructions using ``cabal install``.
+
+Note that some of these instructions may be outdated. Other parts may still be useful.
+
+== Compilation from source with Cabal ==
+
+The build system of GF is based on //Cabal//, which is part of the
+Haskell Platform, so no extra steps are needed to install it. In the simplest
+case, all you need to do to compile and install GF, after downloading the
+source code as described above, is
+
+```
+$ cabal install
+```
+
+This will automatically download any additional Haskell libraries needed to
+build GF. If this is the first time you use Cabal, you might need to run
+``cabal update`` first, to update the list of available libraries.
+
+If you want more control, the process can also be split up into the usual
+//configure//, //build// and //install// steps.
+
+=== Configure ===
+
+During the configuration phase Cabal will check that you have all
+necessary tools and libraries needed for GF. The configuration is
+started by the command:
+
+```
+$ cabal configure
+```
+
+If you don't see any error message from the above command then you
+have everything that is needed for GF. You can also add the option
+``-v`` to see more details about the configuration.
+
+You can use ``cabal configure --help`` to get a list of configuration options.
+
+=== Build ===
+
+The build phase does two things. First it builds the GF compiler from
+the Haskell source code and after that it builds the GF Resource Grammar
+Library using the already build compiler.  The simplest command is:
+
+```
+$ cabal build
+```
+
+Again you can add the option ``-v`` if you want to see more details.
+
+==== Parallel builds ====
+
+If you have Cabal>=1.20 you can enable parallel compilation by using
+
+```
+$ cabal build -j
+```
+
+or by putting a line
+```
+jobs: $ncpus
+```
+in your ``.cabal/config`` file. Cabal
+will pass this option to GHC when building the GF compiler, if you
+have GHC>=7.8.
+
+Cabal also passes ``-j`` to GF to enable parallel compilation of the
+Resource Grammar Library. This is done unconditionally to avoid
+causing problems for developers with Cabal<1.20. You can disable this
+by editing the last few lines in ``WebSetup.hs``.
+
+=== Install ===
+
+After you have compiled GF you need to install the executable and libraries
+to make the system usable.
+
+```
+$ cabal copy
+$ cabal register
+```
+
+This command installs the GF compiler for a single user, in the standard
+place used by Cabal.
+On Linux and Mac this could be ``$HOME/.cabal/bin``.
+On Mac it could also be ``$HOME/Library/Haskell/bin``.
+On Windows this is ``C:\Program Files\Haskell\bin``.
+
+The compiled GF Resource Grammar Library will be installed
+under the same prefix, e.g. in
+``$HOME/.cabal/share/gf-3.3.3/lib`` on Linux and
+in ``C:\Program Files\Haskell\gf-3.3.3\lib`` on Windows.
+
+If you want to install in some other place then use the ``--prefix``
+option during the configuration phase.
+
+=== Clean ===
+
+Sometimes you want to clean up the compilation and start again from clean
+sources. Use the clean command for this purpose:
+
+```
+$ cabal clean
+```
+
+
+%=== SDist ===
+%
+%You can use the command:
+%
+%% This does *NOT* include everything that is needed // TH 2012-08-06
+%```
+%$ cabal sdist
+%```
+%
+%to prepare archive with all source codes needed to compile GF.
+
+=== Known problems with Cabal ===
+
+Some versions of Cabal (at least version 1.16) seem to have a bug that can
+cause the following error:
+
+```
+Configuring gf-3.x...
+setup: Distribution/Simple/PackageIndex.hs:124:8-13: Assertion failed
+```
+
+The exact cause of this problem is unclear, but it seems to happen
+during the configure phase if the same version of GF is already installed,
+so a workaround is to remove the existing installation with
+
+```
+ghc-pkg unregister gf
+```
+
+You can check with ``ghc-pkg list gf`` that it is gone.
+
+== Compilation with make ==
+
+If you feel more comfortable with Makefiles then there is a thin Makefile
+wrapper arround Cabal for you. If you just type:
+```
+$ make
+```
+the configuration phase will be run automatically if needed and after that
+the sources will be compiled.
+
+%% cabal build rgl-none does not work with recent versions of Cabal
+%If you don't want to compile the resource library
+%every time then you can use:
+%```
+%$ make gf
+%```
+
+For installation use:
+```
+$ make install
+```
+For cleaning:
+```
+$ make clean
+```
+%and to build source distribution archive run:
+%```
+%$ make sdist
+%```
+
+
+== Partial builds of RGL ==
+
+**NOTE**: The following doesn't work with recent versions of ``cabal``. //(This comment was left in 2015, so make your own conclusions.)//
+%% // TH 2015-06-22
+
+%Sometimes you just want to work on the GF compiler and don't want to
+%recompile the resource library after each change. In this case use
+%this extended command:
+
+%```
+%$ cabal build rgl-none
+%```
+
+The resource grammar library can be compiled in two modes: with present
+tense only and with all tenses. By default it is compiled with all
+tenses. If you want to use the library with only present tense you can
+compile it in this special mode with the command:
+
+```
+$ cabal build present
+```
+
+You could also control which languages you want to be recompiled by
+adding the option ``langs=list``. For example the following command
+will compile only the English and the Swedish language:
+
+```
+$ cabal build langs=Eng,Swe
+```

doc/gf-developers.t2t

@@ -1,6 +1,6 @@
 GF Developers Guide
 
-2018-07-26
+2021-07-15
 
 %!options(html): --toc
 
@@ -15,388 +15,287 @@ you are a GF user who just wants to download and install GF
 == Setting up your system for building GF ==
 
 To build GF from source you need to install some tools on your
-system: the //Haskell Platform//, //Git// and the //Haskeline library//.
+system: the Haskell build tool //Stack//, the version control software //Git// and the //Haskeline// library.
 
-**On Linux** the best option is to install the tools via the standard
-software distribution channels, i.e. by using the //Software Center//
-in Ubuntu or the corresponding tool in other popular Linux distributions.
-Or, from a Terminal window, the following command should be enough:
+%**On Linux** the best option is to install the tools via the standard
+%software distribution channels, i.e. by using the //Software Center//
+%in Ubuntu or the corresponding tool in other popular Linux distributions.
 
-- On Ubuntu: ``sudo apt-get install haskell-platform git libghc6-haskeline-dev``
-- On Fedora: ``sudo dnf install haskell-platform git ghc-haskeline-devel``
+%**On Mac OS and Windows**, the tools can be downloaded from their respective
+%web sites, as described below.
+
+=== Stack ===
+The primary installation method is via //Stack//.
+(You can also use Cabal, but we recommend Stack to those who are new to Haskell.)
+
+To install Stack:
+
+- **On Linux and Mac OS**, do either
+
+    ``$ curl -sSL https://get.haskellstack.org/ | sh``
+
+  or
+
+    ``$ wget -qO- https://get.haskellstack.org/ | sh``
 
 
-**On Mac OS and Windows**, the tools can be downloaded from their respective
-web sites, as described below.
+- **On other operating systems**, see the [installation guide https://docs.haskellstack.org/en/stable/install_and_upgrade].
 
-=== The Haskell Platform ===
 
-GF is written in Haskell, so first of all you need
-the //Haskell Platform//, e.g. version 8.0.2 or 7.10.3. Downloads
-and installation instructions are available from here:
+%If you already have Stack installed, upgrade it to the latest version by running: ``stack upgrade``
 
-    http://hackage.haskell.org/platform/
-
-Once you have installed the Haskell Platform, open a terminal
-(Command Prompt on Windows) and try to execute the following command:
-```
-$ ghc --version
-```
-This command should show you which version of GHC you have. If the installation
-of the Haskell Platform	 was successful you should see a message like:
-
-```
-The Glorious Glasgow Haskell Compilation System, version 8.0.2
-```
-
-Other required tools included in the Haskell Platform are
-[Cabal http://www.haskell.org/cabal/],
-[Alex http://www.haskell.org/alex/]
-and
-[Happy http://www.haskell.org/happy/].
 
 === Git ===
 
-To get the GF source code, you also need //Git//.
-//Git// is a distributed version control system, see
-https://git-scm.com/downloads for more information.
+To get the GF source code, you also need //Git//, a distributed version control system.
 
-=== The haskeline library ===
+- **On Linux**, the best option is to install the tools via the standard
+software distribution channels:
+
+  - On Ubuntu: ``sudo apt-get install git-all``
+  - On Fedora: ``sudo dnf install git-all``
+
+
+- **On other operating systems**, see
+https://git-scm.com/book/en/v2/Getting-Started-Installing-Git for installation.
+
+
+
+=== Haskeline ===
 
 GF uses //haskeline// to enable command line editing in the GF shell.
-This should work automatically on Mac OS and Windows, but on Linux one
-extra step is needed to make sure the C libraries (terminfo)
-required by //haskeline// are installed.  Here is one way to do this:
 
-- On Ubuntu: ``sudo apt-get install libghc-haskeline-dev``
-- On Fedora: ``sudo dnf install ghc-haskeline-devel``
+- **On Mac OS and Windows**, this should work automatically.
+
+- **On Linux**, an extra step is needed to make sure the C libraries (terminfo)
+required by //haskeline// are installed:
+
+  - On Ubuntu: ``sudo apt-get install libghc-haskeline-dev``
+  - On Fedora: ``sudo dnf install ghc-haskeline-devel``
 
 
-== Getting the source ==
+== Getting the source ==[getting-source]
 
-Once you have all tools in place you can get the GF source code. If you
-just want to compile and use GF then it is enough to have read-only
-access. It is also possible to make changes in the source code but if you
-want these changes to be applied back to the main source repository you will
-have to send the changes to us.  If you plan to work continuously on
-GF then you should consider getting read-write access.
+Once you have all tools in place you can get the GF source code from
+[GitHub https://github.com/GrammaticalFramework/]:
 
-=== Read-only access ===
+- https://github.com/GrammaticalFramework/gf-core for the GF compiler
+- https://github.com/GrammaticalFramework/gf-rgl for the Resource Grammar Library
 
-==== Getting a fresh copy for read-only access ====
 
-Anyone can get the latest development version of GF by running:
+=== Read-only access: clone the main repository ===
+
+If you only want to compile and use GF, you can just clone the repositories as follows:
 
 ```
-$ git clone https://github.com/GrammaticalFramework/gf-core.git
-$ git clone https://github.com/GrammaticalFramework/gf-rgl.git
+  $ git clone https://github.com/GrammaticalFramework/gf-core.git
+  $ git clone https://github.com/GrammaticalFramework/gf-rgl.git
 ```
 
-This will create directories ``gf-core`` and ``gf-rgl`` in the current directory.
-
-
-==== Updating your copy ====
-
-To get all new patches from each repo:
-```
-$ git pull
-```
-This can be done anywhere in your local repository.
-
-
-==== Recording local changes ====[record]
-
-Since every copy is a repository, you can have local version control
-of your changes.
-
-If you have added files, you first need to tell your local repository to
-keep them under revision control:
+To get new updates, run the following anywhere in your local copy of the repository:
 
 ```
-$ git add file1 file2 ...
+  $ git pull
 ```
 
-To record changes, use:
+=== Contribute your changes: fork the main repository ===
+
+If you want the possibility to contribute your changes,
+you should create your own fork, do your changes there,
+and then send a pull request to the main repository.
+
++ **Creating and cloning a fork  —**
+See GitHub documentation for instructions how to [create your own fork https://docs.github.com/en/get-started/quickstart/fork-a-repo]
+of the repository. Once you've done it, clone the fork to your local computer.
 
 ```
-$ git commit file1 file2 ...
+  $ git clone https://github.com/<YOUR_USERNAME>/gf-core.git
 ```
 
-This creates a patch against the previous version and stores it in your
-local repository. You can record any number of changes before
-pushing them to the main repo. In fact, you don't have to push them at
-all if you want to keep the changes only in your local repo.
-
-Instead of enumerating all modified files on the command line,
-you can use the flag ``-a`` to automatically record //all// modified
-files. You still need to use ``git add`` to add new files.
-
-
-=== Read-write access ===
-
-If you are a member of the GF project on GitHub, you can push your
-changes directly to the GF git repository on GitHub.
++ **Updating your copy —**
+Once you have cloned your fork, you need to set up the main repository as a remote:
 
 ```
-$ git push
+  $ git remote add upstream https://github.com/GrammaticalFramework/gf-core.git
 ```
 
-It is also possible for anyone else to contribute by
+Then you can get the latest updates by running the following:
 
-- creating a fork of the GF repository on GitHub,
-- working with local clone of the fork (obtained with ``git clone``),
-- pushing changes to the fork,
-- and finally sending a pull request.
+```
+  $ git pull upstream master
+```
+
++ **Recording local changes —**
+See Git tutorial on how to [record and push your changes https://git-scm.com/book/en/v2/Git-Basics-Recording-Changes-to-the-Repository] to your fork.
+
++ **Pull request —**
+When you want to contribute your changes to the main gf-core repository,
+[create a pull request https://docs.github.com/en/github/collaborating-with-pull-requests/proposing-changes-to-your-work-with-pull-requests/creating-a-pull-request]
+from your fork.
 
 
 
-== Compilation from source with Cabal ==
+If you want to contribute to the RGL as well, do the same process for the RGL repository.
 
-The build system of GF is based on //Cabal//, which is part of the
-Haskell Platform, so no extra steps are needed to install it. In the simplest
-case, all you need to do to compile and install GF, after downloading the
-source code as described above, is
+
+== Compilation from source ==
+
+By now you should have installed Stack and Haskeline, and cloned the Git repository on your own computer, in a directory called ``gf-core``.
+
+=== Primary recommendation: use Stack ===
+
+Open a terminal, go to the top directory (``gf-core``), and type the following command.
+
+```
+$ stack install
+```
+
+It will install GF and all necessary tools and libraries to do that.
+
+
+=== Alternative: use Cabal ===
+You can also install GF using Cabal, if you prefer Cabal to Stack. In that case, you may need to install some prerequisites yourself.
+
+The actual installation process is similar to Stack: open a terminal, go to the top directory (``gf-core``), and type the following command.
 
 ```
 $ cabal install
 ```
 
-This will automatically download any additional Haskell libraries needed to
-build GF. If this is the first time you use Cabal, you might need to run
-``cabal update`` first, to update the list of available libraries.
+//The old (potentially outdated) instructions for Cabal are moved to a [separate page ../doc/gf-developers-old-cabal.html]. If you run into trouble with ``cabal install``, you may want to take a look.//
 
-If you want more control, the process can also be split up into the usual
-//configure//, //build// and //install// steps.
+== Compiling GF with C runtime system support ==
 
-=== Configure ===
-
-During the configuration phase Cabal will check that you have all
-necessary tools and libraries needed for GF. The configuration is
-started by the command:
-
-```
-$ cabal configure
-```
-
-If you don't see any error message from the above command then you
-have everything that is needed for GF. You can also add the option
-``-v`` to see more details about the configuration.
-
-You can use ``cabal configure --help`` to get a list of configuration options.
-
-=== Build ===
-
-The build phase does two things. First it builds the GF compiler from
-the Haskell source code and after that it builds the GF Resource Grammar
-Library using the already build compiler.  The simplest command is:
-
-```
-$ cabal build
-```
-
-Again you can add the option ``-v`` if you want to see more details.
-
-==== Parallel builds ====
-
-If you have Cabal>=1.20 you can enable parallel compilation by using
-
-```
-$ cabal build -j
-```
-
-or by putting a line
-```
-jobs: $ncpus
-```
-in your ``.cabal/config`` file. Cabal
-will pass this option to GHC when building the GF compiler, if you
-have GHC>=7.8.
-
-Cabal also passes ``-j`` to GF to enable parallel compilation of the
-Resource Grammar Library. This is done unconditionally to avoid
-causing problems for developers with Cabal<1.20. You can disable this
-by editing the last few lines in ``WebSetup.hs``.
-
-
-==== Partial builds ====
-
-**NOTE**: The following doesn't work with recent versions of ``cabal``.
-%% // TH 2015-06-22
-
-Sometimes you just want to work on the GF compiler and don't want to
-recompile the resource library after each change. In this case use
-this extended command:
-
-```
-$ cabal build rgl-none
-```
-
-The resource library could also be compiled in two modes: with present
-tense only and with all tenses. By default it is compiled with all
-tenses. If you want to use the library with only present tense you can
-compile it in this special mode with the command:
-
-```
-$ cabal build present
-```
-
-You could also control which languages you want to be recompiled by
-adding the option ``langs=list``. For example the following command
-will compile only the English and the Swedish language:
-
-```
-$ cabal build langs=Eng,Swe
-```
-
-=== Install ===
-
-After you have compiled GF you need to install the executable and libraries
-to make the system usable.
-
-```
-$ cabal copy
-$ cabal register
-```
-
-This command installs the GF compiler for a single user, in the standard
-place used by Cabal.
-On Linux and Mac this could be ``$HOME/.cabal/bin``.
-On Mac it could also be ``$HOME/Library/Haskell/bin``.
-On Windows this is ``C:\Program Files\Haskell\bin``.
-
-The compiled GF Resource Grammar Library will be installed
-under the same prefix, e.g. in
-``$HOME/.cabal/share/gf-3.3.3/lib`` on Linux and
-in ``C:\Program Files\Haskell\gf-3.3.3\lib`` on Windows.
-
-If you want to install in some other place then use the ``--prefix``
-option during the configuration phase.
-
-=== Clean ===
-
-Sometimes you want to clean up the compilation and start again from clean
-sources. Use the clean command for this purpose:
-
-```
-$ cabal clean
-```
-
-
-%=== SDist ===
-%
-%You can use the command:
-%
-%% This does *NOT* include everything that is needed // TH 2012-08-06
-%```
-%$ cabal sdist
-%```
-%
-%to prepare archive with all source codes needed to compile GF.
-
-=== Known problems with Cabal ===
-
-Some versions of Cabal (at least version 1.16) seem to have a bug that can
-cause the following error:
-
-```
-Configuring gf-3.x...
-setup: Distribution/Simple/PackageIndex.hs:124:8-13: Assertion failed
-```
-
-The exact cause of this problem is unclear, but it seems to happen
-during the configure phase if the same version of GF is already installed,
-so a workaround is to remove the existing installation with
-
-```
-ghc-pkg unregister gf
-```
-
-You can check with ``ghc-pkg list gf`` that it is gone.
-
-== Compilation with make ==
-
-If you feel more comfortable with Makefiles then there is a thin Makefile
-wrapper arround Cabal for you. If you just type:
-```
-$ make
-```
-the configuration phase will be run automatically if needed and after that
-the sources will be compiled.
-
-%% cabal build rgl-none does not work with recent versions of Cabal
-%If you don't want to compile the resource library
-%every time then you can use:
-%```
-%$ make gf
-%```
-
-For installation use:
-```
-$ make install
-```
-For cleaning:
-```
-$ make clean
-```
-%and to build source distribution archive run:
-%```
-%$ make sdist
-%```
-
-== Compiling GF with C run-time system support ==
-
-The C run-time system is a separate implementation of the PGF run-time services.
+The C runtime system is a separate implementation of the PGF runtime services.
 It makes it possible to work with very large, ambiguous grammars, using
-probabilistic models to obtain probable parses. The C run-time system might
-also be easier to use than the Haskell run-time system on certain platforms,
+probabilistic models to obtain probable parses. The C runtime system might
+also be easier to use than the Haskell runtime system on certain platforms,
 e.g. Android and iOS.
 
-To install the C run-time system, go to the ``src/runtime/c`` directory
-%and follow the instructions in the ``INSTALL`` file.
-and use the ``install.sh`` script:
-```
-bash setup.sh configure
-bash setup.sh build
-bash setup.sh install
-```
-This will install
-the C header files and libraries need to write C programs that use PGF grammars.
-Some example C programs are included in the ``utils`` subdirectory, e.g.
-``pgf-translate.c``.
+To install the C runtime system, go to the ``src/runtime/c`` directory.
 
-When the C run-time system is installed, you can install GF with C run-time
-support by doing
+- **On Linux and Mac OS —**
+  You should have autoconf, automake, libtool and make.
+  If you are missing some of them, follow the
+  instructions in the [INSTALL https://github.com/GrammaticalFramework/gf-core/blob/master/src/runtime/c/INSTALL] file.
+
+  Once you have the required libraries, the easiest way to install the C runtime is to use the ``install.sh`` script. Just type
+
+  ``$ bash install.sh``
+
+  This will install the C header files and libraries need to write C programs
+  that use PGF grammars.
+
+%  If this doesn't work for you, follow the manual instructions in the [INSTALL https://github.com/GrammaticalFramework/gf-core/blob/master/src/runtime/c/INSTALL] file under your operating system.
+
+- **On other operating systems —** Follow the instructions in the
+[INSTALL https://github.com/GrammaticalFramework/gf-core/blob/master/src/runtime/c/INSTALL] file under your operating system.
+
+
+
+Depending on what you want to do with the C runtime, you can follow one or more of the following steps.
+
+=== Use the C runtime from another programming language ===[bindings]
+
+% **If you just want to use the C runtime from Python, Java, or Haskell, you don't need to change your GF installation.**
+
+- **What —**
+This is the most common use case for the C runtime: compile
+your GF grammars into PGF with the standard GF executable,
+and manipulate the PGFs from another programming language,
+using the bindings to the C runtime.
+
+
+- **How —**
+The Python, Java and Haskell bindings are found in the
+``src/runtime/{python,java,haskell-bind}`` directories,
+respecively. Compile them by following the instructions
+in the ``INSTALL`` or ``README`` files in those directories.
+
+The Python library can also be installed from PyPI using ``pip install pgf``.
+
+
+//If you are on Mac and get an error about ``clang`` version, you can try some of [these solutions https://stackoverflow.com/questions/63972113/big-sur-clang-invalid-version-error-due-to-macosx-deployment-target]—but be careful before removing any existing installations.//
+
+
+=== Use GF shell with C runtime support ===
+
+- **What —**
+If you want to use the GF shell with C runtime functionalities, then you need to (re)compile GF with special flags.
+
+The GF shell can be started with ``gf -cshell`` or ``gf -crun`` to use
+the C run-time system instead of the Haskell run-time system.
+Only limited functionality is available when running the shell in these
+modes (use the ``help`` command in the shell for details).
+
+(Re)compiling your GF with these flags will also give you
+Haskell bindings to the C runtime, as a library called ``PGF2``,
+but if you want Python or Java bindings, you need to do [the previous step #bindings].
+
+% ``PGF2``: a module to import in Haskell programs, providing a binding to the C run-time system.
+
+- **How —**
+If you use cabal, run the following command:
 
 ```
-cabal install -fserver -fc-runtime
+cabal install -fc-runtime
 ```
-from the top directory. This give you three new things:
 
-- ``PGF2``: a module to import in Haskell programs, providing a binding to
-   the C run-time system.
+from the top directory (``gf-core``).
 
-- The GF shell can be started with ``gf -cshell`` or ``gf -crun`` to use
-  the C run-time system instead of the Haskell run-time system.
-  Only limited functionality is available when running the shell in these
-  modes (use the ``help`` command in the shell for details).
+If you use stack, uncomment the following lines in the ``stack.yaml`` file:
 
-- ``gf -server`` mode is extended with new requests to call the C run-time
-   system, e.g. ``c-parse``, ``c-linearize`` and ``c-translate``.
+```
+flags:
+   gf:
+     c-runtime: true
+extra-lib-dirs:
+   - /usr/local/lib
+```
+and then run ``stack install`` from the top directory (``gf-core``).
 
 
-=== Python and Java bindings ===
+//If you get an "``error while loading shared libraries``" when trying to run GF with C runtime, remember to declare your ``LD_LIBRARY_PATH``.//
+//Add ``export LD_LIBRARY_PATH="/usr/local/lib"`` to either your ``.bashrc`` or ``.profile``. You should now be able to start GF with C runtime.//
+
+
+=== Use GF server mode with C runtime ===
+
+- **What —**
+With this feature, ``gf -server`` mode is extended with new requests to call the C run-time
+system, e.g. ``c-parse``, ``c-linearize`` and ``c-translate``.
+
+- **How —**
+If you use cabal, run the following command:
+
+```
+cabal install -fc-runtime -fserver
+```
+from the top directory.
+
+If you use stack, add the following lines in the ``stack.yaml`` file:
+
+```
+flags:
+   gf:
+     c-runtime: true
+     server: true
+extra-lib-dirs:
+   - /usr/local/lib
+```
+
+and then run ``stack install``, also from the top directory.
 
-The C run-time system can also be used from Python and Java. Python and Java
-bindings are found in the ``src/runtime/python`` and ``src/runtime/java``
-directories, respecively. Compile them by following the instructions in
-the ``INSTALL`` files in those directories.
 
-The Python library can also be installed from PyPI using `pip install pgf`.
 
 == Compilation of RGL ==
 
 As of 2018-07-26, the RGL is distributed separately from the GF compiler and runtimes.
 
+To get the source, follow the previous instructions on [how to clone a repository with Git #getting-source].
+
+After cloning the RGL, you should have a directory named ``gf-rgl`` on your computer.
+
 === Simple ===
 To install the RGL, you can use the following commands from within the ``gf-rgl`` repository:
 ```
@@ -418,103 +317,68 @@ If you do not have Haskell installed, you can use the simple build script ``Setu
 
 == Creating binary distribution packages ==
 
-=== Creating .deb packages for Ubuntu ===
+The binaries are generated with Github Actions. More details can be viewed here:
 
-This was tested on Ubuntu 14.04 for the release of GF 3.6, and the
-resulting ``.deb`` packages appears to work on Ubuntu 12.04, 13.10 and 14.04.
-For the release of GF 3.7, we generated ``.deb`` packages on Ubuntu 15.04 and
-tested them on Ubuntu 12.04 and 14.04.
+https://github.com/GrammaticalFramework/gf-core/actions/workflows/build-binary-packages.yml
 
-Under Ubuntu, Haskell executables are statically linked against other Haskell
-libraries, so the .deb packages are fairly self-contained.
 
-==== Preparations ====
+== Running the test suite ==
+
+The GF test suite is run with one of the following commands from the top directory:
 
 ```
-sudo apt-get install dpkg-dev debhelper
+  $ cabal test
 ```
 
-==== Creating the package ====
-
-Make sure the ``debian/changelog`` starts with an entry that describes the
-version you are building. Then run
+or
 
 ```
-make deb
+  $ stack test
 ```
 
-If get error messages about missing dependencies
-(e.g. ``autoconf``, ``automake``, ``libtool-bin``, ``python-dev``,
-``java-sdk``, ``txt2tags``)
-use ``apt-get intall`` to install them, then try again.
-
-
-=== Creating OS X Installer packages ===
-
-Run
-
-```
-make pkg
-```
-
-=== Creating binary tar distributions ===
-
-Run
-
-```
-make bintar
-```
-
-=== Creating .rpm packages for Fedora ===
-
-This is possible, but the procedure has not been automated.
-It involves using the cabal-rpm tool,
-
-```
-sudo dnf install cabal-rpm
-```
-
-and following the Fedora guide
-[How to create an RPM package http://fedoraproject.org/wiki/How_to_create_an_RPM_package].
-
-Under Fedora, Haskell executables are dynamically linked against other Haskell
-libraries, so ``.rpm`` packages for all Haskell libraries that GF depends on
-are required. Most of them are already available in the Fedora distribution,
-but a few of them might have to be built and distributed along with
-the GF ``.rpm`` package.
-When building ``.rpm`` packages for GF 3.4, we also had to build ``.rpm``s for
-``fst`` and ``httpd-shed``.
-
-== Running the testsuite ==
-
-**NOTE:** The test suite has not been maintained recently, so expect many
-tests to fail.
-%% // TH 2012-08-06
-
-GF has testsuite. It is run with the following command:
-```
-$ cabal test
-```
 The testsuite architecture for GF is very simple but still very flexible.
 GF by itself is an interpreter and could execute commands in batch mode.
 This is everything that we need to organize a testsuite. The root of the
-testsuite is the testsuite/ directory. It contains subdirectories which
-themself contain GF batch files (with extension .gfs). The above command
-searches the subdirectories of the testsuite/ directory for files with extension
-.gfs and when it finds one it is executed with the GF interpreter.
-The output of the script is stored in file with extension .out and is compared
-with the content of the corresponding file with extension .gold, if there is one.
-If the contents are identical the command reports that the test was passed successfully.
-Otherwise the test had failed.
+testsuite is the ``testsuite/`` directory. It contains subdirectories
+which themselves contain GF batch files (with extension ``.gfs``).
+The above command searches the subdirectories of the ``testsuite/`` directory
+for files with extension ``.gfs`` and when it finds one, it is executed with
+the GF interpreter. The output of the script is stored in file with extension ``.out``
+and is compared with the content of the corresponding file with extension ``.gold``, if there is one.
 
-Every time when you make some changes to GF that have to be tested, instead of
-writing the commands by hand in the GF shell, add them to one .gfs file in the testsuite
-and run the test. In this way you can use the same test later and we will be sure
-that we will not incidentaly break your code later.
+Every time when you make some changes to GF that have to be tested,
+instead of writing the commands by hand in the GF shell, add them to one ``.gfs``
+file in the testsuite subdirectory where its ``.gf`` file resides and run the test.
+In this way you can use the same test later and we will be sure that we will not
+accidentally break your code later.
+
+**Test Outcome - Passed:** If the contents of the files with the ``.out`` extension
+are identical to their correspondingly-named files with the extension ``.gold``,
+the command will report that the tests passed successfully, e.g.
 
-If you don't want to run the whole testsuite you can write the path to the subdirectory
-in which you are interested. For example:
 ```
-$ cabal test testsuite/compiler
+ Running 1 test suites...
+ Test suite gf-tests: RUNNING...
+ Test suite gf-tests: PASS
+ 1 of 1 test suites (1 of 1 test cases) passed.
 ```
-will run only the testsuite for the compiler.
+
+**Test Outcome - Failed:**  If there is a contents mismatch between the files
+with the ``.out`` extension and their corresponding files with the extension ``.gold``,
+the test diagnostics will show a fail and the areas that failed. e.g.
+
+```
+  testsuite/compiler/compute/Records.gfs: OK
+  testsuite/compiler/compute/Variants.gfs: FAIL
+  testsuite/compiler/params/params.gfs: OK
+  Test suite gf-tests: FAIL
+  0 of 1 test suites (0 of 1 test cases) passed.
+```
+
+The fail results overview is available in gf-tests.html which shows 4 columns:
+
++ __Results__ - only areas that fail will appear. (Note: There are 3 failures in the gf-tests.html which are labelled as (expected). These failures should be ignored.)
++ __Input__ - which is the test written in the .gfs file
++ __Gold__ - the expected output from running the test set out in the .gfs file. This column refers to the contents from the .gold extension files.
++ __Output__ - This column refers to the contents from the .out extension files which are generated as test output.
+After fixing the areas which fail, rerun the test command. Repeat the entire process of fix-and-test until the test suite passes before  submitting a pull request to include your changes.

download/index-3.11.md

@@ -1,8 +1,9 @@
 ---
 title: Grammatical Framework Download and Installation
-...
+date: 25 July 2021
+---
 
-**GF 3.11** was released on ... December 2020.
+**GF 3.11** was released on 25 July 2021.
 
 What's new? See the [release notes](release-3.11.html).
 
@@ -24,22 +25,25 @@ Binary packages are available for Debian/Ubuntu, macOS, and Windows and include:
 
 Unlike in previous versions, the binaries **do not** include the RGL.
 
-[Binary packages on GitHub](https://github.com/GrammaticalFramework/gf-core/releases/tag/RELEASE-3.11)
+[Binary packages on GitHub](https://github.com/GrammaticalFramework/gf-core/releases/tag/3.11)
 
 #### Debian/Ubuntu
 
+There are two versions: `gf-3.11-ubuntu-18.04.deb` for Ubuntu 18.04 (Cosmic), and `gf-3.11-ubuntu-20.04.deb` for Ubuntu 20.04 (Focal).
+
 To install the package use:
+
 ```
-sudo dpkg -i gf_3.11.deb
+sudo apt-get install ./gf-3.11-ubuntu-*.deb
 ```
 
-The Ubuntu `.deb` packages should work on Ubuntu 16.04, 18.04 and similar Linux distributions.
+<!-- The Ubuntu `.deb` packages should work on Ubuntu 16.04, 18.04 and similar Linux distributions. -->
 
 #### macOS
 
 To install the package, just double-click it and follow the installer instructions.
 
-The packages should work on at least 10.13 (High Sierra) and 10.14 (Mojave).
+The packages should work on at least Catalina and Big Sur.
 
 #### Windows
 
@@ -49,15 +53,17 @@ You will probably need to update the `PATH` environment variable to include your
 
 For more information, see [Using GF on Windows](https://www.grammaticalframework.org/~inari/gf-windows.html) (latest updated for Windows 10).
 
-## Installing the latest release from source
+<!--## Installing the latest Hackage release (macOS, Linux, and WSL2 on Windows)
 
 [GF is on Hackage](http://hackage.haskell.org/package/gf), so under
 normal circumstances the procedure is fairly simple:
 
-1.  Install a recent version of the [Haskell Platform](http://hackage.haskell.org/platform) (see note below)
-2.  `cabal update`
-3.  On Linux: install some C libraries from your Linux distribution (see note below)
-4.  `cabal install gf`
+1.  Install ghcup https://www.haskell.org/ghcup/
+2.  `ghcup install ghc 8.10.4`
+3.  `ghcup set ghc 8.10.4`
+4.  `cabal update`
+5.  On Linux: install some C libraries from your Linux distribution (see note below)
+6.  `cabal install gf-3.11`
 
 You can also download the source code release from [GitHub](https://github.com/GrammaticalFramework/gf-core/releases),
 and follow the instructions below under **Installing from the latest developer source code**.
@@ -74,17 +80,6 @@ so you might want to add this directory to your path (in `.bash_profile` or simi
 PATH=$HOME/.cabal/bin:$PATH
 ```
 
-**Build tools**
-
-In order to compile GF you need the build tools **Alex** and **Happy**.
-These can be installed via Cabal, e.g.:
-
-```
-cabal install alex happy
-```
-
-or obtained by other means, depending on your OS.
-
 **Haskeline**
 
 GF uses [`haskeline`](http://hackage.haskell.org/package/haskeline), which
@@ -98,7 +93,7 @@ Here is one way to do this:
 **GHC version**
 
 The GF source code has been updated to compile with GHC versions 7.10 through to 8.8.
-
+-->
 ## Installing from the latest developer source code
 
 If you haven't already, clone the repository with:
@@ -125,7 +120,7 @@ or, if you're a Stack user:
 stack install
 ```
 
-The above notes for installing from source apply also in these cases.
+<!--The above notes for installing from source apply also in these cases.-->
 For more info on working with the GF source code, see the
 [GF Developers Guide](../doc/gf-developers.html).
 

download/index.html

@@ -1,8 +1,8 @@
 <html>
 <head>
-  <meta http-equiv="refresh" content="0; URL=/download/index-3.10.html" />
+  <meta http-equiv="refresh" content="0; URL=/download/index-3.11.html" />
 </head>
 <body>
-  You are being redirected to <a href="index-3.10.html">the current version</a> of this page.
+  You are being redirected to <a href="index-3.11.html">the current version</a> of this page.
 </body>
 </html>

download/release-3.11.md

@@ -1,7 +1,7 @@
 ---
 title: GF 3.11 Release Notes
-date: ... December 2020
-...
+date: 25 July 2021
+---
 
 ## Installation
 
@@ -12,24 +12,27 @@ See the [download page](index-3.11.html).
 From this release, the binary GF core packages do not contain the RGL.
 The RGL's release cycle is now completely separate from GF's. See [RGL releases](https://github.com/GrammaticalFramework/gf-rgl/releases).
 
-Over 400 changes have been pushed to GF core
+Over 500 changes have been pushed to GF core
 since the release of GF 3.10 in December 2018.
 
 ## General
 
 - Make the test suite work again.
 - Compatibility with new versions of GHC, including multiple Stack files for the different versions.
-- Updates to build scripts and CI.
-- Bug fixes.
+- Support for newer version of Ubuntu 20.04 in the precompiled binaries.
+- Updates to build scripts and CI workflows.
+- Bug fixes and code cleanup.
 
 ## GF compiler and run-time library
 
-- Huge improvements in time & space requirements for grammar compilation (pending [#87](https://github.com/GrammaticalFramework/gf-core/pull/87)).
 - Add CoNLL output to `visualize_tree` shell command.
 - Add canonical GF as output format in the compiler.
 - Add PGF JSON as output format in the compiler.
 - Deprecate JavaScript runtime in favour of updated [TypeScript runtime](https://github.com/GrammaticalFramework/gf-typescript).
+- Improvements in time & space requirements when compiling certain grammars.
 - Improvements to Haskell export.
+- Improvements to the GF shell.
+- Improvements to canonical GF compilation.
 - Improvements to the C runtime.
 - Improvements to `gf -server` mode.
 - Clearer compiler error messages.

gf.cabal

@@ -1,19 +1,19 @@
 name: gf
-version: 3.10.4-git
+version: 3.11.0-git
 
-cabal-version: >= 1.22
+cabal-version: 1.22
 build-type: Custom
 license: OtherLicense
 license-file: LICENSE
 category: Natural Language Processing, Compiler
 synopsis: Grammatical Framework
 description: GF, Grammatical Framework, is a programming language for multilingual grammar applications
-homepage: http://www.grammaticalframework.org/
+homepage: https://www.grammaticalframework.org/
 bug-reports: https://github.com/GrammaticalFramework/gf-core/issues
-maintainer: Thomas Hallgren
-tested-with: GHC==7.10.3, GHC==8.0.2, GHC==8.2.2, GHC==8.4.3
+tested-with: GHC==7.10.3, GHC==8.0.2, GHC==8.10.4
 
 data-dir: src
+extra-source-files: WebSetup.hs
 data-files:
   www/*.html
   www/*.css
@@ -41,23 +41,23 @@ data-files:
 
 custom-setup
   setup-depends:
-    base,
-    Cabal >=1.22.0.0,
-    directory,
-    filepath,
-    process >=1.0.1.1
+    base >= 4.9.1 && < 4.15,
+    Cabal >= 1.22.0.0,
+    directory >= 1.3.0 && < 1.4,
+    filepath >= 1.4.1 && < 1.5,
+    process >= 1.0.1.1 && < 1.7
 
 source-repository head
-  type:     git
+  type: git
   location: https://github.com/GrammaticalFramework/gf-core.git
 
 flag interrupt
   Description: Enable Ctrl+Break in the shell
-  Default:     True
+  Default: True
 
 flag server
   Description: Include --server mode
-  Default:     True
+  Default: True
 
 flag network-uri
    description: Get Network.URI from the network-uri package
@@ -69,24 +69,29 @@ flag network-uri
 
 flag c-runtime
   Description: Include functionality from the C run-time library (which must be installed already)
-  Default:     False
+  Default: False
+
+library
+  default-language: Haskell2010
+  build-depends:
+    -- GHC 8.0.2 to GHC 8.10.4
+    array >= 0.5.1 && < 0.6,
+    base >= 4.9.1 && < 4.15,
+    bytestring >= 0.10.8 && < 0.11,
+    containers >= 0.5.7 && < 0.7,
+    exceptions >= 0.8.3 && < 0.11,
+    ghc-prim >= 0.5.0 && < 0.7,
+    mtl >= 2.2.1 && < 2.3,
+    pretty >= 1.1.3 && < 1.2,
+    random >= 1.1 && < 1.3,
+    utf8-string >= 1.0.1.1 && < 1.1,
+    -- We need transformers-compat >= 0.6.3, but that is only in newer snapshots where it is redundant.
+    transformers-compat >= 0.5.1.4 && < 0.7
+
+  if impl(ghc<8.0)
+    build-depends:
+      fail >= 4.9.0 && < 4.10
 
-Library
-  default-language:    Haskell2010
-  build-depends: base >= 4.6 && <5,
-                 array,
-                 containers,
-                 bytestring,
-                 utf8-string,
-                 random,
-                 pretty,
-                 mtl,
-                 exceptions,
-                 fail,
-                 -- For compatability with ghc < 8
-                 -- We need transformers-compat >= 0.6.3, but that is only in newer snapshots where it is redundant.
-                 transformers-compat,
-                 ghc-prim
   hs-source-dirs: src/runtime/haskell
 
   other-modules:
@@ -135,18 +140,28 @@ Library
 
   if flag(c-runtime)
     exposed-modules: PGF2
-    other-modules:   PGF2.FFI PGF2.Expr PGF2.Type
-                     GF.Interactive2 GF.Command.Commands2
-    hs-source-dirs:  src/runtime/haskell-bind
-    build-tools:     hsc2hs
+    other-modules:
+      PGF2.FFI
+      PGF2.Expr
+      PGF2.Type
+      GF.Interactive2
+      GF.Command.Commands2
+    hs-source-dirs: src/runtime/haskell-bind
+    build-tools: hsc2hs
     extra-libraries: pgf gu
-    c-sources:       src/runtime/haskell-bind/utils.c
-    cc-options:      -std=c99
+    c-sources: src/runtime/haskell-bind/utils.c
+    cc-options: -std=c99
 
 ---- GF compiler as a library:
 
-  build-depends: filepath, directory>=1.2, time,
-                 process, haskeline, parallel>=3, json
+  build-depends:
+    directory >= 1.3.0 && < 1.4,
+    filepath >= 1.4.1 && < 1.5,
+    haskeline >= 0.7.3 && < 0.9,
+    json >= 0.9.1 && < 0.11,
+    parallel >= 3.2.1.1 && < 3.3,
+    process >= 1.4.3 && < 1.7,
+    time >= 1.6.0 && < 1.10
 
   hs-source-dirs: src/compiler
   exposed-modules:
@@ -157,12 +172,19 @@ Library
     GF.Grammar.Canonical
 
   other-modules:
-    GF.Main GF.Compiler GF.Interactive
+    GF.Main
+    GF.Compiler
+    GF.Interactive
 
-    GF.Compile GF.CompileInParallel GF.CompileOne  GF.Compile.GetGrammar
+    GF.Compile
+    GF.CompileInParallel
+    GF.CompileOne
+    GF.Compile.GetGrammar
     GF.Grammar
 
-    GF.Data.Operations GF.Infra.Option GF.Infra.UseIO
+    GF.Data.Operations
+    GF.Infra.Option
+    GF.Infra.UseIO
 
     GF.Command.Abstract
     GF.Command.CommandInfo
@@ -177,7 +199,7 @@ Library
     GF.Command.TreeOperations
     GF.Compile.CFGtoPGF
     GF.Compile.CheckGrammar
-    GF.Compile.Compute.ConcreteNew
+    GF.Compile.Compute.Concrete
     GF.Compile.Compute.Predef
     GF.Compile.Compute.Value
     GF.Compile.ExampleBased
@@ -206,7 +228,6 @@ Library
     GF.Compile.TypeCheck.Concrete
     GF.Compile.TypeCheck.ConcreteNew
     GF.Compile.TypeCheck.Primitives
-    GF.Compile.TypeCheck.RConcrete
     GF.Compile.TypeCheck.TC
     GF.Compile.Update
     GF.Data.BacktrackM
@@ -273,12 +294,17 @@ Library
     cpp-options: -DC_RUNTIME
 
   if flag(server)
-    build-depends: httpd-shed>=0.4.0.3, network>=2.3 && <2.7,
-                   cgi>=3001.2.2.0
+    build-depends:
+      cgi >= 3001.3.0.2 && < 3001.6,
+      httpd-shed >= 0.4.0 && < 0.5,
+      network>=2.3 && <2.7
     if flag(network-uri)
-      build-depends: network-uri>=2.6, network>=2.6
+      build-depends:
+        network-uri >= 2.6.1.0 && < 2.7,
+        network>=2.6 && <2.7
     else
-      build-depends: network<2.6
+      build-depends:
+        network >= 2.5 && <2.6
 
     cpp-options: -DSERVER_MODE
     other-modules:
@@ -295,7 +321,10 @@ Library
       Fold
       ExampleDemo
       ExampleService
-    hs-source-dirs: src/server src/server/transfer src/example-based
+    hs-source-dirs:
+      src/server
+      src/server/transfer
+      src/example-based
 
   if flag(interrupt)
     cpp-options: -DUSE_INTERRUPT
@@ -304,26 +333,35 @@ Library
     other-modules: GF.System.NoSignal
 
   if impl(ghc>=7.8)
-    build-tools: happy>=1.19, alex>=3.1
+    build-tools:
+      happy>=1.19,
+      alex>=3.1
 --  ghc-options: +RTS -A20M -RTS
   else
-    build-tools: happy, alex>=3
+    build-tools:
+      happy,
+      alex>=3
 
   ghc-options: -fno-warn-tabs
 
   if os(windows)
-    build-depends: Win32
+    build-depends:
+      Win32 >= 2.3.1.1 && < 2.7
   else
-    build-depends: unix, terminfo>=0.4
+    build-depends:
+      terminfo >=0.4.0 && < 0.5,
+      unix >= 2.7.2 && < 2.8
 
   if impl(ghc>=8.2)
     ghc-options: -fhide-source-paths
 
-Executable gf
+executable gf
   hs-source-dirs: src/programs
   main-is: gf-main.hs
-  default-language:    Haskell2010
-  build-depends: gf, base
+  default-language: Haskell2010
+  build-depends:
+    gf,
+    base
   ghc-options: -threaded
 --ghc-options: -fwarn-unused-imports
 
@@ -337,19 +375,30 @@ Executable gf
   if impl(ghc>=8.2)
     ghc-options: -fhide-source-paths
 
-executable pgf-shell
---if !flag(c-runtime)
-  buildable: False
-  main-is:             pgf-shell.hs
-  hs-source-dirs:      src/runtime/haskell-bind/examples
-  build-depends:       gf, base, containers, mtl, lifted-base
-  default-language:    Haskell2010
-  if impl(ghc>=7.0)
-    ghc-options: -rtsopts
+-- executable pgf-shell
+-- --if !flag(c-runtime)
+--   buildable: False
+--   main-is: pgf-shell.hs
+--   hs-source-dirs: src/runtime/haskell-bind/examples
+--   build-depends:
+--     gf,
+--     base,
+--     containers,
+--     mtl,
+--     lifted-base
+--   default-language: Haskell2010
+--   if impl(ghc>=7.0)
+--     ghc-options: -rtsopts
 
 test-suite gf-tests
-  type:           exitcode-stdio-1.0
-  main-is:        run.hs
+  type: exitcode-stdio-1.0
+  main-is: run.hs
   hs-source-dirs: testsuite
-  build-depends:  base>=4.3 && <5, Cabal>=1.8, directory, filepath, process
-  default-language:    Haskell2010
+  build-depends:
+    base >= 4.9.1 && < 4.15,
+    Cabal >= 1.8,
+    directory >= 1.3.0 && < 1.4,
+    filepath >= 1.4.1 && < 1.5,
+    process >= 1.4.3 && < 1.7
+  build-tool-depends: gf:gf
+  default-language: Haskell2010

index.html

@@ -214,9 +214,9 @@ least one, it may help you to get a first idea of what GF is.
     </p>
 
     <p>
-    We run the IRC channel <strong><code>#gf</code></strong> on the Freenode network, where you are welcome to look for help with small questions or just start a general discussion.
-    You can <a href="https://webchat.freenode.net/?channels=gf">open a web chat</a>
-    or <a href="/irc/">browse the channel logs</a>.
+    We run the IRC channel <strong><code>#gf</code></strong> on the Libera network, where you are welcome to look for help with small questions or just start a general discussion.
+    You can <a href="https://web.libera.chat/?channels=#gf">open a web chat</a>
+    or <a href="https://www.grammaticalframework.org/irc/?C=M;O=D">browse the channel logs</a>.
     </p>
     <p>
     If you have a larger question which the community may benefit from, we recommend you ask it on the <a href="http://groups.google.com/group/gf-dev">mailing list</a>.
@@ -226,11 +226,19 @@ least one, it may help you to get a first idea of what GF is.
 
   <div class="col-md-6">
     <h2>News</h2>
-
+    <dt class="col-sm-3 text-center text-nowrap">2021-07-25</dt>
+    <dd class="col-sm-9">
+      <strong>GF 3.11 released.</strong>
+      <a href="download/release-3.11.html">Release notes</a>
+    </dd>
     <dl class="row">
+      <dt class="col-sm-3 text-center text-nowrap">2021-05-05</dt>
+      <dd class="col-sm-9">
+        <a href="https://cloud.grammaticalframework.org/wordnet/">GF WordNet</a> now supports languages for which there are no other WordNets. New additions: Afrikaans, German, Korean, Maltese, Polish, Somali, Swahili.
+      </dd>
       <dt class="col-sm-3 text-center text-nowrap">2021-03-01</dt>
       <dd class="col-sm-9">
-        <a href="//school.grammaticalframework.org/2020/">Seventh GF Summer School</a>, in Singapore and online, 26 July &ndash; 8 August 2021.
+        <a href="//school.grammaticalframework.org/2020/">Seventh GF Summer School</a>, in Singapore and online, 26 July &ndash; 6 August 2021.
       </dd>
       <dt class="col-sm-3 text-center text-nowrap">2020-09-29</dt>
       <dd class="col-sm-9">

src/compiler/GF/Command/Commands.hs

@@ -1,4 +1,4 @@
-{-# LANGUAGE FlexibleInstances, UndecidableInstances #-}
+{-# LANGUAGE FlexibleInstances, UndecidableInstances, CPP #-}
 module GF.Command.Commands (
   PGFEnv,HasPGFEnv(..),pgf,mos,pgfEnv,pgfCommands,
   options,flags,
@@ -741,7 +741,7 @@ pgfCommands = Map.fromList [
                                      Nothing   -> do putStrLn ("unknown category of function identifier "++show id)
                                                      return void
          [e]         -> case inferExpr pgf e of
-                          Left tcErr   -> error $ render (ppTcError tcErr)
+                          Left tcErr   -> errorWithoutStackTrace $ render (ppTcError tcErr)
                           Right (e,ty) -> do putStrLn ("Expression:  "++showExpr [] e)
                                              putStrLn ("Type:        "++showType [] ty)
                                              putStrLn ("Probability: "++show (probTree pgf e))
@@ -1019,3 +1019,7 @@ stanzas = map unlines . chop . lines where
   chop ls = case break (=="") ls of
     (ls1,[])  -> [ls1]
     (ls1,_:ls2) -> ls1 : chop ls2
+
+#if !(MIN_VERSION_base(4,9,0))
+errorWithoutStackTrace = error
+#endif

src/compiler/GF/Command/CommonCommands.hs

@@ -15,6 +15,7 @@ import GF.Command.Abstract --(isOpt,valStrOpts,prOpt)
 import GF.Text.Pretty
 import GF.Text.Transliterations
 import GF.Text.Lexing(stringOp,opInEnv)
+import Data.Char (isSpace)
 
 import qualified PGF as H(showCId,showExpr,toATree,toTrie,Trie(..))
 
@@ -170,7 +171,8 @@ commonCommands = fmap (mapCommandExec liftSIO) $ Map.fromList [
        restrictedSystem $ syst ++ " <" ++ tmpi ++ " >" ++ tmpo
        fmap fromString $ restricted $ readFile tmpo,
        -}
-       fmap fromString . restricted . readShellProcess syst $ toString arg,
+       fmap (fromStrings . lines) . restricted . readShellProcess syst . unlines . map (dropWhile (=='\n')) $ toStrings $ arg,
+
      flags = [
        ("command","the system command applied to the argument")
        ],

src/compiler/GF/Command/SourceCommands.hs

@@ -18,8 +18,8 @@ import GF.Grammar.Parser (runP, pExp)
 import GF.Grammar.ShowTerm
 import GF.Grammar.Lookup (allOpers,allOpersTo)
 import GF.Compile.Rename(renameSourceTerm)
-import qualified GF.Compile.Compute.ConcreteNew as CN(normalForm,resourceValues)
-import GF.Compile.TypeCheck.RConcrete as TC(inferLType,ppType)
+import GF.Compile.Compute.Concrete(normalForm,resourceValues)
+import GF.Compile.TypeCheck.Concrete as TC(inferLType,ppType)
 import GF.Infra.Dependencies(depGraph)
 import GF.Infra.CheckM(runCheck)
 
@@ -259,7 +259,7 @@ checkComputeTerm os sgr t =
      ((t,_),_) <- runCheck $ do t <- renameSourceTerm sgr mo t
                                 inferLType sgr [] t
      let opts = modifyFlags (\fs->fs{optTrace=isOpt "trace" os})
-         t1 = CN.normalForm (CN.resourceValues opts sgr) (L NoLoc identW) t
+         t1 = normalForm (resourceValues opts sgr) (L NoLoc identW) t
          t2 = evalStr t1
      checkPredefError t2
   where

src/compiler/GF/Compile/CFGtoPGF.hs

@@ -18,7 +18,7 @@ import Data.List
 --------------------------
 
 cf2pgf :: FilePath -> ParamCFG -> PGF
-cf2pgf fpath cf = 
+cf2pgf fpath cf =
  let pgf = PGF Map.empty aname (cf2abstr cf) (Map.singleton cname (cf2concr cf))
  in updateProductionIndices pgf
  where
@@ -33,7 +33,7 @@ cf2abstr cfg = Abstr aflags afuns acats
 
     acats  = Map.fromList [(cat, ([], [(0,mkRuleName rule) | rule <- rules], 0))
                             | (cat,rules) <- (Map.toList . Map.fromListWith (++))
-                                                [(cat2id cat, catRules cfg cat) | 
+                                                [(cat2id cat, catRules cfg cat) |
                                                      cat <- allCats' cfg]]
     afuns  = Map.fromList [(mkRuleName rule, (cftype [cat2id c | NonTerminal c <- ruleRhs rule] (cat2id (ruleLhs rule)), 0, Nothing, 0))
                             | rule <- allRules cfg]
@@ -52,7 +52,7 @@ cf2concr cfg = Concr Map.empty Map.empty
     cats  = allCats' cfg
     rules = allRules cfg
 
-    sequences0 = Set.fromList (listArray (0,0) [SymCat 0 0] : 
+    sequences0 = Set.fromList (listArray (0,0) [SymCat 0 0] :
                                map mkSequence rules)
     sequences  = listArray (0,Set.size sequences0-1) (Set.toList sequences0)
 
@@ -102,7 +102,7 @@ cf2concr cfg = Concr Map.empty Map.empty
 
     mkLinDefRef (cat,_) =
       (cat2fid cat 0,[0])
-      
+
     addProd prods (fid,prod) =
       case IntMap.lookup fid prods of
         Just set -> IntMap.insert fid (Set.insert prod set) prods
@@ -130,5 +130,5 @@ cf2concr cfg = Concr Map.empty Map.empty
 
 mkRuleName rule =
   case ruleName rule of
-	CFObj n _ -> n
-	_         -> wildCId
+    CFObj n _ -> n
+    _         -> wildCId

src/compiler/GF/Compile/CheckGrammar.hs

@@ -5,7 +5,7 @@
 -- Stability   : (stable)
 -- Portability : (portable)
 --
--- > CVS $Date: 2005/11/11 23:24:33 $ 
+-- > CVS $Date: 2005/11/11 23:24:33 $
 -- > CVS $Author: aarne $
 -- > CVS $Revision: 1.31 $
 --
@@ -27,9 +27,9 @@ import GF.Infra.Ident
 import GF.Infra.Option
 
 import GF.Compile.TypeCheck.Abstract
-import GF.Compile.TypeCheck.RConcrete
-import qualified GF.Compile.TypeCheck.ConcreteNew as CN
-import qualified GF.Compile.Compute.ConcreteNew as CN
+import GF.Compile.TypeCheck.Concrete(computeLType,checkLType,inferLType,ppType)
+import qualified GF.Compile.TypeCheck.ConcreteNew as CN(checkLType,inferLType)
+import qualified GF.Compile.Compute.Concrete as CN(normalForm,resourceValues)
 
 import GF.Grammar
 import GF.Grammar.Lexer
@@ -74,9 +74,9 @@ checkRestrictedInheritance cwd sgr (name,mo) = checkInModule cwd mo NoLoc empty
      let (incl,excl) = partition (isInherited mi) (Map.keys (jments m))
      let incld c   = Set.member c (Set.fromList incl)
      let illegal c = Set.member c (Set.fromList excl)
-     let illegals = [(f,is) | 
+     let illegals = [(f,is) |
            (f,cs) <- allDeps, incld f, let is = filter illegal cs, not (null is)]
-     case illegals of 
+     case illegals of
        [] -> return ()
        cs -> checkWarn ("In inherited module" <+> i <> ", dependence of excluded constants:" $$
                          nest 2 (vcat [f <+> "on" <+> fsep is | (f,is) <- cs]))
@@ -92,12 +92,12 @@ checkCompleteGrammar opts cwd gr (am,abs) (cm,cnc) = checkInModule cwd cnc NoLoc
 
   -- check that all abstract constants are in concrete; build default lin and lincats
   jsc <- foldM checkAbs jsc (Map.toList jsa)
-  
+
   return (cm,cnc{jments=jsc})
   where
    checkAbs js i@(c,info) =
      case info of
-       AbsFun (Just (L loc ty)) _ _ _ 
+       AbsFun (Just (L loc ty)) _ _ _
            -> do let mb_def = do
                        let (cxt,(_,i),_) = typeForm ty
                        info <- lookupIdent i js
@@ -136,11 +136,11 @@ checkCompleteGrammar opts cwd gr (am,abs) (cm,cnc) = checkInModule cwd cnc NoLoc
            checkWarn ("no linearization type for" <+> c <> ", inserting default {s : Str}")
            return $ Map.insert c (CncCat (Just (L NoLoc defLinType)) Nothing Nothing Nothing Nothing) js
        _ -> return js
-     
+
    checkCnc js (c,info) =
      case info of
        CncFun _ d mn mf -> case lookupOrigInfo gr (am,c) of
-                             Ok (_,AbsFun (Just (L _ ty)) _ _ _) -> 
+                             Ok (_,AbsFun (Just (L _ ty)) _ _ _) ->
                                         do (cont,val) <- linTypeOfType gr cm ty
                                            let linty = (snd (valCat ty),cont,val)
                                            return $ Map.insert c (CncFun (Just linty) d mn mf) js
@@ -159,14 +159,14 @@ checkCompleteGrammar opts cwd gr (am,abs) (cm,cnc) = checkInModule cwd cnc NoLoc
        _ -> return $ Map.insert c info js
 
 
--- | General Principle: only Just-values are checked. 
+-- | General Principle: only Just-values are checked.
 -- A May-value has always been checked in its origin module.
 checkInfo :: Options -> FilePath -> SourceGrammar -> SourceModule -> Ident -> Info -> Check Info
 checkInfo opts cwd sgr (m,mo) c info = checkInModule cwd mo NoLoc empty $ do
   checkReservedId c
   case info of
-    AbsCat (Just (L loc cont)) -> 
-      mkCheck loc "the category" $ 
+    AbsCat (Just (L loc cont)) ->
+      mkCheck loc "the category" $
         checkContext gr cont
 
     AbsFun (Just (L loc typ0)) ma md moper -> do
@@ -175,13 +175,13 @@ checkInfo opts cwd sgr (m,mo) c info = checkInModule cwd mo NoLoc empty $ do
         checkTyp gr typ
       case md of
         Just eqs -> mapM_ (\(L loc eq) -> mkCheck loc "the definition of function" $
-	                                        checkDef gr (m,c) typ eq) eqs
+                                          checkDef gr (m,c) typ eq) eqs
         Nothing  -> return ()
       return (AbsFun (Just (L loc typ)) ma md moper)
 
     CncCat mty mdef mref mpr mpmcfg -> do
       mty  <- case mty of
-                Just (L loc typ) -> chIn loc "linearization type of" $ 
+                Just (L loc typ) -> chIn loc "linearization type of" $
                                      (if False --flag optNewComp opts
                                         then do (typ,_) <- CN.checkLType (CN.resourceValues opts gr) typ typeType
                                                 typ  <- computeLType gr [] typ
@@ -191,19 +191,19 @@ checkInfo opts cwd sgr (m,mo) c info = checkInModule cwd mo NoLoc empty $ do
                                                 return (Just (L loc typ)))
                 Nothing          -> return Nothing
       mdef <- case (mty,mdef) of
-                (Just (L _ typ),Just (L loc def)) -> 
+                (Just (L _ typ),Just (L loc def)) ->
                     chIn loc "default linearization of" $ do
                        (def,_) <- checkLType gr [] def (mkFunType [typeStr] typ)
                        return (Just (L loc def))
                 _ -> return Nothing
       mref <- case (mty,mref) of
-                (Just (L _ typ),Just (L loc ref)) -> 
+                (Just (L _ typ),Just (L loc ref)) ->
                     chIn loc "reference linearization of" $ do
                        (ref,_) <- checkLType gr [] ref (mkFunType [typ] typeStr)
                        return (Just (L loc ref))
                 _ -> return Nothing
       mpr  <- case mpr of
-                (Just (L loc t)) -> 
+                (Just (L loc t)) ->
                     chIn loc "print name of" $ do
                        (t,_) <- checkLType gr [] t typeStr
                        return (Just (L loc t))
@@ -212,13 +212,13 @@ checkInfo opts cwd sgr (m,mo) c info = checkInModule cwd mo NoLoc empty $ do
 
     CncFun mty mt mpr mpmcfg -> do
       mt <- case (mty,mt) of
-              (Just (cat,cont,val),Just (L loc trm)) -> 
+              (Just (cat,cont,val),Just (L loc trm)) ->
                   chIn loc "linearization of" $ do
                      (trm,_) <- checkLType gr [] trm (mkFunType (map (\(_,_,ty) -> ty) cont) val)  -- erases arg vars
                      return (Just (L loc trm))
               _ -> return mt
       mpr  <- case mpr of
-                (Just (L loc t)) -> 
+                (Just (L loc t)) ->
                     chIn loc "print name of" $ do
                        (t,_) <- checkLType gr [] t typeStr
                        return (Just (L loc t))
@@ -251,16 +251,16 @@ checkInfo opts cwd sgr (m,mo) c info = checkInModule cwd mo NoLoc empty $ do
     ResOverload os tysts -> chIn NoLoc "overloading" $ do
       tysts' <- mapM (uncurry $ flip (\(L loc1 t) (L loc2 ty) -> checkLType gr [] t ty >>= \(t,ty) -> return (L loc1 t, L loc2 ty))) tysts  -- return explicit ones
       tysts0 <- lookupOverload gr (m,c)  -- check against inherited ones too
-      tysts1 <- mapM (uncurry $ flip (checkLType gr [])) 
+      tysts1 <- mapM (uncurry $ flip (checkLType gr []))
                   [(mkFunType args val,tr) | (args,(val,tr)) <- tysts0]
       --- this can only be a partial guarantee, since matching
       --- with value type is only possible if expected type is given
-      checkUniq $ 
+      checkUniq $
         sort [let (xs,t) = typeFormCnc x in t : map (\(b,x,t) -> t) xs | (_,x) <- tysts1]
       return (ResOverload os [(y,x) | (x,y) <- tysts'])
 
     ResParam (Just (L loc pcs)) _ -> do
-      ts <- chIn loc "parameter type" $ 
+      ts <- chIn loc "parameter type" $
               liftM concat $ mapM mkPar pcs
       return (ResParam (Just (L loc pcs)) (Just ts))
 
@@ -274,9 +274,9 @@ checkInfo opts cwd sgr (m,mo) c info = checkInModule cwd mo NoLoc empty $ do
        return $ map (mkApp (QC (m,f))) vs
 
    checkUniq xss = case xss of
-     x:y:xs 
+     x:y:xs
       | x == y    -> checkError $ "ambiguous for type" <+>
-                                  ppType (mkFunType (tail x) (head x))  
+                                  ppType (mkFunType (tail x) (head x))
       | otherwise -> checkUniq $ y:xs
      _ -> return ()
 
@@ -294,7 +294,7 @@ checkInfo opts cwd sgr (m,mo) c info = checkInModule cwd mo NoLoc empty $ do
        t' <- compAbsTyp ((x,Vr x):g) t
        return $ Prod b x a' t'
      Abs _ _ _ -> return t
-     _ -> composOp (compAbsTyp g) t  
+     _ -> composOp (compAbsTyp g) t
 
 
 -- | for grammars obtained otherwise than by parsing ---- update!!
@@ -316,7 +316,7 @@ linTypeOfType cnc m typ = do
    mkLinArg (i,(n,mc@(m,cat))) = do
      val  <- lookLin mc
      let vars = mkRecType varLabel $ replicate n typeStr
-	 symb = argIdent n cat i
+         symb = argIdent n cat i
      rec <- if n==0 then return val else
                        errIn (render ("extending" $$
                                       nest 2 vars $$

src/compiler/GF/Compile/Compute/Concrete.hs

@@ -1,3 +1,590 @@
-module GF.Compile.Compute.Concrete{-(module M)-} where
---import GF.Compile.Compute.ConcreteLazy as M -- New
---import GF.Compile.Compute.ConcreteStrict as M -- Old, inefficient
+-- | Functions for computing the values of terms in the concrete syntax, in
+-- | preparation for PMCFG generation.
+module GF.Compile.Compute.Concrete
+           (GlobalEnv, GLocation, resourceValues, geLoc, geGrammar,
+            normalForm,
+            Value(..), Bind(..), Env, value2term, eval, vapply
+           ) where
+import Prelude hiding ((<>)) -- GHC 8.4.1 clash with Text.PrettyPrint
+
+import GF.Grammar hiding (Env, VGen, VApp, VRecType)
+import GF.Grammar.Lookup(lookupResDefLoc,allParamValues)
+import GF.Grammar.Predef(cPredef,cErrorType,cTok,cStr,cTrace,cPBool)
+import GF.Grammar.PatternMatch(matchPattern,measurePatt)
+import GF.Grammar.Lockfield(isLockLabel,lockRecType) --unlockRecord,lockLabel
+import GF.Compile.Compute.Value hiding (Error)
+import GF.Compile.Compute.Predef(predef,predefName,delta)
+import GF.Data.Str(Str,glueStr,str2strings,str,sstr,plusStr,strTok)
+import GF.Data.Operations(Err,err,errIn,maybeErr,mapPairsM)
+import GF.Data.Utilities(mapFst,mapSnd)
+import GF.Infra.Option
+import Control.Monad(ap,liftM,liftM2) -- ,unless,mplus
+import Data.List (findIndex,intersect,nub,elemIndex,(\\)) --,isInfixOf
+--import Data.Char (isUpper,toUpper,toLower)
+import GF.Text.Pretty
+import qualified Data.Map as Map
+import Debug.Trace(trace)
+
+-- * Main entry points
+
+normalForm :: GlobalEnv -> L Ident -> Term -> Term
+normalForm (GE gr rv opts _) loc = err (bugloc loc) id . nfx (GE gr rv opts loc)
+
+nfx :: GlobalEnv -> Term -> Err Term
+nfx env@(GE _ _ _ loc) t = do
+  v <- eval env [] t
+  return (value2term loc [] v)
+    -- Old value2term error message:
+    -- Left i  -> fail ("variable #"++show i++" is out of scope")
+
+eval :: GlobalEnv -> Env -> Term -> Err Value
+eval (GE gr rvs opts loc) env t = ($ (map snd env)) # value cenv t
+  where
+    cenv = CE gr rvs opts loc (map fst env)
+
+--apply env = apply' env
+
+--------------------------------------------------------------------------------
+
+-- * Environments
+
+type ResourceValues = Map.Map ModuleName (Map.Map Ident (Err Value))
+
+data GlobalEnv = GE Grammar ResourceValues Options GLocation
+data CompleteEnv = CE {srcgr::Grammar,rvs::ResourceValues,
+                       opts::Options,
+                       gloc::GLocation,local::LocalScope}
+type GLocation = L Ident
+type LocalScope = [Ident]
+type Stack = [Value]
+type OpenValue = Stack->Value
+
+geLoc     (GE _ _ _ loc) = loc
+geGrammar (GE gr _ _ _)  = gr
+
+ext b env = env{local=b:local env}
+extend bs env = env{local=bs++local env}
+global env = GE (srcgr env) (rvs env) (opts env) (gloc env)
+
+var :: CompleteEnv -> Ident -> Err OpenValue
+var env x = maybe unbound pick' (elemIndex x (local env))
+  where
+    unbound = fail ("Unknown variable: "++showIdent x)
+    pick' i = return $ \ vs -> maybe (err i vs) ok (pick i vs)
+    err i vs = bug $ "Stack problem: "++showIdent x++": "
+                    ++unwords (map showIdent (local env))
+                    ++" => "++show (i,length vs)
+    ok v = --trace ("var "++show x++" = "++show v) $
+           v
+
+pick :: Int -> Stack -> Maybe Value
+pick 0 (v:_) = Just v
+pick i (_:vs) = pick (i-1) vs
+pick i vs = Nothing -- bug $ "pick "++show (i,vs)
+
+resource env (m,c) =
+--  err bug id $
+    if isPredefCat c
+    then value0 env =<< lockRecType c defLinType -- hmm
+    else maybe e id $ Map.lookup c =<< Map.lookup m (rvs env)
+  where e = fail $ "Not found: "++render m++"."++showIdent c
+
+-- | Convert operators once, not every time they are looked up
+resourceValues :: Options -> SourceGrammar -> GlobalEnv
+resourceValues opts gr = env
+  where
+    env = GE gr rvs opts (L NoLoc identW)
+    rvs = Map.mapWithKey moduleResources (moduleMap gr)
+    moduleResources m = Map.mapWithKey (moduleResource m) . jments
+    moduleResource m c _info = do L l t <- lookupResDefLoc gr (m,c)
+                                  let loc = L l c
+                                      qloc = L l (Q (m,c))
+                                  eval (GE gr rvs opts loc) [] (traceRes qloc t)
+
+    traceRes = if flag optTrace opts
+               then traceResource
+               else const id
+
+-- * Tracing
+
+-- | Insert a call to the trace function under the top-level lambdas
+traceResource (L l q) t =
+  case termFormCnc t of
+    (abs,body) -> mkAbs abs (mkApp traceQ [args,body])
+      where
+        args = R $ tuple2record (K lstr:[Vr x|(bt,x)<-abs,bt==Explicit])
+        lstr = render (l<>":"<>ppTerm Qualified 0 q)
+        traceQ = Q (cPredef,cTrace)
+
+-- * Computing values
+
+-- | Computing the value of a top-level term
+value0 :: CompleteEnv -> Term -> Err Value
+value0 env = eval (global env) []
+
+-- | Computing the value of a term
+value :: CompleteEnv -> Term -> Err OpenValue
+value env t0 =
+  -- Each terms is traversed only once by this function, using only statically
+  -- available information. Notably, the values of lambda bound variables
+  -- will be unknown during the term traversal phase.
+  -- The result is an OpenValue, which is a function that may be applied many
+  -- times to different dynamic values, but without the term traversal overhead
+  -- and without recomputing other statically known information.
+  -- For this to work, there should be no recursive calls under lambdas here.
+  -- Whenever we need to construct the OpenValue function with an explicit
+  -- lambda, we have to lift the recursive calls outside the lambda.
+  -- (See e.g. the rules for Let, Prod and Abs)
+{-
+  trace (render $ text "value"<+>sep [ppL (gloc env)<>text ":",
+                                      brackets (fsep (map ppIdent (local env))),
+                                      ppTerm Unqualified 10 t0]) $
+--}
+  errIn (render t0) $
+  case t0 of
+    Vr x   -> var env x
+    Q x@(m,f)
+      | m == cPredef -> if f==cErrorType                -- to be removed
+                        then let p = identS "P"
+                             in const # value0 env (mkProd [(Implicit,p,typeType)] (Vr p) [])
+                        else if f==cPBool
+                               then const # resource env x
+                               else const . flip VApp [] # predef f
+      | otherwise    -> const # resource env x --valueResDef (fst env) x
+    QC x   -> return $ const (VCApp x [])
+    App e1 e2 -> apply' env e1 . (:[]) =<< value env e2
+    Let (x,(oty,t)) body -> do vb <- value (ext x env) body
+                               vt <- value env t
+                               return $ \ vs -> vb (vt vs:vs)
+    Meta i -> return $ \ vs -> VMeta i (zip (local env) vs) []
+    Prod bt x t1 t2 ->
+       do vt1 <- value env t1
+          vt2 <- value (ext x env) t2
+          return $ \ vs -> VProd bt (vt1 vs) x $ Bind $ \ vx -> vt2 (vx:vs)
+    Abs bt x t -> do vt <- value (ext x env) t
+                     return $ VAbs bt x . Bind . \ vs vx -> vt (vx:vs)
+    EInt n -> return $ const (VInt n)
+    EFloat f -> return $ const (VFloat f)
+    K s -> return $ const (VString s)
+    Empty -> return $ const (VString "")
+    Sort s | s == cTok -> return $ const (VSort cStr)        -- to be removed
+           | otherwise -> return $ const (VSort s)
+    ImplArg t -> (VImplArg.) # value env t
+    Table p res -> liftM2 VTblType # value env p <# value env res
+    RecType rs -> do lovs <- mapPairsM (value env) rs
+                     return $ \vs->VRecType $ mapSnd ($vs) lovs
+    t@(ExtR t1 t2) -> ((extR t.)# both id) # both (value env) (t1,t2)
+    FV ts   -> ((vfv .) # sequence) # mapM (value env) ts
+    R as    -> do lovs <- mapPairsM (value env.snd) as
+                  return $ \ vs->VRec $ mapSnd ($vs) lovs
+    T i cs  -> valueTable env i cs
+    V ty ts -> do pvs <- paramValues env ty
+                  ((VV ty pvs .) . sequence) # mapM (value env) ts
+    C t1 t2 -> ((ok2p vconcat.) # both id) # both (value env) (t1,t2)
+    S t1 t2 -> ((select env.) # both id) # both (value env) (t1,t2)
+    P t l   -> --maybe (bug $ "project "++show l++" from "++show v) id $
+               do ov <- value env t
+                  return $ \ vs -> let v = ov vs
+                                   in maybe (VP v l) id (proj l v)
+    Alts t tts -> (\v vts -> VAlts # v <# mapM (both id) vts) # value env t <# mapM (both (value env)) tts
+    Strs ts    -> ((VStrs.) # sequence) # mapM (value env) ts
+    Glue t1 t2 -> ((ok2p (glue env).) # both id) # both (value env) (t1,t2)
+    ELin c r -> (unlockVRec (gloc env) c.) # value env r
+    EPatt p  -> return $ const (VPatt p) -- hmm
+    EPattType ty -> do vt <- value env ty
+                       return (VPattType . vt)
+    Typed t ty -> value env t
+    t -> fail.render $ "value"<+>ppTerm Unqualified 10 t $$ show t
+
+vconcat vv@(v1,v2) =
+    case vv of
+      (VString "",_) -> v2
+      (_,VString "") -> v1
+      (VApp NonExist _,_) -> v1
+      (_,VApp NonExist _) -> v2
+      _ -> VC v1 v2
+
+proj l v | isLockLabel l = return (VRec [])
+                ---- a workaround 18/2/2005: take this away and find the reason
+                ---- why earlier compilation destroys the lock field
+proj l v =
+    case v of
+      VFV vs -> liftM vfv (mapM (proj l) vs)
+      VRec rs -> lookup l rs
+--    VExtR v1 v2 -> proj l v2 `mplus` proj l v1 -- hmm
+      VS (VV pty pvs rs) v2 -> flip VS v2 . VV pty pvs # mapM (proj l) rs
+      _ -> return (ok1 VP v l)
+
+ok1 f v1@(VError {}) _ = v1
+ok1 f v1 v2 = f v1 v2
+
+ok2 f v1@(VError {}) _ = v1
+ok2 f _ v2@(VError {}) = v2
+ok2 f v1 v2 = f v1 v2
+
+ok2p f (v1@VError {},_) = v1
+ok2p f (_,v2@VError {}) = v2
+ok2p f vv = f vv
+
+unlockVRec loc c0 v0 = v0
+{-
+unlockVRec loc c0 v0 = unlockVRec' c0 v0
+  where
+    unlockVRec' ::Ident -> Value -> Value
+    unlockVRec' c v =
+        case v of
+    --    VClosure env t -> err bug (VClosure env) (unlockRecord c t)
+          VAbs bt x (Bind f) -> VAbs bt x (Bind $ \ v -> unlockVRec' c (f v))
+          VRec rs        -> plusVRec rs lock
+    --    _              -> VExtR v (VRec lock) -- hmm
+          _              -> {-trace (render $ ppL loc $ "unlock non-record "++show v0)-} v -- hmm
+    --    _              -> bugloc loc $ "unlock non-record "++show v0
+      where
+        lock = [(lockLabel c,VRec [])]
+-}
+
+-- suspicious, but backwards compatible
+plusVRec rs1 rs2 = VRec ([(l,v)|(l,v)<-rs1,l `notElem` ls2] ++ rs2)
+  where ls2 = map fst rs2
+
+extR t vv =
+    case vv of
+      (VFV vs,v2) -> vfv [extR t (v1,v2)|v1<-vs]
+      (v1,VFV vs) -> vfv [extR t (v1,v2)|v2<-vs]
+      (VRecType rs1, VRecType rs2) ->
+          case intersect (map fst rs1) (map fst rs2) of
+            [] -> VRecType (rs1 ++ rs2)
+            ls -> error $ "clash"<+>show ls
+      (VRec     rs1, VRec     rs2) -> plusVRec rs1 rs2
+      (v1          , VRec [(l,_)]) | isLockLabel l -> v1 -- hmm
+      (VS (VV t pvs vs) s,v2) -> VS (VV t pvs [extR t (v1,v2)|v1<-vs]) s
+--    (v1,v2) -> ok2 VExtR v1 v2 -- hmm
+      (v1,v2) -> error $ "not records" $$ show v1 $$ show v2
+  where
+    error explain = ppbug $ "The term" <+> t
+                            <+> "is not reducible" $$ explain
+
+glue env (v1,v2) = glu v1 v2
+  where
+    glu v1 v2 =
+        case (v1,v2) of
+          (VFV vs,v2) -> vfv [glu v1 v2|v1<-vs]
+          (v1,VFV vs) -> vfv [glu v1 v2|v2<-vs]
+          (VString s1,VString s2) -> VString (s1++s2)
+          (v1,VAlts d vs) -> VAlts (glx d) [(glx v,c) | (v,c) <- vs]
+             where glx v2 = glu v1 v2
+          (v1@(VAlts {}),v2) ->
+           --err (const (ok2 VGlue v1 v2)) id $
+             err bug id $
+             do y' <- strsFromValue v2
+                x' <- strsFromValue v1
+                return $ vfv [foldr1 VC (map VString (str2strings (glueStr v u))) | v <- x', u <- y']
+          (VC va vb,v2) -> VC va (glu vb v2)
+          (v1,VC va vb) -> VC (glu v1 va) vb
+          (VS (VV ty pvs vs) vb,v2) -> VS (VV ty pvs [glu v v2|v<-vs]) vb
+          (v1,VS (VV ty pvs vs) vb) -> VS (VV ty pvs [glu v1 v|v<-vs]) vb
+          (v1@(VApp NonExist _),_) -> v1
+          (_,v2@(VApp NonExist _)) -> v2
+--        (v1,v2) -> ok2 VGlue v1 v2
+          (v1,v2) -> if flag optPlusAsBind (opts env)
+                       then VC v1 (VC (VApp BIND []) v2)
+                       else let loc  = gloc env
+                                vt v = value2term loc (local env) v
+                                        -- Old value2term error message:
+                                        --  Left i  -> Error ('#':show i)
+                                originalMsg = render $ ppL loc (hang "unsupported token gluing" 4
+                                                               (Glue (vt v1) (vt v2)))
+                                term = render $ pp  $ Glue (vt v1) (vt v2)
+                            in error $ unlines
+                                [originalMsg
+                                ,""
+                                ,"There was a problem in the expression `"++term++"`, either:"
+                                ,"1) You are trying to use + on runtime arguments, possibly via an oper."
+                                ,"2) One of the arguments in `"++term++"` is a bound variable from pattern matching a string, but the cases are non-exhaustive."
+                                ,"For more help see https://github.com/GrammaticalFramework/gf-core/tree/master/doc/errors/gluing.md"
+                                ]
+
+
+-- | to get a string from a value that represents a sequence of terminals
+strsFromValue :: Value -> Err [Str]
+strsFromValue t = case t of
+  VString s   -> return [str s]
+  VC s t -> do
+    s' <- strsFromValue s
+    t' <- strsFromValue t
+    return [plusStr x y | x <- s', y <- t']
+{-
+  VGlue s t -> do
+    s' <- strsFromValue s
+    t' <- strsFromValue t
+    return [glueStr x y | x <- s', y <- t']
+-}
+  VAlts d vs -> do
+    d0 <- strsFromValue d
+    v0 <- mapM (strsFromValue . fst) vs
+    c0 <- mapM (strsFromValue . snd) vs
+  --let vs' = zip v0 c0
+    return [strTok (str2strings def) vars |
+              def  <- d0,
+              vars <- [[(str2strings v, map sstr c) | (v,c) <- zip vv c0] |
+                                                          vv <- sequence v0]
+           ]
+  VFV ts -> concat # mapM strsFromValue ts
+  VStrs ts -> concat # mapM strsFromValue ts
+
+  _ -> fail ("cannot get Str from value " ++ show t)
+
+vfv vs = case nub vs of
+           [v] -> v
+           vs -> VFV vs
+
+select env vv =
+    case vv of
+      (v1,VFV vs) -> vfv [select env (v1,v2)|v2<-vs]
+      (VFV vs,v2) -> vfv [select env (v1,v2)|v1<-vs]
+      (v1@(VV pty vs rs),v2) ->
+         err (const (VS v1 v2)) id $
+         do --ats <- allParamValues (srcgr env) pty
+            --let vs = map (value0 env) ats
+            i <- maybeErr "no match" $ findIndex (==v2) vs
+            return (ix (gloc env) "select" rs i)
+      (VT _ _ [(PW,Bind b)],_) -> {-trace "eliminate wild card table" $-} b []
+      (v1@(VT _ _ cs),v2) ->
+                 err (\_->ok2 VS v1 v2) (err bug id . valueMatch env) $
+                 match (gloc env) cs v2
+      (VS (VV pty pvs rs) v12,v2) -> VS (VV pty pvs [select env (v11,v2)|v11<-rs]) v12
+      (v1,v2) -> ok2 VS v1 v2
+
+match loc cs v =
+  err bad return (matchPattern cs (value2term loc [] v))
+    -- Old value2term error message:
+    -- Left i  -> bad ("variable #"++show i++" is out of scope")
+  where
+    bad = fail . ("In pattern matching: "++)
+
+valueMatch :: CompleteEnv -> (Bind Env,Substitution) -> Err Value
+valueMatch env (Bind f,env') = f # mapPairsM (value0 env) env'
+
+valueTable :: CompleteEnv -> TInfo -> [Case] -> Err OpenValue
+valueTable env i cs =
+    case i of
+      TComp ty -> do pvs <- paramValues env ty
+                     ((VV ty pvs .) # sequence) # mapM (value env.snd) cs
+      _ -> do ty <- getTableType i
+              cs' <- mapM valueCase cs
+              err (dynamic cs' ty) return (convert cs' ty)
+  where
+    dynamic cs' ty _ = cases cs' # value env ty
+
+    cases cs' vty vs = err keep ($vs) (convertv cs' (vty vs))
+      where
+        keep msg = --trace (msg++"\n"++render (ppTerm Unqualified 0 (T i cs))) $
+                   VT wild (vty vs) (mapSnd ($vs) cs')
+
+    wild = case i of TWild _ -> True; _ -> False
+
+    convertv cs' vty =
+      convert' cs' =<< paramValues'' env (value2term (gloc env) [] vty)
+        -- Old value2term error message: Left i    -> fail ("variable #"++show i++" is out of scope")
+
+    convert cs' ty = convert' cs' =<< paramValues' env ty
+
+    convert' cs' ((pty,vs),pvs) =
+      do sts  <- mapM (matchPattern cs') vs
+         return $ \ vs -> VV pty pvs $ map (err bug id . valueMatch env)
+                                           (mapFst ($vs) sts)
+
+    valueCase (p,t) = do p' <- measurePatt # inlinePattMacro p
+                         pvs <- linPattVars p'
+                         vt <- value (extend pvs env) t
+                         return (p',\vs-> Bind $ \bs-> vt (push' p' bs pvs vs))
+
+    inlinePattMacro p =
+        case p of
+          PM qc -> do r <- resource env qc
+                      case r of
+                        VPatt p' -> inlinePattMacro p'
+                        _ -> ppbug $ hang "Expected pattern macro:" 4
+                                          (show r)
+          _ -> composPattOp inlinePattMacro p
+
+
+paramValues env ty = snd # paramValues' env ty
+
+paramValues' env ty = paramValues'' env =<< nfx (global env) ty
+
+paramValues'' env pty = do ats <- allParamValues (srcgr env) pty
+                           pvs <- mapM (eval (global env) []) ats
+                           return ((pty,ats),pvs)
+
+push' p bs xs = if length bs/=length xs
+                then bug $ "push "++show (p,bs,xs)
+                else push bs xs
+
+push :: Env -> LocalScope -> Stack -> Stack
+push bs [] vs = vs
+push bs (x:xs) vs = maybe err id (lookup x bs):push bs xs vs
+  where  err = bug $ "Unbound pattern variable "++showIdent x
+
+apply' :: CompleteEnv -> Term -> [OpenValue] -> Err OpenValue
+apply' env t [] = value env t
+apply' env t vs =
+  case t of
+    QC x                   -> return $ \ svs -> VCApp x (map ($svs) vs)
+{-
+    Q x@(m,f) | m==cPredef -> return $
+                              let constr = --trace ("predef "++show x) .
+                                           VApp x
+                              in \ svs -> maybe constr id (Map.lookup f predefs)
+                                          $ map ($svs) vs
+              | otherwise  -> do r <- resource env x
+                                 return $ \ svs -> vapply (gloc env) r (map ($svs) vs)
+-}
+    App t1 t2              -> apply' env t1 . (:vs) =<< value env t2
+    _                      -> do fv <- value env t
+                                 return $ \ svs -> vapply (gloc env) (fv svs) (map ($svs) vs)
+
+vapply :: GLocation -> Value -> [Value] -> Value
+vapply loc v [] = v
+vapply loc v vs =
+  case v of
+    VError {} -> v
+--  VClosure env (Abs b x t) -> beta gr env b x t vs
+    VAbs bt _ (Bind f) -> vbeta loc bt f vs
+    VApp pre vs1 -> delta' pre (vs1++vs)
+      where
+        delta' Trace (v1:v2:vs) = let vr = vapply loc v2 vs
+                                  in vtrace loc v1 vr
+        delta' pre vs = err msg vfv $ mapM (delta pre) (varyList vs)
+        --msg = const (VApp pre (vs1++vs))
+        msg = bug . (("Applying Predef."++showIdent (predefName pre)++": ")++)
+    VS (VV t pvs fs) s -> VS (VV t pvs [vapply loc f vs|f<-fs]) s
+    VFV fs -> vfv [vapply loc f vs|f<-fs]
+    VCApp f vs0 -> VCApp f (vs0++vs)
+    VMeta i env vs0 -> VMeta i env (vs0++vs)
+    VGen i vs0 -> VGen i (vs0++vs)
+    v -> bug $ "vapply "++show v++" "++show vs
+
+vbeta loc bt f (v:vs) =
+  case (bt,v) of
+    (Implicit,VImplArg v) -> ap v
+    (Explicit,         v) -> ap v
+  where
+    ap (VFV avs) = vfv [vapply loc (f v) vs|v<-avs]
+    ap v         = vapply loc (f v) vs
+
+vary (VFV vs) = vs
+vary v = [v]
+varyList = mapM vary
+
+{-
+beta env b x t (v:vs) =
+  case (b,v) of
+    (Implicit,VImplArg v) -> apply' (ext (x,v) env) t vs
+    (Explicit,         v) -> apply' (ext (x,v) env) t vs
+-}
+
+vtrace loc arg res = trace (render (hang (pv arg) 4 ("->"<+>pv res))) res
+  where
+    pv v = case v of
+             VRec (f:as) -> hang (pf f) 4 (fsep (map pa as))
+             _ -> ppV v
+    pf (_,VString n) = pp n
+    pf (_,v) = ppV v
+    pa (_,v) = ppV v
+    ppV v = ppTerm Unqualified 10 (value2term' True loc [] v)
+              -- Old value2term error message:
+              -- Left i  -> "variable #" <> pp i <+> "is out of scope"
+
+-- | Convert a value back to a term
+value2term :: GLocation -> [Ident] -> Value -> Term
+value2term = value2term' False
+
+value2term' :: Bool -> p -> [Ident] -> Value -> Term
+value2term' stop loc xs v0 =
+  case v0 of
+    VApp pre vs    -> applyMany (Q (cPredef,predefName pre)) vs
+    VCApp f vs     -> applyMany (QC f)                       vs
+    VGen j vs      -> applyMany (var j)                      vs
+    VMeta j env vs -> applyMany (Meta j)                     vs
+    VProd bt v x f -> Prod bt x (v2t v)  (v2t' x f)
+    VAbs  bt   x f -> Abs  bt x          (v2t' x f)
+    VInt n         -> EInt n
+    VFloat f       -> EFloat f
+    VString s      -> if null s then Empty else K s
+    VSort s        -> Sort s
+    VImplArg v     -> ImplArg (v2t v)
+    VTblType p res -> Table (v2t p) (v2t res)
+    VRecType rs    -> RecType [(l, v2t v) | (l,v) <- rs]
+    VRec as        -> R       [(l, (Nothing, v2t v)) | (l,v) <- as]
+    VV t _ vs      -> V t     (map v2t vs)
+    VT wild v cs   -> T ((if wild then TWild else TTyped) (v2t v)) (map nfcase cs)
+    VFV vs         -> FV (map v2t vs)
+    VC v1 v2       -> C (v2t v1) (v2t v2)
+    VS v1 v2       -> S (v2t v1) (v2t v2)
+    VP v l         -> P (v2t v) l
+    VPatt p        -> EPatt p
+    VPattType v    -> EPattType $ v2t v
+    VAlts v vvs    -> Alts (v2t v) [(v2t x, v2t y) | (x,y) <- vvs]
+    VStrs vs       -> Strs (map v2t vs)
+--  VGlue v1 v2    -> Glue (v2t v1) (v2t v2)
+--  VExtR v1 v2    -> ExtR (v2t v1) (v2t v2)
+    VError err     -> Error err
+  where
+    applyMany f vs = foldl App f (map v2t vs)
+    v2t = v2txs xs
+    v2txs = value2term' stop loc
+    v2t' x f = v2txs (x:xs) (bind f (gen xs))
+
+    var j
+      | j<length xs = Vr (reverse xs !! j)
+      | otherwise   = error ("variable #"++show j++" is out of scope")
+
+
+    pushs xs e = foldr push e xs
+    push x (env,xs) = ((x,gen xs):env,x:xs)
+    gen xs = VGen (length xs) []
+
+    nfcase (p,f) = (,) p (v2txs xs' (bind f env'))
+      where (env',xs') = pushs (pattVars p) ([],xs)
+
+    bind (Bind f) x = if stop
+                      then VSort (identS "...") -- hmm
+                      else f x
+
+
+linPattVars p =
+    if null dups
+    then return pvs
+    else fail.render $ hang "Pattern is not linear. All variable names on the left-hand side must be distinct." 4 (ppPatt Unqualified 0 p)
+  where
+    allpvs = allPattVars p
+    pvs = nub allpvs
+    dups = allpvs \\ pvs
+
+pattVars = nub . allPattVars
+allPattVars p =
+    case p of
+      PV i    -> [i]
+      PAs i p -> i:allPattVars p
+      _       -> collectPattOp allPattVars p
+
+---
+ix loc fn xs i =
+    if i<n
+    then xs !! i
+    else bugloc loc $ "(!!): index too large in "++fn++", "++show i++"<"++show n
+  where n = length xs
+
+infixl 1 #,<# --,@@
+
+f # x = fmap f x
+mf <# mx  = ap mf mx
+--m1 @@ m2 = (m1 =<<) . m2
+
+both f (x,y) = (,) # f x <# f y
+
+bugloc loc s = ppbug $ ppL loc s
+
+bug msg = ppbug msg
+ppbug doc = error $ render $ hang "Internal error in Compute.Concrete:" 4 doc

src/compiler/GF/Compile/Compute/ConcreteNew.hs

@@ -1,588 +0,0 @@
--- | Functions for computing the values of terms in the concrete syntax, in
--- | preparation for PMCFG generation.
-module GF.Compile.Compute.ConcreteNew
-           (GlobalEnv, GLocation, resourceValues, geLoc, geGrammar,
-            normalForm,
-            Value(..), Bind(..), Env, value2term, eval, vapply
-           ) where
-import Prelude hiding ((<>)) -- GHC 8.4.1 clash with Text.PrettyPrint
-
-import GF.Grammar hiding (Env, VGen, VApp, VRecType)
-import GF.Grammar.Lookup(lookupResDefLoc,allParamValues)
-import GF.Grammar.Predef(cPredef,cErrorType,cTok,cStr,cTrace,cPBool)
-import GF.Grammar.PatternMatch(matchPattern,measurePatt)
-import GF.Grammar.Lockfield(isLockLabel,lockRecType) --unlockRecord,lockLabel
-import GF.Compile.Compute.Value hiding (Error)
-import GF.Compile.Compute.Predef(predef,predefName,delta)
-import GF.Data.Str(Str,glueStr,str2strings,str,sstr,plusStr,strTok)
-import GF.Data.Operations(Err,err,errIn,maybeErr,mapPairsM)
-import GF.Data.Utilities(mapFst,mapSnd)
-import GF.Infra.Option
-import Control.Monad(ap,liftM,liftM2) -- ,unless,mplus
-import Data.List (findIndex,intersect,nub,elemIndex,(\\)) --,isInfixOf
---import Data.Char (isUpper,toUpper,toLower)
-import GF.Text.Pretty
-import qualified Data.Map as Map
-import Debug.Trace(trace)
-
--- * Main entry points
-
-normalForm :: GlobalEnv -> L Ident -> Term -> Term
-normalForm (GE gr rv opts _) loc = err (bugloc loc) id . nfx (GE gr rv opts loc)
-
-nfx env@(GE _ _ _ loc) t = do
-  v <- eval env [] t
-  case value2term loc [] v of
-    Left i  -> fail ("variable #"++show i++" is out of scope")
-    Right t -> return t
-
-eval :: GlobalEnv -> Env -> Term -> Err Value
-eval (GE gr rvs opts loc) env t = ($ (map snd env)) # value cenv t
-  where
-    cenv = CE gr rvs opts loc (map fst env)
-
---apply env = apply' env
-
---------------------------------------------------------------------------------
-
--- * Environments
-
-type ResourceValues = Map.Map ModuleName (Map.Map Ident (Err Value))
-
-data GlobalEnv = GE Grammar ResourceValues Options GLocation
-data CompleteEnv = CE {srcgr::Grammar,rvs::ResourceValues,
-                       opts::Options,
-                       gloc::GLocation,local::LocalScope}
-type GLocation = L Ident
-type LocalScope = [Ident]
-type Stack = [Value]
-type OpenValue = Stack->Value
-
-geLoc     (GE _ _ _ loc) = loc
-geGrammar (GE gr _ _ _)  = gr
-
-ext b env = env{local=b:local env}
-extend bs env = env{local=bs++local env}
-global env = GE (srcgr env) (rvs env) (opts env) (gloc env)
-
-var :: CompleteEnv -> Ident -> Err OpenValue
-var env x = maybe unbound pick' (elemIndex x (local env))
-  where
-    unbound = fail ("Unknown variable: "++showIdent x)
-    pick' i = return $ \ vs -> maybe (err i vs) ok (pick i vs)
-    err i vs = bug $ "Stack problem: "++showIdent x++": "
-                    ++unwords (map showIdent (local env))
-                    ++" => "++show (i,length vs)
-    ok v = --trace ("var "++show x++" = "++show v) $
-           v
-
-pick :: Int -> Stack -> Maybe Value
-pick 0 (v:_) = Just v
-pick i (_:vs) = pick (i-1) vs
-pick i vs = Nothing -- bug $ "pick "++show (i,vs)
-
-resource env (m,c) =
---  err bug id $
-    if isPredefCat c
-    then value0 env =<< lockRecType c defLinType -- hmm
-    else maybe e id $ Map.lookup c =<< Map.lookup m (rvs env)
-  where e = fail $ "Not found: "++render m++"."++showIdent c
-
--- | Convert operators once, not every time they are looked up
-resourceValues :: Options -> SourceGrammar -> GlobalEnv
-resourceValues opts gr = env
-  where
-    env = GE gr rvs opts (L NoLoc identW)
-    rvs = Map.mapWithKey moduleResources (moduleMap gr)
-    moduleResources m = Map.mapWithKey (moduleResource m) . jments
-    moduleResource m c _info = do L l t <- lookupResDefLoc gr (m,c)
-                                  let loc = L l c
-                                      qloc = L l (Q (m,c))
-                                  eval (GE gr rvs opts loc) [] (traceRes qloc t)
-
-    traceRes = if flag optTrace opts
-               then traceResource
-               else const id
-
--- * Tracing
-
--- | Insert a call to the trace function under the top-level lambdas
-traceResource (L l q) t =
-  case termFormCnc t of
-    (abs,body) -> mkAbs abs (mkApp traceQ [args,body])
-      where
-        args = R $ tuple2record (K lstr:[Vr x|(bt,x)<-abs,bt==Explicit])
-        lstr = render (l<>":"<>ppTerm Qualified 0 q)
-        traceQ = Q (cPredef,cTrace)
-
--- * Computing values
-
--- | Computing the value of a top-level term
-value0 :: CompleteEnv -> Term -> Err Value
-value0 env = eval (global env) []
-
--- | Computing the value of a term
-value :: CompleteEnv -> Term -> Err OpenValue
-value env t0 =
-  -- Each terms is traversed only once by this function, using only statically
-  -- available information. Notably, the values of lambda bound variables 
-  -- will be unknown during the term traversal phase.
-  -- The result is an OpenValue, which is a function that may be applied many
-  -- times to different dynamic values, but without the term traversal overhead
-  -- and without recomputing other statically known information.
-  -- For this to work, there should be no recursive calls under lambdas here.
-  -- Whenever we need to construct the OpenValue function with an explicit
-  -- lambda, we have to lift the recursive calls outside the lambda.
-  -- (See e.g. the rules for Let, Prod and Abs)
-{-
-  trace (render $ text "value"<+>sep [ppL (gloc env)<>text ":",
-                                      brackets (fsep (map ppIdent (local env))),
-                                      ppTerm Unqualified 10 t0]) $
---}
-  errIn (render t0) $
-  case t0 of
-    Vr x   -> var env x
-    Q x@(m,f)
-      | m == cPredef -> if f==cErrorType                -- to be removed
-                        then let p = identS "P"
-                             in const # value0 env (mkProd [(Implicit,p,typeType)] (Vr p) [])
-                        else if f==cPBool
-                               then const # resource env x
-                               else const . flip VApp [] # predef f
-      | otherwise    -> const # resource env x --valueResDef (fst env) x
-    QC x   -> return $ const (VCApp x [])
-    App e1 e2 -> apply' env e1 . (:[]) =<< value env e2
-    Let (x,(oty,t)) body -> do vb <- value (ext x env) body
-                               vt <- value env t
-                               return $ \ vs -> vb (vt vs:vs)
-    Meta i -> return $ \ vs -> VMeta i (zip (local env) vs) []
-    Prod bt x t1 t2 ->
-       do vt1 <- value env t1
-          vt2 <- value (ext x env) t2
-          return $ \ vs -> VProd bt (vt1 vs) x $ Bind $ \ vx -> vt2 (vx:vs)
-    Abs bt x t -> do vt <- value (ext x env) t
-                     return $ VAbs bt x . Bind . \ vs vx -> vt (vx:vs)
-    EInt n -> return $ const (VInt n)
-    EFloat f -> return $ const (VFloat f)
-    K s -> return $ const (VString s)
-    Empty -> return $ const (VString "")
-    Sort s | s == cTok -> return $ const (VSort cStr)        -- to be removed 
-           | otherwise -> return $ const (VSort s)
-    ImplArg t -> (VImplArg.) # value env t
-    Table p res -> liftM2 VTblType # value env p <# value env res
-    RecType rs -> do lovs <- mapPairsM (value env) rs
-                     return $ \vs->VRecType $ mapSnd ($vs) lovs
-    t@(ExtR t1 t2) -> ((extR t.)# both id) # both (value env) (t1,t2)
-    FV ts   -> ((vfv .) # sequence) # mapM (value env) ts
-    R as    -> do lovs <- mapPairsM (value env.snd) as
-                  return $ \ vs->VRec $ mapSnd ($vs) lovs
-    T i cs  -> valueTable env i cs
-    V ty ts -> do pvs <- paramValues env ty
-                  ((VV ty pvs .) . sequence) # mapM (value env) ts
-    C t1 t2 -> ((ok2p vconcat.) # both id) # both (value env) (t1,t2)
-    S t1 t2 -> ((select env.) # both id) # both (value env) (t1,t2)
-    P t l   -> --maybe (bug $ "project "++show l++" from "++show v) id $
-               do ov <- value env t
-                  return $ \ vs -> let v = ov vs
-                                   in maybe (VP v l) id (proj l v)
-    Alts t tts -> (\v vts -> VAlts # v <# mapM (both id) vts) # value env t <# mapM (both (value env)) tts
-    Strs ts    -> ((VStrs.) # sequence) # mapM (value env) ts
-    Glue t1 t2 -> ((ok2p (glue env).) # both id) # both (value env) (t1,t2)
-    ELin c r -> (unlockVRec (gloc env) c.) # value env r
-    EPatt p  -> return $ const (VPatt p) -- hmm
-    EPattType ty -> do vt <- value env ty
-                       return (VPattType . vt)
-    Typed t ty -> value env t
-    t -> fail.render $ "value"<+>ppTerm Unqualified 10 t $$ show t
-
-vconcat vv@(v1,v2) =
-    case vv of
-      (VString "",_) -> v2
-      (_,VString "") -> v1
-      (VApp NonExist _,_) -> v1
-      (_,VApp NonExist _) -> v2
-      _ -> VC v1 v2
-
-proj l v | isLockLabel l = return (VRec [])
-                ---- a workaround 18/2/2005: take this away and find the reason
-                ---- why earlier compilation destroys the lock field
-proj l v =
-    case v of
-      VFV vs -> liftM vfv (mapM (proj l) vs)
-      VRec rs -> lookup l rs
---    VExtR v1 v2 -> proj l v2 `mplus` proj l v1 -- hmm
-      VS (VV pty pvs rs) v2 -> flip VS v2 . VV pty pvs # mapM (proj l) rs
-      _ -> return (ok1 VP v l)
-
-ok1 f v1@(VError {}) _ = v1
-ok1 f v1 v2 = f v1 v2
- 
-ok2 f v1@(VError {}) _ = v1
-ok2 f _ v2@(VError {}) = v2
-ok2 f v1 v2 = f v1 v2
-
-ok2p f (v1@VError {},_) = v1
-ok2p f (_,v2@VError {}) = v2
-ok2p f vv = f vv
-
-unlockVRec loc c0 v0 = v0
-{-
-unlockVRec loc c0 v0 = unlockVRec' c0 v0
-  where
-    unlockVRec' ::Ident -> Value -> Value
-    unlockVRec' c v =
-        case v of
-    --    VClosure env t -> err bug (VClosure env) (unlockRecord c t)
-          VAbs bt x (Bind f) -> VAbs bt x (Bind $ \ v -> unlockVRec' c (f v))
-          VRec rs        -> plusVRec rs lock
-    --    _              -> VExtR v (VRec lock) -- hmm
-          _              -> {-trace (render $ ppL loc $ "unlock non-record "++show v0)-} v -- hmm
-    --    _              -> bugloc loc $ "unlock non-record "++show v0
-      where
-        lock = [(lockLabel c,VRec [])]
--}
-
--- suspicious, but backwards compatible
-plusVRec rs1 rs2 = VRec ([(l,v)|(l,v)<-rs1,l `notElem` ls2] ++ rs2)
-  where ls2 = map fst rs2
-
-extR t vv =
-    case vv of
-      (VFV vs,v2) -> vfv [extR t (v1,v2)|v1<-vs]
-      (v1,VFV vs) -> vfv [extR t (v1,v2)|v2<-vs]
-      (VRecType rs1, VRecType rs2) ->
-          case intersect (map fst rs1) (map fst rs2) of
-            [] -> VRecType (rs1 ++ rs2)
-            ls -> error $ "clash"<+>show ls
-      (VRec     rs1, VRec     rs2) -> plusVRec rs1 rs2
-      (v1          , VRec [(l,_)]) | isLockLabel l -> v1 -- hmm
-      (VS (VV t pvs vs) s,v2) -> VS (VV t pvs [extR t (v1,v2)|v1<-vs]) s
---    (v1,v2) -> ok2 VExtR v1 v2 -- hmm
-      (v1,v2) -> error $ "not records" $$ show v1 $$ show v2
-  where
-    error explain = ppbug $ "The term" <+> t
-                            <+> "is not reducible" $$ explain
-
-glue env (v1,v2) = glu v1 v2
-  where
-    glu v1 v2 =
-        case (v1,v2) of
-          (VFV vs,v2) -> vfv [glu v1 v2|v1<-vs]
-          (v1,VFV vs) -> vfv [glu v1 v2|v2<-vs]
-          (VString s1,VString s2) -> VString (s1++s2)
-          (v1,VAlts d vs) -> VAlts (glx d) [(glx v,c) | (v,c) <- vs]
-             where glx v2 = glu v1 v2
-          (v1@(VAlts {}),v2) ->
-           --err (const (ok2 VGlue v1 v2)) id $
-             err bug id $
-             do y' <- strsFromValue v2
-                x' <- strsFromValue v1
-                return $ vfv [foldr1 VC (map VString (str2strings (glueStr v u))) | v <- x', u <- y']
-          (VC va vb,v2) -> VC va (glu vb v2)
-          (v1,VC va vb) -> VC (glu v1 va) vb
-          (VS (VV ty pvs vs) vb,v2) -> VS (VV ty pvs [glu v v2|v<-vs]) vb
-          (v1,VS (VV ty pvs vs) vb) -> VS (VV ty pvs [glu v1 v|v<-vs]) vb
-          (v1@(VApp NonExist _),_) -> v1
-          (_,v2@(VApp NonExist _)) -> v2
---        (v1,v2) -> ok2 VGlue v1 v2
-          (v1,v2) -> if flag optPlusAsBind (opts env)
-                       then VC v1 (VC (VApp BIND []) v2)
-                       else let loc  = gloc env
-                                vt v = case value2term loc (local env) v of
-                                         Left i  -> Error ('#':show i)
-                                         Right t -> t
-                                originalMsg = render $ ppL loc (hang "unsupported token gluing" 4
-                                                               (Glue (vt v1) (vt v2)))
-                                term = render $ pp  $ Glue (vt v1) (vt v2)
-                            in error $ unlines
-                                [originalMsg
-                                ,""
-                                ,"There was a problem in the expression `"++term++"`, either:"
-                                ,"1) You are trying to use + on runtime arguments, possibly via an oper."
-                                ,"2) One of the arguments in `"++term++"` is a bound variable from pattern matching a string, but the cases are non-exhaustive."
-                                ,"For more help see https://github.com/GrammaticalFramework/gf-core/tree/master/doc/errors/gluing.md"
-                                ]
-
-
--- | to get a string from a value that represents a sequence of terminals
-strsFromValue :: Value -> Err [Str]
-strsFromValue t = case t of
-  VString s   -> return [str s]
-  VC s t -> do
-    s' <- strsFromValue s
-    t' <- strsFromValue t
-    return [plusStr x y | x <- s', y <- t']
-{-
-  VGlue s t -> do
-    s' <- strsFromValue s
-    t' <- strsFromValue t
-    return [glueStr x y | x <- s', y <- t']
--}
-  VAlts d vs -> do
-    d0 <- strsFromValue d
-    v0 <- mapM (strsFromValue . fst) vs
-    c0 <- mapM (strsFromValue . snd) vs
-  --let vs' = zip v0 c0
-    return [strTok (str2strings def) vars | 
-              def  <- d0,
-              vars <- [[(str2strings v, map sstr c) | (v,c) <- zip vv c0] | 
-                                                          vv <- sequence v0]
-           ]
-  VFV ts -> concat # mapM strsFromValue ts
-  VStrs ts -> concat # mapM strsFromValue ts
-
-  _ -> fail ("cannot get Str from value " ++ show t)
-
-vfv vs = case nub vs of
-           [v] -> v
-           vs -> VFV vs
-
-select env vv =
-    case vv of
-      (v1,VFV vs) -> vfv [select env (v1,v2)|v2<-vs]
-      (VFV vs,v2) -> vfv [select env (v1,v2)|v1<-vs]
-      (v1@(VV pty vs rs),v2) ->
-         err (const (VS v1 v2)) id $
-         do --ats <- allParamValues (srcgr env) pty
-            --let vs = map (value0 env) ats
-            i <- maybeErr "no match" $ findIndex (==v2) vs
-            return (ix (gloc env) "select" rs i)
-      (VT _ _ [(PW,Bind b)],_) -> {-trace "eliminate wild card table" $-} b []
-      (v1@(VT _ _ cs),v2) ->
-                 err (\_->ok2 VS v1 v2) (err bug id . valueMatch env) $
-                 match (gloc env) cs v2
-      (VS (VV pty pvs rs) v12,v2) -> VS (VV pty pvs [select env (v11,v2)|v11<-rs]) v12
-      (v1,v2) -> ok2 VS v1 v2
-
-match loc cs v = 
-  case value2term loc [] v of
-    Left i  -> bad ("variable #"++show i++" is out of scope")
-    Right t -> err bad return (matchPattern cs t)
-  where
-    bad = fail . ("In pattern matching: "++)
-
-valueMatch :: CompleteEnv -> (Bind Env,Substitution) -> Err Value
-valueMatch env (Bind f,env') = f # mapPairsM (value0 env) env'
-
-valueTable :: CompleteEnv -> TInfo -> [Case] -> Err OpenValue
-valueTable env i cs =
-    case i of
-      TComp ty -> do pvs <- paramValues env ty
-                     ((VV ty pvs .) # sequence) # mapM (value env.snd) cs
-      _ -> do ty <- getTableType i
-              cs' <- mapM valueCase cs
-              err (dynamic cs' ty) return (convert cs' ty)
-  where
-    dynamic cs' ty _ = cases cs' # value env ty
-
-    cases cs' vty vs = err keep ($vs) (convertv cs' (vty vs))
-      where
-        keep msg = --trace (msg++"\n"++render (ppTerm Unqualified 0 (T i cs))) $
-                   VT wild (vty vs) (mapSnd ($vs) cs')
-
-    wild = case i of TWild _ -> True; _ -> False
-
-    convertv cs' vty = 
-      case value2term (gloc env) [] vty of
-        Left i    -> fail ("variable #"++show i++" is out of scope")
-        Right pty -> convert' cs' =<< paramValues'' env pty
-
-    convert cs' ty = convert' cs' =<< paramValues' env ty
-
-    convert' cs' ((pty,vs),pvs) =
-      do sts  <- mapM (matchPattern cs') vs
-         return $ \ vs -> VV pty pvs $ map (err bug id . valueMatch env)
-                                           (mapFst ($vs) sts)
-
-    valueCase (p,t) = do p' <- measurePatt # inlinePattMacro p
-                         pvs <- linPattVars p'
-                         vt <- value (extend pvs env) t
-                         return (p',\vs-> Bind $ \bs-> vt (push' p' bs pvs vs))
-
-    inlinePattMacro p =
-        case p of
-          PM qc -> do r <- resource env qc
-                      case r of
-                        VPatt p' -> inlinePattMacro p'
-                        _ -> ppbug $ hang "Expected pattern macro:" 4
-                                          (show r)
-          _ -> composPattOp inlinePattMacro p
-
-
-paramValues env ty = snd # paramValues' env ty
-
-paramValues' env ty = paramValues'' env =<< nfx (global env) ty
-
-paramValues'' env pty = do ats <- allParamValues (srcgr env) pty
-                           pvs <- mapM (eval (global env) []) ats
-                           return ((pty,ats),pvs)
-
-push' p bs xs = if length bs/=length xs
-                then bug $ "push "++show (p,bs,xs)
-                else push bs xs
-
-push :: Env -> LocalScope -> Stack -> Stack
-push bs [] vs = vs
-push bs (x:xs) vs = maybe err id (lookup x bs):push bs xs vs
-  where  err = bug $ "Unbound pattern variable "++showIdent x
-
-apply' :: CompleteEnv -> Term -> [OpenValue] -> Err OpenValue
-apply' env t [] = value env t
-apply' env t vs =
-  case t of
-    QC x                   -> return $ \ svs -> VCApp x (map ($svs) vs)
-{-
-    Q x@(m,f) | m==cPredef -> return $
-                              let constr = --trace ("predef "++show x) .
-                                           VApp x 
-                              in \ svs -> maybe constr id (Map.lookup f predefs)
-                                          $ map ($svs) vs
-              | otherwise  -> do r <- resource env x
-                                 return $ \ svs -> vapply (gloc env) r (map ($svs) vs)
--}
-    App t1 t2              -> apply' env t1 . (:vs) =<< value env t2
-    _                      -> do fv <- value env t
-                                 return $ \ svs -> vapply (gloc env) (fv svs) (map ($svs) vs)
-
-vapply :: GLocation -> Value -> [Value] -> Value
-vapply loc v [] = v
-vapply loc v vs =
-  case v of
-    VError {} -> v
---  VClosure env (Abs b x t) -> beta gr env b x t vs
-    VAbs bt _ (Bind f) -> vbeta loc bt f vs
-    VApp pre vs1 -> delta' pre (vs1++vs)
-      where
-        delta' Trace (v1:v2:vs) = let vr = vapply loc v2 vs
-                                  in vtrace loc v1 vr
-        delta' pre vs = err msg vfv $ mapM (delta pre) (varyList vs)
-        --msg = const (VApp pre (vs1++vs))
-        msg = bug . (("Applying Predef."++showIdent (predefName pre)++": ")++)
-    VS (VV t pvs fs) s -> VS (VV t pvs [vapply loc f vs|f<-fs]) s
-    VFV fs -> vfv [vapply loc f vs|f<-fs]
-    VCApp f vs0 -> VCApp f (vs0++vs)
-    VMeta i env vs0 -> VMeta i env (vs0++vs)
-    VGen i vs0 -> VGen i (vs0++vs)
-    v -> bug $ "vapply "++show v++" "++show vs
-
-vbeta loc bt f (v:vs) =
-  case (bt,v) of
-    (Implicit,VImplArg v) -> ap v
-    (Explicit,         v) -> ap v
-  where
-    ap (VFV avs) = vfv [vapply loc (f v) vs|v<-avs]
-    ap v         = vapply loc (f v) vs
-
-vary (VFV vs) = vs
-vary v = [v]
-varyList = mapM vary
-
-{-
-beta env b x t (v:vs) =
-  case (b,v) of
-    (Implicit,VImplArg v) -> apply' (ext (x,v) env) t vs
-    (Explicit,         v) -> apply' (ext (x,v) env) t vs
--}
-
-vtrace loc arg res = trace (render (hang (pv arg) 4 ("->"<+>pv res))) res
-  where
-    pv v = case v of
-             VRec (f:as) -> hang (pf f) 4 (fsep (map pa as))
-             _ -> ppV v
-    pf (_,VString n) = pp n
-    pf (_,v) = ppV v
-    pa (_,v) = ppV v
-    ppV v = case value2term' True loc [] v of
-              Left i  -> "variable #" <> pp i <+> "is out of scope"
-              Right t -> ppTerm Unqualified 10 t
-
--- | Convert a value back to a term
-value2term :: GLocation -> [Ident] -> Value -> Either Int Term
-value2term = value2term' False
-value2term' stop loc xs v0 =
-  case v0 of
-    VApp pre vs    -> liftM (foldl App (Q (cPredef,predefName pre))) (mapM v2t vs)
-    VCApp f vs     -> liftM  (foldl App (QC f))   (mapM v2t vs)
-    VGen j vs      -> liftM2 (foldl App) (var j)  (mapM v2t vs)
-    VMeta j env vs -> liftM  (foldl App (Meta j)) (mapM v2t vs)
-    VProd bt v x f -> liftM2 (Prod bt x) (v2t v) (v2t' x f)
-    VAbs  bt   x f -> liftM  (Abs  bt x)         (v2t' x f)
-    VInt n         -> return (EInt n)
-    VFloat f       -> return (EFloat f)
-    VString s      -> return (if null s then Empty else K s)
-    VSort s        -> return (Sort s)
-    VImplArg v     -> liftM  ImplArg (v2t v)
-    VTblType p res -> liftM2 Table (v2t p) (v2t res)
-    VRecType rs    -> liftM  RecType (mapM (\(l,v) -> fmap ((,) l) (v2t v)) rs)
-    VRec as        -> liftM  R       (mapM (\(l,v) -> v2t v >>= \t -> return (l,(Nothing,t))) as)
-    VV t _ vs      -> liftM  (V t)   (mapM v2t vs)
-    VT wild v cs   -> v2t v >>= \t -> liftM (T ((if wild then TWild else TTyped) t)) (mapM nfcase cs)
-    VFV vs         -> liftM  FV (mapM v2t vs)
-    VC v1 v2       -> liftM2 C (v2t v1) (v2t v2)
-    VS v1 v2       -> liftM2 S (v2t v1) (v2t v2)
-    VP v l         -> v2t v >>= \t -> return (P t l)
-    VPatt p        -> return (EPatt p)
-    VPattType v    -> v2t v >>= return . EPattType
-    VAlts v vvs    -> liftM2 Alts (v2t v) (mapM (\(x,y) -> liftM2 (,) (v2t x) (v2t y)) vvs)
-    VStrs vs       -> liftM  Strs (mapM v2t vs)
---  VGlue v1 v2    -> Glue (v2t v1) (v2t v2)
---  VExtR v1 v2    -> ExtR (v2t v1) (v2t v2)
-    VError err     -> return (Error err)
-    _              -> bug ("value2term "++show loc++" : "++show v0)
-  where
-    v2t = v2txs xs
-    v2txs = value2term' stop loc
-    v2t' x f = v2txs (x:xs) (bind f (gen xs))
-
-    var j
-      | j<length xs = Right (Vr (reverse xs !! j))
-      | otherwise   = Left  j
-
-
-    pushs xs e = foldr push e xs
-    push x (env,xs) = ((x,gen xs):env,x:xs)
-    gen xs = VGen (length xs) []
-
-    nfcase (p,f) = liftM ((,) p) (v2txs xs' (bind f env'))
-      where (env',xs') = pushs (pattVars p) ([],xs)
-
-    bind (Bind f) x = if stop
-                      then VSort (identS "...") -- hmm
-                      else f x
-
-
-linPattVars p =
-    if null dups
-    then return pvs
-    else fail.render $ hang "Pattern is not linear. All variable names on the left-hand side must be distinct." 4 (ppPatt Unqualified 0 p)
-  where
-    allpvs = allPattVars p
-    pvs = nub allpvs
-    dups = allpvs \\ pvs
-
-pattVars = nub . allPattVars
-allPattVars p =
-    case p of
-      PV i    -> [i]
-      PAs i p -> i:allPattVars p
-      _       -> collectPattOp allPattVars p
-
----
-ix loc fn xs i =
-    if i<n
-    then xs !! i
-    else bugloc loc $ "(!!): index too large in "++fn++", "++show i++"<"++show n
-  where n = length xs
-
-infixl 1 #,<# --,@@
-
-f # x = fmap f x
-mf <# mx  = ap mf mx
---m1 @@ m2 = (m1 =<<) . m2
-
-both f (x,y) = (,) # f x <# f y
-
-bugloc loc s = ppbug $ ppL loc s
-
-bug msg = ppbug msg
-ppbug doc = error $ render $ hang "Internal error in Compute.ConcreteNew:" 4 doc

src/compiler/GF/Compile/Compute/Predef.hs

@@ -27,6 +27,10 @@ instance Predef Int where
 
 instance Predef Bool where
   toValue = boolV
+  fromValue v = case v of
+    VCApp (mn,i) [] | mn == cPredef && i == cPTrue -> return True
+    VCApp (mn,i) [] | mn == cPredef && i == cPFalse -> return False
+    _ -> verror "Bool" v
 
 instance Predef String where
   toValue = string

src/compiler/GF/Compile/Compute/Value.hs

@@ -12,8 +12,8 @@ data Value
   | VGen Int [Value] -- for lambda bound variables, possibly applied
   | VMeta MetaId Env [Value]
 -- -- | VClosure Env Term -- used in Typecheck.ConcreteNew
-  | VAbs BindType Ident Binding -- used in Compute.ConcreteNew
-  | VProd BindType Value Ident Binding -- used in Compute.ConcreteNew
+  | VAbs BindType Ident Binding -- used in Compute.Concrete
+  | VProd BindType Value Ident Binding -- used in Compute.Concrete
   | VInt Int
   | VFloat Double
   | VString String
@@ -47,10 +47,10 @@ type Env = [(Ident,Value)]
 
 -- | Predefined functions
 data Predefined = Drop | Take | Tk | Dp | EqStr | Occur | Occurs | ToUpper
-                | ToLower | IsUpper | Length | Plus | EqInt | LessInt 
+                | ToLower | IsUpper | Length | Plus | EqInt | LessInt
              {- | Show | Read | ToStr | MapStr | EqVal -}
                 | Error | Trace
                 -- Canonical values below:
-                | PBool | PFalse | PTrue | Int | Float | Ints | NonExist 
+                | PBool | PFalse | PTrue | Int | Float | Ints | NonExist
                 | BIND | SOFT_BIND | SOFT_SPACE | CAPIT | ALL_CAPIT
                 deriving (Show,Eq,Ord,Ix,Bounded,Enum)

src/compiler/GF/Compile/ConcreteToHaskell.hs

@@ -7,7 +7,7 @@ import GF.Text.Pretty
 --import GF.Grammar.Predef(cPredef,cInts)
 --import GF.Compile.Compute.Predef(predef)
 --import GF.Compile.Compute.Value(Predefined(..))
-import GF.Infra.Ident(Ident,identS,identW,prefixIdent)
+import GF.Infra.Ident(Ident,identC,identS,identW,prefixIdent,showRawIdent,rawIdentS)
 import GF.Infra.Option
 import GF.Haskell as H
 import GF.Grammar.Canonical as C
@@ -21,7 +21,7 @@ concretes2haskell opts absname gr =
      | let Grammar abstr cncs = grammar2canonical opts absname gr,
        cncmod<-cncs,
        let ModId name = concName cncmod
-           filename = name ++ ".hs" :: FilePath
+           filename = showRawIdent name ++ ".hs" :: FilePath
   ]
 
 -- | Generate Haskell code for the given concrete module.
@@ -53,7 +53,7 @@ concrete2haskell opts
     labels = S.difference (S.unions (map S.fromList recs)) common_labels
     common_records = S.fromList [[label_s]]
     common_labels = S.fromList [label_s]
-    label_s = LabelId "s"
+    label_s = LabelId (rawIdentS "s")
 
     signature (CatDef c _) = TypeSig lf (Fun abs (pure lin))
       where
@@ -69,7 +69,7 @@ concrete2haskell opts
       where
      --funcats = S.fromList [c | FunDef f (C.Type _ (TypeApp c _))<-funs]
        allcats = S.fromList [c | CatDef c _<-cats]
-      
+
     gId :: ToIdent i => i -> Ident
     gId = (if haskellOption opts HaskellNoPrefix then id else prefixIdent "G")
           . toIdent
@@ -116,7 +116,7 @@ concrete2haskell opts
               where (ls,ts) = unzip $ sortOn fst [(l,t)|RecordRow l t<-rs]
             StrType -> tcon0 (identS "Str")
             TableType pt lt -> Fun (ppT pt) (ppT lt)
---          TupleType lts -> 
+--          TupleType lts ->
 
     lincatDef (LincatDef c t) = tsyn0 (lincatName c) (convLinType t)
 
@@ -126,7 +126,7 @@ concrete2haskell opts
     linDefs = map eqn . sortOn fst . map linDef
       where eqn (cat,(f,(ps,rhs))) = (cat,Eqn (f,ps) rhs)
 
-    linDef (LinDef f xs rhs0) = 
+    linDef (LinDef f xs rhs0) =
         (cat,(linfunName cat,(lhs,rhs)))
       where
         lhs = [ConP (aId f) (map VarP abs_args)]
@@ -144,7 +144,7 @@ concrete2haskell opts
           where
             vs = [(VarValueId (Unqual x),a)|(VarId x,a)<-zip xs args]
             env= [(VarValueId (Unqual x),lc)|(VarId x,lc)<-zip xs (map arglincat absctx)]
-            
+
         letlin a (TypeBinding _ (C.Type _ (TypeApp acat _))) =
           (a,Ap (Var (linfunName acat)) (Var (abs_arg a)))
 
@@ -187,7 +187,7 @@ concrete2haskell opts
 
         pId p@(ParamId s) =
           if "to_R_" `isPrefixOf` unqual s then toIdent p else gId p -- !! a hack
-          
+
         table cs =
             if all (null.patVars) ps
             then lets ds (LambdaCase [(ppP p,t')|(p,t')<-zip ps ts'])
@@ -315,13 +315,13 @@ instance Records rhs => Records (TableRow rhs) where
 
 -- | Record subtyping is converted into explicit coercions in Haskell
 coerce env ty t =
-  case (ty,t) of 
+  case (ty,t) of
     (_,VariantValue ts) -> VariantValue (map (coerce env ty) ts)
     (TableType ti tv,TableValue _ cs) ->
       TableValue ti [TableRow p (coerce env tv t)|TableRow p t<-cs]
     (RecordType rt,RecordValue r) ->
       RecordValue [RecordRow l (coerce env ft f) |
-                     RecordRow l f<-r,ft<-[ft|RecordRow l' ft<-rt,l'==l]]
+                     RecordRow l f<-r,ft<-[ft | RecordRow l' ft <- rt, l'==l]]
     (RecordType rt,VarValue x)->
       case lookup x env of
         Just ty' | ty'/=ty -> -- better to compare to normal form of ty'
@@ -334,18 +334,17 @@ coerce env ty t =
     _ -> t
   where
     app f ts = ParamConstant (Param f ts) -- !! a hack
-    to_rcon = ParamId . Unqual . to_rcon' . labels
+    to_rcon = ParamId . Unqual . rawIdentS . to_rcon' . labels
 
 patVars p = []
 
-labels r = [l|RecordRow l _<-r]
+labels r = [l | RecordRow l _ <- r]
 
 proj = Var . identS . proj'
-proj' (LabelId l) = "proj_"++l
+proj' (LabelId l) = "proj_" ++ showRawIdent l
 rcon = Var . rcon'
 rcon' = identS . rcon_name
-rcon_name ls = "R"++concat (sort ['_':l|LabelId l<-ls])
-
+rcon_name ls = "R"++concat (sort ['_':showRawIdent l | LabelId l <- ls])
 to_rcon' = ("to_"++) . rcon_name
 
 recordType ls =
@@ -400,17 +399,17 @@ linfunName c = prefixIdent "lin" (toIdent c)
 
 class ToIdent i where toIdent :: i -> Ident
 
-instance ToIdent ParamId where toIdent (ParamId q) = qIdentS q
-instance ToIdent PredefId where toIdent (PredefId s) = identS s
-instance ToIdent CatId   where toIdent (CatId s) = identS s
-instance ToIdent C.FunId where toIdent (FunId s) = identS s
-instance ToIdent VarValueId where toIdent (VarValueId q) = qIdentS q
+instance ToIdent ParamId where toIdent (ParamId q) = qIdentC q
+instance ToIdent PredefId where toIdent (PredefId s) = identC s
+instance ToIdent CatId   where toIdent (CatId s) = identC s
+instance ToIdent C.FunId where toIdent (FunId s) = identC s
+instance ToIdent VarValueId where toIdent (VarValueId q) = qIdentC q
 
-qIdentS = identS . unqual
+qIdentC = identS . unqual
 
-unqual (Qual (ModId m) n) = m++"_"++n
-unqual (Unqual n) = n
+unqual (Qual (ModId m) n) = showRawIdent m++"_"++ showRawIdent n
+unqual (Unqual n) = showRawIdent n
 
 instance ToIdent VarId where
   toIdent Anonymous = identW
-  toIdent (VarId s) = identS s
+  toIdent (VarId s) = identC s

src/compiler/GF/Compile/GeneratePMCFG.hs

@@ -25,7 +25,7 @@ import GF.Data.BacktrackM
 import GF.Data.Operations
 import GF.Infra.UseIO (ePutStr,ePutStrLn) -- IOE,
 import GF.Data.Utilities (updateNthM) --updateNth
-import GF.Compile.Compute.ConcreteNew(normalForm,resourceValues)
+import GF.Compile.Compute.Concrete(normalForm,resourceValues)
 import qualified Data.Map as Map
 import qualified Data.Set as Set
 import qualified Data.List as List
@@ -82,7 +82,7 @@ addPMCFG opts gr cenv opath am cm seqs id (GF.Grammar.CncFun mty@(Just (cat,cont
                           (goB b1 CNil [])
                           (pres,pargs)
       pmcfg      = getPMCFG pmcfgEnv1
-      
+
       stats      = let PMCFG prods funs = pmcfg
                        (s,e)            = bounds funs
                        !prods_cnt       = length prods
@@ -103,7 +103,7 @@ addPMCFG opts gr cenv opath am cm seqs id (GF.Grammar.CncFun mty@(Just (cat,cont
           newArgs  = map getFIds newArgs'
       in addFunction env0 newCat fun newArgs
 
-addPMCFG opts gr cenv opath am cm seqs id (GF.Grammar.CncCat mty@(Just (L _ lincat)) 
+addPMCFG opts gr cenv opath am cm seqs id (GF.Grammar.CncCat mty@(Just (L _ lincat))
                                                              mdef@(Just (L loc1 def))
                                                              mref@(Just (L loc2 ref))
                                                              mprn
@@ -162,7 +162,7 @@ pgfCncCat :: SourceGrammar -> Type -> Int -> CncCat
 pgfCncCat gr lincat index =
   let ((_,size),schema) = computeCatRange gr lincat
   in PGF.CncCat index (index+size-1)
-                      (mkArray (map (renderStyle style{mode=OneLineMode} . ppPath) 
+                      (mkArray (map (renderStyle style{mode=OneLineMode} . ppPath)
                                     (getStrPaths schema)))
   where
     getStrPaths :: Schema Identity s c -> [Path]
@@ -243,7 +243,7 @@ choices nr path = do (args,_) <- get
                                                                                                                     | (value,index) <- values])
     descend schema       path              rpath = bug $ "descend "++show (schema,path,rpath)
 
-    updateEnv path value gr c (args,seq) = 
+    updateEnv path value gr c (args,seq) =
       case updateNthM (restrictProtoFCat path value) nr args of
         Just args -> c value (args,seq)
         Nothing   -> bug "conflict in updateEnv"
@@ -606,7 +606,7 @@ restrictProtoFCat path v (PFCat cat f schema) = do
                                                        Just index -> return (CPar (m,[(v,index)]))
                                                        Nothing    -> mzero
     addConstraint CNil             v (CStr _)      = bug "restrictProtoFCat: string path"
-    
+
     update k0 f [] = return []
     update k0 f (x@(k,Identity v):xs)
       | k0 == k    = do v <- f v

src/compiler/GF/Compile/GrammarToCanonical.hs

@@ -6,30 +6,35 @@ module GF.Compile.GrammarToCanonical(
        ) where
 import Data.List(nub,partition)
 import qualified Data.Map as M
+import Data.Maybe(fromMaybe)
 import qualified Data.Set as S
 import GF.Data.ErrM
 import GF.Text.Pretty
-import GF.Grammar.Grammar
+import GF.Grammar.Grammar as G
 import GF.Grammar.Lookup(lookupOrigInfo,allOrigInfos,allParamValues)
-import GF.Grammar.Macros(typeForm,collectOp,collectPattOp,mkAbs,mkApp,term2patt)
+import GF.Grammar.Macros(typeForm,collectOp,collectPattOp,composSafeOp,mkAbs,mkApp,term2patt,sortRec)
 import GF.Grammar.Lockfield(isLockLabel)
 import GF.Grammar.Predef(cPredef,cInts)
 import GF.Compile.Compute.Predef(predef)
 import GF.Compile.Compute.Value(Predefined(..))
-import GF.Infra.Ident(ModuleName(..),Ident,prefixIdent,showIdent,isWildIdent)
-import GF.Infra.Option(optionsPGF)
+import GF.Infra.Ident(ModuleName(..),Ident,ident2raw,rawIdentS,showIdent,isWildIdent)
+import GF.Infra.Option(Options,optionsPGF)
 import PGF.Internal(Literal(..))
-import GF.Compile.Compute.ConcreteNew(normalForm,resourceValues)
+import GF.Compile.Compute.Concrete(GlobalEnv,normalForm,resourceValues)
 import GF.Grammar.Canonical as C
-import Debug.Trace
+import System.FilePath ((</>), (<.>))
+import qualified Debug.Trace as T
+
 
 -- | Generate Canonical code for the named abstract syntax and all associated
 -- concrete syntaxes
+grammar2canonical :: Options -> ModuleName -> G.Grammar -> C.Grammar
 grammar2canonical opts absname gr =
    Grammar (abstract2canonical absname gr)
            (map snd (concretes2canonical opts absname gr))
 
 -- | Generate Canonical code for the named abstract syntax
+abstract2canonical :: ModuleName -> G.Grammar -> Abstract
 abstract2canonical absname gr =
     Abstract (modId absname) (convFlags gr absname) cats funs
   where
@@ -44,6 +49,7 @@ abstract2canonical absname gr =
     convHypo (bt,name,t) =
       case typeForm t of
         ([],(_,cat),[]) -> gId cat -- !!
+        tf -> error $ "abstract2canonical convHypo: " ++ show tf
 
     convType t =
       case typeForm t of
@@ -54,25 +60,26 @@ abstract2canonical absname gr =
 
     convHypo' (bt,name,t) = TypeBinding (gId name) (convType t)
 
-
 -- | Generate Canonical code for the all concrete syntaxes associated with
 -- the named abstract syntax in given the grammar.
+concretes2canonical :: Options -> ModuleName -> G.Grammar -> [(FilePath, Concrete)]
 concretes2canonical opts absname gr =
   [(cncname,concrete2canonical gr cenv absname cnc cncmod)
      | let cenv = resourceValues opts gr,
        cnc<-allConcretes gr absname,
-       let cncname = "canonical/"++render cnc ++ ".gf" :: FilePath
+       let cncname = "canonical" </> render cnc <.> "gf"
            Ok cncmod = lookupModule gr cnc
   ]
 
 -- | Generate Canonical GF for the given concrete module.
+concrete2canonical :: G.Grammar -> GlobalEnv -> ModuleName -> ModuleName -> ModuleInfo -> Concrete
 concrete2canonical gr cenv absname cnc modinfo =
   Concrete (modId cnc) (modId absname) (convFlags gr cnc)
       (neededParamTypes S.empty (params defs))
-      [lincat|(_,Left lincat)<-defs]
-      [lin|(_,Right lin)<-defs]
+      [lincat | (_,Left lincat) <- defs]
+      [lin | (_,Right lin) <- defs]
   where
-    defs = concatMap (toCanonical gr absname cenv) . 
+    defs = concatMap (toCanonical gr absname cenv) .
            M.toList $
            jments modinfo
 
@@ -85,6 +92,7 @@ concrete2canonical gr cenv absname cnc modinfo =
         else let ((got,need),def) = paramType gr q
              in def++neededParamTypes (S.union got have) (S.toList need++qs)
 
+toCanonical :: G.Grammar -> ModuleName -> GlobalEnv -> (Ident, Info) -> [(S.Set QIdent, Either LincatDef LinDef)]
 toCanonical gr absname cenv (name,jment) =
   case jment of
     CncCat (Just (L loc typ)) _ _ pprn _ ->
@@ -97,7 +105,8 @@ toCanonical gr absname cenv (name,jment) =
       where
         tts = tableTypes gr [e']
 
-        e' = unAbs (length params) $
+        e' = cleanupRecordFields lincat $
+             unAbs (length params) $
              nf loc (mkAbs params (mkApp def (map Vr args)))
         params = [(b,x)|(b,x,_)<-ctx]
         args = map snd params
@@ -108,12 +117,12 @@ toCanonical gr absname cenv (name,jment) =
     _ -> []
   where
     nf loc = normalForm cenv (L loc name)
---  aId n = prefixIdent "A." (gId n)
 
     unAbs 0 t = t
     unAbs n (Abs _ _ t) = unAbs (n-1) t
     unAbs _ t = t
 
+tableTypes :: G.Grammar -> [Term] -> S.Set QIdent
 tableTypes gr ts = S.unions (map tabtys ts)
   where
     tabtys t =
@@ -122,6 +131,7 @@ tableTypes gr ts = S.unions (map tabtys ts)
         T (TTyped t) cs -> S.union (paramTypes gr t) (tableTypes gr (map snd cs))
         _ -> collectOp tabtys t
 
+paramTypes :: G.Grammar -> G.Type -> S.Set QIdent
 paramTypes gr t =
   case t of
     RecType fs -> S.unions (map (paramTypes gr.snd) fs)
@@ -140,11 +150,26 @@ paramTypes gr t =
                  Ok (_,ResParam {}) -> S.singleton q
                  _ -> ignore
 
-    ignore = trace ("Ignore: "++show t) S.empty
+    ignore = T.trace ("Ignore: " ++ show t) S.empty
 
+-- | Filter out record fields from definitions which don't appear in lincat.
+cleanupRecordFields :: G.Type -> Term -> Term
+cleanupRecordFields (RecType ls) (R as) =
+  let defnFields = M.fromList ls
+  in R
+      [ (lbl, (mty, t'))
+      | (lbl, (mty, t)) <- as
+      , M.member lbl defnFields
+      , let Just ty = M.lookup lbl defnFields
+      , let t' = cleanupRecordFields ty t
+      ]
+cleanupRecordFields ty t@(FV _) = composSafeOp (cleanupRecordFields ty) t
+cleanupRecordFields _ t = t
 
+convert :: G.Grammar -> Term -> LinValue
 convert gr = convert' gr []
 
+convert' :: G.Grammar -> [Ident] -> Term -> LinValue
 convert' gr vs = ppT
   where
     ppT0 = convert' gr vs
@@ -162,20 +187,20 @@ convert' gr vs = ppT
         S t p -> selection (ppT t) (ppT p)
         C t1 t2 -> concatValue (ppT t1) (ppT t2)
         App f a -> ap (ppT f) (ppT a)
-        R r -> RecordValue (fields r)
+        R r -> RecordValue (fields (sortRec r))
         P t l -> projection (ppT t) (lblId l)
         Vr x -> VarValue (gId x)
         Cn x -> VarValue (gId x) -- hmm
         Con c -> ParamConstant (Param (gId c) [])
         Sort k -> VarValue (gId k)
         EInt n -> LiteralValue (IntConstant n)
-        Q (m,n) -> if m==cPredef then ppPredef n else VarValue ((gQId m n))
-        QC (m,n) -> ParamConstant (Param ((gQId m n)) [])
+        Q (m,n) -> if m==cPredef then ppPredef n else VarValue (gQId m n)
+        QC (m,n) -> ParamConstant (Param (gQId m n) [])
         K s -> LiteralValue (StrConstant s)
         Empty -> LiteralValue (StrConstant "")
         FV ts -> VariantValue (map ppT ts)
         Alts t' vs -> alts vs (ppT t')
-        _ -> error $ "convert' "++show t
+        _ -> error $ "convert' ppT: " ++ show t
 
     ppCase (p,t) = TableRow (ppP p) (ppTv (patVars p++vs) t)
 
@@ -188,12 +213,12 @@ convert' gr vs = ppT
         Ok ALL_CAPIT  -> p "ALL_CAPIT"
         _ -> VarValue (gQId cPredef n) -- hmm
       where
-       p = PredefValue . PredefId
-      
+       p = PredefValue . PredefId . rawIdentS
+
     ppP p =
       case p of
         PC c ps -> ParamPattern (Param (gId c) (map ppP ps))
-        PP (m,c) ps -> ParamPattern (Param ((gQId m c)) (map ppP ps))
+        PP (m,c) ps -> ParamPattern (Param (gQId m c) (map ppP ps))
         PR r -> RecordPattern (fields r) {-
         PW -> WildPattern
         PV x -> VarP x
@@ -202,6 +227,7 @@ convert' gr vs = ppT
         PFloat x -> Lit (show x)
         PT _ p -> ppP p
         PAs x p -> AsP x (ppP p) -}
+        _ -> error $ "convert' ppP: " ++ show p
       where
         fields = map field . filter (not.isLockLabel.fst)
         field (l,p) = RecordRow (lblId l) (ppP p)
@@ -218,12 +244,12 @@ convert' gr vs = ppT
         pre Empty = [""]  -- Empty == K ""
         pre (Strs ts) = concatMap pre ts
         pre (EPatt p) = pat p
-        pre t = error $ "pre "++show t
+        pre t = error $ "convert' alts pre: " ++ show t
 
         pat (PString s) = [s]
         pat (PAlt p1 p2) = pat p1++pat p2
         pat (PSeq p1 p2) = [s1++s2 | s1<-pat p1, s2<-pat p2]
-        pat p = error $ "pat "++show p
+        pat p = error $ "convert' alts pat: "++show p
 
     fields = map field . filter (not.isLockLabel.fst)
     field (l,(_,t)) = RecordRow (lblId l) (ppT t)
@@ -236,6 +262,7 @@ convert' gr vs = ppT
                  ParamConstant (Param p (ps++[a]))
                _ -> error $ "convert' ap: "++render (ppA f <+> ppA a)
 
+concatValue :: LinValue -> LinValue -> LinValue
 concatValue v1 v2 =
   case (v1,v2) of
     (LiteralValue (StrConstant ""),_) -> v2
@@ -243,21 +270,24 @@ concatValue v1 v2 =
     _ -> ConcatValue v1 v2
 
 -- | Smart constructor for projections
-projection r l = maybe (Projection r l) id (proj r l)
+projection :: LinValue -> LabelId -> LinValue
+projection r l = fromMaybe (Projection r l) (proj r l)
 
+proj :: LinValue -> LabelId -> Maybe LinValue
 proj r l =
   case r of
-    RecordValue r -> case [v|RecordRow l' v<-r,l'==l] of
+    RecordValue r -> case [v | RecordRow l' v <- r, l'==l] of
                           [v] -> Just v
                           _ -> Nothing
     _ -> Nothing
 
 -- | Smart constructor for selections
+selection :: LinValue -> LinValue -> LinValue
 selection t v =
   -- Note: impossible cases can become possible after grammar transformation
   case t of
     TableValue tt r ->
-        case nub [rv|TableRow _ rv<-keep] of
+        case nub [rv | TableRow _ rv <- keep] of
           [rv] -> rv
           _ -> Selection (TableValue tt r') v
       where
@@ -276,13 +306,16 @@ selection t v =
         (keep,discard) = partition (mightMatchRow v) r
     _ -> Selection t v
 
+impossible :: LinValue -> LinValue
 impossible = CommentedValue "impossible"
 
+mightMatchRow :: LinValue -> TableRow rhs -> Bool
 mightMatchRow v (TableRow p _) =
   case p of
     WildPattern -> True
     _ -> mightMatch v p
 
+mightMatch :: LinValue -> LinPattern -> Bool
 mightMatch v p =
   case v of
     ConcatValue _ _ -> False
@@ -294,16 +327,18 @@ mightMatch v p =
     RecordValue rv ->
       case p of
         RecordPattern rp ->
-          and [maybe False (flip mightMatch p) (proj v l) | RecordRow l p<-rp]
+          and [maybe False (`mightMatch` p) (proj v l) | RecordRow l p<-rp]
         _ -> False
     _ -> True
 
+patVars :: Patt -> [Ident]
 patVars p =
   case p of
     PV x -> [x]
     PAs x p -> x:patVars p
     _ -> collectPattOp patVars p
 
+convType :: Term -> LinType
 convType = ppT
   where
     ppT t =
@@ -315,9 +350,9 @@ convType = ppT
         Sort k -> convSort k
 --      EInt n -> tcon0 (identS ("({-"++show n++"-})")) -- type level numeric literal
         FV (t:ts) -> ppT t -- !!
-        QC (m,n) -> ParamType (ParamTypeId ((gQId m n)))
-        Q (m,n) -> ParamType (ParamTypeId ((gQId m n)))
-        _ -> error $ "Missing case in convType for: "++show t
+        QC (m,n) -> ParamType (ParamTypeId (gQId m n))
+        Q (m,n) -> ParamType (ParamTypeId (gQId m n))
+        _ -> error $ "convType ppT: " ++ show t
 
     convFields = map convField . filter (not.isLockLabel.fst)
     convField (l,r) = RecordRow (lblId l) (ppT r)
@@ -326,15 +361,20 @@ convType = ppT
                    "Float" -> FloatType
                    "Int" -> IntType
                    "Str" -> StrType
-                   _ -> error ("convSort "++show k)
+                   _ -> error $ "convType convSort: " ++ show k
 
+toParamType :: Term -> ParamType
 toParamType t = case convType t of
                   ParamType pt -> pt
-                  _ -> error ("toParamType "++show t)
+                  _ -> error $ "toParamType: " ++ show t
 
+toParamId :: Term -> ParamId
 toParamId t = case toParamType t of
                    ParamTypeId p -> p
 
+paramType :: G.Grammar
+             -> (ModuleName, Ident)
+             -> ((S.Set (ModuleName, Ident), S.Set QIdent), [ParamDef])
 paramType gr q@(_,n) =
     case lookupOrigInfo gr q of
       Ok (m,ResParam (Just (L _ ps)) _)
@@ -342,7 +382,7 @@ paramType gr q@(_,n) =
          ((S.singleton (m,n),argTypes ps),
           [ParamDef name (map (param m) ps)]
          )
-       where name = (gQId m n)
+       where name = gQId m n
       Ok (m,ResOper  _ (Just (L _ t)))
         | m==cPredef && n==cInts ->
            ((S.empty,S.empty),[]) {-
@@ -350,36 +390,46 @@ paramType gr q@(_,n) =
             [Type (ConAp ((gQId m n)) [identS "n"]) (TId (identS "Int"))])-}
         | otherwise ->
            ((S.singleton (m,n),paramTypes gr t),
-            [ParamAliasDef ((gQId m n)) (convType t)])
+            [ParamAliasDef (gQId m n) (convType t)])
       _ -> ((S.empty,S.empty),[])
   where
-    param m (n,ctx) = Param ((gQId m n)) [toParamId t|(_,_,t)<-ctx]
+    param m (n,ctx) = Param (gQId m n) [toParamId t|(_,_,t)<-ctx]
     argTypes = S.unions . map argTypes1
     argTypes1 (n,ctx) = S.unions [paramTypes gr t|(_,_,t)<-ctx]
 
-lblId = LabelId . render -- hmm
-modId (MN m) = ModId (showIdent m)
+lblId :: Label -> C.LabelId
+lblId (LIdent ri) = LabelId ri
+lblId (LVar i) = LabelId (rawIdentS (show i)) -- hmm
 
-class FromIdent i where gId :: Ident -> i
+modId :: ModuleName -> C.ModId
+modId (MN m) = ModId (ident2raw m)
+
+class FromIdent i where
+  gId :: Ident -> i
 
 instance FromIdent VarId where
-  gId i = if isWildIdent i then Anonymous else VarId (showIdent i)
+  gId i = if isWildIdent i then Anonymous else VarId (ident2raw i)
 
-instance FromIdent C.FunId where gId = C.FunId . showIdent
-instance FromIdent CatId where gId = CatId . showIdent
+instance FromIdent C.FunId where gId = C.FunId . ident2raw
+instance FromIdent CatId where gId = CatId . ident2raw
 instance FromIdent ParamId where gId = ParamId . unqual
 instance FromIdent VarValueId where gId = VarValueId . unqual
 
-class FromIdent i => QualIdent i where gQId :: ModuleName -> Ident -> i
+class FromIdent i => QualIdent i where
+  gQId :: ModuleName -> Ident -> i
 
-instance QualIdent ParamId    where gQId m n = ParamId (qual m n)
+instance QualIdent ParamId where gQId m n = ParamId (qual m n)
 instance QualIdent VarValueId where gQId m n = VarValueId (qual m n)
 
-qual m n = Qual (modId m) (showIdent n)
-unqual n = Unqual (showIdent n)
+qual :: ModuleName -> Ident -> QualId
+qual m n = Qual (modId m) (ident2raw n)
 
+unqual :: Ident -> QualId
+unqual n = Unqual (ident2raw n)
+
+convFlags :: G.Grammar -> ModuleName -> Flags
 convFlags gr mn =
-  Flags [(n,convLit v) |
+  Flags [(rawIdentS n,convLit v) |
          (n,v)<-err (const []) (optionsPGF.mflags) (lookupModule gr mn)]
   where
     convLit l =

src/compiler/GF/Compile/Optimize.hs

@@ -6,7 +6,7 @@
 -- Stability   : (stable)
 -- Portability : (portable)
 --
--- > CVS $Date: 2005/09/16 13:56:13 $ 
+-- > CVS $Date: 2005/09/16 13:56:13 $
 -- > CVS $Author: aarne $
 -- > CVS $Revision: 1.18 $
 --
@@ -21,7 +21,7 @@ import GF.Grammar.Printer
 import GF.Grammar.Macros
 import GF.Grammar.Lookup
 import GF.Grammar.Predef
-import GF.Compile.Compute.ConcreteNew(GlobalEnv,normalForm,resourceValues)
+import GF.Compile.Compute.Concrete(GlobalEnv,normalForm,resourceValues)
 import GF.Data.Operations
 import GF.Infra.Option
 
@@ -90,7 +90,7 @@ evalInfo opts resenv sgr m c info = do
     let ppr' = fmap (evalPrintname resenv c) ppr
     return $ CncFun mt pde' ppr' mpmcfg -- only cat in type actually needed
 {-
-  ResOper pty pde 
+  ResOper pty pde
     | not new && OptExpand `Set.member` optim -> do
          pde' <- case pde of
                    Just (L loc de) -> do de <- computeConcrete gr de
@@ -171,13 +171,13 @@ mkLinDefault gr typ = liftM (Abs Explicit varStr) $ mkDefField typ
      _ -> Bad (render ("linearization type field cannot be" <+> typ))
 
 mkLinReference :: SourceGrammar -> Type -> Err Term
-mkLinReference gr typ = 
- liftM (Abs Explicit varStr) $ 
+mkLinReference gr typ =
+ liftM (Abs Explicit varStr) $
    case mkDefField typ (Vr varStr) of
      Bad "no string" -> return Empty
      x               -> x
  where
-   mkDefField ty trm = 
+   mkDefField ty trm =
      case ty of
        Table pty ty -> do ps <- allParamValues gr pty
                           case ps of
@@ -203,7 +203,7 @@ factor param c i t =
     T (TComp ty) cs -> factors ty [(p, factor param c (i+1) v) | (p, v) <- cs]
     _               -> composSafeOp (factor param c i) t
   where
-    factors ty pvs0  
+    factors ty pvs0
                  | not param = V ty (map snd pvs0)
     factors ty []            = V ty []
     factors ty pvs0@[(p,v)]  = V ty [v]
@@ -224,7 +224,7 @@ factor param c i t =
 replace :: Term -> Term -> Term -> Term
 replace old new trm =
   case trm of
-    -- these are the important cases, since they can correspond to patterns  
+    -- these are the important cases, since they can correspond to patterns
     QC _     | trm == old -> new
     App _ _  | trm == old -> new
     R _      | trm == old -> new

src/compiler/GF/Compile/PGFtoHaskell.hs

@@ -5,7 +5,7 @@
 -- Stability   : (stable)
 -- Portability : (portable)
 --
--- > CVS $Date: 2005/06/17 12:39:07 $ 
+-- > CVS $Date: 2005/06/17 12:39:07 $
 -- > CVS $Author: bringert $
 -- > CVS $Revision: 1.8 $
 --
@@ -22,7 +22,7 @@ import PGF.Internal
 import GF.Data.Operations
 import GF.Infra.Option
 
-import Data.List --(isPrefixOf, find, intersperse)
+import Data.List(isPrefixOf,find,intercalate,intersperse,groupBy,sortBy)
 import qualified Data.Map as Map
 
 type Prefix = String -> String
@@ -34,11 +34,12 @@ grammar2haskell :: Options
                 -> PGF
                 -> String
 grammar2haskell opts name gr = foldr (++++) [] $
-  pragmas ++ haskPreamble gadt name derivingClause extraImports ++
+  pragmas ++ haskPreamble gadt name derivingClause (extraImports ++ pgfImports) ++
   [types, gfinstances gId lexical gr'] ++ compos
     where gr' = hSkeleton gr
           gadt = haskellOption opts HaskellGADT
           dataExt = haskellOption opts HaskellData
+          pgf2 = haskellOption opts HaskellPGF2
           lexical cat = haskellOption opts HaskellLexical && isLexicalCat opts cat
           gId | haskellOption opts HaskellNoPrefix = rmForbiddenChars
               | otherwise = ("G"++) . rmForbiddenChars
@@ -50,21 +51,23 @@ grammar2haskell opts name gr = foldr (++++) [] $
           derivingClause
                  | dataExt = "deriving (Show,Data)"
                  | otherwise = "deriving Show"
-          extraImports | gadt = ["import Control.Monad.Identity",
-                                 "import Data.Monoid"]
+          extraImports | gadt = ["import Control.Monad.Identity", "import Data.Monoid"]
                        | dataExt = ["import Data.Data"]
                        | otherwise = []
+          pgfImports | pgf2 = ["import PGF2 hiding (Tree)", "", "showCId :: CId -> String", "showCId = id"]
+                     | otherwise = ["import PGF hiding (Tree)"]
           types | gadt = datatypesGADT gId lexical gr'
                 | otherwise = datatypes gId derivingClause lexical gr'
           compos | gadt = prCompos gId lexical gr' ++ composClass
                  | otherwise = []
 
-haskPreamble gadt name derivingClause extraImports =
+haskPreamble :: Bool -> String -> String -> [String] -> [String]
+haskPreamble gadt name derivingClause imports =
  [
   "module " ++ name ++ " where",
   ""
- ] ++ extraImports ++ [
-  "import PGF hiding (Tree)",
+ ] ++ imports ++ [
+  "",
   "----------------------------------------------------",
   "-- automatic translation from GF to Haskell",
   "----------------------------------------------------",
@@ -85,10 +88,11 @@ haskPreamble gadt name derivingClause extraImports =
   ""
  ]
 
+predefInst :: Bool -> String -> String -> String -> String -> String -> String
 predefInst gadt derivingClause gtyp typ destr consr =
   (if gadt
     then []
-    else ("newtype" +++ gtyp +++ "=" +++ gtyp +++ typ +++ derivingClause ++ "\n\n")
+    else "newtype" +++ gtyp +++ "=" +++ gtyp +++ typ +++ derivingClause ++ "\n\n"
     )
   ++
   "instance Gf" +++ gtyp +++ "where" ++++
@@ -103,10 +107,10 @@ type OIdent = String
 type HSkeleton = [(OIdent, [(OIdent, [OIdent])])]
 
 datatypes :: Prefix -> DerivingClause -> (OIdent -> Bool) -> (String,HSkeleton) -> String
-datatypes gId derivingClause lexical = (foldr (+++++) "") . (filter (/="")) . (map (hDatatype gId derivingClause lexical)) . snd
+datatypes gId derivingClause lexical = foldr (+++++) "" . filter (/="") . map (hDatatype gId derivingClause lexical) . snd
 
 gfinstances :: Prefix -> (OIdent -> Bool) -> (String,HSkeleton) -> String
-gfinstances gId lexical (m,g) = (foldr (+++++) "") $ (filter (/="")) $ (map (gfInstance gId lexical m)) g
+gfinstances gId lexical (m,g) = foldr (+++++) "" $ filter (/="") $ map (gfInstance gId lexical m) g
 
 
 hDatatype  :: Prefix -> DerivingClause -> (OIdent -> Bool) -> (OIdent, [(OIdent, [OIdent])]) -> String
@@ -131,16 +135,17 @@ nonLexicalRules True rules = [r | r@(f,t) <- rules, not (null t)]
 lexicalConstructor :: OIdent -> String
 lexicalConstructor cat = "Lex" ++ cat
 
+predefTypeSkel :: HSkeleton
 predefTypeSkel = [(c,[]) | c <- ["String", "Int", "Float"]]
 
 -- GADT version of data types
 datatypesGADT :: Prefix -> (OIdent -> Bool) -> (String,HSkeleton) -> String
-datatypesGADT gId lexical (_,skel) = unlines $ 
+datatypesGADT gId lexical (_,skel) = unlines $
     concatMap (hCatTypeGADT gId) (skel ++ predefTypeSkel) ++
-    [ 
-      "", 
+    [
+      "",
       "data Tree :: * -> * where"
-    ] ++ 
+    ] ++
     concatMap (map ("  "++) . hDatatypeGADT gId lexical) skel ++
     [
       "  GString :: String -> Tree GString_",
@@ -164,23 +169,23 @@ hCatTypeGADT gId (cat,rules)
        "data"+++gId cat++"_"]
 
 hDatatypeGADT :: Prefix -> (OIdent -> Bool) -> (OIdent, [(OIdent, [OIdent])]) -> [String]
-hDatatypeGADT gId lexical (cat, rules) 
+hDatatypeGADT gId lexical (cat, rules)
     | isListCat (cat,rules) = [gId cat+++"::"+++"["++gId (elemCat cat)++"]" +++ "->" +++ t]
     | otherwise =
-        [ gId f +++ "::" +++ concatMap (\a -> gId a +++ "-> ") args ++ t 
+        [ gId f +++ "::" +++ concatMap (\a -> gId a +++ "-> ") args ++ t
           | (f,args) <- nonLexicalRules (lexical cat) rules ]
         ++ if lexical cat then [lexicalConstructor cat +++ ":: String ->"+++ t] else []
   where t = "Tree" +++ gId cat ++ "_"
 
 hEqGADT :: Prefix -> (OIdent -> Bool) -> (OIdent, [(OIdent, [OIdent])]) -> [String]
 hEqGADT gId lexical (cat, rules)
-  | isListCat (cat,rules) = let r = listr cat in ["(" ++ patt "x" r ++ "," ++ patt "y" r ++ ") -> " ++ listeqs] 
+  | isListCat (cat,rules) = let r = listr cat in ["(" ++ patt "x" r ++ "," ++ patt "y" r ++ ") -> " ++ listeqs]
   | otherwise = ["(" ++ patt "x" r ++ "," ++ patt "y" r ++ ") -> " ++ eqs r | r <- nonLexicalRules (lexical cat) rules]
           ++ if lexical cat then ["(" ++ lexicalConstructor cat +++ "x" ++ "," ++ lexicalConstructor cat +++ "y" ++ ") -> x == y"] else []
 
  where
    patt s (f,xs) = unwords (gId f : mkSVars s (length xs))
-   eqs (_,xs) = unwords ("and" : "[" : intersperse "," [x ++ " == " ++ y | 
+   eqs (_,xs) = unwords ("and" : "[" : intersperse "," [x ++ " == " ++ y |
      (x,y) <- zip (mkSVars "x" (length xs)) (mkSVars "y" (length xs)) ] ++ ["]"])
    listr c = (c,["foo"]) -- foo just for length = 1
    listeqs = "and [x == y | (x,y) <- zip x1 y1]"
@@ -189,25 +194,26 @@ prCompos :: Prefix -> (OIdent -> Bool) -> (String,HSkeleton) -> [String]
 prCompos gId lexical (_,catrules) =
     ["instance Compos Tree where",
      "  compos r a f t = case t of"]
-    ++ 
+    ++
     ["    " ++ prComposCons (gId f) xs | (c,rs) <- catrules, not (isListCat (c,rs)),
-                                         (f,xs) <- rs, not (null xs)] 
-    ++ 
+                                         (f,xs) <- rs, not (null xs)]
+    ++
     ["    " ++ prComposCons (gId c) ["x1"] | (c,rs) <- catrules, isListCat (c,rs)]
-    ++ 
+    ++
     ["    _ -> r t"]
   where
-    prComposCons f xs = let vs = mkVars (length xs) in 
+    prComposCons f xs = let vs = mkVars (length xs) in
                         f +++ unwords vs +++ "->" +++ rhs f (zip vs xs)
     rhs f vcs = "r" +++ f +++ unwords (map (prRec f) vcs)
-    prRec f (v,c) 
+    prRec f (v,c)
       | isList f  = "`a` foldr (a . a (r (:)) . f) (r [])" +++ v
       | otherwise = "`a`" +++ "f" +++ v
-    isList f = (gId "List") `isPrefixOf` f
+    isList f = gId "List" `isPrefixOf` f
 
 gfInstance :: Prefix -> (OIdent -> Bool) -> String -> (OIdent, [(OIdent, [OIdent])]) -> String
 gfInstance gId lexical m crs = hInstance gId lexical m crs ++++ fInstance gId lexical m crs
 
+hInstance :: (String -> String) -> (String -> Bool) -> String -> (String, [(OIdent, [OIdent])]) -> String
 ----hInstance m ("Cn",_) = "" --- seems to belong to an old applic. AR 18/5/2004
 hInstance gId _ m (cat,[]) = unlines [
   "instance Show" +++ gId cat,
@@ -216,15 +222,15 @@ hInstance gId _ m (cat,[]) = unlines [
   "  gf _ = undefined",
   "  fg _ = undefined"
   ]
-hInstance gId lexical m (cat,rules) 
+hInstance gId lexical m (cat,rules)
  | isListCat (cat,rules) =
   "instance Gf" +++ gId cat +++ "where" ++++
-     "  gf (" ++ gId cat +++ "[" ++ concat (intersperse "," baseVars) ++ "])" 
+     "  gf (" ++ gId cat +++ "[" ++ intercalate "," baseVars ++ "])"
            +++ "=" +++ mkRHS ("Base"++ec) baseVars ++++
-     "  gf (" ++ gId cat +++ "(x:xs)) = " 
-           ++ mkRHS ("Cons"++ec) ["x",prParenth (gId cat+++"xs")] 
+     "  gf (" ++ gId cat +++ "(x:xs)) = "
+           ++ mkRHS ("Cons"++ec) ["x",prParenth (gId cat+++"xs")]
 -- no show for GADTs
---     ++++ " gf (" ++ gId cat +++ "xs) = error (\"Bad " ++ cat ++ " value: \" ++ show xs)" 
+--     ++++ " gf (" ++ gId cat +++ "xs) = error (\"Bad " ++ cat ++ " value: \" ++ show xs)"
  | otherwise =
   "instance Gf" +++ gId cat +++ "where\n" ++
   unlines ([mkInst f xx | (f,xx) <- nonLexicalRules (lexical cat) rules]
@@ -233,19 +239,22 @@ hInstance gId lexical m (cat,rules)
    ec = elemCat cat
    baseVars = mkVars (baseSize (cat,rules))
    mkInst f xx = let xx' = mkVars (length xx) in "  gf " ++
-     (if length xx == 0 then gId f else prParenth (gId f +++ foldr1 (+++) xx')) +++
+     (if null xx then gId f else prParenth (gId f +++ foldr1 (+++) xx')) +++
      "=" +++ mkRHS f xx'
-   mkRHS f vars = "mkApp (mkCId \"" ++ f ++ "\")" +++ 
-		   "[" ++ prTList ", " ["gf" +++ x | x <- vars] ++ "]"
+   mkRHS f vars = "mkApp (mkCId \"" ++ f ++ "\")" +++
+       "[" ++ prTList ", " ["gf" +++ x | x <- vars] ++ "]"
 
+mkVars :: Int -> [String]
 mkVars = mkSVars "x"
+
+mkSVars :: String -> Int -> [String]
 mkSVars s n = [s ++ show i | i <- [1..n]]
 
 ----fInstance m ("Cn",_) = "" ---
 fInstance _ _ m (cat,[]) = ""
 fInstance gId lexical m (cat,rules) =
   "  fg t =" ++++
-  (if isList 
+  (if isList
     then "    " ++ gId cat ++ " (fgs t) where\n     fgs t = case unApp t of"
     else "    case unApp t of") ++++
   unlines [mkInst f xx | (f,xx) <- nonLexicalRules (lexical cat) rules] ++++
@@ -257,27 +266,28 @@ fInstance gId lexical m (cat,rules) =
      "      Just (i," ++
      "[" ++ prTList "," xx' ++ "])" +++
      "| i == mkCId \"" ++ f ++ "\" ->" +++ mkRHS f xx'
-       where xx' = ["x" ++ show i | (_,i) <- zip xx [1..]]
-	     mkRHS f vars 
-		 | isList =
-		     if "Base" `isPrefixOf` f 
-                       then "[" ++ prTList ", " [ "fg" +++ x | x <- vars ] ++ "]"
-		       else "fg" +++ (vars !! 0) +++ ":" +++ "fgs" +++ (vars !! 1)
-		 | otherwise = 
-		     gId f +++  
-		     prTList " " [prParenth ("fg" +++ x) | x <- vars]
+       where
+         xx' = ["x" ++ show i | (_,i) <- zip xx [1..]]
+         mkRHS f vars
+           | isList =
+               if "Base" `isPrefixOf` f
+                             then "[" ++ prTList ", " [ "fg" +++ x | x <- vars ] ++ "]"
+                 else "fg" +++ (vars !! 0) +++ ":" +++ "fgs" +++ (vars !! 1)
+           | otherwise =
+               gId f +++
+               prTList " " [prParenth ("fg" +++ x) | x <- vars]
 
 --type HSkeleton = [(OIdent, [(OIdent, [OIdent])])]
 hSkeleton :: PGF -> (String,HSkeleton)
-hSkeleton gr = 
-  (showCId (absname gr), 
-   let fs = 
-         [(showCId c, [(showCId f, map showCId cs) | (f, (cs,_)) <- fs]) | 
+hSkeleton gr =
+  (showCId (absname gr),
+   let fs =
+         [(showCId c, [(showCId f, map showCId cs) | (f, (cs,_)) <- fs]) |
                                         fs@((_, (_,c)):_) <- fns]
-   in fs ++ [(sc, []) | c <- cts, let sc = showCId c, notElem sc (["Int", "Float", "String"] ++ map fst fs)]
+   in fs ++ [(sc, []) | c <- cts, let sc = showCId c, sc `notElem` (["Int", "Float", "String"] ++ map fst fs)]
   )
  where
-   cts = Map.keys (cats (abstract gr)) 
+   cts = Map.keys (cats (abstract gr))
    fns = groupBy valtypg (sortBy valtyps (map jty (Map.assocs (funs (abstract gr)))))
    valtyps (_, (_,x)) (_, (_,y)) = compare x y
    valtypg (_, (_,x)) (_, (_,y)) = x == y
@@ -291,9 +301,10 @@ updateSkeleton cat skel rule =
 -}
 isListCat :: (OIdent, [(OIdent, [OIdent])]) -> Bool
 isListCat (cat,rules) = "List" `isPrefixOf` cat && length rules == 2
-		    && ("Base"++c) `elem` fs && ("Cons"++c) `elem` fs
-    where c = elemCat cat
-	  fs = map fst rules
+        && ("Base"++c) `elem` fs && ("Cons"++c) `elem` fs
+    where
+      c = elemCat cat
+      fs = map fst rules
 
 -- | Gets the element category of a list category.
 elemCat :: OIdent -> OIdent
@@ -310,7 +321,7 @@ baseSize (_,rules) = length bs
     where Just (_,bs) = find (("Base" `isPrefixOf`) . fst) rules
 
 composClass :: [String]
-composClass = 
+composClass =
     [
      "",
      "class Compos t where",
@@ -337,4 +348,3 @@ composClass =
      "",
      "newtype C b a = C { unC :: b }"
     ]
-

src/compiler/GF/Compile/Rename.hs

@@ -5,7 +5,7 @@
 -- Stability   : (stable)
 -- Portability : (portable)
 --
--- > CVS $Date: 2005/05/30 18:39:44 $ 
+-- > CVS $Date: 2005/05/30 18:39:44 $
 -- > CVS $Author: aarne $
 -- > CVS $Revision: 1.19 $
 --
@@ -23,9 +23,9 @@
 -----------------------------------------------------------------------------
 
 module GF.Compile.Rename (
-	       renameSourceTerm,
-	       renameModule
-	      ) where
+     renameSourceTerm,
+     renameModule
+    ) where
 
 import GF.Infra.Ident
 import GF.Infra.CheckM
@@ -39,6 +39,7 @@ import GF.Data.Operations
 
 import Control.Monad
 import Data.List (nub,(\\))
+import qualified Data.List as L
 import qualified Data.Map as Map
 import Data.Maybe(mapMaybe)
 import GF.Text.Pretty
@@ -67,7 +68,7 @@ renameIdentTerm env = accumulateError (renameIdentTerm' env)
 
 -- Fails immediately on error, makes it possible to try other possibilities
 renameIdentTerm' :: Status -> Term -> Check Term
-renameIdentTerm' env@(act,imps) t0 = 
+renameIdentTerm' env@(act,imps) t0 =
   case t0 of
     Vr c -> ident predefAbs c
     Cn c -> ident (\_ s -> checkError s) c
@@ -84,8 +85,8 @@ renameIdentTerm' env@(act,imps) t0 =
     _ -> return t0
   where
     opens   = [st  | (OSimple _,st) <- imps]
-    qualifs = [(m, st) | (OQualif m _, st) <- imps] ++ 
-              [(m, st) | (OQualif _ m, st) <- imps] ++ 
+    qualifs = [(m, st) | (OQualif m _, st) <- imps] ++
+              [(m, st) | (OQualif _ m, st) <- imps] ++
               [(m, st) | (OSimple m, st) <- imps] -- qualif is always possible
 
     -- this facility is mainly for BWC with GF1: you need not import PredefAbs
@@ -93,7 +94,7 @@ renameIdentTerm' env@(act,imps) t0 =
       | isPredefCat c = return (Q (cPredefAbs,c))
       | otherwise     = checkError s
 
-    ident alt c = 
+    ident alt c =
       case Map.lookup c act of
         Just f -> return (f c)
         _      -> case mapMaybe (Map.lookup c) opens of
@@ -105,7 +106,26 @@ renameIdentTerm' env@(act,imps) t0 =
                               ts@(t:_) -> do checkWarn ("atomic term" <+> ppTerm Qualified 0 t0 $$
                                                         "conflict" <+> hsep (punctuate ',' (map (ppTerm Qualified 0) ts)) $$
                                                         "given" <+> fsep (punctuate ',' (map fst qualifs)))
-                                             return t
+                                             return (bestTerm ts) -- Heuristic for resource grammar. Returns t for all others.
+       where
+        -- Hotfix for https://github.com/GrammaticalFramework/gf-core/issues/56
+        -- Real bug is probably somewhere deeper in recognising excluded functions. /IL 2020-06-06
+        notFromCommonModule :: Term -> Bool
+        notFromCommonModule term =
+          let t = render $ ppTerm Qualified 0 term :: String
+           in not $ any (\moduleName -> moduleName `L.isPrefixOf` t)
+                        ["CommonX", "ConstructX", "ExtendFunctor"
+                        ,"MarkHTMLX", "ParamX", "TenseX", "TextX"]
+
+        -- If one of the terms comes from the common modules,
+        -- we choose the other one, because that's defined in the grammar.
+        bestTerm :: [Term] -> Term
+        bestTerm [] = error "constant not found" -- not reached: bestTerm is only called for case ts@(t:_)
+        bestTerm ts@(t:_) =
+          let notCommon = [t | t <- ts, notFromCommonModule t]
+           in case notCommon of
+                []    -> t -- All terms are from common modules, return first of original list
+                (u:_) -> u -- ≥1 terms are not from common modules, return first of those
 
 info2status :: Maybe ModuleName -> Ident -> Info -> StatusInfo
 info2status mq c i = case i of
@@ -137,7 +157,7 @@ modInfo2status (o,mo) = (o,tree2status o (jments mo))
 self2status :: ModuleName -> ModuleInfo -> StatusMap
 self2status c m = Map.mapWithKey (info2status (Just c)) (jments m)
 
-  
+
 renameInfo :: FilePath -> Status -> Module -> Ident -> Info -> Check Info
 renameInfo cwd status (m,mi) i info =
   case info of
@@ -188,7 +208,7 @@ renameTerm env vars = ren vars where
     Abs b x t    -> liftM  (Abs b x) (ren (x:vs) t)
     Prod bt x a b -> liftM2 (Prod bt x) (ren vs a) (ren (x:vs) b)
     Typed a b  -> liftM2 Typed (ren vs a) (ren vs b)
-    Vr x      
+    Vr x
       | elem x vs -> return trm
       | otherwise -> renid trm
     Cn _   -> renid trm
@@ -199,7 +219,7 @@ renameTerm env vars = ren vars where
       i' <- case i of
         TTyped ty -> liftM TTyped $ ren vs ty -- the only annotation in source
         _ -> return i
-      liftM (T i') $ mapM (renCase vs) cs  
+      liftM (T i') $ mapM (renCase vs) cs
 
     Let (x,(m,a)) b -> do
       m' <- case m of
@@ -209,7 +229,7 @@ renameTerm env vars = ren vars where
       b' <- ren (x:vs) b
       return $ Let (x,(m',a')) b'
 
-    P t@(Vr r) l                                               -- Here we have $r.l$ and this is ambiguous it could be either 
+    P t@(Vr r) l                                               -- Here we have $r.l$ and this is ambiguous it could be either
                                                                -- record projection from variable or constant $r$ or qualified expression with module $r$
       | elem r vs -> return trm                                -- try var proj first ..
       | otherwise -> checks [ renid' (Q (MN r,label2ident l))      -- .. and qualified expression second.
@@ -311,7 +331,7 @@ renamePattern env patt =
 renameContext :: Status -> Context -> Check Context
 renameContext b = renc [] where
   renc vs cont = case cont of
-    (bt,x,t) : xts 
+    (bt,x,t) : xts
       | isWildIdent x -> do
           t'   <- ren vs t
           xts' <- renc vs xts

src/compiler/GF/Compile/TypeCheck/Abstract.hs

@@ -5,7 +5,7 @@
 -- Stability   : (stable)
 -- Portability : (portable)
 --
--- > CVS $Date: 2005/09/15 16:22:02 $ 
+-- > CVS $Date: 2005/09/15 16:22:02 $
 -- > CVS $Author: aarne $
 -- > CVS $Revision: 1.16 $
 --
@@ -13,11 +13,11 @@
 -----------------------------------------------------------------------------
 
 module GF.Compile.TypeCheck.Abstract (-- * top-level type checking functions; TC should not be called directly.
-		  checkContext,
-		  checkTyp,
-		  checkDef,
-		  checkConstrs,
-		 ) where
+    checkContext,
+    checkTyp,
+    checkDef,
+    checkConstrs,
+   ) where
 
 import GF.Data.Operations
 
@@ -33,8 +33,8 @@ import GF.Text.Pretty
 --import Control.Monad (foldM, liftM, liftM2)
 
 -- | invariant way of creating TCEnv from context
-initTCEnv gamma = 
-  (length gamma,[(x,VGen i x) | ((x,_),i) <- zip gamma [0..]], gamma) 
+initTCEnv gamma =
+  (length gamma,[(x,VGen i x) | ((x,_),i) <- zip gamma [0..]], gamma)
 
 -- interface to TC type checker
 

src/compiler/GF/Compile/TypeCheck/Concrete.hs

@@ -1,6 +1,7 @@
 {-# LANGUAGE PatternGuards #-}
-module GF.Compile.TypeCheck.Concrete( {-checkLType, inferLType, computeLType, ppType-} ) where
-{-
+module GF.Compile.TypeCheck.Concrete( checkLType, inferLType, computeLType, ppType ) where
+import Prelude hiding ((<>)) -- GHC 8.4.1 clash with Text.PrettyPrint
+
 import GF.Infra.CheckM
 import GF.Data.Operations
 
@@ -22,10 +23,16 @@ computeLType gr g0 t = comp (reverse [(b,x, Vr x) | (b,x,_) <- g0] ++ g0) t
     _ | Just _ <- isTypeInts ty -> return ty ---- shouldn't be needed
       | isPredefConstant ty     -> return ty ---- shouldn't be needed
 
-    Q (m,ident) -> checkIn (text "module" <+> ppIdent m) $ do
+    Q (m,ident) -> checkIn ("module" <+> m) $ do
       ty' <- lookupResDef gr (m,ident)
       if ty' == ty then return ty else comp g ty' --- is this necessary to test?
 
+    AdHocOverload ts -> do
+     over <- getOverload gr g (Just typeType) t
+     case over of
+       Just (tr,_) -> return tr
+       _ -> checkError ("unresolved overloading of constants" <+> ppTerm Qualified 0 t)
+
     Vr ident  -> checkLookup ident g -- never needed to compute!
 
     App f a -> do
@@ -62,7 +69,6 @@ computeLType gr g0 t = comp (reverse [(b,x, Vr x) | (b,x,_) <- g0] ++ g0) t
       lockRecType c t' ---- locking to be removed AR 20/6/2009
 
     _ | ty == typeTok -> return typeStr
-    _ | isPredefConstant ty -> return ty
 
     _ -> composOp (comp g) ty
 
@@ -73,26 +79,26 @@ inferLType gr g trm = case trm of
 
    Q (m,ident) | isPredef m -> termWith trm $ case typPredefined ident of
                                                 Just ty -> return ty
-                                                Nothing -> checkError (text "unknown in Predef:" <+> ppIdent ident)
+                                                Nothing -> checkError ("unknown in Predef:" <+> ident)
 
    Q ident -> checks [
      termWith trm $ lookupResType gr ident >>= computeLType gr g
      ,
      lookupResDef gr ident >>= inferLType gr g
      ,
-     checkError (text "cannot infer type of constant" <+> ppTerm Unqualified 0 trm)
+     checkError ("cannot infer type of constant" <+> ppTerm Unqualified 0 trm)
      ]
 
    QC (m,ident) | isPredef m -> termWith trm $ case typPredefined ident of
                                                  Just ty -> return ty
-                                                 Nothing -> checkError (text "unknown in Predef:" <+> ppIdent ident)
+                                                 Nothing -> checkError ("unknown in Predef:" <+> ident)
 
    QC ident -> checks [
        termWith trm $ lookupResType gr ident >>= computeLType gr g
        ,
        lookupResDef gr ident >>= inferLType gr g
        ,
-       checkError (text "cannot infer type of canonical constant" <+> ppTerm Unqualified 0 trm)
+       checkError ("cannot infer type of canonical constant" <+> ppTerm Unqualified 0 trm)
        ]
 
    Vr ident -> termWith trm $ checkLookup ident g
@@ -100,7 +106,12 @@ inferLType gr g trm = case trm of
    Typed e t -> do
      t' <- computeLType gr g t
      checkLType gr g e t'
-     return (e,t')
+
+   AdHocOverload ts -> do
+     over <- getOverload gr g Nothing trm
+     case over of
+       Just trty -> return trty
+       _ -> checkError ("unresolved overloading of constants" <+> ppTerm Qualified 0 trm)
 
    App f a -> do
      over <- getOverload gr g Nothing trm
@@ -110,13 +121,17 @@ inferLType gr g trm = case trm of
          (f',fty) <- inferLType gr g f
          fty' <- computeLType gr g fty
          case fty' of
-           Prod bt z arg val -> do 
+           Prod bt z arg val -> do
              a' <- justCheck g a arg
-             ty <- if isWildIdent z 
+             ty <- if isWildIdent z
                       then return val
                       else substituteLType [(bt,z,a')] val
-             return (App f' a',ty) 
-           _ -> checkError (text "A function type is expected for" <+> ppTerm Unqualified 0 f <+> text "instead of type" <+> ppType fty)
+             return (App f' a',ty)
+           _ ->
+             let term = ppTerm Unqualified 0 f
+                 funName = pp . head . words .render $ term
+              in checkError ("A function type is expected for" <+> term <+> "instead of type" <+> ppType fty $$
+                             "\n   ** Maybe you gave too many arguments to" <+> funName <+> "\n")
 
    S f x -> do
      (f', fty) <- inferLType gr g f
@@ -124,7 +139,7 @@ inferLType gr g trm = case trm of
        Table arg val -> do
          x'<- justCheck g x arg
          return (S f' x', val)
-       _ -> checkError (text "table lintype expected for the table in" $$ nest 2 (ppTerm Unqualified 0 trm))
+       _ -> checkError ("table lintype expected for the table in" $$ nest 2 (ppTerm Unqualified 0 trm))
 
    P t i -> do
      (t',ty) <- inferLType gr g t   --- ??
@@ -132,16 +147,16 @@ inferLType gr g trm = case trm of
      let tr2 = P t' i
      termWith tr2 $ case ty' of
        RecType ts -> case lookup i ts of
-                       Nothing -> checkError (text "unknown label" <+> ppLabel i <+> text "in" $$ nest 2 (ppTerm Unqualified 0 ty'))
+                       Nothing -> checkError ("unknown label" <+> i <+> "in" $$ nest 2 (ppTerm Unqualified 0 ty'))
                        Just x  -> return x
-       _          -> checkError (text "record type expected for:" <+> ppTerm Unqualified 0 t $$
-                                 text " instead of the inferred:" <+> ppTerm Unqualified 0 ty')
+       _          -> checkError ("record type expected for:" <+> ppTerm Unqualified 0 t $$
+                                 " instead of the inferred:" <+> ppTerm Unqualified 0 ty')
 
    R r -> do
      let (ls,fs) = unzip r
      fsts <- mapM inferM fs
      let ts = [ty | (Just ty,_) <- fsts]
-     checkCond (text "cannot infer type of record" $$ nest 2 (ppTerm Unqualified 0 trm)) (length ts == length fsts)
+     checkCond ("cannot infer type of record" $$ nest 2 (ppTerm Unqualified 0 trm)) (length ts == length fsts)
      return $ (R (zip ls fsts), RecType (zip ls ts))
 
    T (TTyped arg) pts -> do
@@ -152,10 +167,10 @@ inferLType gr g trm = case trm of
      checkLType gr g trm (Table arg val)
    T ti pts -> do  -- tries to guess: good in oper type inference
      let pts' = [pt | pt@(p,_) <- pts, isConstPatt p]
-     case pts' of 
-       [] -> checkError (text "cannot infer table type of" <+> ppTerm Unqualified 0 trm)
-----       PInt k : _ -> return $ Ints $ max [i | PInt i <- pts'] 
-       _  -> do 
+     case pts' of
+       [] -> checkError ("cannot infer table type of" <+> ppTerm Unqualified 0 trm)
+----       PInt k : _ -> return $ Ints $ max [i | PInt i <- pts']
+       _  -> do
          (arg,val) <- checks $ map (inferCase Nothing) pts'
          checkLType gr g trm (Table arg val)
    V arg pts -> do
@@ -166,9 +181,9 @@ inferLType gr g trm = case trm of
    K s  -> do
      if elem ' ' s
         then do
-          let ss = foldr C Empty (map K (words s))  
+          let ss = foldr C Empty (map K (words s))
           ----- removed irritating warning AR 24/5/2008
-          ----- checkWarn ("token \"" ++ s ++ 
+          ----- checkWarn ("token \"" ++ s ++
           -----              "\" converted to token list" ++ prt ss)
           return (ss, typeStr)
         else return (trm, typeStr)
@@ -179,50 +194,56 @@ inferLType gr g trm = case trm of
 
    Empty -> return (trm, typeStr)
 
-   C s1 s2 -> 
+   C s1 s2 ->
      check2 (flip (justCheck g) typeStr) C s1 s2 typeStr
 
-   Glue s1 s2 -> 
+   Glue s1 s2 ->
      check2 (flip (justCheck g) typeStr) Glue s1 s2 typeStr ---- typeTok
 
 ---- hack from Rename.identRenameTerm, to live with files with naming conflicts 18/6/2007
    Strs (Cn c : ts) | c == cConflict -> do
-     checkWarn (text "unresolved constant, could be any of" <+> hcat (map (ppTerm Unqualified 0) ts))
+     checkWarn ("unresolved constant, could be any of" <+> hcat (map (ppTerm Unqualified 0) ts))
      inferLType gr g (head ts)
 
    Strs ts -> do
-     ts' <- mapM (\t -> justCheck g t typeStr) ts 
+     ts' <- mapM (\t -> justCheck g t typeStr) ts
      return (Strs ts', typeStrs)
 
    Alts t aa -> do
      t'  <- justCheck g t typeStr
      aa' <- flip mapM aa (\ (c,v) -> do
-        c' <- justCheck g c typeStr 
+        c' <- justCheck g c typeStr
         v' <- checks $ map (justCheck g v) [typeStrs, EPattType typeStr]
         return (c',v'))
      return (Alts t' aa', typeStr)
 
    RecType r -> do
      let (ls,ts) = unzip r
-     ts' <- mapM (flip (justCheck g) typeType) ts 
+     ts' <- mapM (flip (justCheck g) typeType) ts
      return (RecType (zip ls ts'), typeType)
 
    ExtR r s -> do
-     (r',rT) <- inferLType gr g r 
+
+---     over <- getOverload gr g Nothing r
+---     let r1 = maybe r fst over
+     let r1 = r ---
+
+     (r',rT) <- inferLType gr g r1
      rT'     <- computeLType gr g rT
+
      (s',sT) <- inferLType gr g s
      sT'     <- computeLType gr g sT
 
      let trm' = ExtR r' s'
-     ---- trm'    <- plusRecord r' s'
      case (rT', sT') of
        (RecType rs, RecType ss) -> do
-         rt <- plusRecType rT' sT'
+         let rt = RecType ([field | field@(l,_) <- rs, notElem l (map fst ss)] ++ ss) -- select types of later fields
          checkLType gr g trm' rt ---- return (trm', rt)
-       _ | rT' == typeType && sT' == typeType -> return (trm', typeType)
-       _ -> checkError (text "records or record types expected in" <+> ppTerm Unqualified 0 trm)
+       _ | rT' == typeType && sT' == typeType -> do
+         return (trm', typeType)
+       _ -> checkError ("records or record types expected in" <+> ppTerm Unqualified 0 trm)
 
-   Sort _     -> 
+   Sort _     ->
      termWith trm $ return typeType
 
    Prod bt x a b -> do
@@ -231,7 +252,7 @@ inferLType gr g trm = case trm of
      return (Prod bt x a' b', typeType)
 
    Table p t  -> do
-     p' <- justCheck g p typeType --- check p partype! 
+     p' <- justCheck g p typeType --- check p partype!
      t' <- justCheck g t typeType
      return $ (Table p' t', typeType)
 
@@ -250,9 +271,9 @@ inferLType gr g trm = case trm of
    ELin c trm -> do
      (trm',ty) <- inferLType gr g trm
      ty' <- lockRecType c ty ---- lookup c; remove lock AR 20/6/2009
-     return $ (ELin c trm', ty') 
+     return $ (ELin c trm', ty')
 
-   _ -> checkError (text "cannot infer lintype of" <+> ppTerm Unqualified 0 trm)
+   _ -> checkError ("cannot infer lintype of" <+> ppTerm Unqualified 0 trm)
 
  where
    isPredef m = elem m [cPredef,cPredefAbs]
@@ -299,7 +320,6 @@ inferLType gr g trm = case trm of
      PChars _ -> return $ typeStr
      _ -> inferLType gr g (patt2term p) >>= return . snd
 
-
 -- type inference: Nothing, type checking: Just t
 -- the latter permits matching with value type
 getOverload :: SourceGrammar -> Context -> Maybe Type -> Term -> Check (Maybe (Term,Type))
@@ -310,15 +330,28 @@ getOverload gr g mt ot = case appForm ot of
          v <- matchOverload f typs ttys
          return $ Just v
        _ -> return Nothing
+     (AdHocOverload cs@(f:_), ts) -> do     --- the function name f is only used in error messages
+       let typs = concatMap collectOverloads cs
+       ttys <- mapM (inferLType gr g) ts
+       v <- matchOverload f typs ttys
+       return $ Just v
      _ -> return Nothing
+
  where
+   collectOverloads tr@(Q c) = case lookupOverload gr c of
+     Ok typs -> typs
+     _ -> case lookupResType gr c of
+       Ok ty -> let (args,val) = typeFormCnc ty in [(map (\(b,x,t) -> t) args,(val,tr))]
+       _ -> []
+   collectOverloads _ = [] --- constructors QC
+
    matchOverload f typs ttys = do
      let (tts,tys) = unzip ttys
      let vfs = lookupOverloadInstance tys typs
      let matches = [vf | vf@((_,v,_),_) <- vfs, matchVal mt v]
      let showTypes ty = hsep (map ppType ty)
 
-    
+
      let (stys,styps) = (showTypes tys, [showTypes ty | (ty,_) <- typs])
 
      -- to avoid strange error msg e.g. in case of unmatch record extension, show whole types if needed AR 28/1/2013
@@ -329,50 +362,57 @@ getOverload gr g mt ot = case appForm ot of
      case ([vf | (vf,True) <- matches],[vf | (vf,False) <- matches]) of
        ([(_,val,fun)],_) -> return (mkApp fun tts, val)
        ([],[(pre,val,fun)]) -> do
-         checkWarn $  text "ignoring lock fields in resolving" <+> ppTerm Unqualified 0 ot $$
-                      text "for" $$
+         checkWarn $  "ignoring lock fields in resolving" <+> ppTerm Unqualified 0 ot $$
+                      "for" $$
                       nest 2 (showTypes tys) $$
-                      text "using" $$
+                      "using" $$
                       nest 2 (showTypes pre)
          return (mkApp fun tts, val)
        ([],[]) -> do
-         checkError $ text "no overload instance of" <+> ppTerm Unqualified 0 f $$
-                      text "for" $$
+         checkError $ "no overload instance of" <+> ppTerm Qualified 0 f $$
+                      maybe empty (\x -> "with value type" <+> ppType x) mt $$
+                      "for argument list" $$
                       nest 2 stysError $$
-                      text "among" $$
-                      nest 2 (vcat stypsError) $$
-                      maybe empty (\x -> text "with value type" <+> ppType x) mt
+                      "among alternatives" $$
+                      nest 2 (vcat stypsError)
+
 
        (vfs1,vfs2) -> case (noProds vfs1,noProds vfs2) of
          ([(val,fun)],_) -> do
            return (mkApp fun tts, val)
          ([],[(val,fun)]) -> do
-           checkWarn (text "ignoring lock fields in resolving" <+> ppTerm Unqualified 0 ot) 
+           checkWarn ("ignoring lock fields in resolving" <+> ppTerm Unqualified 0 ot)
            return (mkApp fun tts, val)
 
 ----- unsafely exclude irritating warning AR 24/5/2008
------           checkWarn $ "overloading of" +++ prt f +++ 
+-----           checkWarn $ "overloading of" +++ prt f +++
 -----             "resolved by excluding partial applications:" ++++
 -----             unlines [prtType env ty | (ty,_) <- vfs', not (noProd ty)]
 
-
-         _ -> checkError $ text "ambiguous overloading of" <+> ppTerm Unqualified 0 f <+>
-                           text "for" <+> hsep (map ppType tys) $$ 
-                           text "with alternatives" $$
-                           nest 2 (vcat [ppType ty | (_,ty,_) <- if null vfs1 then vfs2 else vfs2])
+--- now forgiving ambiguity with a warning AR 1/2/2014
+--  This gives ad hoc overloading the same behaviour as the choice of the first match in renaming did before.
+--  But it also gives a chance to ambiguous overloadings that were banned before.
+         (nps1,nps2) -> do
+              checkWarn $  "ambiguous overloading of" <+> ppTerm Unqualified 0 f <+>
+                  ----     "with argument types" <+> hsep (map (ppTerm Qualified 0) tys) $$
+                           "resolved by selecting the first of the alternatives" $$
+                           nest 2 (vcat [ppTerm Qualified 0 fun | (_,ty,fun) <- vfs1 ++ if null vfs1 then vfs2 else []])
+              case [(mkApp fun tts,val) | (val,fun) <- nps1 ++ nps2] of
+                 [] -> checkError $ "no alternatives left when resolving" <+> ppTerm Unqualified 0 f
+                 h:_ -> return h
 
    matchVal mt v = elem mt [Nothing,Just v,Just (unlocked v)]
 
    unlocked v = case v of
-     RecType fs -> RecType $ filter (not . isLockLabel . fst) fs
+     RecType fs -> RecType $ filter (not . isLockLabel . fst) (sortRec fs)
      _ -> v
    ---- TODO: accept subtypes
    ---- TODO: use a trie
-   lookupOverloadInstance tys typs = 
-     [((pre,mkFunType rest val, t),isExact) | 
+   lookupOverloadInstance tys typs =
+     [((pre,mkFunType rest val, t),isExact) |
        let lt = length tys,
        (ty,(val,t)) <- typs, length ty >= lt,
-       let (pre,rest) = splitAt lt ty, 
+       let (pre,rest) = splitAt lt ty,
        let isExact = pre == tys,
        isExact || map unlocked pre == map unlocked tys
      ]
@@ -385,20 +425,21 @@ getOverload gr g mt ot = case appForm ot of
 
 checkLType :: SourceGrammar -> Context -> Term -> Type -> Check (Term, Type)
 checkLType gr g trm typ0 = do
-
   typ <- computeLType gr g typ0
 
   case trm of
 
     Abs bt x c -> do
       case typ of
-        Prod bt' z a b -> do 
+        Prod bt' z a b -> do
           (c',b') <- if isWildIdent z
                        then checkLType gr ((bt,x,a):g) c b
-                       else do b' <- checkIn (text "abs") $ substituteLType [(bt',z,Vr x)] b
+                       else do b' <- checkIn (pp "abs") $ substituteLType [(bt',z,Vr x)] b
                                checkLType gr ((bt,x,a):g) c b'
-          return $ (Abs bt x c', Prod bt' x a b')
-        _ -> checkError $ text "function type expected instead of" <+> ppType typ
+          return $ (Abs bt x c', Prod bt' z a b')
+        _ -> checkError $ "function type expected instead of" <+> ppType typ $$
+                          "\n   ** Double-check that the type signature of the operation" $$
+                          "matches the number of arguments given to it.\n"
 
     App f a -> do
        over <- getOverload gr g (Just typ) trm
@@ -408,6 +449,12 @@ checkLType gr g trm typ0 = do
           (trm',ty') <- inferLType gr g trm
           termWith trm' $ checkEqLType gr g typ ty' trm'
 
+    AdHocOverload ts -> do
+      over <- getOverload gr g Nothing trm
+      case over of
+        Just trty -> return trty
+        _ -> checkError ("unresolved overloading of constants" <+> ppTerm Qualified 0 trm)
+
     Q _ -> do
        over <- getOverload gr g (Just typ) trm
        case over of
@@ -417,21 +464,21 @@ checkLType gr g trm typ0 = do
           termWith trm' $ checkEqLType gr g typ ty' trm'
 
     T _ [] ->
-      checkError (text "found empty table in type" <+> ppTerm Unqualified 0 typ)
-    T _ cs -> case typ of 
-      Table arg val -> do 
+      checkError ("found empty table in type" <+> ppTerm Unqualified 0 typ)
+    T _ cs -> case typ of
+      Table arg val -> do
         case allParamValues gr arg of
           Ok vs -> do
             let ps0 = map fst cs
             ps <- testOvershadow ps0 vs
-            if null ps 
-              then return () 
-              else checkWarn (text "patterns never reached:" $$
+            if null ps
+              then return ()
+              else checkWarn ("patterns never reached:" $$
                               nest 2 (vcat (map (ppPatt Unqualified 0) ps)))
           _ -> return () -- happens with variable types
         cs' <- mapM (checkCase arg val) cs
         return (T (TTyped arg) cs', typ)
-      _ -> checkError $ text "table type expected for table instead of" $$ nest 2 (ppType typ)
+      _ -> checkError $ "table type expected for table instead of" $$ nest 2 (ppType typ)
     V arg0 vs ->
       case typ of
         Table arg1 val ->
@@ -439,51 +486,54 @@ checkLType gr g trm typ0 = do
               vs1 <- allParamValues gr arg1
               if length vs1 == length vs
                  then return ()
-                 else checkError $ text "wrong number of values in table" <+> ppTerm Unqualified 0 trm
+                 else checkError $ "wrong number of values in table" <+> ppTerm Unqualified 0 trm
               vs' <- map fst `fmap` sequence [checkLType gr g v val|v<-vs]
               return (V arg' vs',typ)
 
     R r -> case typ of --- why needed? because inference may be too difficult
        RecType rr -> do
-         let (ls,_) = unzip rr        -- labels of expected type
+       --let (ls,_) = unzip rr        -- labels of expected type
          fsts <- mapM (checkM r) rr   -- check that they are found in the record
          return $ (R fsts, typ)       -- normalize record
 
-       _ -> checkError (text "record type expected in type checking instead of" $$ nest 2 (ppTerm Unqualified 0 typ))
+       _ -> checkError ("record type expected in type checking instead of" $$ nest 2 (ppTerm Unqualified 0 typ))
 
     ExtR r s -> case typ of
        _ | typ == typeType -> do
          trm' <- computeLType gr g trm
          case trm' of
-           RecType _ -> termWith trm $ return typeType
-           ExtR (Vr _) (RecType _) -> termWith trm $ return typeType 
+           RecType _ -> termWith trm' $ return typeType
+           ExtR (Vr _) (RecType _) -> termWith trm' $ return typeType
                                       -- ext t = t ** ...
-           _ -> checkError (text "invalid record type extension" <+> nest 2 (ppTerm Unqualified 0 trm))
+           _ -> checkError ("invalid record type extension" <+> nest 2 (ppTerm Unqualified 0 trm))
 
        RecType rr -> do
-         (r',ty,s') <- checks [
-            do (r',ty) <- inferLType gr g r
-               return (r',ty,s)
-           ,
-            do (s',ty) <- inferLType gr g s
-               return (s',ty,r)
-           ]
 
-         case ty of
-           RecType rr1 -> do
-                let (rr0,rr2) = recParts rr rr1
-                r2 <- justCheck g r' rr0
-                s2 <- justCheck g s' rr2
-                return $ (ExtR r2 s2, typ) 
-           _ -> checkError (text "record type expected in extension of" <+> ppTerm Unqualified 0 r $$
-                            text "but found" <+> ppTerm Unqualified 0 ty)
+         ll2 <- case s of
+           R ss -> return $ map fst ss
+           _ -> do
+             (s',typ2) <- inferLType gr g s
+             case typ2 of
+               RecType ss -> return $ map fst ss
+               _ ->  checkError ("cannot get labels from" $$ nest 2 (ppTerm Unqualified 0 typ2))
+         let ll1 = [l | (l,_) <- rr, notElem l ll2]
+
+---         over <- getOverload gr g Nothing r --- this would solve #66 but fail ParadigmsAra. AR 6/7/2020
+---         let r1 = maybe r fst over
+         let r1 = r ---
+
+         (r',_) <- checkLType gr g r1 (RecType [field | field@(l,_) <- rr, elem l ll1])
+         (s',_) <- checkLType gr g s  (RecType [field | field@(l,_) <- rr, elem l ll2])
+
+         let rec = R ([(l,(Nothing,P r' l)) | l <- ll1] ++ [(l,(Nothing,P s' l)) | l <- ll2])
+         return (rec, typ)
 
        ExtR ty ex -> do
          r' <- justCheck g r ty
          s' <- justCheck g s ex
          return $ (ExtR r' s', typ) --- is this all? it assumes the same division in trm and typ
 
-       _ -> checkError (text "record extension not meaningful for" <+> ppTerm Unqualified 0 typ)
+       _ -> checkError ("record extension not meaningful for" <+> ppTerm Unqualified 0 typ)
 
     FV vs -> do
       ttys <- mapM (flip (checkLType gr g) typ) vs
@@ -498,7 +548,7 @@ checkLType gr g trm typ0 = do
           (arg',val) <- checkLType gr g arg p
           checkEqLType gr g typ t trm
           return (S tab' arg', t)
-        _ -> checkError (text "table type expected for applied table instead of" <+> ppType ty')
+        _ -> checkError ("table type expected for applied table instead of" <+> ppType ty')
      , do
       (arg',ty) <- inferLType gr g arg
       ty'       <- computeLType gr g ty
@@ -507,7 +557,8 @@ checkLType gr g trm typ0 = do
       ]
     Let (x,(mty,def)) body -> case mty of
       Just ty -> do
-        (def',ty') <- checkLType gr g def ty
+        (ty0,_)    <- checkLType gr g ty typeType
+        (def',ty') <- checkLType gr g def ty0
         body' <- justCheck ((Explicit,x,ty'):g) body typ
         return (Let (x,(Just ty',def')) body', typ)
       _ -> do
@@ -523,10 +574,10 @@ checkLType gr g trm typ0 = do
       termWith trm' $ checkEqLType gr g typ ty' trm'
  where
    justCheck g ty te = checkLType gr g ty te >>= return . fst
-
-   recParts rr t = (RecType rr1,RecType rr2) where 
-     (rr1,rr2) = partition (flip elem (map fst t) . fst) rr 
-
+{-
+   recParts rr t = (RecType rr1,RecType rr2) where
+     (rr1,rr2) = partition (flip elem (map fst t) . fst) rr
+-}
    checkM rms (l,ty) = case lookup l rms of
      Just (Just ty0,t) -> do
        checkEqLType gr g ty ty0 t
@@ -535,12 +586,12 @@ checkLType gr g trm typ0 = do
      Just (_,t) -> do
        (t',ty') <- checkLType gr g t ty
        return (l,(Just ty',t'))
-     _ -> checkError $ 
-            if isLockLabel l 
+     _ -> checkError $
+            if isLockLabel l
               then let cat = drop 5 (showIdent (label2ident l))
-                   in ppTerm Unqualified 0 (R rms) <+> text "is not in the lincat of" <+> text cat <> 
-                      text "; try wrapping it with lin" <+> text cat
-              else text "cannot find value for label" <+> ppLabel l <+> text "in" <+> ppTerm Unqualified 0 (R rms)
+                   in ppTerm Unqualified 0 (R rms) <+> "is not in the lincat of" <+> cat <>
+                      "; try wrapping it with lin" <+> cat
+              else "cannot find value for label" <+> l <+> "in" <+> ppTerm Unqualified 0 (R rms)
 
    checkCase arg val (p,t) = do
      cont <- pattContext gr g arg p
@@ -553,7 +604,7 @@ pattContext env g typ p = case p of
   PP (q,c) ps | q /= cPredef -> do ---- why this /=? AR 6/1/2006
     t <- lookupResType env (q,c)
     let (cont,v) = typeFormCnc t
-    checkCond (text "wrong number of arguments for constructor in" <+> ppPatt Unqualified 0 p) 
+    checkCond ("wrong number of arguments for constructor in" <+> ppPatt Unqualified 0 p)
               (length cont == length ps)
     checkEqLType env g typ v (patt2term p)
     mapM (\((_,_,ty),p) -> pattContext env g ty p) (zip cont ps) >>= return . concat
@@ -564,7 +615,7 @@ pattContext env g typ p = case p of
         let pts = [(ty,tr) | (l,tr) <- r, Just ty <- [lookup l t]]
         ----- checkWarn $ prt p ++++ show pts ----- debug
         mapM (uncurry (pattContext env g)) pts >>= return . concat
-      _ -> checkError (text "record type expected for pattern instead of" <+> ppTerm Unqualified 0 typ')
+      _ -> checkError ("record type expected for pattern instead of" <+> ppTerm Unqualified 0 typ')
   PT t p' -> do
     checkEqLType env g typ t (patt2term p')
     pattContext env g typ p'
@@ -577,10 +628,10 @@ pattContext env g typ p = case p of
     g1 <- pattContext env g typ p'
     g2 <- pattContext env g typ q
     let pts = nub ([x | pt@(_,x,_) <- g1, notElem pt g2] ++ [x | pt@(_,x,_) <- g2, notElem pt g1])
-    checkCond 
-      (text "incompatible bindings of" <+>
-       fsep (map ppIdent pts) <+> 
-       text "in pattern alterantives" <+> ppPatt Unqualified 0 p) (null pts) 
+    checkCond
+      ("incompatible bindings of" <+>
+       fsep pts <+>
+       "in pattern alterantives" <+> ppPatt Unqualified 0 p) (null pts)
     return g1 -- must be g1 == g2
   PSeq p q -> do
     g1 <- pattContext env g typ p
@@ -590,11 +641,11 @@ pattContext env g typ p = case p of
   PNeg p' -> noBind typ p'
 
   _ -> return [] ---- check types!
- where 
+ where
    noBind typ p' = do
     co <- pattContext env g typ p'
     if not (null co)
-      then checkWarn (text "no variable bound inside pattern" <+> ppPatt Unqualified 0 p) 
+      then checkWarn ("no variable bound inside pattern" <+> ppPatt Unqualified 0 p)
            >> return []
       else return []
 
@@ -603,9 +654,31 @@ checkEqLType gr g t u trm = do
   (b,t',u',s) <- checkIfEqLType gr g t u trm
   case b of
     True  -> return t'
-    False -> checkError $ text s <+> text "type of" <+> ppTerm Unqualified 0 trm $$
-                          text "expected:" <+> ppType t $$
-                          text "inferred:" <+> ppType u
+    False ->
+      let inferredType = ppTerm Qualified 0 u
+          expectedType = ppTerm Qualified 0 t
+          term = ppTerm Unqualified 0 trm
+          funName = pp . head . words .render $ term
+          helpfulMsg =
+            case (arrows inferredType, arrows expectedType) of
+              (0,0) -> pp "" -- None of the types is a function
+              _ -> "\n   **" <+>
+                  if expectedType `isLessApplied` inferredType
+                    then "Maybe you gave too few arguments to" <+> funName
+                    else pp "Double-check that type signature and number of arguments match."
+      in checkError $ s <+> "type of" <+> term $$
+                            "expected:" <+> expectedType $$ -- ppqType t u $$
+                            "inferred:" <+> inferredType $$ -- ppqType u t
+                            helpfulMsg
+  where
+    -- count the number of arrows in the prettyprinted term
+    arrows :: Doc -> Int
+    arrows = length . filter (=="->") . words . render
+
+    -- If prettyprinted type t has fewer arrows then prettyprinted type u,
+    -- then t is "less applied", and we can print out more helpful error msg.
+    isLessApplied :: Doc -> Doc -> Bool
+    isLessApplied t u = arrows t < arrows u
 
 checkIfEqLType :: SourceGrammar -> Context -> Type -> Type -> Term -> Check (Bool,Type,Type,String)
 checkIfEqLType gr g t u trm = do
@@ -617,60 +690,62 @@ checkIfEqLType gr g t u trm = do
     --- better: use a flag to forgive? (AR 31/1/2006)
     _ -> case missingLock [] t' u' of
       Ok lo -> do
-        checkWarn $ text "missing lock field" <+> fsep (map ppLabel lo)
+        checkWarn $ "missing lock field" <+> fsep lo
         return (True,t',u',[])
       Bad s -> return (False,t',u',s)
 
   where
 
-   -- t is a subtype of u 
+   -- check that u is a subtype of t
    --- quick hack version of TC.eqVal
-   alpha g t u = case (t,u) of  
+   alpha g t u = case (t,u) of
 
      -- error (the empty type!) is subtype of any other type
      (_,u) | u == typeError -> True
 
      -- contravariance
-     (Prod _ x a b, Prod _ y c d) -> alpha g c a && alpha ((x,y):g) b d 
-                              
+     (Prod _ x a b, Prod _ y c d) -> alpha g c a && alpha ((x,y):g) b d
+
      -- record subtyping
-     (RecType rs, RecType ts) -> all (\ (l,a) -> 
-                                   any (\ (k,b) -> alpha g a b && l == k) ts) rs
+     (RecType rs, RecType ts) -> all (\ (l,a) ->
+                                   any (\ (k,b) -> l == k && alpha g a b) ts) rs
      (ExtR r s, ExtR r' s') -> alpha g r r' && alpha g s s'
      (ExtR r s, t) -> alpha g r t || alpha g s t
 
      -- the following say that Ints n is a subset of Int and of Ints m >= n
-     (t,u) | Just m <- isTypeInts t, Just n <- isTypeInts t -> m >= n
+     -- But why does it also allow Int as a subtype of Ints m? /TH 2014-04-04
+     (t,u) | Just m <- isTypeInts t, Just n <- isTypeInts u -> m >= n
            | Just _ <- isTypeInts t, u == typeInt           -> True ---- check size!
            | t == typeInt,           Just _ <- isTypeInts u -> True ---- why this ???? AR 11/12/2005
 
      ---- this should be made in Rename
-     (Q  (m,a), Q  (n,b)) | a == b -> elem m (allExtendsPlus gr n) 
+     (Q  (m,a), Q  (n,b)) | a == b -> elem m (allExtendsPlus gr n)
                                    || elem n (allExtendsPlus gr m)
                                    || m == n --- for Predef
-     (QC (m,a), QC (n,b)) | a == b -> elem m (allExtendsPlus gr n) 
+     (QC (m,a), QC (n,b)) | a == b -> elem m (allExtendsPlus gr n)
                                    || elem n (allExtendsPlus gr m)
-     (QC (m,a), Q  (n,b)) | a == b -> elem m (allExtendsPlus gr n) 
+     (QC (m,a), Q  (n,b)) | a == b -> elem m (allExtendsPlus gr n)
                                    || elem n (allExtendsPlus gr m)
-     (Q  (m,a), QC (n,b)) | a == b -> elem m (allExtendsPlus gr n) 
+     (Q  (m,a), QC (n,b)) | a == b -> elem m (allExtendsPlus gr n)
                                    || elem n (allExtendsPlus gr m)
 
-     (Table a b,  Table c d)  -> alpha g a c && alpha g b d
+     -- contravariance
+     (Table a b,  Table c d)  -> alpha g c a && alpha g b d
      (Vr x,       Vr y)       -> x == y || elem (x,y) g || elem (y,x) g
-     _                        -> t == u 
+     _                        -> t == u
      --- the following should be one-way coercions only. AR 4/1/2001
                                   || elem t sTypes && elem u sTypes
-                                  || (t == typeType && u == typePType) 
-                                  || (u == typeType && t == typePType) 
+                                  || (t == typeType && u == typePType)
+                                  || (u == typeType && t == typePType)
 
-   missingLock g t u = case (t,u) of  
-     (RecType rs, RecType ts) -> 
-       let 
-         ls = [l | (l,a) <- rs, 
+   missingLock g t u = case (t,u) of
+     (RecType rs, RecType ts) ->
+       let
+         ls = [l | (l,a) <- rs,
                    not (any (\ (k,b) -> alpha g a b && l == k) ts)]
          (locks,others) = partition isLockLabel ls
        in case others of
-         _:_ -> Bad $ render (text "missing record fields:" <+> fsep (punctuate comma (map ppLabel others)))
+         _:_ -> Bad $ render ("missing record fields:" <+> fsep (punctuate ',' (others)))
          _ -> return locks
      -- contravariance
      (Prod _ x a b, Prod _ y c d) -> do
@@ -696,7 +771,7 @@ termWith t ct = do
   return (t,ty)
 
 -- | compositional check\/infer of binary operations
-check2 :: (Term -> Check Term) -> (Term -> Term -> Term) -> 
+check2 :: (Term -> Check Term) -> (Term -> Term -> Term) ->
           Term -> Term -> Type -> Check (Term,Type)
 check2 chk con a b t = do
   a' <- chk a
@@ -708,14 +783,18 @@ ppType :: Type -> Doc
 ppType ty =
   case ty of
     RecType fs   -> case filter isLockLabel $ map fst fs of
-                      [lock] -> text (drop 5 (showIdent (label2ident lock)))
+                      [lock] -> pp (drop 5 (showIdent (label2ident lock)))
                       _      -> ppTerm Unqualified 0 ty
-    Prod _ x a b -> ppType a <+> text "->" <+> ppType b
+    Prod _ x a b -> ppType a <+> "->" <+> ppType b
     _            -> ppTerm Unqualified 0 ty
-
+{-
+ppqType :: Type -> Type -> Doc
+ppqType t u = case (ppType t, ppType u) of
+  (pt,pu) | render pt == render pu -> ppTerm Qualified 0 t
+  (pt,_) -> pt
+-}
 checkLookup :: Ident -> Context -> Check Type
 checkLookup x g =
   case [ty | (b,y,ty) <- g, x == y] of
-    []     -> checkError (text "unknown variable" <+> ppIdent x)
+    []     -> checkError ("unknown variable" <+> x)
     (ty:_) -> return ty
--}

src/compiler/GF/Compile/TypeCheck/ConcreteNew.hs

@@ -10,7 +10,7 @@ import GF.Grammar hiding (Env, VGen, VApp, VRecType)
 import GF.Grammar.Lookup
 import GF.Grammar.Predef
 import GF.Grammar.Lockfield
-import GF.Compile.Compute.ConcreteNew
+import GF.Compile.Compute.Concrete
 import GF.Compile.Compute.Predef(predef,predefName)
 import GF.Infra.CheckM
 import GF.Data.Operations
@@ -133,7 +133,7 @@ tcRho ge scope t@(RecType rs) (Just ty) = do
                          [] -> unifyVar ge scope i env vs vtypePType
                          _  -> return ()
     ty              -> do ty <- zonkTerm =<< tc_value2term (geLoc ge) (scopeVars scope) ty
-                          tcError ("The record type" <+> ppTerm Unqualified 0 t $$ 
+                          tcError ("The record type" <+> ppTerm Unqualified 0 t $$
                                    "cannot be of type" <+> ppTerm Unqualified 0 ty)
   (rs,mb_ty) <- tcRecTypeFields ge scope rs (Just ty')
   return (f (RecType rs),ty)
@@ -187,7 +187,7 @@ tcRho ge scope (R rs) (Just ty) = do
   case ty' of
     (VRecType ltys) -> do lttys <- checkRecFields ge scope rs ltys
                           rs <- mapM (\(l,t,ty) -> tc_value2term (geLoc ge) (scopeVars scope) ty >>= \ty -> return (l, (Just ty, t))) lttys
-                          return ((f . R)  rs, 
+                          return ((f . R)  rs,
                                   VRecType [(l, ty) | (l,t,ty) <- lttys]
                                  )
     ty              -> do lttys <- inferRecFields ge scope rs
@@ -277,11 +277,11 @@ tcApp ge scope (App fun arg) =                                  -- APP2
         varg <- liftErr (eval ge (scopeEnv scope) arg)
         return (App fun arg, res_ty varg)
 tcApp ge scope (Q id) =                                          -- VAR (global)
-  mkTcA (lookupOverloadTypes (geGrammar ge) id) `bindTcA` \(t,ty) -> 
+  mkTcA (lookupOverloadTypes (geGrammar ge) id) `bindTcA` \(t,ty) ->
      do ty <- liftErr (eval ge [] ty)
         return (t,ty)
 tcApp ge scope (QC id) =                                         -- VAR (global)
-  mkTcA (lookupOverloadTypes (geGrammar ge) id) `bindTcA` \(t,ty) -> 
+  mkTcA (lookupOverloadTypes (geGrammar ge) id) `bindTcA` \(t,ty) ->
      do ty <- liftErr (eval ge [] ty)
         return (t,ty)
 tcApp ge scope t =
@@ -350,7 +350,7 @@ tcPatt ge scope (PM q) ty0 = do
     Bad err -> tcError (pp err)
 tcPatt ge scope p ty = unimplemented ("tcPatt "++show p)
 
-inferRecFields ge scope rs = 
+inferRecFields ge scope rs =
   mapM (\(l,r) -> tcRecField ge scope l r Nothing) rs
 
 checkRecFields ge scope []          ltys
@@ -368,7 +368,7 @@ checkRecFields ge scope ((l,t):lts) ltys =
   where
     takeIt l1 []  = (Nothing, [])
     takeIt l1 (lty@(l2,ty):ltys)
-      | l1 == l2  = (Just ty,ltys) 
+      | l1 == l2  = (Just ty,ltys)
       | otherwise = let (mb_ty,ltys') = takeIt l1 ltys
                     in (mb_ty,lty:ltys')
 
@@ -390,13 +390,13 @@ tcRecTypeFields ge scope ((l,ty):rs) mb_ty = do
                | s == cPType -> return mb_ty
              VMeta _ _ _     -> return mb_ty
              _               -> do sort <- zonkTerm =<< tc_value2term (geLoc ge) (scopeVars scope) sort
-                                   tcError ("The record type field" <+> l <+> ':' <+> ppTerm Unqualified 0 ty $$ 
+                                   tcError ("The record type field" <+> l <+> ':' <+> ppTerm Unqualified 0 ty $$
                                             "cannot be of type" <+> ppTerm Unqualified 0 sort)
   (rs,mb_ty) <- tcRecTypeFields ge scope rs mb_ty
   return ((l,ty):rs,mb_ty)
 
 -- | Invariant: if the third argument is (Just rho),
--- 	            then rho is in weak-prenex form
+--              then rho is in weak-prenex form
 instSigma :: GlobalEnv -> Scope -> Term -> Sigma -> Maybe Rho -> TcM (Term, Rho)
 instSigma ge scope t ty1 Nothing    = return (t,ty1)           -- INST1
 instSigma ge scope t ty1 (Just ty2) = do                       -- INST2
@@ -444,11 +444,11 @@ subsCheckRho ge scope t (VApp p1 _) (VApp p2 _)                         -- Rule
   | predefName p1 == cInts && predefName p2 == cInt = return t
 subsCheckRho ge scope t (VApp p1 [VInt i]) (VApp p2 [VInt j])           -- Rule INT2
   | predefName p1 == cInts && predefName p2 == cInts =
-      if i <= j 
+      if i <= j
         then return t
         else tcError ("Ints" <+> i <+> "is not a subtype of" <+> "Ints" <+> j)
 subsCheckRho ge scope t ty1@(VRecType rs1) ty2@(VRecType rs2) = do      -- Rule REC
-  let mkAccess scope t = 
+  let mkAccess scope t =
         case t of
           ExtR t1 t2 -> do (scope,mkProj1,mkWrap1) <- mkAccess scope t1
                            (scope,mkProj2,mkWrap2) <- mkAccess scope t2
@@ -557,7 +557,7 @@ unify ge scope v (VMeta i env vs) = unifyVar ge scope i env vs v
 unify ge scope v1 v2 = do
   t1 <- zonkTerm =<< tc_value2term (geLoc ge) (scopeVars scope) v1
   t2 <- zonkTerm =<< tc_value2term (geLoc ge) (scopeVars scope) v2
-  tcError ("Cannot unify terms:" <+> (ppTerm Unqualified 0 t1 $$ 
+  tcError ("Cannot unify terms:" <+> (ppTerm Unqualified 0 t1 $$
                                       ppTerm Unqualified 0 t2))
 
 -- | Invariant: tv1 is a flexible type variable
@@ -568,9 +568,9 @@ unifyVar ge scope i env vs ty2 = do            -- Check whether i is bound
     Bound ty1       -> do v <- liftErr (eval ge env ty1)
                           unify ge scope (vapply (geLoc ge) v vs) ty2
     Unbound scope' _ -> case value2term (geLoc ge) (scopeVars scope') ty2 of
-                          Left i     -> let (v,_) = reverse scope !! i
-                                        in tcError ("Variable" <+> pp v <+> "has escaped")
-                          Right ty2' -> do ms2 <- getMetaVars (geLoc ge) [(scope,ty2)]
+                          -- Left i     -> let (v,_) = reverse scope !! i
+                          --               in tcError ("Variable" <+> pp v <+> "has escaped")
+                                ty2' -> do ms2 <- getMetaVars (geLoc ge) [(scope,ty2)]
                                            if i `elem` ms2
                                              then tcError ("Occurs check for" <+> ppMeta i <+> "in:" $$
                                                            nest 2 (ppTerm Unqualified 0 ty2'))
@@ -609,7 +609,7 @@ quantify ge scope t tvs ty0 = do
   ty <- tc_value2term (geLoc ge) (scopeVars scope) ty0
   let used_bndrs = nub (bndrs ty)  -- Avoid quantified type variables in use
       new_bndrs  = take (length tvs) (allBinders \\ used_bndrs)
-  mapM_ bind (tvs `zip` new_bndrs)   -- 'bind' is just a cunning way 
+  mapM_ bind (tvs `zip` new_bndrs)   -- 'bind' is just a cunning way
   ty <- zonkTerm ty                  -- of doing the substitution
   vty <- liftErr (eval ge [] (foldr (\v ty -> Prod Implicit v typeType ty) ty new_bndrs))
   return (foldr (Abs Implicit) t new_bndrs,vty)
@@ -619,7 +619,7 @@ quantify ge scope t tvs ty0 = do
     bndrs (Prod _ x t1 t2) = [x] ++ bndrs t1  ++ bndrs t2
     bndrs _                = []
 
-allBinders :: [Ident]    -- a,b,..z, a1, b1,... z1, a2, b2,... 
+allBinders :: [Ident]    -- a,b,..z, a1, b1,... z1, a2, b2,...
 allBinders = [ identS [x]          | x <- ['a'..'z'] ] ++
              [ identS (x : show i) | i <- [1 :: Integer ..], x <- ['a'..'z']]
 
@@ -631,8 +631,8 @@ allBinders = [ identS [x]          | x <- ['a'..'z'] ] ++
 type Scope = [(Ident,Value)]
 
 type Sigma = Value
-type Rho   = Value	-- No top-level ForAll
-type Tau   = Value	-- No ForAlls anywhere
+type Rho   = Value -- No top-level ForAll
+type Tau   = Value -- No ForAlls anywhere
 
 data MetaValue
   = Unbound Scope Sigma
@@ -688,12 +688,12 @@ runTcM f = case unTcM f IntMap.empty [] of
              TcFail (msg:msgs) -> do checkWarnings msgs; checkError msg
 
 newMeta :: Scope -> Sigma -> TcM MetaId
-newMeta scope ty = TcM (\ms msgs -> 
+newMeta scope ty = TcM (\ms msgs ->
   let i = IntMap.size ms
   in TcOk i (IntMap.insert i (Unbound scope ty) ms) msgs)
 
 getMeta :: MetaId -> TcM MetaValue
-getMeta i = TcM (\ms msgs -> 
+getMeta i = TcM (\ms msgs ->
   case IntMap.lookup i ms of
     Just mv -> TcOk mv ms msgs
     Nothing -> TcFail (("Unknown metavariable" <+> ppMeta i) : msgs))
@@ -702,7 +702,7 @@ setMeta :: MetaId -> MetaValue -> TcM ()
 setMeta i mv = TcM (\ms msgs -> TcOk () (IntMap.insert i mv ms) msgs)
 
 newVar :: Scope -> Ident
-newVar scope = head [x | i <- [1..], 
+newVar scope = head [x | i <- [1..],
                          let x = identS ('v':show i),
                          isFree scope x]
   where
@@ -721,11 +721,11 @@ getMetaVars loc sc_tys = do
   return (foldr go [] tys)
   where
     -- Get the MetaIds from a term; no duplicates in result
-    go (Vr tv)    acc = acc 
+    go (Vr tv)    acc = acc
     go (App x y)  acc = go x (go y acc)
     go (Meta i)   acc
-	  | i `elem` acc  = acc
-	  | otherwise	  = i : acc
+      | i `elem` acc  = acc
+      | otherwise     = i : acc
     go (Q _)      acc = acc
     go (QC _)     acc = acc
     go (Sort _)   acc = acc
@@ -741,10 +741,10 @@ getFreeVars loc sc_tys = do
   tys <- mapM (\(scope,ty) -> zonkTerm =<< tc_value2term loc (scopeVars scope) ty) sc_tys
   return (foldr (go []) [] tys)
   where
-    go bound (Vr tv)            acc 
-	  | tv `elem` bound             = acc
-	  | tv `elem` acc               = acc
-	  | otherwise                   = tv : acc
+    go bound (Vr tv)            acc
+      | tv `elem` bound             = acc
+      | tv `elem` acc               = acc
+      | otherwise                   = tv : acc
     go bound (App x y)          acc = go bound x (go bound y acc)
     go bound (Meta _)           acc = acc
     go bound (Q _)              acc = acc
@@ -765,13 +765,13 @@ zonkTerm (Meta i) = do
 zonkTerm t = composOp zonkTerm t
 
 tc_value2term loc xs v =
-  case value2term loc xs v of
-    Left i  -> tcError ("Variable #" <+> pp i <+> "has escaped")
-    Right t -> return t
+  return $ value2term loc xs v
+    -- Old value2term error message:
+    -- Left i  -> tcError ("Variable #" <+> pp i <+> "has escaped")
 
 
 
-data TcA x a 
+data TcA x a
   = TcSingle   (MetaStore -> [Message] -> TcResult a)
   | TcMany [x] (MetaStore -> [Message] -> [(a,MetaStore,[Message])])
 

src/compiler/GF/Compile/TypeCheck/RConcrete.hs

@@ -1,801 +0,0 @@
-{-# LANGUAGE PatternGuards #-}
-module GF.Compile.TypeCheck.RConcrete( checkLType, inferLType, computeLType, ppType ) where
-import Prelude hiding ((<>)) -- GHC 8.4.1 clash with Text.PrettyPrint
-
-import GF.Infra.CheckM
-import GF.Data.Operations
-
-import GF.Grammar
-import GF.Grammar.Lookup
-import GF.Grammar.Predef
-import GF.Grammar.PatternMatch
-import GF.Grammar.Lockfield (isLockLabel, lockRecType, unlockRecord)
-import GF.Compile.TypeCheck.Primitives
-
-import Data.List
-import Control.Monad
-import GF.Text.Pretty
-
-computeLType :: SourceGrammar -> Context -> Type -> Check Type
-computeLType gr g0 t = comp (reverse [(b,x, Vr x) | (b,x,_) <- g0] ++ g0) t
- where
-  comp g ty = case ty of
-    _ | Just _ <- isTypeInts ty -> return ty ---- shouldn't be needed
-      | isPredefConstant ty     -> return ty ---- shouldn't be needed
-
-    Q (m,ident) -> checkIn ("module" <+> m) $ do
-      ty' <- lookupResDef gr (m,ident)
-      if ty' == ty then return ty else comp g ty' --- is this necessary to test?
-
-    AdHocOverload ts -> do
-     over <- getOverload gr g (Just typeType) t
-     case over of
-       Just (tr,_) -> return tr
-       _ -> checkError ("unresolved overloading of constants" <+> ppTerm Qualified 0 t) 
-
-    Vr ident  -> checkLookup ident g -- never needed to compute!
-
-    App f a -> do
-      f' <- comp g f
-      a' <- comp g a
-      case f' of
-        Abs b x t -> comp ((b,x,a'):g) t
-        _ -> return $ App f' a'
-
-    Prod bt x a b -> do
-      a' <- comp g a
-      b' <- comp ((bt,x,Vr x) : g) b
-      return $ Prod bt x a' b'
-
-    Abs bt x b -> do
-      b' <- comp ((bt,x,Vr x):g) b
-      return $ Abs bt x b'
-
-    Let (x,(_,a)) b -> comp ((Explicit,x,a):g) b
-
-    ExtR r s -> do
-      r' <- comp g r
-      s' <- comp g s
-      case (r',s') of
-        (RecType rs, RecType ss) -> plusRecType r' s' >>= comp g
-        _ -> return $ ExtR r' s'
-
-    RecType fs -> do
-      let fs' = sortRec fs
-      liftM RecType $ mapPairsM (comp g) fs'
-
-    ELincat c t -> do
-      t' <- comp g t
-      lockRecType c t' ---- locking to be removed AR 20/6/2009
-
-    _ | ty == typeTok -> return typeStr
-    _ | isPredefConstant ty -> return ty
-
-    _ -> composOp (comp g) ty
-
--- the underlying algorithms
-
-inferLType :: SourceGrammar -> Context -> Term -> Check (Term, Type)
-inferLType gr g trm = case trm of
-
-   Q (m,ident) | isPredef m -> termWith trm $ case typPredefined ident of
-                                                Just ty -> return ty
-                                                Nothing -> checkError ("unknown in Predef:" <+> ident)
-
-   Q ident -> checks [
-     termWith trm $ lookupResType gr ident >>= computeLType gr g
-     ,
-     lookupResDef gr ident >>= inferLType gr g
-     ,
-     checkError ("cannot infer type of constant" <+> ppTerm Unqualified 0 trm)
-     ]
-
-   QC (m,ident) | isPredef m -> termWith trm $ case typPredefined ident of
-                                                 Just ty -> return ty
-                                                 Nothing -> checkError ("unknown in Predef:" <+> ident)
-
-   QC ident -> checks [
-       termWith trm $ lookupResType gr ident >>= computeLType gr g
-       ,
-       lookupResDef gr ident >>= inferLType gr g
-       ,
-       checkError ("cannot infer type of canonical constant" <+> ppTerm Unqualified 0 trm)
-       ]
-
-   Vr ident -> termWith trm $ checkLookup ident g
-
-   Typed e t -> do
-     t' <- computeLType gr g t
-     checkLType gr g e t'
-
-   AdHocOverload ts -> do
-     over <- getOverload gr g Nothing trm
-     case over of
-       Just trty -> return trty
-       _ -> checkError ("unresolved overloading of constants" <+> ppTerm Qualified 0 trm) 
-
-   App f a -> do
-     over <- getOverload gr g Nothing trm
-     case over of
-       Just trty -> return trty
-       _ -> do
-         (f',fty) <- inferLType gr g f
-         fty' <- computeLType gr g fty
-         case fty' of
-           Prod bt z arg val -> do 
-             a' <- justCheck g a arg
-             ty <- if isWildIdent z 
-                      then return val
-                      else substituteLType [(bt,z,a')] val
-             return (App f' a',ty)
-           _ ->
-             let term = ppTerm Unqualified 0 f
-                 funName = pp . head . words .render $ term
-              in checkError ("A function type is expected for" <+> term <+> "instead of type" <+> ppType fty $$
-                             "\n   ** Maybe you gave too many arguments to" <+> funName <+> "\n")
-
-   S f x -> do
-     (f', fty) <- inferLType gr g f
-     case fty of
-       Table arg val -> do
-         x'<- justCheck g x arg
-         return (S f' x', val)
-       _ -> checkError ("table lintype expected for the table in" $$ nest 2 (ppTerm Unqualified 0 trm))
-
-   P t i -> do
-     (t',ty) <- inferLType gr g t   --- ??
-     ty' <- computeLType gr g ty
-     let tr2 = P t' i
-     termWith tr2 $ case ty' of
-       RecType ts -> case lookup i ts of
-                       Nothing -> checkError ("unknown label" <+> i <+> "in" $$ nest 2 (ppTerm Unqualified 0 ty'))
-                       Just x  -> return x
-       _          -> checkError ("record type expected for:" <+> ppTerm Unqualified 0 t $$
-                                 " instead of the inferred:" <+> ppTerm Unqualified 0 ty')
-
-   R r -> do
-     let (ls,fs) = unzip r
-     fsts <- mapM inferM fs
-     let ts = [ty | (Just ty,_) <- fsts]
-     checkCond ("cannot infer type of record" $$ nest 2 (ppTerm Unqualified 0 trm)) (length ts == length fsts)
-     return $ (R (zip ls fsts), RecType (zip ls ts))
-
-   T (TTyped arg) pts -> do
-     (_,val) <- checks $ map (inferCase (Just arg)) pts
-     checkLType gr g trm (Table arg val)
-   T (TComp arg) pts -> do
-     (_,val) <- checks $ map (inferCase (Just arg)) pts
-     checkLType gr g trm (Table arg val)
-   T ti pts -> do  -- tries to guess: good in oper type inference
-     let pts' = [pt | pt@(p,_) <- pts, isConstPatt p]
-     case pts' of 
-       [] -> checkError ("cannot infer table type of" <+> ppTerm Unqualified 0 trm)
-----       PInt k : _ -> return $ Ints $ max [i | PInt i <- pts'] 
-       _  -> do 
-         (arg,val) <- checks $ map (inferCase Nothing) pts'
-         checkLType gr g trm (Table arg val)
-   V arg pts -> do
-     (_,val) <- checks $ map (inferLType gr g) pts
---   return (trm, Table arg val) -- old, caused issue 68
-     checkLType gr g trm (Table arg val)
-
-   K s  -> do
-     if elem ' ' s
-        then do
-          let ss = foldr C Empty (map K (words s))  
-          ----- removed irritating warning AR 24/5/2008
-          ----- checkWarn ("token \"" ++ s ++ 
-          -----              "\" converted to token list" ++ prt ss)
-          return (ss, typeStr)
-        else return (trm, typeStr)
-
-   EInt i -> return (trm, typeInt)
-
-   EFloat i -> return (trm, typeFloat)
-
-   Empty -> return (trm, typeStr)
-
-   C s1 s2 -> 
-     check2 (flip (justCheck g) typeStr) C s1 s2 typeStr
-
-   Glue s1 s2 -> 
-     check2 (flip (justCheck g) typeStr) Glue s1 s2 typeStr ---- typeTok
-
----- hack from Rename.identRenameTerm, to live with files with naming conflicts 18/6/2007
-   Strs (Cn c : ts) | c == cConflict -> do
-     checkWarn ("unresolved constant, could be any of" <+> hcat (map (ppTerm Unqualified 0) ts))
-     inferLType gr g (head ts)
-
-   Strs ts -> do
-     ts' <- mapM (\t -> justCheck g t typeStr) ts 
-     return (Strs ts', typeStrs)
-
-   Alts t aa -> do
-     t'  <- justCheck g t typeStr
-     aa' <- flip mapM aa (\ (c,v) -> do
-        c' <- justCheck g c typeStr 
-        v' <- checks $ map (justCheck g v) [typeStrs, EPattType typeStr]
-        return (c',v'))
-     return (Alts t' aa', typeStr)
-
-   RecType r -> do
-     let (ls,ts) = unzip r
-     ts' <- mapM (flip (justCheck g) typeType) ts 
-     return (RecType (zip ls ts'), typeType)
-
-   ExtR r s -> do
-   
----     over <- getOverload gr g Nothing r
----     let r1 = maybe r fst over
-     let r1 = r --- 
-
-     (r',rT) <- inferLType gr g r1
-     rT'     <- computeLType gr g rT
-     
-     (s',sT) <- inferLType gr g s
-     sT'     <- computeLType gr g sT
-
-     let trm' = ExtR r' s'
-     case (rT', sT') of
-       (RecType rs, RecType ss) -> do
-         let rt = RecType ([field | field@(l,_) <- rs, notElem l (map fst ss)] ++ ss) -- select types of later fields 
-         checkLType gr g trm' rt ---- return (trm', rt)
-       _ | rT' == typeType && sT' == typeType -> do
-         return (trm', typeType)
-       _ -> checkError ("records or record types expected in" <+> ppTerm Unqualified 0 trm)
-
-   Sort _     -> 
-     termWith trm $ return typeType
-
-   Prod bt x a b -> do
-     a' <- justCheck g a typeType
-     b' <- justCheck ((bt,x,a'):g) b typeType
-     return (Prod bt x a' b', typeType)
-
-   Table p t  -> do
-     p' <- justCheck g p typeType --- check p partype! 
-     t' <- justCheck g t typeType
-     return $ (Table p' t', typeType)
-
-   FV vs -> do
-     (_,ty) <- checks $ map (inferLType gr g) vs
----     checkIfComplexVariantType trm ty
-     checkLType gr g trm ty
-
-   EPattType ty -> do
-     ty' <- justCheck g ty typeType
-     return (EPattType ty',typeType)
-   EPatt p -> do
-     ty <- inferPatt p
-     return (trm, EPattType ty)
-
-   ELin c trm -> do
-     (trm',ty) <- inferLType gr g trm
-     ty' <- lockRecType c ty ---- lookup c; remove lock AR 20/6/2009
-     return $ (ELin c trm', ty') 
-
-   _ -> checkError ("cannot infer lintype of" <+> ppTerm Unqualified 0 trm)
-
- where
-   isPredef m = elem m [cPredef,cPredefAbs]
-
-   justCheck g ty te = checkLType gr g ty te >>= return . fst
-
-   -- for record fields, which may be typed
-   inferM (mty, t) = do
-     (t', ty') <- case mty of
-       Just ty -> checkLType gr g t ty
-       _ -> inferLType gr g t
-     return (Just ty',t')
-
-   inferCase mty (patt,term) = do
-     arg  <- maybe (inferPatt patt) return mty
-     cont <- pattContext gr g arg patt
-     (_,val) <- inferLType gr (reverse cont ++ g) term
-     return (arg,val)
-   isConstPatt p = case p of
-     PC _ ps -> True --- all isConstPatt ps
-     PP _ ps -> True --- all isConstPatt ps
-     PR ps -> all (isConstPatt . snd) ps
-     PT _ p -> isConstPatt p
-     PString _ -> True
-     PInt _ -> True
-     PFloat _ -> True
-     PChar -> True
-     PChars _ -> True
-     PSeq p q -> isConstPatt p && isConstPatt q
-     PAlt p q -> isConstPatt p && isConstPatt q
-     PRep p -> isConstPatt p
-     PNeg p -> isConstPatt p
-     PAs _ p -> isConstPatt p
-     _ -> False
-
-   inferPatt p = case p of
-     PP (q,c) ps | q /= cPredef -> liftM valTypeCnc (lookupResType gr (q,c))
-     PAs _ p  -> inferPatt p
-     PNeg p   -> inferPatt p
-     PAlt p q -> checks [inferPatt p, inferPatt q]
-     PSeq _ _ -> return $ typeStr
-     PRep _   -> return $ typeStr
-     PChar    -> return $ typeStr
-     PChars _ -> return $ typeStr
-     _ -> inferLType gr g (patt2term p) >>= return . snd
-
--- type inference: Nothing, type checking: Just t
--- the latter permits matching with value type
-getOverload :: SourceGrammar -> Context -> Maybe Type -> Term -> Check (Maybe (Term,Type))
-getOverload gr g mt ot = case appForm ot of
-     (f@(Q c), ts) -> case lookupOverload gr c of
-       Ok typs -> do
-         ttys <- mapM (inferLType gr g) ts
-         v <- matchOverload f typs ttys
-         return $ Just v
-       _ -> return Nothing
-     (AdHocOverload cs@(f:_), ts) -> do     --- the function name f is only used in error messages
-       let typs = concatMap collectOverloads cs
-       ttys <- mapM (inferLType gr g) ts
-       v <- matchOverload f typs ttys
-       return $ Just v
-     _ -> return Nothing
-     
- where
-   collectOverloads tr@(Q c) = case lookupOverload gr c of 
-     Ok typs -> typs
-     _ -> case lookupResType gr c of
-       Ok ty -> let (args,val) = typeFormCnc ty in [(map (\(b,x,t) -> t) args,(val,tr))]
-       _ -> []
-   collectOverloads _ = [] --- constructors QC
-
-   matchOverload f typs ttys = do
-     let (tts,tys) = unzip ttys
-     let vfs = lookupOverloadInstance tys typs
-     let matches = [vf | vf@((_,v,_),_) <- vfs, matchVal mt v]
-     let showTypes ty = hsep (map ppType ty)
-
-    
-     let (stys,styps) = (showTypes tys, [showTypes ty | (ty,_) <- typs])
-
-     -- to avoid strange error msg e.g. in case of unmatch record extension, show whole types if needed AR 28/1/2013
-     let (stysError,stypsError) = if elem (render stys) (map render styps)
-            then (hsep (map (ppTerm Unqualified 0) tys), [hsep (map (ppTerm Unqualified 0) ty) | (ty,_) <- typs])
-            else (stys,styps)
-
-     case ([vf | (vf,True) <- matches],[vf | (vf,False) <- matches]) of
-       ([(_,val,fun)],_) -> return (mkApp fun tts, val)
-       ([],[(pre,val,fun)]) -> do
-         checkWarn $  "ignoring lock fields in resolving" <+> ppTerm Unqualified 0 ot $$
-                      "for" $$
-                      nest 2 (showTypes tys) $$
-                      "using" $$
-                      nest 2 (showTypes pre)
-         return (mkApp fun tts, val)
-       ([],[]) -> do
-         checkError $ "no overload instance of" <+> ppTerm Qualified 0 f $$
-                      maybe empty (\x -> "with value type" <+> ppType x) mt $$
-                      "for argument list" $$
-                      nest 2 stysError $$
-                      "among alternatives" $$
-                      nest 2 (vcat stypsError) 
-
-
-       (vfs1,vfs2) -> case (noProds vfs1,noProds vfs2) of
-         ([(val,fun)],_) -> do
-           return (mkApp fun tts, val)
-         ([],[(val,fun)]) -> do
-           checkWarn ("ignoring lock fields in resolving" <+> ppTerm Unqualified 0 ot) 
-           return (mkApp fun tts, val)
-
------ unsafely exclude irritating warning AR 24/5/2008
------           checkWarn $ "overloading of" +++ prt f +++ 
------             "resolved by excluding partial applications:" ++++
------             unlines [prtType env ty | (ty,_) <- vfs', not (noProd ty)]
-
---- now forgiving ambiguity with a warning AR 1/2/2014
---  This gives ad hoc overloading the same behaviour as the choice of the first match in renaming did before. 
---  But it also gives a chance to ambiguous overloadings that were banned before. 
-         (nps1,nps2) -> do 
-              checkWarn $  "ambiguous overloading of" <+> ppTerm Unqualified 0 f <+>
-                  ----     "with argument types" <+> hsep (map (ppTerm Qualified 0) tys) $$ 
-                           "resolved by selecting the first of the alternatives" $$
-                           nest 2 (vcat [ppTerm Qualified 0 fun | (_,ty,fun) <- vfs1 ++ if null vfs1 then vfs2 else []])
-              case [(mkApp fun tts,val) | (val,fun) <- nps1 ++ nps2] of
-                 [] -> checkError $ "no alternatives left when resolving" <+> ppTerm Unqualified 0 f
-                 h:_ -> return h
-
-   matchVal mt v = elem mt [Nothing,Just v,Just (unlocked v)]
-
-   unlocked v = case v of
-     RecType fs -> RecType $ filter (not . isLockLabel . fst) (sortRec fs)
-     _ -> v
-   ---- TODO: accept subtypes
-   ---- TODO: use a trie
-   lookupOverloadInstance tys typs = 
-     [((pre,mkFunType rest val, t),isExact) | 
-       let lt = length tys,
-       (ty,(val,t)) <- typs, length ty >= lt,
-       let (pre,rest) = splitAt lt ty, 
-       let isExact = pre == tys,
-       isExact || map unlocked pre == map unlocked tys
-     ]
-
-   noProds vfs = [(v,f) | (_,v,f) <- vfs, noProd v]
-
-   noProd ty = case ty of
-     Prod _ _ _ _ -> False
-     _ -> True
-
-checkLType :: SourceGrammar -> Context -> Term -> Type -> Check (Term, Type)
-checkLType gr g trm typ0 = do
-  typ <- computeLType gr g typ0
-
-  case trm of
-
-    Abs bt x c -> do
-      case typ of
-        Prod bt' z a b -> do 
-          (c',b') <- if isWildIdent z
-                       then checkLType gr ((bt,x,a):g) c b
-                       else do b' <- checkIn (pp "abs") $ substituteLType [(bt',z,Vr x)] b
-                               checkLType gr ((bt,x,a):g) c b'
-          return $ (Abs bt x c', Prod bt' z a b')
-        _ -> checkError $ "function type expected instead of" <+> ppType typ $$
-                          "\n   ** Double-check that the type signature of the operation" $$
-                          "matches the number of arguments given to it.\n"
-
-    App f a -> do
-       over <- getOverload gr g (Just typ) trm
-       case over of
-         Just trty -> return trty
-         _ -> do
-          (trm',ty') <- inferLType gr g trm
-          termWith trm' $ checkEqLType gr g typ ty' trm'
-
-    AdHocOverload ts -> do
-      over <- getOverload gr g Nothing trm
-      case over of
-        Just trty -> return trty
-        _ -> checkError ("unresolved overloading of constants" <+> ppTerm Qualified 0 trm) 
-
-    Q _ -> do
-       over <- getOverload gr g (Just typ) trm
-       case over of
-         Just trty -> return trty
-         _ -> do
-          (trm',ty') <- inferLType gr g trm
-          termWith trm' $ checkEqLType gr g typ ty' trm'
-
-    T _ [] ->
-      checkError ("found empty table in type" <+> ppTerm Unqualified 0 typ)
-    T _ cs -> case typ of 
-      Table arg val -> do 
-        case allParamValues gr arg of
-          Ok vs -> do
-            let ps0 = map fst cs
-            ps <- testOvershadow ps0 vs
-            if null ps 
-              then return () 
-              else checkWarn ("patterns never reached:" $$
-                              nest 2 (vcat (map (ppPatt Unqualified 0) ps)))
-          _ -> return () -- happens with variable types
-        cs' <- mapM (checkCase arg val) cs
-        return (T (TTyped arg) cs', typ)
-      _ -> checkError $ "table type expected for table instead of" $$ nest 2 (ppType typ)
-    V arg0 vs ->
-      case typ of
-        Table arg1 val ->
-           do arg' <- checkEqLType gr g arg0 arg1 trm
-              vs1 <- allParamValues gr arg1
-              if length vs1 == length vs
-                 then return ()
-                 else checkError $ "wrong number of values in table" <+> ppTerm Unqualified 0 trm
-              vs' <- map fst `fmap` sequence [checkLType gr g v val|v<-vs]
-              return (V arg' vs',typ)
-
-    R r -> case typ of --- why needed? because inference may be too difficult
-       RecType rr -> do
-       --let (ls,_) = unzip rr        -- labels of expected type
-         fsts <- mapM (checkM r) rr   -- check that they are found in the record
-         return $ (R fsts, typ)       -- normalize record
-
-       _ -> checkError ("record type expected in type checking instead of" $$ nest 2 (ppTerm Unqualified 0 typ))
-
-    ExtR r s -> case typ of
-       _ | typ == typeType -> do
-         trm' <- computeLType gr g trm
-         case trm' of
-           RecType _ -> termWith trm' $ return typeType
-           ExtR (Vr _) (RecType _) -> termWith trm' $ return typeType 
-                                      -- ext t = t ** ...
-           _ -> checkError ("invalid record type extension" <+> nest 2 (ppTerm Unqualified 0 trm))
-
-       RecType rr -> do
-
-         ll2 <- case s of
-           R ss -> return $ map fst ss
-           _ -> do
-             (s',typ2) <- inferLType gr g s
-             case typ2 of
-               RecType ss -> return $ map fst ss
-               _ ->  checkError ("cannot get labels from" $$ nest 2 (ppTerm Unqualified 0 typ2))
-         let ll1 = [l | (l,_) <- rr, notElem l ll2]
-
----         over <- getOverload gr g Nothing r --- this would solve #66 but fail ParadigmsAra. AR 6/7/2020
----         let r1 = maybe r fst over
-         let r1 = r ---
-         
-         (r',_) <- checkLType gr g r1 (RecType [field | field@(l,_) <- rr, elem l ll1])
-         (s',_) <- checkLType gr g s  (RecType [field | field@(l,_) <- rr, elem l ll2])
-
-         let rec = R ([(l,(Nothing,P r' l)) | l <- ll1] ++ [(l,(Nothing,P s' l)) | l <- ll2])
-         return (rec, typ)
-
-       ExtR ty ex -> do
-         r' <- justCheck g r ty
-         s' <- justCheck g s ex
-         return $ (ExtR r' s', typ) --- is this all? it assumes the same division in trm and typ
-
-       _ -> checkError ("record extension not meaningful for" <+> ppTerm Unqualified 0 typ)
-
-    FV vs -> do
-      ttys <- mapM (flip (checkLType gr g) typ) vs
----      checkIfComplexVariantType trm typ
-      return (FV (map fst ttys), typ) --- typ' ?
-
-    S tab arg -> checks [ do
-      (tab',ty) <- inferLType gr g tab
-      ty'       <- computeLType gr g ty
-      case ty' of
-        Table p t -> do
-          (arg',val) <- checkLType gr g arg p
-          checkEqLType gr g typ t trm
-          return (S tab' arg', t)
-        _ -> checkError ("table type expected for applied table instead of" <+> ppType ty')
-     , do
-      (arg',ty) <- inferLType gr g arg
-      ty'       <- computeLType gr g ty
-      (tab',_)  <- checkLType gr g tab (Table ty' typ)
-      return (S tab' arg', typ)
-      ]
-    Let (x,(mty,def)) body -> case mty of
-      Just ty -> do
-        (ty0,_)    <- checkLType gr g ty typeType
-        (def',ty') <- checkLType gr g def ty0
-        body' <- justCheck ((Explicit,x,ty'):g) body typ
-        return (Let (x,(Just ty',def')) body', typ)
-      _ -> do
-        (def',ty) <- inferLType gr g def  -- tries to infer type of local constant
-        checkLType gr g (Let (x,(Just ty,def')) body) typ
-
-    ELin c tr -> do
-      tr1 <- unlockRecord c tr
-      checkLType gr g tr1 typ
-
-    _ -> do
-      (trm',ty') <- inferLType gr g trm
-      termWith trm' $ checkEqLType gr g typ ty' trm'
- where
-   justCheck g ty te = checkLType gr g ty te >>= return . fst
-{-
-   recParts rr t = (RecType rr1,RecType rr2) where 
-     (rr1,rr2) = partition (flip elem (map fst t) . fst) rr 
--}
-   checkM rms (l,ty) = case lookup l rms of
-     Just (Just ty0,t) -> do
-       checkEqLType gr g ty ty0 t
-       (t',ty') <- checkLType gr g t ty
-       return (l,(Just ty',t'))
-     Just (_,t) -> do
-       (t',ty') <- checkLType gr g t ty
-       return (l,(Just ty',t'))
-     _ -> checkError $ 
-            if isLockLabel l 
-              then let cat = drop 5 (showIdent (label2ident l))
-                   in ppTerm Unqualified 0 (R rms) <+> "is not in the lincat of" <+> cat <> 
-                      "; try wrapping it with lin" <+> cat
-              else "cannot find value for label" <+> l <+> "in" <+> ppTerm Unqualified 0 (R rms)
-
-   checkCase arg val (p,t) = do
-     cont <- pattContext gr g arg p
-     t' <- justCheck (reverse cont ++ g) t val
-     return (p,t')
-
-pattContext :: SourceGrammar -> Context -> Type -> Patt -> Check Context
-pattContext env g typ p = case p of
-  PV x -> return [(Explicit,x,typ)]
-  PP (q,c) ps | q /= cPredef -> do ---- why this /=? AR 6/1/2006
-    t <- lookupResType env (q,c)
-    let (cont,v) = typeFormCnc t
-    checkCond ("wrong number of arguments for constructor in" <+> ppPatt Unqualified 0 p) 
-              (length cont == length ps)
-    checkEqLType env g typ v (patt2term p)
-    mapM (\((_,_,ty),p) -> pattContext env g ty p) (zip cont ps) >>= return . concat
-  PR r -> do
-    typ' <- computeLType env g typ
-    case typ' of
-      RecType t -> do
-        let pts = [(ty,tr) | (l,tr) <- r, Just ty <- [lookup l t]]
-        ----- checkWarn $ prt p ++++ show pts ----- debug
-        mapM (uncurry (pattContext env g)) pts >>= return . concat
-      _ -> checkError ("record type expected for pattern instead of" <+> ppTerm Unqualified 0 typ')
-  PT t p' -> do
-    checkEqLType env g typ t (patt2term p')
-    pattContext env g typ p'
-
-  PAs x p -> do
-    g' <- pattContext env g typ p
-    return ((Explicit,x,typ):g')
-
-  PAlt p' q -> do
-    g1 <- pattContext env g typ p'
-    g2 <- pattContext env g typ q
-    let pts = nub ([x | pt@(_,x,_) <- g1, notElem pt g2] ++ [x | pt@(_,x,_) <- g2, notElem pt g1])
-    checkCond 
-      ("incompatible bindings of" <+>
-       fsep pts <+> 
-       "in pattern alterantives" <+> ppPatt Unqualified 0 p) (null pts) 
-    return g1 -- must be g1 == g2
-  PSeq p q -> do
-    g1 <- pattContext env g typ p
-    g2 <- pattContext env g typ q
-    return $ g1 ++ g2
-  PRep p' -> noBind typeStr p'
-  PNeg p' -> noBind typ p'
-
-  _ -> return [] ---- check types!
- where 
-   noBind typ p' = do
-    co <- pattContext env g typ p'
-    if not (null co)
-      then checkWarn ("no variable bound inside pattern" <+> ppPatt Unqualified 0 p) 
-           >> return []
-      else return []
-
-checkEqLType :: SourceGrammar -> Context -> Type -> Type -> Term -> Check Type
-checkEqLType gr g t u trm = do
-  (b,t',u',s) <- checkIfEqLType gr g t u trm
-  case b of
-    True  -> return t'
-    False ->
-      let inferredType = ppTerm Qualified 0 u
-          expectedType = ppTerm Qualified 0 t
-          term = ppTerm Unqualified 0 trm
-          funName = pp . head . words .render $ term
-          helpfulMsg =
-            case (arrows inferredType, arrows expectedType) of
-              (0,0) -> pp "" -- None of the types is a function
-              _ -> "\n   **" <+> 
-                  if expectedType `isLessApplied` inferredType
-                    then "Maybe you gave too few arguments to" <+> funName
-                    else pp "Double-check that type signature and number of arguments match."
-      in checkError $ s <+> "type of" <+> term $$
-                            "expected:" <+> expectedType $$ -- ppqType t u $$
-                            "inferred:" <+> inferredType $$ -- ppqType u t
-                            helpfulMsg
-  where
-    -- count the number of arrows in the prettyprinted term
-    arrows :: Doc -> Int
-    arrows = length . filter (=="->") . words . render
-
-    -- If prettyprinted type t has fewer arrows then prettyprinted type u,
-    -- then t is "less applied", and we can print out more helpful error msg.
-    isLessApplied :: Doc -> Doc -> Bool
-    isLessApplied t u = arrows t < arrows u
-
-checkIfEqLType :: SourceGrammar -> Context -> Type -> Type -> Term -> Check (Bool,Type,Type,String)
-checkIfEqLType gr g t u trm = do
-  t' <- computeLType gr g t
-  u' <- computeLType gr g u
-  case t' == u' || alpha [] t' u' of
-    True -> return (True,t',u',[])
-    -- forgive missing lock fields by only generating a warning.
-    --- better: use a flag to forgive? (AR 31/1/2006)
-    _ -> case missingLock [] t' u' of
-      Ok lo -> do
-        checkWarn $ "missing lock field" <+> fsep lo
-        return (True,t',u',[])
-      Bad s -> return (False,t',u',s)
-
-  where
-
-   -- check that u is a subtype of t
-   --- quick hack version of TC.eqVal
-   alpha g t u = case (t,u) of  
-
-     -- error (the empty type!) is subtype of any other type
-     (_,u) | u == typeError -> True
-
-     -- contravariance
-     (Prod _ x a b, Prod _ y c d) -> alpha g c a && alpha ((x,y):g) b d 
-                              
-     -- record subtyping
-     (RecType rs, RecType ts) -> all (\ (l,a) -> 
-                                   any (\ (k,b) -> l == k && alpha g a b) ts) rs
-     (ExtR r s, ExtR r' s') -> alpha g r r' && alpha g s s'
-     (ExtR r s, t) -> alpha g r t || alpha g s t
-
-     -- the following say that Ints n is a subset of Int and of Ints m >= n
-     -- But why does it also allow Int as a subtype of Ints m? /TH 2014-04-04
-     (t,u) | Just m <- isTypeInts t, Just n <- isTypeInts u -> m >= n
-           | Just _ <- isTypeInts t, u == typeInt           -> True ---- check size!
-           | t == typeInt,           Just _ <- isTypeInts u -> True ---- why this ???? AR 11/12/2005
-
-     ---- this should be made in Rename
-     (Q  (m,a), Q  (n,b)) | a == b -> elem m (allExtendsPlus gr n) 
-                                   || elem n (allExtendsPlus gr m)
-                                   || m == n --- for Predef
-     (QC (m,a), QC (n,b)) | a == b -> elem m (allExtendsPlus gr n) 
-                                   || elem n (allExtendsPlus gr m)
-     (QC (m,a), Q  (n,b)) | a == b -> elem m (allExtendsPlus gr n) 
-                                   || elem n (allExtendsPlus gr m)
-     (Q  (m,a), QC (n,b)) | a == b -> elem m (allExtendsPlus gr n) 
-                                   || elem n (allExtendsPlus gr m)
-
-     -- contravariance
-     (Table a b,  Table c d)  -> alpha g c a && alpha g b d
-     (Vr x,       Vr y)       -> x == y || elem (x,y) g || elem (y,x) g
-     _                        -> t == u 
-     --- the following should be one-way coercions only. AR 4/1/2001
-                                  || elem t sTypes && elem u sTypes
-                                  || (t == typeType && u == typePType) 
-                                  || (u == typeType && t == typePType) 
-
-   missingLock g t u = case (t,u) of  
-     (RecType rs, RecType ts) -> 
-       let 
-         ls = [l | (l,a) <- rs, 
-                   not (any (\ (k,b) -> alpha g a b && l == k) ts)]
-         (locks,others) = partition isLockLabel ls
-       in case others of
-         _:_ -> Bad $ render ("missing record fields:" <+> fsep (punctuate ',' (others)))
-         _ -> return locks
-     -- contravariance
-     (Prod _ x a b, Prod _ y c d) -> do
-        ls1 <- missingLock g c a
-        ls2 <- missingLock g b d
-        return $ ls1 ++ ls2
-
-     _ -> Bad ""
-
-   sTypes = [typeStr, typeTok, typeString]
-
--- auxiliaries
-
--- | light-weight substitution for dep. types
-substituteLType :: Context -> Type -> Check Type
-substituteLType g t = case t of
-  Vr x -> return $ maybe t id $ lookup x [(x,t) | (_,x,t) <- g]
-  _ -> composOp (substituteLType g) t
-
-termWith :: Term -> Check Type -> Check (Term, Type)
-termWith t ct = do
-  ty <- ct
-  return (t,ty)
-
--- | compositional check\/infer of binary operations
-check2 :: (Term -> Check Term) -> (Term -> Term -> Term) -> 
-          Term -> Term -> Type -> Check (Term,Type)
-check2 chk con a b t = do
-  a' <- chk a
-  b' <- chk b
-  return (con a' b', t)
-
--- printing a type with a lock field lock_C as C
-ppType :: Type -> Doc
-ppType ty =
-  case ty of
-    RecType fs   -> case filter isLockLabel $ map fst fs of
-                      [lock] -> pp (drop 5 (showIdent (label2ident lock)))
-                      _      -> ppTerm Unqualified 0 ty
-    Prod _ x a b -> ppType a <+> "->" <+> ppType b
-    _            -> ppTerm Unqualified 0 ty
-{-
-ppqType :: Type -> Type -> Doc
-ppqType t u = case (ppType t, ppType u) of
-  (pt,pu) | render pt == render pu -> ppTerm Qualified 0 t
-  (pt,_) -> pt
--}
-checkLookup :: Ident -> Context -> Check Type
-checkLookup x g =
-  case [ty | (b,y,ty) <- g, x == y] of
-    []     -> checkError ("unknown variable" <+> x)
-    (ty:_) -> return ty

src/compiler/GF/Compile/TypeCheck/TC.hs

@@ -5,21 +5,22 @@
 -- Stability   : (stable)
 -- Portability : (portable)
 --
--- > CVS $Date: 2005/10/02 20:50:19 $ 
+-- > CVS $Date: 2005/10/02 20:50:19 $
 -- > CVS $Author: aarne $
 -- > CVS $Revision: 1.11 $
 --
 -- Thierry Coquand's type checking algorithm that creates a trace
 -----------------------------------------------------------------------------
 
-module GF.Compile.TypeCheck.TC (AExp(..),
-	   Theory,
-	   checkExp,
-	   inferExp,
-	   checkBranch,
-	   eqVal,
-	   whnf
-	  ) where
+module GF.Compile.TypeCheck.TC (
+    AExp(..),
+    Theory,
+    checkExp,
+    inferExp,
+    checkBranch,
+    eqVal,
+    whnf
+  ) where
 
 import GF.Data.Operations
 import GF.Grammar
@@ -31,17 +32,17 @@ import Data.Maybe
 import GF.Text.Pretty
 
 data AExp =
-     AVr   Ident Val 
+     AVr   Ident Val
    | ACn   QIdent Val
-   | AType 
-   | AInt  Int 
+   | AType
+   | AInt  Int
    | AFloat Double
    | AStr  String
    | AMeta MetaId Val
    | ALet  (Ident,(Val,AExp)) AExp
-   | AApp  AExp AExp Val 
-   | AAbs  Ident Val AExp 
-   | AProd Ident AExp AExp 
+   | AApp  AExp AExp Val
+   | AAbs  Ident Val AExp
+   | AProd Ident AExp AExp
 -- -- | AEqs  [([Exp],AExp)] --- not used
    | ARecType [ALabelling]
    | AR    [AAssign]
@@ -50,7 +51,7 @@ data AExp =
    | AData Val
   deriving (Eq,Show)
 
-type ALabelling = (Label, AExp) 
+type ALabelling = (Label, AExp)
 type AAssign = (Label, (Val, AExp))
 
 type Theory = QIdent -> Err Val
@@ -71,7 +72,7 @@ whnf :: Val -> Err Val
 whnf v = ---- errIn ("whnf" +++ prt v) $ ---- debug
          case v of
   VApp u w -> do
-    u' <- whnf u 
+    u' <- whnf u
     w' <- whnf w
     app u' w'
   VClos env e -> eval env e
@@ -81,9 +82,9 @@ app :: Val -> Val -> Err Val
 app u v = case u of
   VClos env (Abs _ x e) -> eval ((x,v):env) e
   _ -> return $ VApp u v
-  
+
 eval :: Env -> Term -> Err Val
-eval env e = ---- errIn ("eval" +++ prt e +++ "in" +++ prEnv env) $ 
+eval env e = ---- errIn ("eval" +++ prt e +++ "in" +++ prEnv env) $
              case e of
   Vr x    -> lookupVar env x
   Q c   -> return $ VCn c
@@ -95,23 +96,23 @@ eval env e = ---- errIn ("eval" +++ prt e +++ "in" +++ prEnv env) $
   _ -> return $ VClos env e
 
 eqVal :: Int -> Val -> Val -> Err [(Val,Val)]
-eqVal k u1 u2 = ---- errIn (prt u1 +++ "<>" +++ prBracket (show k) +++ prt u2) $ 
+eqVal k u1 u2 = ---- errIn (prt u1 +++ "<>" +++ prBracket (show k) +++ prt u2) $
                 do
   w1 <- whnf u1
-  w2 <- whnf u2 
+  w2 <- whnf u2
   let v = VGen k
   case (w1,w2) of
     (VApp f1 a1, VApp f2 a2) -> liftM2 (++) (eqVal k f1 f2) (eqVal k a1 a2)
     (VClos env1 (Abs _ x1 e1), VClos env2 (Abs _ x2 e2)) ->
       eqVal (k+1) (VClos ((x1,v x1):env1) e1) (VClos ((x2,v x1):env2) e2)
     (VClos env1 (Prod _ x1 a1 e1), VClos env2 (Prod _ x2 a2 e2)) ->
-      liftM2 (++) 
+      liftM2 (++)
         (eqVal k     (VClos            env1  a1) (VClos            env2  a2))
         (eqVal (k+1) (VClos ((x1,v x1):env1) e1) (VClos ((x2,v x1):env2) e2))
     (VGen i _, VGen j _) -> return [(w1,w2) | i /= j]
-    (VCn (_, i), VCn (_,j)) -> return [(w1,w2) | i /= j] 
+    (VCn (_, i), VCn (_,j)) -> return [(w1,w2) | i /= j]
     --- thus ignore qualifications; valid because inheritance cannot
-    --- be qualified. Simplifies annotation. AR 17/3/2005 
+    --- be qualified. Simplifies annotation. AR 17/3/2005
     _ -> return [(w1,w2) | w1 /= w2]
 -- invariant: constraints are in whnf
 
@@ -127,10 +128,10 @@ checkExp th tenv@(k,rho,gamma) e ty = do
 
     Abs _ x t -> case typ of
       VClos env (Prod _ y a b) -> do
-	a' <- whnf $ VClos env a ---
-	(t',cs) <- checkExp th 
-                           (k+1,(x,v x):rho, (x,a'):gamma) t (VClos ((y,v x):env) b)
-	return (AAbs x a' t', cs)
+                           a' <- whnf $ VClos env a ---
+                           (t',cs) <- checkExp th
+                                          (k+1,(x,v x):rho, (x,a'):gamma) t (VClos ((y,v x):env) b)
+                           return (AAbs x a' t', cs)
       _ -> Bad (render ("function type expected for" <+> ppTerm Unqualified 0 e <+> "instead of" <+> ppValue Unqualified 0 typ))
 
     Let (x, (mb_typ, e1)) e2 -> do
@@ -150,7 +151,7 @@ checkExp th tenv@(k,rho,gamma) e ty = do
       (b',csb) <- checkType th (k+1, (x,v x):rho, (x,VClos rho a):gamma) b
       return (AProd x a' b', csa ++ csb)
 
-    R xs -> 
+    R xs ->
       case typ of
         VRecType ys -> do case [l | (l,_) <- ys, isNothing (lookup l xs)] of
                             [] -> return ()
@@ -174,7 +175,7 @@ checkInferExp th tenv@(k,_,_) e typ = do
   (e',w,cs1) <- inferExp th tenv e
   cs2 <- eqVal k w typ
   return (e',cs1 ++ cs2)
-      
+
 inferExp :: Theory -> TCEnv -> Term -> Err (AExp, Val, [(Val,Val)])
 inferExp th tenv@(k,rho,gamma) e = case e of
    Vr x -> mkAnnot (AVr x) $ noConstr $ lookupVar gamma x
@@ -200,13 +201,13 @@ inferExp th tenv@(k,rho,gamma) e = case e of
     (e2,val2,cs2) <- inferExp th (k,rho,(x,val1):gamma) e2
     return (ALet (x,(val1,e1)) e2, val2, cs1++cs2)
    App f t -> do
-    (f',w,csf) <- inferExp th tenv f 
+    (f',w,csf) <- inferExp th tenv f
     typ <- whnf w
     case typ of
       VClos env (Prod _ x a b) -> do
         (a',csa) <- checkExp th tenv t (VClos env a)
-	b' <- whnf $ VClos ((x,VClos rho t):env) b
-	return $ (AApp f' a' b', b', csf ++ csa)
+        b' <- whnf $ VClos ((x,VClos rho t):env) b
+        return $ (AApp f' a' b', b', csf ++ csa)
       _ -> Bad (render ("Prod expected for function" <+> ppTerm Unqualified 0 f <+> "instead of" <+> ppValue Unqualified 0 typ))
    _ -> Bad (render ("cannot infer type of expression" <+> ppTerm Unqualified 0 e))
 
@@ -232,9 +233,9 @@ checkAssign th tenv@(k,rho,gamma) typs (lbl,(Nothing,exp)) = do
                    return ((lbl,(val,aexp)),cs)
 
 checkBranch :: Theory -> TCEnv -> Equation -> Val -> Err (([Term],AExp),[(Val,Val)])
-checkBranch th tenv b@(ps,t) ty = errIn ("branch" +++ show b) $ 
-                                  chB tenv' ps' ty 
- where 
+checkBranch th tenv b@(ps,t) ty = errIn ("branch" +++ show b) $
+                                  chB tenv' ps' ty
+ where
 
   (ps',_,rho2,k') = ps2ts k ps
   tenv' = (k, rho2++rho, gamma) ---- k' ?
@@ -245,11 +246,11 @@ checkBranch th tenv b@(ps,t) ty = errIn ("branch" +++ show b) $
       typ <- whnf ty
       case typ of
         VClos env (Prod _ y a b) -> do
-	  a' <- whnf $ VClos env a
+          a' <- whnf $ VClos env a
           (p', sigma, binds, cs1) <- checkP tenv p y a'
           let tenv' = (length binds, sigma ++ rho, binds ++ gamma)
           ((ps',exp),cs2) <- chB tenv' ps2 (VClos ((y,p'):env) b)
-	  return ((p:ps',exp), cs1 ++ cs2) -- don't change the patt
+          return ((p:ps',exp), cs1 ++ cs2) -- don't change the patt
         _ -> Bad (render ("Product expected for definiens" <+> ppTerm Unqualified 0 t <+> "instead of" <+> ppValue Unqualified 0 typ))
     [] -> do
       (e,cs) <- checkExp th tenv t ty
@@ -259,15 +260,15 @@ checkBranch th tenv b@(ps,t) ty = errIn ("branch" +++ show b) $
      let sigma = [(x, VGen i x) | ((x,_),i) <- zip delta [k..]]
      return (VClos sigma t, sigma, delta, cs)
 
-  ps2ts k = foldr p2t ([],0,[],k) 
+  ps2ts k = foldr p2t ([],0,[],k)
   p2t p (ps,i,g,k) = case p of
-     PW      -> (Meta i : ps, i+1,g,k) 
+     PW      -> (Meta i : ps, i+1,g,k)
      PV x    -> (Vr x   : ps, i, upd x k g,k+1)
      PAs x p -> p2t p (ps,i,g,k)
      PString s -> (K s : ps, i, g, k)
      PInt n -> (EInt n : ps, i, g, k)
      PFloat n -> (EFloat n : ps, i, g, k)
-     PP c xs -> (mkApp (Q c) xss : ps, j, g',k') 
+     PP c xs -> (mkApp (Q c) xss : ps, j, g',k')
                     where (xss,j,g',k') = foldr p2t ([],i,g,k) xs
      PImplArg p -> p2t p (ps,i,g,k)
      PTilde t -> (t : ps, i, g, k)
@@ -307,8 +308,8 @@ checkPatt th tenv exp val = do
        case typ of
          VClos env (Prod _ x a b) -> do
            (a',_,csa) <- checkExpP tenv t (VClos env a)
-	   b' <- whnf $ VClos ((x,VClos rho t):env) b
-	   return $ (AApp f' a' b', b', csf ++ csa)
+           b' <- whnf $ VClos ((x,VClos rho t):env) b
+           return $ (AApp f' a' b', b', csf ++ csa)
          _ -> Bad (render ("Prod expected for function" <+> ppTerm Unqualified 0 f <+> "instead of" <+> ppValue Unqualified 0 typ))
      _ -> Bad (render ("cannot typecheck pattern" <+> ppTerm Unqualified 0 exp))
 
@@ -321,4 +322,3 @@ mkAnnot :: (Val -> AExp) -> Err (Val,[(Val,Val)]) -> Err (AExp,Val,[(Val,Val)])
 mkAnnot a ti = do
   (v,cs) <- ti
   return (a v, v, cs)
-

src/compiler/GF/Compile/Update.hs

@@ -5,7 +5,7 @@
 -- Stability   : (stable)
 -- Portability : (portable)
 --
--- > CVS $Date: 2005/05/30 18:39:44 $ 
+-- > CVS $Date: 2005/05/30 18:39:44 $
 -- > CVS $Author: aarne $
 -- > CVS $Revision: 1.8 $
 --
@@ -34,14 +34,14 @@ buildAnyTree :: Fail.MonadFail m => ModuleName -> [(Ident,Info)] -> m (Map.Map I
 buildAnyTree m = go Map.empty
   where
     go map []         = return map
-    go map ((c,j):is) = do
+    go map ((c,j):is) =
       case Map.lookup c map of
         Just i  -> case unifyAnyInfo m i j of
-		     Ok k  -> go (Map.insert c k map) is
-		     Bad _ -> fail $ render ("conflicting information in module"<+>m $$
-		                             nest 4 (ppJudgement Qualified (c,i)) $$
-		                             "and" $+$
-		                             nest 4 (ppJudgement Qualified (c,j)))
+          Ok k  -> go (Map.insert c k map) is
+          Bad _ -> fail $ render ("conflicting information in module"<+>m $$
+                                  nest 4 (ppJudgement Qualified (c,i)) $$
+                                  "and" $+$
+                                  nest 4 (ppJudgement Qualified (c,j)))
         Nothing -> go (Map.insert c j map) is
 
 extendModule :: FilePath -> SourceGrammar -> SourceModule -> Check SourceModule
@@ -51,14 +51,14 @@ extendModule cwd gr (name,m)
   ---- Should be replaced by real control. AR 4/2/2005
   | mstatus m == MSIncomplete && isModCnc m = return (name,m)
   | otherwise                               = checkInModule cwd m NoLoc empty $ do
-                                                 m' <- foldM extOne m (mextend m) 
+                                                 m' <- foldM extOne m (mextend m)
                                                  return (name,m')
  where
    extOne mo (n,cond) = do
      m0 <- lookupModule gr n
 
      -- test that the module types match, and find out if the old is complete
-     unless (sameMType (mtype m) (mtype mo)) 
+     unless (sameMType (mtype m) (mtype mo))
             (checkError ("illegal extension type to module" <+> name))
 
      let isCompl = isCompleteModule m0
@@ -67,7 +67,7 @@ extendModule cwd gr (name,m)
      js1 <- extendMod gr isCompl ((n,m0), isInherited cond) name (jments mo)
 
      -- if incomplete, throw away extension information
-     return $ 
+     return $
           if isCompl
             then mo {jments = js1}
             else mo {mextend= filter ((/=n) . fst) (mextend mo)
@@ -75,7 +75,7 @@ extendModule cwd gr (name,m)
                     ,jments = js1
                     }
 
--- | rebuilding instance + interface, and "with" modules, prior to renaming. 
+-- | rebuilding instance + interface, and "with" modules, prior to renaming.
 -- AR 24/10/2003
 rebuildModule :: FilePath -> SourceGrammar -> SourceModule -> Check SourceModule
 rebuildModule cwd gr mo@(i,mi@(ModInfo mt stat fs_ me mw ops_ med_ msrc_ env_ js_)) =
@@ -88,8 +88,8 @@ rebuildModule cwd gr mo@(i,mi@(ModInfo mt stat fs_ me mw ops_ med_ msrc_ env_ js
 
     -- add the information given in interface into an instance module
     Nothing -> do
-      unless (null is || mstatus mi == MSIncomplete) 
-             (checkError ("module" <+> i <+> 
+      unless (null is || mstatus mi == MSIncomplete)
+             (checkError ("module" <+> i <+>
                           "has open interfaces and must therefore be declared incomplete"))
       case mt of
         MTInstance (i0,mincl) -> do
@@ -113,7 +113,7 @@ rebuildModule cwd gr mo@(i,mi@(ModInfo mt stat fs_ me mw ops_ med_ msrc_ env_ js
       let stat' = if all (flip elem infs) is
                     then MSComplete
                     else MSIncomplete
-      unless (stat' == MSComplete || stat == MSIncomplete) 
+      unless (stat' == MSComplete || stat == MSIncomplete)
              (checkError ("module" <+> i <+> "remains incomplete"))
       ModInfo mt0 _ fs me' _ ops0 _ fpath _ js <- lookupModule gr ext
       let ops1 = nub $
@@ -141,24 +141,24 @@ rebuildModule cwd gr mo@(i,mi@(ModInfo mt stat fs_ me mw ops_ med_ msrc_ env_ js
 extendMod :: Grammar ->
              Bool -> (Module,Ident -> Bool) -> ModuleName ->
              Map.Map Ident Info -> Check (Map.Map Ident Info)
-extendMod gr isCompl ((name,mi),cond) base new = foldM try new $ Map.toList (jments mi) 
+extendMod gr isCompl ((name,mi),cond) base new = foldM try new $ Map.toList (jments mi)
   where
     try new (c,i0)
       | not (cond c) = return new
       | otherwise    = case Map.lookup c new of
                          Just j -> case unifyAnyInfo name i j of
-		                     Ok k  -> return $ Map.insert c k new
-		                     Bad _ -> do (base,j) <- case j of 
-		                                               AnyInd _ m -> lookupOrigInfo gr (m,c)
-		                                               _          -> return (base,j)
-		                                 (name,i) <- case i of 
+                                     Ok k  -> return $ Map.insert c k new
+                                     Bad _ -> do (base,j) <- case j of
+                                                               AnyInd _ m -> lookupOrigInfo gr (m,c)
+                                                               _          -> return (base,j)
+                                                 (name,i) <- case i of
                                                                AnyInd _ m -> lookupOrigInfo gr (m,c)
                                                                _          -> return (name,i)
-		                                 checkError ("cannot unify the information" $$ 
-		                                             nest 4 (ppJudgement Qualified (c,i)) $$
-		                                             "in module" <+> name <+> "with" $$
-		                                             nest 4 (ppJudgement Qualified (c,j)) $$
-		                                             "in module" <+> base)
+                                                 checkError ("cannot unify the information" $$
+                                                             nest 4 (ppJudgement Qualified (c,i)) $$
+                                                             "in module" <+> name <+> "with" $$
+                                                             nest 4 (ppJudgement Qualified (c,j)) $$
+                                                             "in module" <+> base)
                          Nothing-> if isCompl
                                      then return $ Map.insert c (indirInfo name i) new
                                      else return $ Map.insert c i new
@@ -166,11 +166,11 @@ extendMod gr isCompl ((name,mi),cond) base new = foldM try new $ Map.toList (jme
         i = globalizeLoc (msrc mi) i0
 
     indirInfo :: ModuleName -> Info -> Info
-    indirInfo n info = AnyInd b n' where 
+    indirInfo n info = AnyInd b n' where
       (b,n') = case info of
         ResValue _ -> (True,n)
         ResParam _ _ -> (True,n)
-        AbsFun _ _ Nothing _ -> (True,n) 
+        AbsFun _ _ Nothing _ -> (True,n)
         AnyInd b k -> (b,k)
         _ -> (False,n) ---- canonical in Abs
 
@@ -194,24 +194,24 @@ globalizeLoc fpath i =
 
 unifyAnyInfo :: ModuleName -> Info -> Info -> Err Info
 unifyAnyInfo m i j = case (i,j) of
-  (AbsCat mc1, AbsCat mc2) -> 
+  (AbsCat mc1, AbsCat mc2) ->
     liftM AbsCat (unifyMaybeL mc1 mc2)
-  (AbsFun mt1 ma1 md1 moper1, AbsFun mt2 ma2 md2 moper2) -> 
+  (AbsFun mt1 ma1 md1 moper1, AbsFun mt2 ma2 md2 moper2) ->
     liftM4 AbsFun (unifyMaybeL mt1 mt2) (unifAbsArrity ma1 ma2) (unifAbsDefs md1 md2) (unifyMaybe moper1 moper2) -- adding defs
 
   (ResParam mt1 mv1, ResParam mt2 mv2) ->
     liftM2 ResParam (unifyMaybeL mt1 mt2) (unifyMaybe mv1 mv2)
-  (ResValue (L l1 t1), ResValue (L l2 t2)) 
+  (ResValue (L l1 t1), ResValue (L l2 t2))
       | t1==t2    -> return (ResValue (L l1 t1))
       | otherwise -> fail ""
   (_, ResOverload ms t) | elem m ms ->
     return $ ResOverload ms t
-  (ResOper mt1 m1, ResOper mt2 m2) -> 
+  (ResOper mt1 m1, ResOper mt2 m2) ->
     liftM2 ResOper (unifyMaybeL mt1 mt2) (unifyMaybeL m1 m2)
 
-  (CncCat mc1 md1 mr1 mp1 mpmcfg1, CncCat mc2 md2 mr2 mp2 mpmcfg2) -> 
+  (CncCat mc1 md1 mr1 mp1 mpmcfg1, CncCat mc2 md2 mr2 mp2 mpmcfg2) ->
     liftM5 CncCat (unifyMaybeL mc1 mc2) (unifyMaybeL md1 md2) (unifyMaybeL mr1 mr2) (unifyMaybeL mp1 mp2)  (unifyMaybe mpmcfg1 mpmcfg2)
-  (CncFun m mt1 md1 mpmcfg1, CncFun _ mt2 md2 mpmcfg2) -> 
+  (CncFun m mt1 md1 mpmcfg1, CncFun _ mt2 md2 mpmcfg2) ->
     liftM3 (CncFun m) (unifyMaybeL mt1 mt2) (unifyMaybeL md1 md2) (unifyMaybe mpmcfg1 mpmcfg2)
 
   (AnyInd b1 m1, AnyInd b2 m2) -> do

src/compiler/GF/Data/BacktrackM.hs

@@ -16,18 +16,18 @@
 {-# LANGUAGE CPP #-}
 module GF.Data.BacktrackM (
                     -- * the backtracking state monad
-		    BacktrackM,
-		    -- * monad specific utilities
-		    member,
-		    cut,
-		    -- * running the monad
-		    foldBM,          runBM,
-		    foldSolutions,   solutions,
-		    foldFinalStates, finalStates,
-		    
-		    -- * reexport the 'MonadState' class
-		    module Control.Monad.State.Class,
-		  ) where
+                    BacktrackM,
+                    -- * monad specific utilities
+                    member,
+                    cut,
+                    -- * running the monad
+                    foldBM,          runBM,
+                    foldSolutions,   solutions,
+                    foldFinalStates, finalStates,
+
+                    -- * reexport the 'MonadState' class
+                    module Control.Monad.State.Class,
+                  ) where
 
 import Data.List
 import Control.Applicative
@@ -70,7 +70,7 @@ instance Applicative (BacktrackM s) where
 instance Monad (BacktrackM s) where
     return a   = BM (\c s b -> c a s b)
     BM m >>= k = BM (\c s b -> m (\a s b -> unBM (k a) c s b) s b)
-	where unBM (BM m) = m
+        where unBM (BM m) = m
 
 #if !(MIN_VERSION_base(4,13,0))
     fail = Fail.fail

src/compiler/GF/Data/Graph.hs

@@ -5,7 +5,7 @@
 -- Stability   : (stable)
 -- Portability : (portable)
 --
--- > CVS $Date: 2005/11/10 16:43:44 $ 
+-- > CVS $Date: 2005/11/10 16:43:44 $
 -- > CVS $Author: bringert $
 -- > CVS $Revision: 1.2 $
 --
@@ -34,7 +34,7 @@ import Data.Set (Set)
 import qualified Data.Set as Set
 
 data Graph n a b = Graph [n] ![Node n a] ![Edge n b]
-		 deriving (Eq,Show)
+    deriving (Eq,Show)
 
 type Node n a = (n,a)
 type Edge n b = (n,n,b)
@@ -63,7 +63,7 @@ emap f (Graph c ns es) = Graph c ns [(x,y,f l) | (x,y,l) <- es]
 
 -- | Add a node to the graph.
 newNode :: a               -- ^ Node label
-        -> Graph n a b 
+        -> Graph n a b
         -> (Graph n a b,n) -- ^ Node graph and name of new node
 newNode l (Graph (c:cs) ns es) = (Graph cs ((c,l):ns) es, c)
 
@@ -83,7 +83,7 @@ newEdges es g = foldl' (flip newEdge) g es
 -- lazy version:
 -- newEdges es' (Graph c ns es) = Graph c ns (es'++es)
 
-insertEdgeWith :: Eq n => 
+insertEdgeWith :: Eq n =>
                   (b -> b -> b) -> Edge n b -> Graph n a b -> Graph n a b
 insertEdgeWith f e@(x,y,l) (Graph c ns es) = Graph c ns (h es)
   where h [] = [e]
@@ -97,7 +97,7 @@ removeNode n = removeNodes (Set.singleton n)
 -- | Remove a set of nodes and all edges to and from those nodes.
 removeNodes :: Ord n => Set n -> Graph n a b -> Graph n a b
 removeNodes xs (Graph c ns es) = Graph c ns' es'
-  where 
+  where
   keepNode n = not (Set.member n xs)
   ns' = [ x | x@(n,_) <- ns, keepNode n ]
   es' = [ e | e@(f,t,_) <- es, keepNode f && keepNode t ]
@@ -105,7 +105,7 @@ removeNodes xs (Graph c ns es) = Graph c ns' es'
 -- | Get a map of node names to info about each node.
 nodeInfo :: Ord n => Graph n a b -> NodeInfo n a b
 nodeInfo g = Map.fromList [ (n, (x, fn inc n, fn out n)) | (n,x) <- nodes g ]
-  where 
+  where
   inc = groupEdgesBy edgeTo g
   out = groupEdgesBy edgeFrom g
   fn m n = fromMaybe [] (Map.lookup n m)
@@ -148,16 +148,16 @@ reverseGraph :: Graph n a b -> Graph n a b
 reverseGraph (Graph c ns es) = Graph c ns [ (t,f,l) | (f,t,l) <- es ]
 
 -- | Add the nodes from the second graph to the first graph.
---   The nodes in the second graph will be renamed using the name 
+--   The nodes in the second graph will be renamed using the name
 --   supply in the first graph.
 --   This function is more efficient when the second graph
 --   is smaller than the first.
-mergeGraphs :: Ord m => Graph n a b -> Graph m a b 
+mergeGraphs :: Ord m => Graph n a b -> Graph m a b
             -> (Graph n a b, m -> n) -- ^ The new graph and a function translating
                                       --  the old names of nodes in the second graph
                                       --  to names in the new graph.
 mergeGraphs (Graph c ns1 es1) g2 = (Graph c' (ns2++ns1) (es2++es1), newName)
-  where 
+  where
   (xs,c') = splitAt (length (nodes g2)) c
   newNames = Map.fromList (zip (map fst (nodes g2)) xs)
   newName n = fromJust $ Map.lookup n newNames
@@ -170,7 +170,7 @@ renameNodes :: (n -> m) -- ^ renaming function
             -> Graph n a b -> Graph m a b
 renameNodes newName c (Graph _ ns es) = Graph c ns' es'
     where ns' = map' (\ (n,x) -> (newName n,x)) ns
-	  es' = map' (\ (f,t,l) -> (newName f, newName t, l)) es
+          es' = map' (\ (f,t,l) -> (newName f, newName t, l)) es
 
 -- | A strict 'map'
 map' :: (a -> b) -> [a] -> [b]

src/compiler/GF/Data/Graphviz.hs

@@ -5,7 +5,7 @@
 -- Stability   : (stable)
 -- Portability : (portable)
 --
--- > CVS $Date: 2005/09/15 18:10:44 $ 
+-- > CVS $Date: 2005/09/15 18:10:44 $
 -- > CVS $Author: bringert $
 -- > CVS $Revision: 1.2 $
 --
@@ -13,14 +13,14 @@
 -----------------------------------------------------------------------------
 
 module GF.Data.Graphviz (
-				  Graph(..), GraphType(..), 
-				  Node(..), Edge(..),
-				  Attr,
-                                  addSubGraphs,
-                                  setName,
-                                  setAttr,
-				  prGraphviz
-			) where
+                          Graph(..), GraphType(..),
+                          Node(..), Edge(..),
+                          Attr,
+                          addSubGraphs,
+                          setName,
+                          setAttr,
+                          prGraphviz
+                        ) where
 
 import Data.Char
 
@@ -70,14 +70,14 @@ prGraphviz g@(Graph t i _ _ _ _) =
     graphtype t ++ " " ++ maybe "" esc i ++ " {\n" ++ prGraph g ++ "}\n"
 
 prSubGraph :: Graph -> String
-prSubGraph g@(Graph _ i _ _ _ _) = 
+prSubGraph g@(Graph _ i _ _ _ _) =
     "subgraph" ++ " " ++ maybe "" esc i ++ " {\n" ++ prGraph g ++ "}"
 
 prGraph :: Graph -> String
-prGraph (Graph t id at ns es ss) = 
+prGraph (Graph t id at ns es ss) =
     unlines $ map (++";") (map prAttr at
-		           ++ map prNode ns 
-		           ++ map (prEdge t) es
+                           ++ map prNode ns
+                           ++ map (prEdge t) es
                            ++ map prSubGraph ss)
 
 graphtype :: GraphType -> String
@@ -96,7 +96,7 @@ edgeop Undirected = "--"
 
 prAttrList :: [Attr] -> String
 prAttrList [] = ""
-prAttrList at =	"[" ++ join "," (map prAttr at) ++ "]"
+prAttrList at = "[" ++ join "," (map prAttr at) ++ "]"
 
 prAttr :: Attr -> String
 prAttr (n,v) = esc n ++ " = " ++ esc v

src/compiler/GF/Data/Operations.hs

@@ -5,7 +5,7 @@
 -- Stability   : (stable)
 -- Portability : (portable)
 --
--- > CVS $Date: 2005/11/11 16:12:41 $ 
+-- > CVS $Date: 2005/11/11 16:12:41 $
 -- > CVS $Author: bringert $
 -- > CVS $Revision: 1.22 $
 --
@@ -15,34 +15,34 @@
 -----------------------------------------------------------------------------
 
 module GF.Data.Operations (
-		   -- ** The Error monad
-		   Err(..), err, maybeErr, testErr, fromErr, errIn, 
-		   lookupErr,
+     -- ** The Error monad
+     Err(..), err, maybeErr, testErr, fromErr, errIn,
+     lookupErr,
 
-		   -- ** Error monad class
-		   ErrorMonad(..), checks, --doUntil, allChecks, checkAgain,
-                   liftErr,
-		   
-		   -- ** Checking
-		   checkUnique, unifyMaybeBy, unifyMaybe,
+     -- ** Error monad class
+     ErrorMonad(..), checks, --doUntil, allChecks, checkAgain,
+                 liftErr,
 
-           -- ** Monadic operations on lists and pairs
-		   mapPairsM, pairM,
- 
-		   -- ** Printing
-		   indent, (+++), (++-), (++++), (+++-), (+++++),
-		   prUpper, prReplicate, prTList, prQuotedString, prParenth, prCurly, 
-		   prBracket, prArgList, prSemicList, prCurlyList, restoreEscapes,
-		   numberedParagraphs, prConjList, prIfEmpty, wrapLines,
+     -- ** Checking
+     checkUnique, unifyMaybeBy, unifyMaybe,
 
-		   -- ** Topological sorting
-		   topoTest, topoTest2,
+         -- ** Monadic operations on lists and pairs
+     mapPairsM, pairM,
 
-		   -- ** Misc
-		   readIntArg,
-		   iterFix,  chunks,
-                
-		  ) where
+     -- ** Printing
+     indent, (+++), (++-), (++++), (+++-), (+++++),
+     prUpper, prReplicate, prTList, prQuotedString, prParenth, prCurly,
+     prBracket, prArgList, prSemicList, prCurlyList, restoreEscapes,
+     numberedParagraphs, prConjList, prIfEmpty, wrapLines,
+
+     -- ** Topological sorting
+     topoTest, topoTest2,
+
+     -- ** Misc
+     readIntArg,
+     iterFix,  chunks,
+
+    ) where
 
 import Data.Char (isSpace, toUpper, isSpace, isDigit)
 import Data.List (nub, partition, (\\))
@@ -107,7 +107,7 @@ indent i s = replicate i ' ' ++ s
 (+++), (++-), (++++), (+++-), (+++++) :: String -> String -> String
 a +++ b   = a ++ " "    ++ b
 
-a ++- ""  = a 
+a ++- ""  = a
 a ++- b   = a +++ b
 
 a ++++ b  = a ++ "\n"   ++ b
@@ -145,20 +145,20 @@ prCurly   s = "{" ++ s ++ "}"
 prBracket s = "[" ++ s ++ "]"
 
 prArgList, prSemicList, prCurlyList :: [String] -> String
-prArgList   = prParenth . prTList "," 
+prArgList   = prParenth . prTList ","
 prSemicList = prTList " ; "
 prCurlyList = prCurly . prSemicList
 
 restoreEscapes :: String -> String
-restoreEscapes s = 
-  case s of 
+restoreEscapes s =
+  case s of
     []       -> []
     '"' : t  -> '\\' : '"'  : restoreEscapes t
     '\\': t  -> '\\' : '\\' : restoreEscapes t
     c   : t  -> c : restoreEscapes t
 
 numberedParagraphs :: [[String]] -> [String]
-numberedParagraphs t = case t of 
+numberedParagraphs t = case t of
   []   -> []
   p:[] -> p
   _    -> concat [(show n ++ ".") : s | (n,s) <- zip [1..] t]
@@ -204,12 +204,12 @@ topoTest2 g0 = maybe (Right cycles) Left (tsort g)
         ([],[]) -> Just []
         ([],_) -> Nothing
         (ns,rest) -> (leaves:) `fmap` tsort [(n,es \\ leaves) | (n,es)<-rest]
-	  where leaves = map fst ns
+            where leaves = map fst ns
 
 
 -- | Fix point iterator (for computing e.g. transitive closures or reachability)
 iterFix :: Eq a => ([a] -> [a]) -> [a] -> [a]
-iterFix more start = iter start start 
+iterFix more start = iter start start
   where
     iter old new = if (null new')
                       then old
@@ -241,7 +241,7 @@ liftErr e = err raise return e
 {-
 instance ErrorMonad (STM s) where
   raise msg = STM (\s -> raise msg)
-  handle (STM f) g = STM (\s -> (f s) 
+  handle (STM f) g = STM (\s -> (f s)
                                 `handle` (\e -> let STM g' = (g e) in
                                                     g' s))
 

src/compiler/GF/Data/Relation.hs

@@ -5,7 +5,7 @@
 -- Stability   : (stable)
 -- Portability : (portable)
 --
--- > CVS $Date: 2005/10/26 17:13:13 $ 
+-- > CVS $Date: 2005/10/26 17:13:13 $
 -- > CVS $Author: bringert $
 -- > CVS $Revision: 1.1 $
 --
@@ -83,7 +83,7 @@ transitiveClosure r = fix (Map.map growSet) r
   where growSet ys = foldl Set.union ys (map (allRelated r) $ Set.toList ys)
 
 reflexiveClosure_ :: Ord a => [a] -- ^ The set over which the relation is defined.
-		 -> Rel a -> Rel a
+                  -> Rel a -> Rel a
 reflexiveClosure_ u r = relates [(x,x) | x <- u] r
 
 -- | Uses 'domain'
@@ -104,7 +104,7 @@ reflexiveElements :: Ord a => Rel a -> Set a
 reflexiveElements r = Set.fromList [ x | (x,ys) <- Map.toList r, x `Set.member` ys ]
 
 -- | Keep the related pairs for which the predicate is true.
-filterRel :: Ord a => (a -> a -> Bool) -> Rel a -> Rel a 
+filterRel :: Ord a => (a -> a -> Bool) -> Rel a -> Rel a
 filterRel p = fst . purgeEmpty . Map.mapWithKey (Set.filter . p)
 
 -- | Remove keys that map to no elements.
@@ -112,16 +112,16 @@ purgeEmpty :: Ord a => Rel a -> (Rel a, Set a)
 purgeEmpty r = let (r',r'') = Map.partition (not . Set.null) r
                 in (r', Map.keysSet r'')
 
--- | Get the equivalence classes from an equivalence relation. 
+-- | Get the equivalence classes from an equivalence relation.
 equivalenceClasses :: Ord a => Rel a -> [Set a]
 equivalenceClasses r = equivalenceClasses_ (Map.keys r) r
  where equivalenceClasses_ [] _ = []
        equivalenceClasses_ (x:xs) r = ys:equivalenceClasses_ zs r
-	   where ys = allRelated r x
-                 zs = [x' | x' <- xs, not (x' `Set.member` ys)]
+          where ys = allRelated r x
+                zs = [x' | x' <- xs, not (x' `Set.member` ys)]
 
 isTransitive :: Ord a => Rel a -> Bool
-isTransitive r = and [z `Set.member` ys | (x,ys) <- Map.toList r, 
+isTransitive r = and [z `Set.member` ys | (x,ys) <- Map.toList r,
                       y <- Set.toList ys, z <- Set.toList (allRelated r y)]
 
 isReflexive :: Ord a => Rel a -> Bool
@@ -181,7 +181,7 @@ remove x r = let (mss,r') = Map.updateLookupWithKey (\_ _ -> Nothing) x r
                    Nothing      -> (r', Set.empty, Set.empty)
                    -- remove element from all incoming and outgoing sets
                    -- of other elements
-                   Just (is,os) -> 
+                   Just (is,os) ->
                        let r''  = foldr (\i -> Map.adjust (\ (is',os') -> (is', Set.delete x os')) i) r'  $ Set.toList is
                            r''' = foldr (\o -> Map.adjust (\ (is',os') -> (Set.delete x is', os')) o) r'' $ Set.toList os
                         in (r''', is, os)
@@ -190,4 +190,4 @@ incoming :: Ord a => a -> Rel' a -> Set a
 incoming x r = maybe Set.empty fst $ Map.lookup x r
 
 --outgoing :: Ord a => a -> Rel' a -> Set a
---outgoing x r = maybe Set.empty snd $ Map.lookup x r
+--outgoing x r = maybe Set.empty snd $ Map.lookup x r

src/compiler/GF/Data/Utilities.hs

@@ -4,7 +4,7 @@
 -- Stability   : (stable)
 -- Portability : (portable)
 --
--- > CVS $Date: 2005/10/26 18:47:16 $ 
+-- > CVS $Date: 2005/10/26 18:47:16 $
 -- > CVS $Author: bringert $
 -- > CVS $Revision: 1.6 $
 --
@@ -33,7 +33,7 @@ longerThan    n = not . notLongerThan n
 lookupList :: Eq a => a -> [(a, b)] -> [b]
 lookupList a [] = []
 lookupList a (p:ps) | a == fst p = snd p : lookupList a ps
-		    | otherwise  =         lookupList a ps
+                    | otherwise  =         lookupList a ps
 
 split :: [a] -> ([a], [a])
 split (x : y : as) = (x:xs, y:ys)
@@ -48,8 +48,8 @@ splitBy p (a : as) = if p a then (a:xs, ys) else (xs, a:ys)
 foldMerge :: (a -> a -> a) -> a -> [a] -> a
 foldMerge merge zero = fm
     where fm [] = zero
-	  fm [a] = a
-	  fm abs = let (as, bs) = split abs in fm as `merge` fm bs
+          fm [a] = a
+          fm abs = let (as, bs) = split abs in fm as `merge` fm bs
 
 select :: [a] -> [(a, [a])]
 select [] = []
@@ -68,7 +68,7 @@ safeInit :: [a] -> [a]
 safeInit [] = []
 safeInit xs = init xs
 
--- | Sorts and then groups elements given an ordering of the 
+-- | Sorts and then groups elements given an ordering of the
 --   elements.
 sortGroupBy :: (a -> a -> Ordering) -> [a] -> [[a]]
 sortGroupBy f = groupBy (compareEq f) . sortBy f

src/compiler/GF/Grammar/Canonical.hs

@@ -11,6 +11,7 @@
 module GF.Grammar.Canonical where
 import Prelude hiding ((<>))
 import GF.Text.Pretty
+import GF.Infra.Ident (RawIdent)
 
 -- | A Complete grammar
 data Grammar = Grammar Abstract [Concrete] deriving Show
@@ -44,12 +45,12 @@ data LincatDef = LincatDef CatId LinType  deriving Show
 data LinDef    = LinDef FunId [VarId] LinValue  deriving Show
 
 -- | Linearization type, RHS of @lincat@
-data LinType = FloatType 
-             | IntType 
+data LinType = FloatType
+             | IntType
              | ParamType ParamType
              | RecordType [RecordRowType]
-             | StrType 
-             | TableType LinType LinType 
+             | StrType
+             | TableType LinType LinType
              | TupleType [LinType]
               deriving (Eq,Ord,Show)
 
@@ -59,7 +60,7 @@ newtype ParamType = ParamTypeId ParamId deriving (Eq,Ord,Show)
 data LinValue = ConcatValue LinValue LinValue
               | LiteralValue LinLiteral
               | ErrorValue String
-              | ParamConstant ParamValue 
+              | ParamConstant ParamValue
               | PredefValue PredefId
               | RecordValue [RecordRowValue]
               | TableValue LinType [TableRowValue]
@@ -73,9 +74,9 @@ data LinValue = ConcatValue LinValue LinValue
               | CommentedValue String LinValue
               deriving (Eq,Ord,Show)
 
-data LinLiteral = FloatConstant Float 
-                | IntConstant Int 
-                | StrConstant String 
+data LinLiteral = FloatConstant Float
+                | IntConstant Int
+                | StrConstant String
                 deriving (Eq,Ord,Show)
 
 data LinPattern = ParamPattern ParamPattern
@@ -106,7 +107,7 @@ newtype PredefId = PredefId Id        deriving (Eq,Ord,Show)
 newtype LabelId  = LabelId Id         deriving (Eq,Ord,Show)
 data VarValueId  = VarValueId QualId  deriving (Eq,Ord,Show)
 
--- | Name of param type or param value 
+-- | Name of param type or param value
 newtype ParamId = ParamId QualId  deriving (Eq,Ord,Show)
 
 --------------------------------------------------------------------------------
@@ -126,7 +127,7 @@ data FlagValue = Str String | Int Int | Flt Double deriving Show
 
 -- *** Identifiers
 
-type Id = String
+type Id = RawIdent
 data QualId = Qual ModId Id | Unqual Id  deriving (Eq,Ord,Show)
 
 --------------------------------------------------------------------------------
@@ -249,7 +250,7 @@ instance PPA LinLiteral where
             FloatConstant f -> pp f
             IntConstant n -> pp n
             StrConstant s -> doubleQuotes s -- hmm
-  
+
 instance RhsSeparator LinValue where rhsSep _ = pp "="
 
 instance Pretty LinPattern where
@@ -264,8 +265,7 @@ instance PPA LinPattern where
       ParamPattern pv -> ppA pv
       RecordPattern r -> block r
       TuplePattern ps -> "<"<>punctuate "," ps<>">"
-      WildPattern     -> pp "_"                
-      _ -> parens p
+      WildPattern     -> pp "_"
 
 instance RhsSeparator LinPattern where rhsSep _ = pp "="
 

src/compiler/GF/Grammar/CanonicalJSON.hs

@@ -7,6 +7,7 @@ import Control.Applicative ((<|>))
 import Data.Ratio (denominator, numerator)
 import GF.Grammar.Canonical
 import Control.Monad (guard)
+import GF.Infra.Ident (RawIdent,showRawIdent,rawIdentS)
 
 
 encodeJSON :: FilePath -> Grammar -> IO ()
@@ -29,7 +30,7 @@ instance JSON Grammar where
 -- ** Abstract Syntax
 
 instance JSON Abstract where
-  showJSON (Abstract absid flags cats funs) 
+  showJSON (Abstract absid flags cats funs)
     = makeObj [("abs", showJSON absid),
                ("flags", showJSON flags),
                ("cats", showJSON cats),
@@ -81,7 +82,7 @@ instance JSON TypeBinding where
 -- ** Concrete syntax
 
 instance JSON Concrete where
-  showJSON (Concrete cncid absid flags params lincats lins) 
+  showJSON (Concrete cncid absid flags params lincats lins)
     = makeObj [("cnc", showJSON cncid),
                ("abs", showJSON absid),
                ("flags", showJSON flags),
@@ -204,12 +205,12 @@ instance JSON a => JSON (RecordRow a) where
   -- record rows and lists of record rows are both encoded as JSON records (i.e., objects)
   showJSON  row  = showJSONs [row]
   showJSONs rows = makeObj (map toRow rows)
-    where toRow (RecordRow (LabelId lbl) val) = (lbl, showJSON val)
+    where toRow (RecordRow (LabelId lbl) val) = (showRawIdent lbl, showJSON val)
 
   readJSON  obj = head <$> readJSONs obj
   readJSONs obj = mapM fromRow (assocsJSObject obj)
     where fromRow (lbl, jsvalue) = do value <- readJSON jsvalue
-                                      return (RecordRow (LabelId lbl) value)
+                                      return (RecordRow (LabelId (rawIdentS lbl)) value)
 
 instance JSON rhs => JSON (TableRow rhs) where
   showJSON (TableRow l v) = makeObj [(".pattern", showJSON l), (".value", showJSON v)]
@@ -219,19 +220,19 @@ instance JSON rhs => JSON (TableRow rhs) where
 
 -- *** Identifiers in Concrete Syntax
 
-instance JSON PredefId   where showJSON (PredefId    s) = showJSON s ; readJSON = fmap PredefId    . readJSON 
-instance JSON LabelId    where showJSON (LabelId     s) = showJSON s ; readJSON = fmap LabelId     . readJSON 
-instance JSON VarValueId where showJSON (VarValueId  s) = showJSON s ; readJSON = fmap VarValueId  . readJSON 
-instance JSON ParamId    where showJSON (ParamId     s) = showJSON s ; readJSON = fmap ParamId     . readJSON 
-instance JSON ParamType  where showJSON (ParamTypeId s) = showJSON s ; readJSON = fmap ParamTypeId . readJSON 
+instance JSON PredefId   where showJSON (PredefId    s) = showJSON s ; readJSON = fmap PredefId    . readJSON
+instance JSON LabelId    where showJSON (LabelId     s) = showJSON s ; readJSON = fmap LabelId     . readJSON
+instance JSON VarValueId where showJSON (VarValueId  s) = showJSON s ; readJSON = fmap VarValueId  . readJSON
+instance JSON ParamId    where showJSON (ParamId     s) = showJSON s ; readJSON = fmap ParamId     . readJSON
+instance JSON ParamType  where showJSON (ParamTypeId s) = showJSON s ; readJSON = fmap ParamTypeId . readJSON
 
 
 --------------------------------------------------------------------------------
 -- ** Used in both Abstract and Concrete Syntax
 
-instance JSON ModId where showJSON (ModId s) = showJSON s ; readJSON = fmap ModId . readJSON 
-instance JSON CatId where showJSON (CatId s) = showJSON s ; readJSON = fmap CatId . readJSON 
-instance JSON FunId where showJSON (FunId s) = showJSON s ; readJSON = fmap FunId . readJSON 
+instance JSON ModId where showJSON (ModId s) = showJSON s ; readJSON = fmap ModId . readJSON
+instance JSON CatId where showJSON (CatId s) = showJSON s ; readJSON = fmap CatId . readJSON
+instance JSON FunId where showJSON (FunId s) = showJSON s ; readJSON = fmap FunId . readJSON
 
 instance JSON VarId where
   -- the anonymous variable is the underscore:
@@ -242,20 +243,24 @@ instance JSON VarId where
     <|>        VarId <$> readJSON o
 
 instance JSON QualId where
-  showJSON (Qual (ModId m) n) = showJSON (m++"."++n)
+  showJSON (Qual (ModId m) n) = showJSON (showRawIdent m++"."++showRawIdent n)
   showJSON (Unqual n) = showJSON n
 
   readJSON o = do qualid <- readJSON o
                   let (mod, id) = span (/= '.') qualid
-                  return $ if null mod then Unqual id else Qual (ModId mod) id
+                  return $ if null mod then Unqual (rawIdentS id) else Qual (ModId (rawIdentS mod)) (rawIdentS id)
+
+instance JSON RawIdent where
+  showJSON i = showJSON $ showRawIdent i
+  readJSON o = rawIdentS <$> readJSON o
 
 instance JSON Flags where
   -- flags are encoded directly as JSON records (i.e., objects):
-  showJSON (Flags fs) = makeObj [(f, showJSON v) | (f, v) <- fs]
+  showJSON (Flags fs) = makeObj [(showRawIdent f, showJSON v) | (f, v) <- fs]
 
   readJSON obj = Flags <$> mapM fromRow (assocsJSObject obj)
     where fromRow (lbl, jsvalue) = do value <- readJSON jsvalue
-                                      return (lbl, value)
+                                      return (rawIdentS lbl, value)
 
 instance JSON FlagValue where
   -- flag values are encoded as basic JSON types:

src/compiler/GF/Grammar/Lexer.x

@@ -267,7 +267,7 @@ type AlexInput2 = (AlexInput,AlexInput)
 
 data ParseResult a
   = POk AlexInput2 a
-  | PFailed Posn	-- The position of the error
+  | PFailed Posn        -- The position of the error
             String      -- The error message
 
 newtype P a = P { unP :: AlexInput2 -> ParseResult a }

src/compiler/GF/Grammar/Lookup.hs

@@ -6,7 +6,7 @@
 -- Stability   : (stable)
 -- Portability : (portable)
 --
--- > CVS $Date: 2005/10/27 13:21:53 $ 
+-- > CVS $Date: 2005/10/27 13:21:53 $
 -- > CVS $Author: aarne $
 -- > CVS $Revision: 1.15 $
 --
@@ -20,17 +20,17 @@ module GF.Grammar.Lookup (
            lookupOrigInfo,
            allOrigInfos,
            lookupResDef, lookupResDefLoc,
-           lookupResType, 
+           lookupResType,
            lookupOverload,
            lookupOverloadTypes,
-           lookupParamValues, 
+           lookupParamValues,
            allParamValues,
-           lookupAbsDef, 
-           lookupLincat, 
+           lookupAbsDef,
+           lookupLincat,
            lookupFunType,
            lookupCatContext,
            allOpers, allOpersTo
-	      ) where
+          ) where
 
 import GF.Data.Operations
 import GF.Infra.Ident
@@ -69,7 +69,7 @@ lookupResDef gr x = fmap unLoc (lookupResDefLoc gr x)
 lookupResDefLoc gr (m,c)
   | isPredefCat c = fmap noLoc (lock c defLinType)
   | otherwise     = look m c
-  where 
+  where
     look m c = do
       info <- lookupQIdentInfo gr (m,c)
       case info of
@@ -77,7 +77,7 @@ lookupResDefLoc gr (m,c)
         ResOper _ Nothing  -> return (noLoc (Q (m,c)))
         CncCat (Just (L l ty)) _ _ _ _ -> fmap (L l) (lock c ty)
         CncCat _ _ _ _ _         -> fmap noLoc (lock c defLinType)
-      
+
         CncFun (Just (cat,_,_)) (Just (L l tr)) _ _ -> fmap (L l) (unlock cat tr)
         CncFun _                (Just ltr) _ _ -> return ltr
 
@@ -95,7 +95,7 @@ lookupResType gr (m,c) = do
     -- used in reused concrete
     CncCat _ _ _ _ _ -> return typeType
     CncFun (Just (cat,cont,val)) _ _ _ -> do
-          val' <- lock cat val 
+          val' <- lock cat val
           return $ mkProd cont val' []
     AnyInd _ n        -> lookupResType gr (n,c)
     ResParam _ _      -> return typePType
@@ -111,7 +111,7 @@ lookupOverloadTypes gr id@(m,c) = do
     -- used in reused concrete
     CncCat _ _ _ _ _ -> ret typeType
     CncFun (Just (cat,cont,val)) _ _ _ -> do
-          val' <- lock cat val 
+          val' <- lock cat val
           ret $ mkProd cont val' []
     ResParam _ _      -> ret typePType
     ResValue (L _ t)  -> ret t
@@ -130,8 +130,8 @@ lookupOverload gr (m,c) = do
     case info of
       ResOverload os tysts -> do
             tss <- mapM (\x -> lookupOverload gr (x,c)) os
-            return $ [let (args,val) = typeFormCnc ty in (map (\(b,x,t) -> t) args,(val,tr)) | 
-                      (L _ ty,L _ tr) <- tysts] ++ 
+            return $ [let (args,val) = typeFormCnc ty in (map (\(b,x,t) -> t) args,(val,tr)) |
+                      (L _ ty,L _ tr) <- tysts] ++
                      concat tss
 
       AnyInd _ n  -> lookupOverload gr (n,c)
@@ -216,7 +216,7 @@ lookupCatContext gr m c = do
 -- notice that it only gives the modules that are reachable and the opers that are included
 
 allOpers :: Grammar -> [(QIdent,Type,Location)]
-allOpers gr = 
+allOpers gr =
   [((m,op),typ,loc) |
       (m,mi)  <- maybe [] (allExtends gr) (greatestResource gr),
       (op,info)  <- Map.toList (jments mi),

src/compiler/GF/Grammar/Macros.hs

@@ -5,7 +5,7 @@
 -- Stability   : (stable)
 -- Portability : (portable)
 --
--- > CVS $Date: 2005/11/11 16:38:00 $ 
+-- > CVS $Date: 2005/11/11 16:38:00 $
 -- > CVS $Author: bringert $
 -- > CVS $Revision: 1.24 $
 --
@@ -51,14 +51,14 @@ typeForm t =
     _      -> error (render ("no normal form of type" <+> ppTerm Unqualified 0 t))
 
 typeFormCnc :: Type -> (Context, Type)
-typeFormCnc t = 
+typeFormCnc t =
   case t of
     Prod b x a t -> let (x', v) = typeFormCnc t
                     in ((b,x,a):x',v)
     _            -> ([],t)
 
 valCat :: Type -> Cat
-valCat typ = 
+valCat typ =
   let (_,cat,_) = typeForm typ
   in cat
 
@@ -99,7 +99,7 @@ isHigherOrderType t = fromErr True $ do  -- pessimistic choice
 contextOfType :: Monad m => Type -> m Context
 contextOfType typ = case typ of
   Prod b x a t -> liftM ((b,x,a):) $ contextOfType t
-  _            -> return [] 
+  _            -> return []
 
 termForm :: Monad m => Term -> m ([(BindType,Ident)], Term, [Term])
 termForm t = case t of
@@ -108,8 +108,8 @@ termForm t = case t of
         return ((b,x):x', fun, args)
    App c a ->
      do (_,fun, args) <- termForm c
-        return ([],fun,args ++ [a]) 
-   _       -> 
+        return ([],fun,args ++ [a])
+   _       ->
      return ([],t,[])
 
 termFormCnc :: Term -> ([(BindType,Ident)], Term)
@@ -254,7 +254,7 @@ mkTable :: [Term] -> Term -> Term
 mkTable tt t = foldr Table t tt
 
 mkCTable :: [(BindType,Ident)] -> Term -> Term
-mkCTable ids v = foldr ccase v ids where 
+mkCTable ids v = foldr ccase v ids where
   ccase (_,x) t = T TRaw [(PV x,t)]
 
 mkHypo :: Term -> Hypo
@@ -287,7 +287,7 @@ plusRecType t1 t2 = case (t1, t2) of
     filter (`elem` (map fst r1)) (map fst r2) of
       [] -> return (RecType (r1 ++ r2))
       ls -> raise $ render ("clashing labels" <+> hsep ls)
-  _ -> raise $ render ("cannot add record types" <+> ppTerm Unqualified 0 t1 <+> "and" <+> ppTerm Unqualified 0 t2) 
+  _ -> raise $ render ("cannot add record types" <+> ppTerm Unqualified 0 t1 <+> "and" <+> ppTerm Unqualified 0 t2)
 
 --plusRecord :: Term -> Term -> Err Term
 plusRecord t1 t2 =
@@ -304,7 +304,7 @@ defLinType = RecType [(theLinLabel,  typeStr)]
 
 -- | refreshing variables
 mkFreshVar :: [Ident] -> Ident
-mkFreshVar olds = varX (maxVarIndex olds + 1) 
+mkFreshVar olds = varX (maxVarIndex olds + 1)
 
 -- | trying to preserve a given symbol
 mkFreshVarX :: [Ident] -> Ident -> Ident
@@ -313,7 +313,7 @@ mkFreshVarX olds x = if (elem x olds) then (varX (maxVarIndex olds + 1)) else x
 maxVarIndex :: [Ident] -> Int
 maxVarIndex = maximum . ((-1):) . map varIndex
 
-mkFreshVars :: Int -> [Ident] -> [Ident] 
+mkFreshVars :: Int -> [Ident] -> [Ident]
 mkFreshVars n olds = [varX (maxVarIndex olds + i) | i <- [1..n]]
 
 -- | quick hack for refining with var in editor
@@ -413,11 +413,11 @@ patt2term pt = case pt of
   PC c pp   -> mkApp (Con c) (map patt2term pp)
   PP c pp   -> mkApp (QC  c) (map patt2term pp)
 
-  PR r      -> R [assign l (patt2term p) | (l,p) <- r] 
+  PR r      -> R [assign l (patt2term p) | (l,p) <- r]
   PT _ p    -> patt2term p
   PInt i    -> EInt i
   PFloat i  -> EFloat i
-  PString s -> K s 
+  PString s -> K s
 
   PAs x p   -> appCons cAs    [Vr x, patt2term p]            --- an encoding
   PChar     -> appCons cChar  []                             --- an encoding
@@ -436,7 +436,7 @@ composSafeOp op = runIdentity . composOp (return . op)
 
 -- | to define compositional term functions
 composOp :: Monad m => (Term -> m Term) -> Term -> m Term
-composOp co trm = 
+composOp co trm =
  case trm of
    App c a          -> liftM2 App (co c) (co a)
    Abs b x t        -> liftM (Abs b x) (co t)
@@ -552,13 +552,13 @@ strsFromTerm t = case t of
     v0 <- mapM (strsFromTerm . fst) vs
     c0 <- mapM (strsFromTerm . snd) vs
   --let vs' = zip v0 c0
-    return [strTok (str2strings def) vars | 
+    return [strTok (str2strings def) vars |
               def  <- d0,
-              vars <- [[(str2strings v, map sstr c) | (v,c) <- zip vv c0] | 
+              vars <- [[(str2strings v, map sstr c) | (v,c) <- zip vv c0] |
                                                           vv <- sequence v0]
            ]
   FV ts -> mapM strsFromTerm ts >>= return . concat
-  Strs ts -> mapM strsFromTerm ts >>= return . concat  
+  Strs ts -> mapM strsFromTerm ts >>= return . concat
   _ -> raise (render ("cannot get Str from term" <+> ppTerm Unqualified 0 t))
 
 getTableType :: TInfo -> Err Type
@@ -590,11 +590,11 @@ noExist = FV []
 defaultLinType :: Type
 defaultLinType = mkRecType linLabel [typeStr]
 
--- normalize records and record types; put s first
+-- | normalize records and record types; put s first
 
 sortRec :: [(Label,a)] -> [(Label,a)]
 sortRec = sortBy ordLabel where
-  ordLabel (r1,_) (r2,_) = 
+  ordLabel (r1,_) (r2,_) =
     case (showIdent (label2ident r1), showIdent (label2ident r2)) of
       ("s",_) -> LT
       (_,"s") -> GT
@@ -605,7 +605,7 @@ sortRec = sortBy ordLabel where
 -- | dependency check, detecting circularities and returning topo-sorted list
 
 allDependencies :: (ModuleName -> Bool) -> Map.Map Ident Info -> [(Ident,[Ident])]
-allDependencies ism b = 
+allDependencies ism b =
   [(f, nub (concatMap opty (pts i))) | (f,i) <- Map.toList b]
   where
     opersIn t = case t of

src/compiler/GF/Grammar/PatternMatch.hs

@@ -5,18 +5,19 @@
 -- Stability   : (stable)
 -- Portability : (portable)
 --
--- > CVS $Date: 2005/10/12 12:38:29 $ 
+-- > CVS $Date: 2005/10/12 12:38:29 $
 -- > CVS $Author: aarne $
 -- > CVS $Revision: 1.7 $
 --
 -- pattern matching for both concrete and abstract syntax. AR -- 16\/6\/2003
 -----------------------------------------------------------------------------
 
-module GF.Grammar.PatternMatch (matchPattern,
-		     testOvershadow, 
-		     findMatch,
-                     measurePatt
-		    ) where
+module GF.Grammar.PatternMatch (
+                                matchPattern,
+                                testOvershadow,
+                                findMatch,
+                                measurePatt
+                               ) where
 
 import GF.Data.Operations
 import GF.Grammar.Grammar
@@ -30,7 +31,7 @@ import GF.Text.Pretty
 --import Debug.Trace
 
 matchPattern :: ErrorMonad m => [(Patt,rhs)] -> Term -> m (rhs, Substitution)
-matchPattern pts term = 
+matchPattern pts term =
   if not (isInConstantForm term)
     then raise (render ("variables occur in" <+> pp term))
   else do
@@ -61,15 +62,15 @@ testOvershadow pts vs = do
 findMatch :: ErrorMonad m => [([Patt],rhs)] -> [Term] -> m (rhs, Substitution)
 findMatch cases terms = case cases of
    [] -> raise (render ("no applicable case for" <+> hsep (punctuate ',' terms)))
-   (patts,_):_ | length patts /= length terms -> 
-       raise (render ("wrong number of args for patterns :" <+> hsep patts <+> 
+   (patts,_):_ | length patts /= length terms ->
+       raise (render ("wrong number of args for patterns :" <+> hsep patts <+>
                     "cannot take" <+> hsep terms))
    (patts,val):cc -> case mapM tryMatch (zip patts terms) of
        Ok substs -> return (val, concat substs)
        _         -> findMatch cc terms
 
 tryMatch :: (Patt, Term) -> Err [(Ident, Term)]
-tryMatch (p,t) = do 
+tryMatch (p,t) = do
   t' <- termForm t
   trym p t'
  where
@@ -83,26 +84,26 @@ tryMatch (p,t) = do
       (PString s, ([],K i,[])) | s==i -> return []
       (PInt s, ([],EInt i,[])) | s==i -> return []
       (PFloat s,([],EFloat i,[])) | s==i -> return [] --- rounding?
-      (PC p pp, ([], Con f, tt)) | 
+      (PC p pp, ([], Con f, tt)) |
             p `eqStrIdent` f && length pp == length tt ->
          do matches <- mapM tryMatch (zip pp tt)
             return (concat matches)
 
-      (PP (q,p) pp, ([], QC (r,f), tt)) | 
+      (PP (q,p) pp, ([], QC (r,f), tt)) |
             -- q `eqStrIdent` r &&  --- not for inherited AR 10/10/2005
             p `eqStrIdent` f && length pp == length tt ->
          do matches <- mapM tryMatch (zip pp tt)
             return (concat matches)
       ---- hack for AppPredef bug
-      (PP (q,p) pp, ([], Q (r,f), tt)) | 
-            -- q `eqStrIdent` r && --- 
+      (PP (q,p) pp, ([], Q (r,f), tt)) |
+            -- q `eqStrIdent` r && ---
             p `eqStrIdent` f && length pp == length tt ->
          do matches <- mapM tryMatch (zip pp tt)
             return (concat matches)
 
       (PR r, ([],R r',[])) |
             all (`elem` map fst r') (map fst r) ->
-         do matches <- mapM tryMatch 
+         do matches <- mapM tryMatch
                             [(p,snd a) | (l,p) <- r, let Just a = lookup l r']
             return (concat matches)
       (PT _ p',_) -> trym p' t'
@@ -125,7 +126,7 @@ tryMatch (p,t) = do
       (PMSeq mp1 mp2, ([],K s, [])) -> matchPMSeq mp1 mp2 s
 
       (PRep p1, ([],K s, [])) -> checks [
-         trym (foldr (const (PSeq p1)) (PString "") 
+         trym (foldr (const (PSeq p1)) (PString "")
            [1..n]) t' | n <- [0 .. length s]
         ] >>
         return []

src/compiler/GF/Grammar/Printer.hs

@@ -1,365 +1,364 @@
-----------------------------------------------------------------------
--- |
--- Module      : GF.Grammar.Printer
--- Maintainer  : Krasimir Angelov
--- Stability   : (stable)
--- Portability : (portable)
---
------------------------------------------------------------------------------
-
-{-# LANGUAGE FlexibleContexts #-}
-module GF.Grammar.Printer
-           ( -- ** Pretty printing
-             TermPrintQual(..)
-           , ppModule
-           , ppJudgement
-           , ppParams
-           , ppTerm
-           , ppPatt
-           , ppValue
-           , ppConstrs
-           , ppQIdent
-           , ppMeta
-           , getAbs
-           ) where
-import Prelude hiding ((<>)) -- GHC 8.4.1 clash with Text.PrettyPrint
-
-import GF.Infra.Ident
-import GF.Infra.Option
-import GF.Grammar.Values
-import GF.Grammar.Grammar
-
-import PGF.Internal (ppMeta, ppLit, ppFId, ppFunId, ppSeqId, ppSeq)
-
-import GF.Text.Pretty
-import Data.Maybe (isNothing)
-import Data.List  (intersperse)
-import qualified Data.Map as Map
---import qualified Data.IntMap as IntMap
---import qualified Data.Set as Set
-import qualified Data.Array.IArray as Array
-
-data TermPrintQual 
-  = Terse | Unqualified | Qualified | Internal
-  deriving Eq                 
-
-instance Pretty Grammar where
-  pp = vcat . map (ppModule Qualified) . modules
-
-ppModule :: TermPrintQual -> SourceModule -> Doc
-ppModule q (mn, ModInfo mtype mstat opts exts with opens _ _ mseqs jments) =
-    hdr $$ 
-    nest 2 (ppOptions opts $$ 
-            vcat (map (ppJudgement q) (Map.toList jments)) $$
-            maybe empty (ppSequences q) mseqs) $$
-    ftr
-    where
-      hdr = complModDoc <+> modTypeDoc <+> '=' <+> 
-            hsep (intersperse (pp "**") $
-                  filter (not . isEmpty)  $ [ commaPunct ppExtends exts
-                                            , maybe empty ppWith with
-                                            , if null opens
-                                                then pp '{'
-                                                else "open" <+> commaPunct ppOpenSpec opens <+> "in" <+> '{'
-                                            ])
-
-      ftr = '}'
-
-      complModDoc =
-        case mstat of
-          MSComplete   -> empty
-          MSIncomplete -> pp "incomplete"
-
-      modTypeDoc =
-        case mtype of
-          MTAbstract         -> "abstract"  <+> mn
-          MTResource         -> "resource"  <+> mn
-          MTConcrete abs     -> "concrete"  <+> mn <+> "of" <+> abs
-          MTInterface        -> "interface" <+> mn
-          MTInstance ie      -> "instance"  <+> mn <+> "of" <+> ppExtends ie
-
-      ppExtends (id,MIAll        ) = pp id
-      ppExtends (id,MIOnly   incs) = id         <+> brackets (commaPunct pp incs)
-      ppExtends (id,MIExcept incs) = id <+> '-' <+> brackets (commaPunct pp incs)
-      
-      ppWith (id,ext,opens) = ppExtends (id,ext) <+> "with" <+> commaPunct ppInstSpec opens
-
-ppOptions opts = 
-  "flags" $$
-  nest 2 (vcat [option <+> '=' <+> ppLit value <+> ';' | (option,value) <- optionsGFO opts])
-
-ppJudgement q (id, AbsCat pcont ) =
-  "cat" <+> id <+>
-  (case pcont of
-     Just (L _ cont) -> hsep (map (ppDecl q) cont)
-     Nothing         -> empty) <+> ';'
-ppJudgement q (id, AbsFun ptype _ pexp poper) =
-  let kind | isNothing pexp      = "data"
-           | poper == Just False = "oper"
-           | otherwise           = "fun"
-  in
-  (case ptype of
-     Just (L _ typ) -> kind <+> id <+> ':' <+> ppTerm q 0 typ <+> ';'
-     Nothing        -> empty) $$
-  (case pexp of
-     Just []  -> empty
-     Just eqs -> "def" <+> vcat [id <+> hsep (map (ppPatt q 2) ps) <+> '=' <+> ppTerm q 0 e <+> ';' | L _ (ps,e) <- eqs]
-     Nothing  -> empty)
-ppJudgement q (id, ResParam pparams _) = 
-  "param" <+> id <+>
-  (case pparams of
-     Just (L _ ps) -> '=' <+> ppParams q ps
-     _             -> empty) <+> ';'
-ppJudgement q (id, ResValue pvalue) = 
-  "-- param constructor" <+> id <+> ':' <+> 
-  (case pvalue of
-     (L _ ty) -> ppTerm q 0 ty) <+> ';'
-ppJudgement q (id, ResOper  ptype pexp) =
-  "oper" <+> id <+>
-  (case ptype of {Just (L _ t) -> ':'  <+> ppTerm q 0 t; Nothing -> empty} $$
-   case pexp  of {Just (L _ e) -> '=' <+> ppTerm q 0 e; Nothing -> empty}) <+> ';'
-ppJudgement q (id, ResOverload ids defs) =
-  "oper" <+> id <+> '=' <+> 
-  ("overload" <+> '{' $$
-   nest 2 (vcat [id <+> (':' <+> ppTerm q 0 ty $$ '=' <+> ppTerm q 0 e <+> ';') | (L _ ty,L _ e) <- defs]) $$
-   '}') <+> ';'
-ppJudgement q (id, CncCat pcat pdef pref pprn mpmcfg) =
-  (case pcat of
-     Just (L _ typ) -> "lincat" <+> id <+> '=' <+> ppTerm q 0 typ <+> ';'
-     Nothing        -> empty) $$
-  (case pdef of
-     Just (L _ exp) -> "lindef" <+> id <+> '=' <+> ppTerm q 0 exp <+> ';'
-     Nothing        -> empty) $$
-  (case pref of
-     Just (L _ exp) -> "linref" <+> id <+> '=' <+> ppTerm q 0 exp <+> ';'
-     Nothing        -> empty) $$
-  (case pprn of
-     Just (L _ prn) -> "printname" <+> id <+> '=' <+> ppTerm q 0 prn <+> ';'
-     Nothing        -> empty) $$
-  (case (mpmcfg,q) of
-     (Just (PMCFG prods funs),Internal)
-                    -> "pmcfg" <+> id <+> '=' <+> '{' $$
-                       nest 2 (vcat (map ppProduction prods) $$
-                               ' ' $$
-                               vcat (map (\(funid,arr) -> ppFunId funid <+> ":=" <+> 
-                                                          parens (hcat (punctuate ',' (map ppSeqId (Array.elems arr)))))
-                                         (Array.assocs funs))) $$
-                       '}'
-     _              -> empty)
-ppJudgement q (id, CncFun  ptype pdef pprn mpmcfg) =
-  (case pdef of
-     Just (L _ e) -> let (xs,e') = getAbs e
-                     in "lin" <+> id <+> hsep (map ppBind xs) <+> '=' <+> ppTerm q 0 e' <+> ';'
-     Nothing      -> empty) $$
-  (case pprn of
-     Just (L _ prn) -> "printname" <+> id <+> '=' <+> ppTerm q 0 prn <+> ';'
-     Nothing        -> empty) $$
-  (case (mpmcfg,q) of
-     (Just (PMCFG prods funs),Internal)
-                    -> "pmcfg" <+> id <+> '=' <+> '{' $$
-                       nest 2 (vcat (map ppProduction prods) $$
-                               ' ' $$
-                               vcat (map (\(funid,arr) -> ppFunId funid <+> ":=" <+> 
-                                                          parens (hcat (punctuate ',' (map ppSeqId (Array.elems arr)))))
-                                         (Array.assocs funs))) $$
-                       '}'
-     _              -> empty)
-ppJudgement q (id, AnyInd cann mid) =
-  case q of
-    Internal -> "ind" <+> id <+> '=' <+> (if cann then pp "canonical" else empty) <+> mid <+> ';'
-    _        -> empty
-
-instance Pretty Term where pp = ppTerm Unqualified 0
-
-ppTerm q d (Abs b v e)   = let (xs,e') = getAbs (Abs b v e)
-                           in prec d 0 ('\\' <> commaPunct ppBind xs <+> "->" <+> ppTerm q 0 e')
-ppTerm q d (T TRaw xs) = case getCTable (T TRaw xs) of
-                           ([],_) -> "table" <+> '{' $$
-	  		             nest 2 (vcat (punctuate ';' (map (ppCase q) xs))) $$
-			             '}'
-                           (vs,e) -> prec d 0 ("\\\\" <> commaPunct pp vs <+> "=>" <+> ppTerm q 0 e)
-ppTerm q d (T (TTyped t) xs) = "table" <+> ppTerm q 0 t <+> '{' $$
-			       nest 2 (vcat (punctuate ';' (map (ppCase q) xs))) $$
-			       '}'
-ppTerm q d (T (TComp  t) xs) = "table" <+> ppTerm q 0 t <+> '{' $$
-		 	       nest 2 (vcat (punctuate ';' (map (ppCase q) xs))) $$
-			       '}'
-ppTerm q d (T (TWild  t) xs) = "table" <+> ppTerm q 0 t <+> '{' $$
-			       nest 2 (vcat (punctuate ';' (map (ppCase q) xs))) $$
-			       '}'
-ppTerm q d (Prod bt x a b)= if x == identW && bt == Explicit
-                              then prec d 0 (ppTerm q 4 a <+> "->" <+> ppTerm q 0 b)
-                              else prec d 0 (parens (ppBind (bt,x) <+> ':' <+> ppTerm q 0 a) <+> "->" <+> ppTerm q 0 b)
-ppTerm q d (Table kt vt)=prec d 0 (ppTerm q 3 kt <+> "=>" <+> ppTerm q 0 vt)
-ppTerm q d (Let l e)    = let (ls,e') = getLet e
-                          in prec d 0 ("let" <+> vcat (map (ppLocDef q) (l:ls)) $$ "in" <+> ppTerm q 0 e')
-ppTerm q d (Example e s)=prec d 0 ("in" <+> ppTerm q 5 e <+> str s)
-ppTerm q d (C e1 e2)    =prec d 1 (hang (ppTerm q 2 e1) 2 ("++" <+> ppTerm q 1 e2))
-ppTerm q d (Glue e1 e2) =prec d 2 (ppTerm q 3 e1 <+> '+'  <+> ppTerm q 2 e2)
-ppTerm q d (S x y)     = case x of
-                           T annot xs -> let e = case annot of
-			                           TRaw     -> y
-			                           TTyped t -> Typed y t
-			                           TComp  t -> Typed y t
-			                           TWild  t -> Typed y t
-			                 in "case" <+> ppTerm q 0 e <+>"of" <+> '{' $$
-			                    nest 2 (vcat (punctuate ';' (map (ppCase q) xs))) $$
-			                   '}'
-			   _          -> prec d 3 (hang (ppTerm q 3 x) 2 ("!" <+> ppTerm q 4 y))
-ppTerm q d (ExtR x y)  = prec d 3 (ppTerm q 3 x <+> "**" <+> ppTerm q 4 y)
-ppTerm q d (App x y)   = prec d 4 (ppTerm q 4 x <+> ppTerm q 5 y)
-ppTerm q d (V e es)    = hang "table" 2 (sep [ppTerm q 6 e,brackets (fsep (punctuate ';' (map (ppTerm q 0) es)))])
-ppTerm q d (FV es)     = prec d 4 ("variants" <+> braces (fsep (punctuate ';' (map (ppTerm q 0) es))))
-ppTerm q d (AdHocOverload es)     = "overload" <+> braces (fsep (punctuate ';' (map (ppTerm q 0) es)))
-ppTerm q d (Alts e xs) = prec d 4 ("pre" <+> braces (ppTerm q 0 e <> ';' <+> fsep (punctuate ';' (map (ppAltern q) xs))))
-ppTerm q d (Strs es)   = "strs" <+> braces (fsep (punctuate ';' (map (ppTerm q 0) es)))
-ppTerm q d (EPatt p)   = prec d 4 ('#' <+> ppPatt q 2 p)
-ppTerm q d (EPattType t)=prec d 4 ("pattern" <+> ppTerm q 0 t)
-ppTerm q d (P t l)     = prec d 5 (ppTerm q 5 t <> '.' <> l)
-ppTerm q d (Cn id)     = pp id
-ppTerm q d (Vr id)     = pp id
-ppTerm q d (Q  id)     = ppQIdent q id
-ppTerm q d (QC id)     = ppQIdent q id
-ppTerm q d (Sort id)   = pp id
-ppTerm q d (K s)       = str s
-ppTerm q d (EInt n)    = pp n
-ppTerm q d (EFloat f)  = pp f
-ppTerm q d (Meta i)    = ppMeta i
-ppTerm q d (Empty)     = pp "[]"
-ppTerm q d (R [])      = pp "<>" -- to distinguish from {} empty RecType
-ppTerm q d (R xs)      = braces (fsep (punctuate ';' [l <+> 
-                                                       fsep [case mb_t of {Just t -> ':' <+> ppTerm q 0 t; Nothing -> empty},
-                                                             '=' <+> ppTerm q 0 e] | (l,(mb_t,e)) <- xs]))
-ppTerm q d (RecType xs)
-  | q == Terse         = case [cat | (l,_) <- xs, let (p,cat) = splitAt 5 (showIdent (label2ident l)), p == "lock_"] of
-                           [cat] -> pp cat
-                           _     -> doc
-  | otherwise          = doc
-  where
-    doc = braces (fsep (punctuate ';' [l <+> ':' <+> ppTerm q 0 t | (l,t) <- xs]))
-ppTerm q d (Typed e t) = '<' <> ppTerm q 0 e <+> ':' <+> ppTerm q 0 t <> '>'
-ppTerm q d (ImplArg e) = braces (ppTerm q 0 e)
-ppTerm q d (ELincat cat t) = prec d 4 ("lincat" <+> cat <+> ppTerm q 5 t)
-ppTerm q d (ELin cat t) = prec d 4 ("lin" <+> cat <+> ppTerm q 5 t)
-ppTerm q d (Error s)   = prec d 4 ("Predef.error" <+> str s)
-
-ppEquation q (ps,e) = hcat (map (ppPatt q 2) ps) <+> "->" <+> ppTerm q 0 e
-
-ppCase q (p,e) = ppPatt q 0 p <+> "=>" <+> ppTerm q 0 e
-
-instance Pretty Patt where pp = ppPatt Unqualified 0
-
-ppPatt q d (PAlt p1 p2) = prec d 0 (ppPatt q 0 p1 <+> '|' <+> ppPatt q 1 p2)
-ppPatt q d (PSeq p1 p2) = prec d 0 (ppPatt q 0 p1 <+> '+' <+> ppPatt q 1 p2)
-ppPatt q d (PMSeq (_,p1) (_,p2)) = prec d 0 (ppPatt q 0 p1 <+> '+' <+> ppPatt q 1 p2)
-ppPatt q d (PC f ps)    = if null ps
-                            then pp f
-                            else prec d 1 (f <+> hsep (map (ppPatt q 3) ps))
-ppPatt q d (PP f ps)    = if null ps
-                            then ppQIdent q f
-                            else prec d 1 (ppQIdent q f <+> hsep (map (ppPatt q 3) ps))
-ppPatt q d (PRep p)     = prec d 1 (ppPatt q 3 p <> '*')
-ppPatt q d (PAs f p)    = prec d 2 (f <> '@' <> ppPatt q 3 p)
-ppPatt q d (PNeg p)     = prec d 2 ('-' <> ppPatt q 3 p)
-ppPatt q d (PChar)      = pp '?'
-ppPatt q d (PChars s)   = brackets (str s)
-ppPatt q d (PMacro id)  = '#' <> id
-ppPatt q d (PM id)      = '#' <> ppQIdent q id
-ppPatt q d PW           = pp '_'
-ppPatt q d (PV id)      = pp id
-ppPatt q d (PInt n)     = pp n
-ppPatt q d (PFloat f)   = pp f
-ppPatt q d (PString s)  = str s
-ppPatt q d (PR xs)      = braces (hsep (punctuate ';' [l <+> '=' <+> ppPatt q 0 e | (l,e) <- xs]))
-ppPatt q d (PImplArg p) = braces (ppPatt q 0 p)
-ppPatt q d (PTilde t)   = prec d 2 ('~' <> ppTerm q 6 t)
-
-ppValue :: TermPrintQual -> Int -> Val -> Doc
-ppValue q d (VGen i x)    = x <> "{-" <> i <> "-}" ---- latter part for debugging
-ppValue q d (VApp u v)    = prec d 4 (ppValue q 4 u <+> ppValue q 5 v)
-ppValue q d (VCn (_,c))   = pp c
-ppValue q d (VClos env e) = case e of
-                              Meta _ -> ppTerm q d e <> ppEnv env
-                              _      -> ppTerm q d e ---- ++ prEnv env ---- for debugging
-ppValue q d (VRecType xs) = braces (hsep (punctuate ',' [l <> '=' <> ppValue q 0 v | (l,v) <- xs]))
-ppValue q d VType         = pp "Type"
-
-ppConstrs :: Constraints -> [Doc]
-ppConstrs = map (\(v,w) -> braces (ppValue Unqualified 0 v <+> "<>" <+> ppValue Unqualified 0 w))
-
-ppEnv :: Env -> Doc
-ppEnv e = hcat (map (\(x,t) -> braces (x <> ":=" <> ppValue Unqualified 0 t)) e)
-
-str s = doubleQuotes s
-
-ppDecl q (_,id,typ)
-  | id == identW = ppTerm q 3 typ
-  | otherwise    = parens (id <+> ':' <+> ppTerm q 0 typ)
-
-ppDDecl q (_,id,typ)
-  | id == identW = ppTerm q 6 typ
-  | otherwise    = parens (id <+> ':' <+> ppTerm q 0 typ)
-
-ppQIdent :: TermPrintQual -> QIdent -> Doc
-ppQIdent q (m,id) =
-  case q of
-    Terse       ->          pp id
-    Unqualified ->          pp id
-    Qualified   -> m <> '.' <> id
-    Internal    -> m <> '.' <> id
-    
-
-instance Pretty Label where pp = pp . label2ident
-
-ppOpenSpec (OSimple id)   = pp id
-ppOpenSpec (OQualif id n) = parens (id <+> '=' <+> n)
-
-ppInstSpec (id,n) = parens (id <+> '=' <+> n)
-
-ppLocDef q (id, (mbt, e)) =
-  id <+>
-  (case mbt of {Just t -> ':' <+> ppTerm q 0 t; Nothing -> empty} <+> '=' <+> ppTerm q 0 e) <+> ';'
-
-ppBind (Explicit,v) = pp v
-ppBind (Implicit,v) = braces v
-
-ppAltern q (x,y) = ppTerm q 0 x <+> '/' <+> ppTerm q 0 y
-
-ppParams q ps = fsep (intersperse (pp '|') (map (ppParam q) ps))
-ppParam q (id,cxt) = id <+> hsep (map (ppDDecl q) cxt)
-
-ppProduction (Production fid funid args) =
-  ppFId fid <+> "->" <+> ppFunId funid <> 
-  brackets (hcat (punctuate "," (map (hsep . intersperse (pp '|') . map ppFId) args)))
-
-ppSequences q seqsArr
-  | null seqs || q /= Internal = empty
-  | otherwise                  = "sequences" <+> '{' $$
-                                 nest 2 (vcat (map ppSeq seqs)) $$
-                                 '}'
-  where
-    seqs = Array.assocs seqsArr
-
-commaPunct f ds = (hcat (punctuate "," (map f ds)))
-
-prec d1 d2 doc
-  | d1 > d2   = parens doc
-  | otherwise = doc
-
-getAbs :: Term -> ([(BindType,Ident)], Term)
-getAbs (Abs bt v e) = let (xs,e') = getAbs e
-                      in ((bt,v):xs,e')
-getAbs e            = ([],e)
-
-getCTable :: Term -> ([Ident], Term)
-getCTable (T TRaw [(PV v,e)]) = let (vs,e') = getCTable e
-                                in (v:vs,e')
-getCTable (T TRaw [(PW,  e)]) = let (vs,e') = getCTable e
-                                in (identW:vs,e')
-getCTable e                   = ([],e)
-
-getLet :: Term -> ([LocalDef], Term)
-getLet (Let l e) = let (ls,e') = getLet e
-                   in (l:ls,e')
-getLet e         = ([],e)
-
+----------------------------------------------------------------------
+-- |
+-- Module      : GF.Grammar.Printer
+-- Maintainer  : Krasimir Angelov
+-- Stability   : (stable)
+-- Portability : (portable)
+--
+-----------------------------------------------------------------------------
+
+{-# LANGUAGE FlexibleContexts #-}
+module GF.Grammar.Printer
+           ( -- ** Pretty printing
+             TermPrintQual(..)
+           , ppModule
+           , ppJudgement
+           , ppParams
+           , ppTerm
+           , ppPatt
+           , ppValue
+           , ppConstrs
+           , ppQIdent
+           , ppMeta
+           , getAbs
+           ) where
+import Prelude hiding ((<>)) -- GHC 8.4.1 clash with Text.PrettyPrint
+
+import GF.Infra.Ident
+import GF.Infra.Option
+import GF.Grammar.Values
+import GF.Grammar.Grammar
+
+import PGF.Internal (ppMeta, ppLit, ppFId, ppFunId, ppSeqId, ppSeq)
+
+import GF.Text.Pretty
+import Data.Maybe (isNothing)
+import Data.List  (intersperse)
+import qualified Data.Map as Map
+--import qualified Data.IntMap as IntMap
+--import qualified Data.Set as Set
+import qualified Data.Array.IArray as Array
+
+data TermPrintQual
+  = Terse | Unqualified | Qualified | Internal
+  deriving Eq
+
+instance Pretty Grammar where
+  pp = vcat . map (ppModule Qualified) . modules
+
+ppModule :: TermPrintQual -> SourceModule -> Doc
+ppModule q (mn, ModInfo mtype mstat opts exts with opens _ _ mseqs jments) =
+    hdr $$
+    nest 2 (ppOptions opts $$
+            vcat (map (ppJudgement q) (Map.toList jments)) $$
+            maybe empty (ppSequences q) mseqs) $$
+    ftr
+    where
+      hdr = complModDoc <+> modTypeDoc <+> '=' <+>
+            hsep (intersperse (pp "**") $
+                  filter (not . isEmpty)  $ [ commaPunct ppExtends exts
+                                            , maybe empty ppWith with
+                                            , if null opens
+                                                then pp '{'
+                                                else "open" <+> commaPunct ppOpenSpec opens <+> "in" <+> '{'
+                                            ])
+
+      ftr = '}'
+
+      complModDoc =
+        case mstat of
+          MSComplete   -> empty
+          MSIncomplete -> pp "incomplete"
+
+      modTypeDoc =
+        case mtype of
+          MTAbstract         -> "abstract"  <+> mn
+          MTResource         -> "resource"  <+> mn
+          MTConcrete abs     -> "concrete"  <+> mn <+> "of" <+> abs
+          MTInterface        -> "interface" <+> mn
+          MTInstance ie      -> "instance"  <+> mn <+> "of" <+> ppExtends ie
+
+      ppExtends (id,MIAll        ) = pp id
+      ppExtends (id,MIOnly   incs) = id         <+> brackets (commaPunct pp incs)
+      ppExtends (id,MIExcept incs) = id <+> '-' <+> brackets (commaPunct pp incs)
+
+      ppWith (id,ext,opens) = ppExtends (id,ext) <+> "with" <+> commaPunct ppInstSpec opens
+
+ppOptions opts =
+  "flags" $$
+  nest 2 (vcat [option <+> '=' <+> ppLit value <+> ';' | (option,value) <- optionsGFO opts])
+
+ppJudgement q (id, AbsCat pcont ) =
+  "cat" <+> id <+>
+  (case pcont of
+     Just (L _ cont) -> hsep (map (ppDecl q) cont)
+     Nothing         -> empty) <+> ';'
+ppJudgement q (id, AbsFun ptype _ pexp poper) =
+  let kind | isNothing pexp      = "data"
+           | poper == Just False = "oper"
+           | otherwise           = "fun"
+  in
+  (case ptype of
+     Just (L _ typ) -> kind <+> id <+> ':' <+> ppTerm q 0 typ <+> ';'
+     Nothing        -> empty) $$
+  (case pexp of
+     Just []  -> empty
+     Just eqs -> "def" <+> vcat [id <+> hsep (map (ppPatt q 2) ps) <+> '=' <+> ppTerm q 0 e <+> ';' | L _ (ps,e) <- eqs]
+     Nothing  -> empty)
+ppJudgement q (id, ResParam pparams _) =
+  "param" <+> id <+>
+  (case pparams of
+     Just (L _ ps) -> '=' <+> ppParams q ps
+     _             -> empty) <+> ';'
+ppJudgement q (id, ResValue pvalue) =
+  "-- param constructor" <+> id <+> ':' <+>
+  (case pvalue of
+     (L _ ty) -> ppTerm q 0 ty) <+> ';'
+ppJudgement q (id, ResOper  ptype pexp) =
+  "oper" <+> id <+>
+  (case ptype of {Just (L _ t) -> ':'  <+> ppTerm q 0 t; Nothing -> empty} $$
+   case pexp  of {Just (L _ e) -> '=' <+> ppTerm q 0 e; Nothing -> empty}) <+> ';'
+ppJudgement q (id, ResOverload ids defs) =
+  "oper" <+> id <+> '=' <+>
+  ("overload" <+> '{' $$
+   nest 2 (vcat [id <+> (':' <+> ppTerm q 0 ty $$ '=' <+> ppTerm q 0 e <+> ';') | (L _ ty,L _ e) <- defs]) $$
+   '}') <+> ';'
+ppJudgement q (id, CncCat pcat pdef pref pprn mpmcfg) =
+  (case pcat of
+     Just (L _ typ) -> "lincat" <+> id <+> '=' <+> ppTerm q 0 typ <+> ';'
+     Nothing        -> empty) $$
+  (case pdef of
+     Just (L _ exp) -> "lindef" <+> id <+> '=' <+> ppTerm q 0 exp <+> ';'
+     Nothing        -> empty) $$
+  (case pref of
+     Just (L _ exp) -> "linref" <+> id <+> '=' <+> ppTerm q 0 exp <+> ';'
+     Nothing        -> empty) $$
+  (case pprn of
+     Just (L _ prn) -> "printname" <+> id <+> '=' <+> ppTerm q 0 prn <+> ';'
+     Nothing        -> empty) $$
+  (case (mpmcfg,q) of
+     (Just (PMCFG prods funs),Internal)
+                    -> "pmcfg" <+> id <+> '=' <+> '{' $$
+                       nest 2 (vcat (map ppProduction prods) $$
+                               ' ' $$
+                               vcat (map (\(funid,arr) -> ppFunId funid <+> ":=" <+>
+                                                          parens (hcat (punctuate ',' (map ppSeqId (Array.elems arr)))))
+                                         (Array.assocs funs))) $$
+                       '}'
+     _              -> empty)
+ppJudgement q (id, CncFun  ptype pdef pprn mpmcfg) =
+  (case pdef of
+     Just (L _ e) -> let (xs,e') = getAbs e
+                     in "lin" <+> id <+> hsep (map ppBind xs) <+> '=' <+> ppTerm q 0 e' <+> ';'
+     Nothing      -> empty) $$
+  (case pprn of
+     Just (L _ prn) -> "printname" <+> id <+> '=' <+> ppTerm q 0 prn <+> ';'
+     Nothing        -> empty) $$
+  (case (mpmcfg,q) of
+     (Just (PMCFG prods funs),Internal)
+                    -> "pmcfg" <+> id <+> '=' <+> '{' $$
+                       nest 2 (vcat (map ppProduction prods) $$
+                               ' ' $$
+                               vcat (map (\(funid,arr) -> ppFunId funid <+> ":=" <+>
+                                                          parens (hcat (punctuate ',' (map ppSeqId (Array.elems arr)))))
+                                         (Array.assocs funs))) $$
+                       '}'
+     _              -> empty)
+ppJudgement q (id, AnyInd cann mid) =
+  case q of
+    Internal -> "ind" <+> id <+> '=' <+> (if cann then pp "canonical" else empty) <+> mid <+> ';'
+    _        -> empty
+
+instance Pretty Term where pp = ppTerm Unqualified 0
+
+ppTerm q d (Abs b v e)   = let (xs,e') = getAbs (Abs b v e)
+                           in prec d 0 ('\\' <> commaPunct ppBind xs <+> "->" <+> ppTerm q 0 e')
+ppTerm q d (T TRaw xs) = case getCTable (T TRaw xs) of
+                           ([],_) -> "table" <+> '{' $$
+                                       nest 2 (vcat (punctuate ';' (map (ppCase q) xs))) $$
+                                     '}'
+                           (vs,e) -> prec d 0 ("\\\\" <> commaPunct pp vs <+> "=>" <+> ppTerm q 0 e)
+ppTerm q d (T (TTyped t) xs) = "table" <+> ppTerm q 0 t <+> '{' $$
+                                 nest 2 (vcat (punctuate ';' (map (ppCase q) xs))) $$
+                                '}'
+ppTerm q d (T (TComp  t) xs) = "table" <+> ppTerm q 0 t <+> '{' $$
+                                 nest 2 (vcat (punctuate ';' (map (ppCase q) xs))) $$
+                               '}'
+ppTerm q d (T (TWild  t) xs) = "table" <+> ppTerm q 0 t <+> '{' $$
+                                 nest 2 (vcat (punctuate ';' (map (ppCase q) xs))) $$
+                                '}'
+ppTerm q d (Prod bt x a b)= if x == identW && bt == Explicit
+                              then prec d 0 (ppTerm q 4 a <+> "->" <+> ppTerm q 0 b)
+                              else prec d 0 (parens (ppBind (bt,x) <+> ':' <+> ppTerm q 0 a) <+> "->" <+> ppTerm q 0 b)
+ppTerm q d (Table kt vt)=prec d 0 (ppTerm q 3 kt <+> "=>" <+> ppTerm q 0 vt)
+ppTerm q d (Let l e)    = let (ls,e') = getLet e
+                          in prec d 0 ("let" <+> vcat (map (ppLocDef q) (l:ls)) $$ "in" <+> ppTerm q 0 e')
+ppTerm q d (Example e s)=prec d 0 ("in" <+> ppTerm q 5 e <+> str s)
+ppTerm q d (C e1 e2)    =prec d 1 (hang (ppTerm q 2 e1) 2 ("++" <+> ppTerm q 1 e2))
+ppTerm q d (Glue e1 e2) =prec d 2 (ppTerm q 3 e1 <+> '+'  <+> ppTerm q 2 e2)
+ppTerm q d (S x y)     = case x of
+                           T annot xs -> let e = case annot of
+                                                   TRaw     -> y
+                                                   TTyped t -> Typed y t
+                                                   TComp  t -> Typed y t
+                                                   TWild  t -> Typed y t
+                                         in "case" <+> ppTerm q 0 e <+>"of" <+> '{' $$
+                                            nest 2 (vcat (punctuate ';' (map (ppCase q) xs))) $$
+                                           '}'
+                           _          -> prec d 3 (hang (ppTerm q 3 x) 2 ("!" <+> ppTerm q 4 y))
+ppTerm q d (ExtR x y)  = prec d 3 (ppTerm q 3 x <+> "**" <+> ppTerm q 4 y)
+ppTerm q d (App x y)   = prec d 4 (ppTerm q 4 x <+> ppTerm q 5 y)
+ppTerm q d (V e es)    = hang "table" 2 (sep [ppTerm q 6 e,brackets (fsep (punctuate ';' (map (ppTerm q 0) es)))])
+ppTerm q d (FV es)     = prec d 4 ("variants" <+> braces (fsep (punctuate ';' (map (ppTerm q 0) es))))
+ppTerm q d (AdHocOverload es)     = "overload" <+> braces (fsep (punctuate ';' (map (ppTerm q 0) es)))
+ppTerm q d (Alts e xs) = prec d 4 ("pre" <+> braces (ppTerm q 0 e <> ';' <+> fsep (punctuate ';' (map (ppAltern q) xs))))
+ppTerm q d (Strs es)   = "strs" <+> braces (fsep (punctuate ';' (map (ppTerm q 0) es)))
+ppTerm q d (EPatt p)   = prec d 4 ('#' <+> ppPatt q 2 p)
+ppTerm q d (EPattType t)=prec d 4 ("pattern" <+> ppTerm q 0 t)
+ppTerm q d (P t l)     = prec d 5 (ppTerm q 5 t <> '.' <> l)
+ppTerm q d (Cn id)     = pp id
+ppTerm q d (Vr id)     = pp id
+ppTerm q d (Q  id)     = ppQIdent q id
+ppTerm q d (QC id)     = ppQIdent q id
+ppTerm q d (Sort id)   = pp id
+ppTerm q d (K s)       = str s
+ppTerm q d (EInt n)    = pp n
+ppTerm q d (EFloat f)  = pp f
+ppTerm q d (Meta i)    = ppMeta i
+ppTerm q d (Empty)     = pp "[]"
+ppTerm q d (R [])      = pp "<>" -- to distinguish from {} empty RecType
+ppTerm q d (R xs)      = braces (fsep (punctuate ';' [l <+>
+                                                       fsep [case mb_t of {Just t -> ':' <+> ppTerm q 0 t; Nothing -> empty},
+                                                             '=' <+> ppTerm q 0 e] | (l,(mb_t,e)) <- xs]))
+ppTerm q d (RecType xs)
+  | q == Terse         = case [cat | (l,_) <- xs, let (p,cat) = splitAt 5 (showIdent (label2ident l)), p == "lock_"] of
+                           [cat] -> pp cat
+                           _     -> doc
+  | otherwise          = doc
+  where
+    doc = braces (fsep (punctuate ';' [l <+> ':' <+> ppTerm q 0 t | (l,t) <- xs]))
+ppTerm q d (Typed e t) = '<' <> ppTerm q 0 e <+> ':' <+> ppTerm q 0 t <> '>'
+ppTerm q d (ImplArg e) = braces (ppTerm q 0 e)
+ppTerm q d (ELincat cat t) = prec d 4 ("lincat" <+> cat <+> ppTerm q 5 t)
+ppTerm q d (ELin cat t) = prec d 4 ("lin" <+> cat <+> ppTerm q 5 t)
+ppTerm q d (Error s)   = prec d 4 ("Predef.error" <+> str s)
+
+ppEquation q (ps,e) = hcat (map (ppPatt q 2) ps) <+> "->" <+> ppTerm q 0 e
+
+ppCase q (p,e) = ppPatt q 0 p <+> "=>" <+> ppTerm q 0 e
+
+instance Pretty Patt where pp = ppPatt Unqualified 0
+
+ppPatt q d (PAlt p1 p2) = prec d 0 (ppPatt q 0 p1 <+> '|' <+> ppPatt q 1 p2)
+ppPatt q d (PSeq p1 p2) = prec d 0 (ppPatt q 0 p1 <+> '+' <+> ppPatt q 1 p2)
+ppPatt q d (PMSeq (_,p1) (_,p2)) = prec d 0 (ppPatt q 0 p1 <+> '+' <+> ppPatt q 1 p2)
+ppPatt q d (PC f ps)    = if null ps
+                            then pp f
+                            else prec d 1 (f <+> hsep (map (ppPatt q 3) ps))
+ppPatt q d (PP f ps)    = if null ps
+                            then ppQIdent q f
+                            else prec d 1 (ppQIdent q f <+> hsep (map (ppPatt q 3) ps))
+ppPatt q d (PRep p)     = prec d 1 (ppPatt q 3 p <> '*')
+ppPatt q d (PAs f p)    = prec d 2 (f <> '@' <> ppPatt q 3 p)
+ppPatt q d (PNeg p)     = prec d 2 ('-' <> ppPatt q 3 p)
+ppPatt q d (PChar)      = pp '?'
+ppPatt q d (PChars s)   = brackets (str s)
+ppPatt q d (PMacro id)  = '#' <> id
+ppPatt q d (PM id)      = '#' <> ppQIdent q id
+ppPatt q d PW           = pp '_'
+ppPatt q d (PV id)      = pp id
+ppPatt q d (PInt n)     = pp n
+ppPatt q d (PFloat f)   = pp f
+ppPatt q d (PString s)  = str s
+ppPatt q d (PR xs)      = braces (hsep (punctuate ';' [l <+> '=' <+> ppPatt q 0 e | (l,e) <- xs]))
+ppPatt q d (PImplArg p) = braces (ppPatt q 0 p)
+ppPatt q d (PTilde t)   = prec d 2 ('~' <> ppTerm q 6 t)
+
+ppValue :: TermPrintQual -> Int -> Val -> Doc
+ppValue q d (VGen i x)    = x <> "{-" <> i <> "-}" ---- latter part for debugging
+ppValue q d (VApp u v)    = prec d 4 (ppValue q 4 u <+> ppValue q 5 v)
+ppValue q d (VCn (_,c))   = pp c
+ppValue q d (VClos env e) = case e of
+                              Meta _ -> ppTerm q d e <> ppEnv env
+                              _      -> ppTerm q d e ---- ++ prEnv env ---- for debugging
+ppValue q d (VRecType xs) = braces (hsep (punctuate ',' [l <> '=' <> ppValue q 0 v | (l,v) <- xs]))
+ppValue q d VType         = pp "Type"
+
+ppConstrs :: Constraints -> [Doc]
+ppConstrs = map (\(v,w) -> braces (ppValue Unqualified 0 v <+> "<>" <+> ppValue Unqualified 0 w))
+
+ppEnv :: Env -> Doc
+ppEnv e = hcat (map (\(x,t) -> braces (x <> ":=" <> ppValue Unqualified 0 t)) e)
+
+str s = doubleQuotes s
+
+ppDecl q (_,id,typ)
+  | id == identW = ppTerm q 3 typ
+  | otherwise    = parens (id <+> ':' <+> ppTerm q 0 typ)
+
+ppDDecl q (_,id,typ)
+  | id == identW = ppTerm q 6 typ
+  | otherwise    = parens (id <+> ':' <+> ppTerm q 0 typ)
+
+ppQIdent :: TermPrintQual -> QIdent -> Doc
+ppQIdent q (m,id) =
+  case q of
+    Terse       ->          pp id
+    Unqualified ->          pp id
+    Qualified   -> m <> '.' <> id
+    Internal    -> m <> '.' <> id
+
+
+instance Pretty Label where pp = pp . label2ident
+
+ppOpenSpec (OSimple id)   = pp id
+ppOpenSpec (OQualif id n) = parens (id <+> '=' <+> n)
+
+ppInstSpec (id,n) = parens (id <+> '=' <+> n)
+
+ppLocDef q (id, (mbt, e)) =
+  id <+>
+  (case mbt of {Just t -> ':' <+> ppTerm q 0 t; Nothing -> empty} <+> '=' <+> ppTerm q 0 e) <+> ';'
+
+ppBind (Explicit,v) = pp v
+ppBind (Implicit,v) = braces v
+
+ppAltern q (x,y) = ppTerm q 0 x <+> '/' <+> ppTerm q 0 y
+
+ppParams q ps = fsep (intersperse (pp '|') (map (ppParam q) ps))
+ppParam q (id,cxt) = id <+> hsep (map (ppDDecl q) cxt)
+
+ppProduction (Production fid funid args) =
+  ppFId fid <+> "->" <+> ppFunId funid <>
+  brackets (hcat (punctuate "," (map (hsep . intersperse (pp '|') . map ppFId) args)))
+
+ppSequences q seqsArr
+  | null seqs || q /= Internal = empty
+  | otherwise                  = "sequences" <+> '{' $$
+                                 nest 2 (vcat (map ppSeq seqs)) $$
+                                 '}'
+  where
+    seqs = Array.assocs seqsArr
+
+commaPunct f ds = (hcat (punctuate "," (map f ds)))
+
+prec d1 d2 doc
+  | d1 > d2   = parens doc
+  | otherwise = doc
+
+getAbs :: Term -> ([(BindType,Ident)], Term)
+getAbs (Abs bt v e) = let (xs,e') = getAbs e
+                      in ((bt,v):xs,e')
+getAbs e            = ([],e)
+
+getCTable :: Term -> ([Ident], Term)
+getCTable (T TRaw [(PV v,e)]) = let (vs,e') = getCTable e
+                                in (v:vs,e')
+getCTable (T TRaw [(PW,  e)]) = let (vs,e') = getCTable e
+                                in (identW:vs,e')
+getCTable e                   = ([],e)
+
+getLet :: Term -> ([LocalDef], Term)
+getLet (Let l e) = let (ls,e') = getLet e
+                   in (l:ls,e')
+getLet e         = ([],e)

src/compiler/GF/Grammar/Values.hs

@@ -5,22 +5,23 @@
 -- Stability   : (stable)
 -- Portability : (portable)
 --
--- > CVS $Date: 2005/04/21 16:22:32 $ 
+-- > CVS $Date: 2005/04/21 16:22:32 $
 -- > CVS $Author: bringert $
 -- > CVS $Revision: 1.7 $
 --
 -- (Description of the module)
 -----------------------------------------------------------------------------
 
-module GF.Grammar.Values (-- ** Values used in TC type checking
-	       Val(..), Env,
-	       -- ** Annotated tree used in editing
+module GF.Grammar.Values (
+               -- ** Values used in TC type checking
+               Val(..), Env,
+               -- ** Annotated tree used in editing
                Binds, Constraints, MetaSubst,
-	       -- ** For TC
-	       valAbsInt, valAbsFloat, valAbsString, vType,
-	       isPredefCat,
-	       eType, 
-	      ) where
+               -- ** For TC
+               valAbsInt, valAbsFloat, valAbsString, vType,
+               isPredefCat,
+               eType,
+              ) where
 
 import GF.Infra.Ident
 import GF.Grammar.Grammar

src/compiler/GF/Infra/CheckM.hs

@@ -5,7 +5,7 @@
 -- Stability   : (stable)
 -- Portability : (portable)
 --
--- > CVS $Date: 2005/04/21 16:22:33 $ 
+-- > CVS $Date: 2005/04/21 16:22:33 $
 -- > CVS $Author: bringert $
 -- > CVS $Revision: 1.5 $
 --
@@ -14,10 +14,10 @@
 
 module GF.Infra.CheckM
           (Check, CheckResult, Message, runCheck, runCheck',
-	   checkError, checkCond, checkWarn, checkWarnings, checkAccumError,
-	   checkIn, checkInModule, checkMap, checkMapRecover,
+           checkError, checkCond, checkWarn, checkWarnings, checkAccumError,
+           checkIn, checkInModule, checkMap, checkMapRecover,
            parallelCheck, accumulateError, commitCheck,
-	  ) where
+          ) where
 import Prelude hiding ((<>)) -- GHC 8.4.1 clash with Text.PrettyPrint
 
 import GF.Data.Operations
@@ -141,10 +141,10 @@ checkMapRecover f = fmap Map.fromList . parallelCheck . map f' . Map.toList
   where f' (k,v) = fmap ((,)k) (f k v)
 
 {-
-checkMapRecover f mp = do 
+checkMapRecover f mp = do
   let xs = map (\ (k,v) -> (k,runCheck (f k v))) (Map.toList mp)
   case [s | (_,Bad s) <- xs] of
-    ss@(_:_) -> checkError (text (unlines ss)) 
+    ss@(_:_) -> checkError (text (unlines ss))
     _   -> do
       let (kx,ss) = unzip [((k,x),s) | (k, Ok (x,s)) <- xs]
       if not (all null ss) then checkWarn (text (unlines ss)) else return ()

src/compiler/GF/Infra/Ident.hs

@@ -5,7 +5,7 @@
 -- Stability   : (stable)
 -- Portability : (portable)
 --
--- > CVS $Date: 2005/11/15 11:43:33 $ 
+-- > CVS $Date: 2005/11/15 11:43:33 $
 -- > CVS $Author: aarne $
 -- > CVS $Revision: 1.8 $
 --
@@ -13,18 +13,18 @@
 -----------------------------------------------------------------------------
 
 module GF.Infra.Ident (-- ** Identifiers
-              ModuleName(..), moduleNameS,
-	      Ident, ident2utf8, showIdent, prefixIdent,
-              -- *** Normal identifiers (returned by the parser)
-	      identS, identC, identW,
-              -- *** Special identifiers for internal use
-              identV, identA, identAV,
-	      argIdent, isArgIdent, getArgIndex,
-              varStr, varX, isWildIdent, varIndex,
-              -- *** Raw identifiers
-              RawIdent, rawIdentS, rawIdentC, ident2raw, prefixRawIdent,
-              isPrefixOf, showRawIdent
-	     ) where
+  ModuleName(..), moduleNameS,
+  Ident, ident2utf8, showIdent, prefixIdent,
+  -- *** Normal identifiers (returned by the parser)
+  identS, identC, identW,
+  -- *** Special identifiers for internal use
+  identV, identA, identAV,
+  argIdent, isArgIdent, getArgIndex,
+  varStr, varX, isWildIdent, varIndex,
+  -- *** Raw identifiers
+  RawIdent, rawIdentS, rawIdentC, ident2raw, prefixRawIdent,
+  isPrefixOf, showRawIdent
+) where
 
 import qualified Data.ByteString.UTF8 as UTF8
 import qualified Data.ByteString.Char8 as BS(append,isPrefixOf)
@@ -46,7 +46,7 @@ instance Pretty ModuleName where pp (MN m) = pp m
 
 -- | the constructors labelled /INTERNAL/ are
 -- internal representation never returned by the parser
-data Ident = 
+data Ident =
    IC  {-# UNPACK #-} !RawIdent                                           -- ^ raw identifier after parsing, resolved in Rename
  | IW                                                                     -- ^ wildcard
 --
@@ -54,7 +54,7 @@ data Ident =
  | IV  {-# UNPACK #-} !RawIdent {-# UNPACK #-} !Int                       -- ^ /INTERNAL/ variable
  | IA  {-# UNPACK #-} !RawIdent {-# UNPACK #-} !Int                       -- ^ /INTERNAL/ argument of cat at position
  | IAV {-# UNPACK #-} !RawIdent {-# UNPACK #-} !Int {-# UNPACK #-} !Int   -- ^ /INTERNAL/ argument of cat with bindings at position
--- 
+--
   deriving (Eq, Ord, Show, Read)
 
 -- | Identifiers are stored as UTF-8-encoded bytestrings.
@@ -70,14 +70,13 @@ rawIdentS = Id . pack
 rawIdentC = Id
 showRawIdent = unpack . rawId2utf8
 
-prefixRawIdent (Id x) (Id y) = Id (BS.append x y) 
+prefixRawIdent (Id x) (Id y) = Id (BS.append x y)
 isPrefixOf (Id x) (Id y) = BS.isPrefixOf x y
 
 instance Binary RawIdent where
   put = put . rawId2utf8
   get = fmap rawIdentC get
 
-
 -- | This function should be used with care, since the returned ByteString is
 -- UTF-8-encoded.
 ident2utf8 :: Ident -> UTF8.ByteString
@@ -88,6 +87,7 @@ ident2utf8 i = case i of
   IAV (Id s) b j -> BS.append s (pack ('_':show b ++ '_':show j))
   IW -> pack "_"
 
+ident2raw :: Ident -> RawIdent
 ident2raw = Id . ident2utf8
 
 showIdent :: Ident -> String
@@ -95,13 +95,14 @@ showIdent i = unpack $! ident2utf8 i
 
 instance Pretty Ident where pp = pp . showIdent
 
+instance Pretty RawIdent where pp = pp . showRawIdent
+
 identS :: String -> Ident
 identS = identC . rawIdentS
 
 identC :: RawIdent -> Ident
 identW :: Ident
 
-
 prefixIdent :: String -> Ident -> Ident
 prefixIdent pref = identC . Id . BS.append (pack pref) . ident2utf8
 
@@ -112,7 +113,7 @@ identV :: RawIdent -> Int -> Ident
 identA :: RawIdent -> Int -> Ident
 identAV:: RawIdent -> Int -> Int -> Ident
 
-(identC, identV, identA, identAV, identW) = 
+(identC, identV, identA, identAV, identW) =
     (IC,     IV,     IA,     IAV,     IW)
 
 -- | to mark argument variables

src/compiler/GF/Infra/Option.hs

@@ -2,13 +2,13 @@ module GF.Infra.Option
     (
      -- ** Command line options
      -- *** Option types
-     Options, 
-     Flags(..), 
-     Mode(..), Phase(..), Verbosity(..), 
-     OutputFormat(..), 
+     Options,
+     Flags(..),
+     Mode(..), Phase(..), Verbosity(..),
+     OutputFormat(..),
      SISRFormat(..), Optimization(..), CFGTransform(..), HaskellOption(..),
      Dump(..), Pass(..), Recomp(..),
-     outputFormatsExpl, 
+     outputFormatsExpl,
      -- *** Option parsing
      parseOptions, parseModuleOptions, fixRelativeLibPaths,
      -- *** Option pretty-printing
@@ -47,7 +47,7 @@ import PGF.Internal(Literal(..))
 import qualified Control.Monad.Fail as Fail
 
 usageHeader :: String
-usageHeader = unlines 
+usageHeader = unlines
  ["Usage: gf [OPTIONS] [FILE [...]]",
   "",
   "How each FILE is handled depends on the file name suffix:",
@@ -90,10 +90,10 @@ data Phase = Preproc | Convert | Compile | Link
 data OutputFormat = FmtPGFPretty
                   | FmtCanonicalGF
                   | FmtCanonicalJson
-                  | FmtJavaScript 
+                  | FmtJavaScript
                   | FmtJSON
-                  | FmtPython 
-                  | FmtHaskell 
+                  | FmtPython
+                  | FmtHaskell
                   | FmtJava
                   | FmtProlog
                   | FmtBNF
@@ -102,37 +102,42 @@ data OutputFormat = FmtPGFPretty
                   | FmtNoLR
                   | FmtSRGS_XML
                   | FmtSRGS_XML_NonRec
-                  | FmtSRGS_ABNF 
+                  | FmtSRGS_ABNF
                   | FmtSRGS_ABNF_NonRec
-                  | FmtJSGF 
-                  | FmtGSL 
+                  | FmtJSGF
+                  | FmtGSL
                   | FmtVoiceXML
                   | FmtSLF
                   | FmtRegExp
                   | FmtFA
   deriving (Eq,Ord)
 
-data SISRFormat = 
+data SISRFormat =
     -- | SISR Working draft 1 April 2003
     --   <http://www.w3.org/TR/2003/WD-semantic-interpretation-20030401/>
-    SISR_WD20030401    
+    SISR_WD20030401
   | SISR_1_0
  deriving (Show,Eq,Ord)
 
 data Optimization = OptStem | OptCSE | OptExpand | OptParametrize
   deriving (Show,Eq,Ord)
 
-data CFGTransform = CFGNoLR 
+data CFGTransform = CFGNoLR
                   | CFGRegular
-                  | CFGTopDownFilter 
-                  | CFGBottomUpFilter 
+                  | CFGTopDownFilter
+                  | CFGBottomUpFilter
                   | CFGStartCatOnly
                   | CFGMergeIdentical
                   | CFGRemoveCycles
   deriving (Show,Eq,Ord)
 
-data HaskellOption = HaskellNoPrefix | HaskellGADT | HaskellLexical
-                   | HaskellConcrete | HaskellVariants | HaskellData
+data HaskellOption = HaskellNoPrefix
+                   | HaskellGADT
+                   | HaskellLexical
+                   | HaskellConcrete
+                   | HaskellVariants
+                   | HaskellData
+                   | HaskellPGF2
   deriving (Show,Eq,Ord)
 
 data Warning = WarnMissingLincat
@@ -196,7 +201,7 @@ instance Show Options where
 parseOptions :: ErrorMonad err =>
                 [String]                   -- ^ list of string arguments
              -> err (Options, [FilePath])
-parseOptions args 
+parseOptions args
   | not (null errs) = errors errs
   | otherwise       = do opts <- concatOptions `fmap` liftErr (sequence optss)
                          return (opts, files)
@@ -208,7 +213,7 @@ parseModuleOptions :: ErrorMonad err =>
                    -> err Options
 parseModuleOptions args = do
   (opts,nonopts) <- parseOptions args
-  if null nonopts 
+  if null nonopts
     then return opts
     else errors $ map ("Non-option among module options: " ++) nonopts
 
@@ -281,7 +286,7 @@ defaultFlags = Flags {
       optOptimizations   = Set.fromList [OptStem,OptCSE,OptExpand,OptParametrize],
       optOptimizePGF     = False,
       optSplitPGF        = False,
-      optCFGTransforms   = Set.fromList [CFGRemoveCycles, CFGBottomUpFilter, 
+      optCFGTransforms   = Set.fromList [CFGRemoveCycles, CFGBottomUpFilter,
                                          CFGTopDownFilter, CFGMergeIdentical],
       optLibraryPath     = [],
       optStartCat        = Nothing,
@@ -301,7 +306,7 @@ defaultFlags = Flags {
 -- | Option descriptions
 {-# NOINLINE optDescr #-}
 optDescr :: [OptDescr (Err Options)]
-optDescr = 
+optDescr =
     [
      Option ['?','h'] ["help"] (NoArg (mode ModeHelp)) "Show help message.",
      Option ['V'] ["version"] (NoArg (mode ModeVersion)) "Display GF version number.",
@@ -327,44 +332,44 @@ optDescr =
 --   Option ['t'] ["trace"] (NoArg (trace True)) "Trace computations",
 --   Option [] ["no-trace"] (NoArg (trace False)) "Don't trace computations",
      Option [] ["gfo-dir"] (ReqArg gfoDir "DIR") "Directory to put .gfo files in (default = '.').",
-     Option ['f'] ["output-format"] (ReqArg outFmt "FMT") 
+     Option ['f'] ["output-format"] (ReqArg outFmt "FMT")
         (unlines ["Output format. FMT can be one of:",
                   "Canonical GF grammar: canonical_gf, canonical_json, (and haskell with option --haskell=concrete)",
                   "Multiple concrete: pgf (default), json, js, pgf_pretty, prolog, python, ...", -- gar,
                   "Single concrete only: bnf, ebnf, fa, gsl, jsgf, regexp, slf, srgs_xml, srgs_abnf, vxml, ....", -- cf, lbnf,
                   "Abstract only: haskell, ..."]), -- prolog_abs,
-     Option [] ["sisr"] (ReqArg sisrFmt "FMT") 
+     Option [] ["sisr"] (ReqArg sisrFmt "FMT")
         (unlines ["Include SISR tags in generated speech recognition grammars.",
                   "FMT can be one of: old, 1.0"]),
-     Option [] ["haskell"] (ReqArg hsOption "OPTION") 
-            ("Turn on an optional feature when generating Haskell data types. OPTION = " 
+     Option [] ["haskell"] (ReqArg hsOption "OPTION")
+            ("Turn on an optional feature when generating Haskell data types. OPTION = "
              ++ concat (intersperse " | " (map fst haskellOptionNames))),
-     Option [] ["lexical"] (ReqArg lexicalCat "CAT[,CAT[...]]") 
+     Option [] ["lexical"] (ReqArg lexicalCat "CAT[,CAT[...]]")
             "Treat CAT as a lexical category.",
-     Option [] ["literal"] (ReqArg literalCat "CAT[,CAT[...]]") 
+     Option [] ["literal"] (ReqArg literalCat "CAT[,CAT[...]]")
             "Treat CAT as a literal category.",
-     Option ['D'] ["output-dir"] (ReqArg outDir "DIR") 
+     Option ['D'] ["output-dir"] (ReqArg outDir "DIR")
            "Save output files (other than .gfo files) in DIR.",
-     Option [] ["gf-lib-path"] (ReqArg gfLibPath "DIR") 
+     Option [] ["gf-lib-path"] (ReqArg gfLibPath "DIR")
            "Overrides the value of GF_LIB_PATH.",
-     Option [] ["src","force-recomp"] (NoArg (recomp AlwaysRecomp)) 
+     Option [] ["src","force-recomp"] (NoArg (recomp AlwaysRecomp))
                  "Always recompile from source.",
-     Option [] ["recomp-if-newer"] (NoArg (recomp RecompIfNewer)) 
+     Option [] ["recomp-if-newer"] (NoArg (recomp RecompIfNewer))
                  "(default) Recompile from source if the source is newer than the .gfo file.",
-     Option [] ["gfo","no-recomp"] (NoArg (recomp NeverRecomp)) 
+     Option [] ["gfo","no-recomp"] (NoArg (recomp NeverRecomp))
                  "Never recompile from source, if there is already .gfo file.",
      Option [] ["retain"] (NoArg (set $ \o -> o { optRetainResource = True })) "Retain opers.",
      Option [] ["probs"] (ReqArg probsFile "file.probs") "Read probabilities from file.",
-     Option ['n'] ["name"] (ReqArg name "NAME") 
+     Option ['n'] ["name"] (ReqArg name "NAME")
            (unlines ["Use NAME as the name of the output. This is used in the output file names, ",
                      "with suffixes depending on the formats, and, when relevant, ",
                      "internally in the output."]),
      Option ['i'] [] (ReqArg addLibDir "DIR") "Add DIR to the library search path.",
      Option [] ["path"] (ReqArg setLibPath "DIR:DIR:...") "Set the library search path.",
-     Option [] ["preproc"] (ReqArg preproc "CMD") 
+     Option [] ["preproc"] (ReqArg preproc "CMD")
                  (unlines ["Use CMD to preprocess input files.",
                            "Multiple preprocessors can be used by giving this option multiple times."]),
-     Option [] ["coding"] (ReqArg coding "ENCODING") 
+     Option [] ["coding"] (ReqArg coding "ENCODING")
                 ("Character encoding of the source grammar, ENCODING = utf8, latin1, cp1251, ..."),
      Option [] ["startcat"] (ReqArg startcat "CAT") "Grammar start category.",
      Option [] ["language"] (ReqArg language "LANG") "Set the speech language flag to LANG in the generated grammar.",
@@ -372,7 +377,7 @@ optDescr =
      Option [] ["unlexer"] (ReqArg unlexer "UNLEXER") "Use unlexer UNLEXER.",
      Option [] ["pmcfg"] (NoArg (pmcfg True)) "Generate PMCFG (default).",
      Option [] ["no-pmcfg"] (NoArg (pmcfg False)) "Don't generate PMCFG (useful for libraries).",
-     Option [] ["optimize"] (ReqArg optimize "OPT") 
+     Option [] ["optimize"] (ReqArg optimize "OPT")
                 "Select an optimization package. OPT = all | values | parametrize | none",
      Option [] ["optimize-pgf"] (NoArg (optimize_pgf True))
                 "Enable or disable global grammar optimization. This could significantly reduce the size of the final PGF file",
@@ -447,7 +452,7 @@ optDescr =
        optimize    x = case lookup x optimizationPackages of
                          Just p  -> set $ \o -> o { optOptimizations = p }
                          Nothing -> fail $ "Unknown optimization package: " ++ x
-                         
+
        optimize_pgf x = set $ \o -> o { optOptimizePGF = x }
        splitPGF x = set $ \o -> o { optSplitPGF = x }
 
@@ -471,7 +476,7 @@ outputFormats :: [(String,OutputFormat)]
 outputFormats = map fst outputFormatsExpl
 
 outputFormatsExpl :: [((String,OutputFormat),String)]
-outputFormatsExpl = 
+outputFormatsExpl =
     [(("pgf_pretty",   FmtPGFPretty),"human-readable pgf"),
      (("canonical_gf", FmtCanonicalGF),"Canonical GF source files"),
      (("canonical_json", FmtCanonicalJson),"Canonical JSON source files"),
@@ -504,11 +509,11 @@ instance Read OutputFormat where
     readsPrec = lookupReadsPrec outputFormats
 
 optimizationPackages :: [(String, Set Optimization)]
-optimizationPackages = 
+optimizationPackages =
     [("all",         Set.fromList [OptStem,OptCSE,OptExpand,OptParametrize]),
      ("values",      Set.fromList [OptStem,OptCSE,OptExpand]),
      ("noexpand",    Set.fromList [OptStem,OptCSE]),
-     
+
      -- deprecated
      ("all_subs",    Set.fromList [OptStem,OptCSE,OptExpand,OptParametrize]),
      ("parametrize", Set.fromList [OptStem,OptCSE,OptExpand,OptParametrize]),
@@ -516,7 +521,7 @@ optimizationPackages =
     ]
 
 cfgTransformNames :: [(String, CFGTransform)]
-cfgTransformNames = 
+cfgTransformNames =
     [("nolr",         CFGNoLR),
      ("regular",      CFGRegular),
      ("topdown",      CFGTopDownFilter),
@@ -532,7 +537,8 @@ haskellOptionNames =
      ("lexical",  HaskellLexical),
      ("concrete", HaskellConcrete),
      ("variants", HaskellVariants),
-     ("data",     HaskellData)]
+     ("data",     HaskellData),
+     ("pgf2",     HaskellPGF2)]
 
 -- | This is for bacward compatibility. Since GHC 6.12 we
 -- started using the native Unicode support in GHC but it
@@ -558,7 +564,7 @@ onOff f def = OptArg g "[on,off]"
                         _     -> fail $ "Expected [on,off], got: " ++ show x
 
 readOutputFormat :: Fail.MonadFail m => String -> m OutputFormat
-readOutputFormat s = 
+readOutputFormat s =
     maybe (fail $ "Unknown output format: " ++ show s) return $ lookup s outputFormats
 
 -- FIXME: this is a copy of the function in GF.Devel.UseIO.
@@ -570,7 +576,7 @@ splitInModuleSearchPath s = case break isPathSep s of
     isPathSep :: Char -> Bool
     isPathSep c = c == ':' || c == ';'
 
--- 
+--
 -- * Convenience functions for checking options
 --
 
@@ -592,7 +598,7 @@ isLiteralCat opts c = Set.member c (flag optLiteralCats opts)
 isLexicalCat :: Options -> String -> Bool
 isLexicalCat opts c = Set.member c (flag optLexicalCats opts)
 
--- 
+--
 -- * Convenience functions for setting options
 --
 
@@ -623,8 +629,8 @@ readMaybe s = case reads s of
 
 toEnumBounded :: (Bounded a, Enum a, Ord a) => Int -> Maybe a
 toEnumBounded i = let mi = minBound
-                      ma = maxBound `asTypeOf` mi                      
-                   in if i >= fromEnum mi && i <= fromEnum ma 
+                      ma = maxBound `asTypeOf` mi
+                   in if i >= fromEnum mi && i <= fromEnum ma
                         then Just (toEnum i `asTypeOf` mi)
                         else Nothing
 

src/compiler/GF/Interactive.hs

@@ -38,7 +38,6 @@ import GF.Server(server)
 #endif
 
 import GF.Command.Messages(welcome)
-import GF.Infra.UseIO (Output)
 -- Provides an orphan instance of MonadFail for StateT in ghc versions < 8
 import Control.Monad.Trans.Instances ()
 
@@ -56,6 +55,7 @@ mainGFI opts files = do
 
 shell opts files = flip evalStateT (emptyGFEnv opts) $
                    do mapStateT runSIO $ importInEnv opts files
+                      modify $ \ gfenv0 -> gfenv0 {history = [unwords ("i":files)]}
                       loop
 
 #ifdef SERVER_MODE
@@ -433,7 +433,7 @@ wc_type = cmd_name
         x2 = takeWhile (\c -> isIdent c || isSpace c || c == '-' || c == '=' || c == '"') x1
 
         cmd = case [x | (x,cs) <- RP.readP_to_S pCommand x2, all isSpace cs] of
-	        [x] -> Just x
+                [x] -> Just x
                 _   -> Nothing
 
     isIdent c = c == '_' || c == '\'' || isAlphaNum c

src/compiler/GF/Interactive2.hs

@@ -58,6 +58,7 @@ mainGFI opts files = do
 
 shell opts files = flip evalStateT (emptyGFEnv opts) $
                    do mapStateT runSIO $ importInEnv opts files
+                      modify $ \ gfenv0 -> gfenv0 {history = [unwords ("i":files)]}
                       loop
 
 {-
@@ -101,7 +102,7 @@ timeIt act =
 
 -- | Optionally show how much CPU time was used to run an IO action
 optionallyShowCPUTime :: (Monad m,MonadSIO m) => Options -> m a -> m a
-optionallyShowCPUTime opts act 
+optionallyShowCPUTime opts act
   | not (verbAtLeast opts Normal) = act
   | otherwise = do (dt,r) <- timeIt act
                    liftSIO $ putStrLnFlush $ show (dt `div` 1000000000) ++ " msec"
@@ -358,7 +359,7 @@ wordCompletion gfenv (left,right) = do
     CmplIdent _ pref
       -> case mb_pgf of
            Just pgf -> ret (length pref)
-                           [Haskeline.simpleCompletion name 
+                           [Haskeline.simpleCompletion name
                             | name <- C.functions pgf,
                               isPrefixOf pref name]
            _ -> ret (length pref) []
@@ -369,7 +370,7 @@ wordCompletion gfenv (left,right) = do
     cmdEnv = commandenv gfenv
 {-
     optLang opts = valStrOpts "lang" (head $ Map.keys (concretes cmdEnv)) opts
-    optType opts = 
+    optType opts =
       let str = valStrOpts "cat" (H.showCId $ H.lookStartCat pgf) opts
       in case H.readType str of
            Just ty -> ty
@@ -416,7 +417,7 @@ wc_type = cmd_name
     option x y (c  :cs)
       | isIdent c       = option x y cs
       | otherwise       = cmd x cs
-      
+
     optValue x y ('"':cs) = str x y cs
     optValue x y cs       = cmd x cs
 
@@ -434,9 +435,9 @@ wc_type = cmd_name
       where
         x1 = take (length x - length y - d) x
         x2 = takeWhile (\c -> isIdent c || isSpace c || c == '-' || c == '=' || c == '"') x1
-        
+
         cmd = case [x | (x,cs) <- RP.readP_to_S pCommand x2, all isSpace cs] of
-	        [x] -> Just x
+                [x] -> Just x
                 _   -> Nothing
 
     isIdent c = c == '_' || c == '\'' || isAlphaNum c

src/compiler/GF/Main.hs

@@ -16,18 +16,19 @@ import Data.Version
 import System.Directory
 import System.Environment (getArgs)
 import System.Exit
-import GF.System.Console (setConsoleEncoding)
+-- import GF.System.Console (setConsoleEncoding)
 
 -- | Run the GF main program, taking arguments from the command line.
 -- (It calls 'setConsoleEncoding' and 'getOptions', then 'mainOpts'.)
 -- Run @gf --help@ for usage info.
 main :: IO ()
 main = do
-  --setConsoleEncoding
+  -- setConsoleEncoding
   uncurry mainOpts =<< getOptions
 
 -- | Get and parse GF command line arguments. Fix relative paths.
 -- Calls 'getArgs' and 'parseOptions'.
+getOptions :: IO (Options, [FilePath])
 getOptions = do
   args <- getArgs
   case parseOptions args of
@@ -43,7 +44,7 @@ getOptions = do
 -- the options it invokes 'mainGFC', 'mainGFI', 'mainRunGFI', 'mainServerGFI',
 -- or it just prints version/usage info.
 mainOpts :: Options -> [FilePath] -> IO ()
-mainOpts opts files = 
+mainOpts opts files =
     case flag optMode opts of
       ModeVersion     -> putStrLn $ "Grammatical Framework (GF) version " ++ showVersion version ++ "\n" ++ buildInfo
       ModeHelp        -> putStrLn helpMessage

src/compiler/GF/Server.hs

@@ -6,7 +6,7 @@ import qualified Data.Map as M
 import Control.Applicative -- for GHC<7.10
 import Control.Monad(when)
 import Control.Monad.State(StateT(..),get,gets,put)
-import Control.Monad.Error(ErrorT(..),Error(..))
+import Control.Monad.Except(ExceptT(..),runExceptT)
 import System.Random(randomRIO)
 --import System.IO(stderr,hPutStrLn)
 import GF.System.Catch(try)
@@ -108,9 +108,9 @@ handle_fcgi execute1 state0 stateM cache =
 
 -- * Request handler
 -- | Handler monad
-type HM s a = StateT (Q,s) (ErrorT Response IO) a
+type HM s a = StateT (Q,s) (ExceptT Response IO) a
 run :: HM s Response -> (Q,s) -> IO (s,Response)
-run m s = either bad ok =<< runErrorT (runStateT m s)
+run m s = either bad ok =<< runExceptT (runStateT m s)
   where
     bad resp = return (snd s,resp)
     ok (resp,(qs,state)) = return (state,resp)
@@ -123,12 +123,12 @@ put_qs qs = do state <- get_state; put (qs,state)
 put_state state = do qs <- get_qs; put (qs,state)
 
 err :: Response -> HM s a
-err e = StateT $ \ s -> ErrorT $ return $ Left e
+err e = StateT $ \ s -> ExceptT $ return $ Left e
 
 hmbracket_ :: IO () -> IO () -> HM s a -> HM s a
 hmbracket_ pre post m =
     do s <- get
-       e <- liftIO $ bracket_ pre post $ runErrorT $ runStateT m s
+       e <- liftIO $ bracket_ pre post $ runExceptT $ runStateT m s
        case e of
          Left resp -> err resp
          Right (a,s) -> do put s;return a
@@ -407,9 +407,6 @@ resp404 path = Response 404 [plain,xo] $ "Not found: "++path++"\n"
 resp500 msg  = Response 500 [plain,xo] $ "Internal error: "++msg++"\n"
 resp501 msg  = Response 501 [plain,xo] $ "Not implemented: "++msg++"\n"
 
-instance Error Response where
-  noMsg = resp500 "no message"
-  strMsg = resp500
 
 -- * Content types
 plain = ct "text/plain" ""

src/compiler/GF/Speech/FiniteState.hs

@@ -5,37 +5,37 @@
 -- Stability   : (stable)
 -- Portability : (portable)
 --
--- > CVS $Date: 2005/11/10 16:43:44 $ 
+-- > CVS $Date: 2005/11/10 16:43:44 $
 -- > CVS $Author: bringert $
 -- > CVS $Revision: 1.16 $
 --
 -- A simple finite state network module.
 -----------------------------------------------------------------------------
 module GF.Speech.FiniteState (FA(..), State, NFA, DFA,
-			      startState, finalStates,
-			      states, transitions,
+                              startState, finalStates,
+                              states, transitions,
                               isInternal,
-			      newFA, newFA_,
-			      addFinalState,
-			      newState, newStates,
+                              newFA, newFA_,
+                              addFinalState,
+                              newState, newStates,
                               newTransition, newTransitions,
                               insertTransitionWith, insertTransitionsWith,
-			      mapStates, mapTransitions,
+                              mapStates, mapTransitions,
                               modifyTransitions,
-                              nonLoopTransitionsTo, nonLoopTransitionsFrom, 
+                              nonLoopTransitionsTo, nonLoopTransitionsFrom,
                               loops,
                               removeState,
                               oneFinalState,
                               insertNFA,
                               onGraph,
-			      moveLabelsToNodes, removeTrivialEmptyNodes,
+                              moveLabelsToNodes, removeTrivialEmptyNodes,
                               minimize,
                               dfa2nfa,
                               unusedNames, renameStates,
-			      prFAGraphviz, faToGraphviz) where
+                              prFAGraphviz, faToGraphviz) where
 
 import Data.List
-import Data.Maybe 
+import Data.Maybe
 --import Data.Map (Map)
 import qualified Data.Map as Map
 import Data.Set (Set)
@@ -98,13 +98,13 @@ newTransition f t l = onGraph (newEdge (f,t,l))
 newTransitions :: [(n, n, b)] -> FA n a b -> FA n a b
 newTransitions es = onGraph (newEdges es)
 
-insertTransitionWith :: Eq n => 
+insertTransitionWith :: Eq n =>
                         (b -> b -> b) -> (n, n, b) -> FA n a b -> FA n a b
 insertTransitionWith f t = onGraph (insertEdgeWith f t)
 
-insertTransitionsWith :: Eq n => 
+insertTransitionsWith :: Eq n =>
                          (b -> b -> b) -> [(n, n, b)] -> FA n a b -> FA n a b
-insertTransitionsWith f ts fa = 
+insertTransitionsWith f ts fa =
     foldl' (flip (insertTransitionWith f)) fa ts
 
 mapStates :: (a -> c) -> FA n a b -> FA n c b
@@ -128,11 +128,11 @@ unusedNames (FA (Graph names _ _) _ _) = names
 -- | Gets all incoming transitions to a given state, excluding
 -- transtions from the state itself.
 nonLoopTransitionsTo :: Eq n => n -> FA n a b -> [(n,b)]
-nonLoopTransitionsTo s fa = 
+nonLoopTransitionsTo s fa =
     [(f,l) | (f,t,l) <- transitions fa, t == s && f /= s]
 
 nonLoopTransitionsFrom :: Eq n => n -> FA n a b -> [(n,b)]
-nonLoopTransitionsFrom s fa = 
+nonLoopTransitionsFrom s fa =
     [(t,l) | (f,t,l) <- transitions fa, f == s && t /= s]
 
 loops :: Eq n => n -> FA n a b -> [b]
@@ -145,7 +145,7 @@ renameStates :: Ord x => [y] -- ^ Infinite supply of new names
 renameStates supply (FA g s fs) = FA (renameNodes newName rest g) s' fs'
     where (ns,rest) = splitAt (length (nodes g)) supply
           newNodes = Map.fromList (zip (map fst (nodes g)) ns)
-	  newName n = Map.findWithDefault (error "FiniteState.newName") n newNodes
+          newName n = Map.findWithDefault (error "FiniteState.newName") n newNodes
           s' = newName s
           fs' = map newName fs
 
@@ -154,9 +154,9 @@ insertNFA :: NFA a -- ^ NFA to insert into
           -> (State, State) -- ^ States to insert between
           -> NFA a -- ^ NFA to insert.
           -> NFA a
-insertNFA (FA g1 s1 fs1) (f,t) (FA g2 s2 fs2) 
+insertNFA (FA g1 s1 fs1) (f,t) (FA g2 s2 fs2)
     = FA (newEdges es g') s1 fs1
-    where 
+    where
     es = (f,ren s2,Nothing):[(ren f2,t,Nothing) | f2 <- fs2]
     (g',ren) = mergeGraphs g1 g2
 
@@ -182,9 +182,9 @@ oneFinalState nl el fa =
 moveLabelsToNodes :: (Ord n,Eq a) => FA n () (Maybe a) -> FA n (Maybe a) ()
 moveLabelsToNodes = onGraph f
   where f g@(Graph c _ _) = Graph c' ns (concat ess)
-	    where is = [ ((n,l),inc) | (n, (l,inc,_)) <- Map.toList (nodeInfo g)]
-		  (c',is') = mapAccumL fixIncoming c is
-		  (ns,ess) = unzip (concat is')
+         where is = [ ((n,l),inc) | (n, (l,inc,_)) <- Map.toList (nodeInfo g)]
+               (c',is') = mapAccumL fixIncoming c is
+               (ns,ess) = unzip (concat is')
 
 
 -- | Remove empty nodes which are not start or final, and have
@@ -196,12 +196,12 @@ removeTrivialEmptyNodes = pruneUnusable . skipSimpleEmptyNodes
 --   This is not done if the pointed-to node is a final node.
 skipSimpleEmptyNodes :: (Eq a, Ord n) => FA n (Maybe a) () -> FA n (Maybe a) ()
 skipSimpleEmptyNodes fa = onGraph og fa
-  where 
+  where
   og g@(Graph c ns es) = if es' == es then g else og (Graph c ns es')
     where
     es' = concatMap changeEdge es
     info = nodeInfo g
-    changeEdge e@(f,t,()) 
+    changeEdge e@(f,t,())
       | isNothing (getNodeLabel info t)
        -- && (i * o <= i + o)
         && not (isFinal fa t)
@@ -223,28 +223,28 @@ pruneUnusable fa = onGraph f fa
  where
  f g = if Set.null rns then g else f (removeNodes rns g)
   where info = nodeInfo g
-        rns = Set.fromList [ n | (n,_) <- nodes g, 
+        rns = Set.fromList [ n | (n,_) <- nodes g,
                              isInternal fa n,
-                             inDegree info n == 0 
+                             inDegree info n == 0
                              || outDegree info n == 0]
 
-fixIncoming :: (Ord n, Eq a) => [n] 
+fixIncoming :: (Ord n, Eq a) => [n]
             -> (Node n (),[Edge n (Maybe a)]) -- ^ A node and its incoming edges
             -> ([n],[(Node n (Maybe a),[Edge n ()])]) -- ^ Replacement nodes with their
                                                       -- incoming edges.
 fixIncoming cs c@((n,()),es) = (cs'', ((n,Nothing),es'):newContexts)
   where ls = nub $ map edgeLabel es
-	(cs',cs'') = splitAt (length ls) cs
-	newNodes = zip cs' ls
-	es' = [ (x,n,()) | x <- map fst newNodes ]
-	-- separate cyclic and non-cyclic edges
-	(cyc,ncyc) = partition (\ (f,_,_) -> f == n) es
-	          -- keep all incoming non-cyclic edges with the right label
-	to (x,l) = [ (f,x,()) | (f,_,l') <- ncyc, l == l']
-	          -- for each cyclic edge with the right label, 
-	          -- add an edge from each of the new nodes (including this one)
-		    ++ [ (y,x,()) | (f,_,l') <- cyc, l == l', (y,_) <- newNodes]
-	newContexts = [ (v, to v) | v <- newNodes ]
+        (cs',cs'') = splitAt (length ls) cs
+        newNodes = zip cs' ls
+        es' = [ (x,n,()) | x <- map fst newNodes ]
+        -- separate cyclic and non-cyclic edges
+        (cyc,ncyc) = partition (\ (f,_,_) -> f == n) es
+                  -- keep all incoming non-cyclic edges with the right label
+        to (x,l) = [ (f,x,()) | (f,_,l') <- ncyc, l == l']
+                  -- for each cyclic edge with the right label,
+                  -- add an edge from each of the new nodes (including this one)
+                  ++ [ (y,x,()) | (f,_,l') <- cyc, l == l', (y,_) <- newNodes]
+        newContexts = [ (v, to v) | v <- newNodes ]
 
 --alphabet :: Eq b => Graph n a (Maybe b) -> [b]
 --alphabet = nub . catMaybes . map edgeLabel . edges
@@ -254,19 +254,19 @@ determinize (FA g s f) = let (ns,es) = h (Set.singleton start) Set.empty Set.emp
                              (ns',es') = (Set.toList ns, Set.toList es)
                              final = filter isDFAFinal ns'
                              fa = FA (Graph undefined [(n,()) | n <- ns'] es') start final
- 		          in renameStates [0..] fa
+                         in renameStates [0..] fa
   where info = nodeInfo g
 --        reach = nodesReachable out
-	start = closure info $ Set.singleton s
+        start = closure info $ Set.singleton s
         isDFAFinal n = not (Set.null (Set.fromList f `Set.intersection` n))
-	h currentStates oldStates es
-	    | Set.null currentStates = (oldStates,es)
-	    | otherwise = ((h $! uniqueNewStates) $! allOldStates) $! es'
-	    where 
-	    allOldStates = oldStates `Set.union` currentStates
+        h currentStates oldStates es
+            | Set.null currentStates = (oldStates,es)
+            | otherwise = ((h $! uniqueNewStates) $! allOldStates) $! es'
+            where
+            allOldStates = oldStates `Set.union` currentStates
             (newStates,es') = new (Set.toList currentStates) Set.empty es
-	    uniqueNewStates = newStates Set.\\ allOldStates
-        -- Get the sets of states reachable from the given states 
+            uniqueNewStates = newStates Set.\\ allOldStates
+        -- Get the sets of states reachable from the given states
         -- by consuming one symbol, and the associated edges.
         new [] rs es = (rs,es)
         new (n:ns) rs es = new ns rs' es'
@@ -281,7 +281,7 @@ closure info x = closure_ x x
   where closure_ acc check | Set.null check = acc
                            | otherwise = closure_ acc' check'
             where
-            reach = Set.fromList [y | x <- Set.toList check, 
+            reach = Set.fromList [y | x <- Set.toList check,
                                       (_,y,Nothing) <- getOutgoing info x]
             acc' = acc `Set.union` reach
             check' = reach Set.\\ acc
@@ -296,8 +296,8 @@ reachable1 info ns = Map.fromListWith (++) [(c, [y]) | n <- Set.toList ns, (_,y,
 reverseNFA :: NFA a -> NFA a
 reverseNFA (FA g s fs) = FA g''' s' [s]
     where g' = reverseGraph g
-	  (g'',s') = newNode () g'
-	  g''' = newEdges [(s',f,Nothing) | f <- fs] g''
+          (g'',s') = newNode () g'
+          g''' = newEdges [(s',f,Nothing) | f <- fs] g''
 
 dfa2nfa :: DFA a -> NFA a
 dfa2nfa = mapTransitions Just
@@ -313,13 +313,13 @@ prFAGraphviz  = Dot.prGraphviz . faToGraphviz
 --prFAGraphviz_  = Dot.prGraphviz . faToGraphviz . mapStates show . mapTransitions show
 
 faToGraphviz :: (Eq n,Show n) => FA n String String -> Dot.Graph
-faToGraphviz (FA (Graph _ ns es) s f) 
+faToGraphviz (FA (Graph _ ns es) s f)
     = Dot.Graph Dot.Directed Nothing [] (map mkNode ns) (map mkEdge es) []
    where mkNode (n,l) = Dot.Node (show n) attrs
-	     where attrs = [("label",l)]
-			   ++ if n == s then [("shape","box")] else []
-			   ++ if n `elem` f then [("style","bold")] else []
-	 mkEdge (x,y,l) = Dot.Edge (show x) (show y) [("label",l)]
+          where attrs = [("label",l)]
+                 ++ if n == s then [("shape","box")] else []
+                 ++ if n `elem` f then [("style","bold")] else []
+         mkEdge (x,y,l) = Dot.Edge (show x) (show y) [("label",l)]
 
 --
 -- * Utilities

src/compiler/GF/Speech/GSL.hs

@@ -26,14 +26,14 @@ width = 75
 
 gslPrinter :: Options -> PGF -> CId -> String
 gslPrinter opts pgf cnc = renderStyle st $ prGSL $ makeNonLeftRecursiveSRG opts pgf cnc
-  where st = style { lineLength = width } 
+  where st = style { lineLength = width }
 
 prGSL :: SRG -> Doc
 prGSL srg = header $++$ mainCat $++$ foldr ($++$) empty (map prRule (srgRules srg))
     where
     header = ";GSL2.0" $$
-	     comment ("Nuance speech recognition grammar for " ++ srgName srg) $$
-             comment ("Generated by GF") 
+             comment ("Nuance speech recognition grammar for " ++ srgName srg) $$
+             comment ("Generated by GF")
     mainCat = ".MAIN" <+> prCat (srgStartCat srg)
     prRule (SRGRule cat rhs) = prCat cat <+> union (map prAlt rhs)
     -- FIXME: use the probability

src/compiler/GF/Speech/JSGF.hs

@@ -31,7 +31,7 @@ width :: Int
 width = 75
 
 jsgfPrinter :: Options
-	    -> PGF 
+            -> PGF
             -> CId -> String
 jsgfPrinter opts pgf cnc = renderStyle st $ prJSGF sisr $ makeNonLeftRecursiveSRG opts pgf cnc
   where st = style { lineLength = width }
@@ -44,7 +44,7 @@ prJSGF sisr srg
     header = "#JSGF" <+> "V1.0" <+> "UTF-8" <+> lang <> ';' $$
              comment ("JSGF speech recognition grammar for " ++ srgName srg) $$
              comment "Generated by GF" $$
-	     ("grammar " ++ srgName srg ++ ";") 
+             ("grammar " ++ srgName srg ++ ";")
     lang = maybe empty pp (srgLanguage srg)
     mainCat = rule True "MAIN" [prCat (srgStartCat srg)]
     prRule (SRGRule cat rhs) = rule (isExternalCat srg cat) cat (map prAlt rhs)
@@ -62,7 +62,7 @@ prItem :: Maybe SISRFormat -> CFTerm -> SRGItem -> Doc
 prItem sisr t = f 0
   where
     f _ (REUnion [])  = pp "<VOID>"
-    f p (REUnion xs) 
+    f p (REUnion xs)
         | not (null es) = brackets (f 0 (REUnion nes))
         | otherwise = (if p >= 1 then parens else id) (alts (map (f 1) xs))
       where (es,nes) = partition isEpsilon xs
@@ -110,4 +110,3 @@ prepunctuate p (x:xs) = x : map (p <>) xs
 
 ($++$) :: Doc -> Doc -> Doc
 x $++$ y = x $$ emptyLine $$ y
-

src/compiler/GF/Speech/PGFToCFG.hs

@@ -28,7 +28,7 @@ toBNF f pgf cnc = prCFG $ f $ pgfToCFG pgf cnc
 
 type Profile = [Int]
 
-pgfToCFG :: PGF 
+pgfToCFG :: PGF
           -> CId   -- ^ Concrete syntax name
           -> CFG
 pgfToCFG pgf lang = mkCFG (showCId (lookStartCat pgf)) extCats (startRules ++ concatMap ruleToCFRule rules)
@@ -40,8 +40,8 @@ pgfToCFG pgf lang = mkCFG (showCId (lookStartCat pgf)) extCats (startRules ++ co
                          , prod <- Set.toList set]
 
     fcatCats :: Map FId Cat
-    fcatCats = Map.fromList [(fc, showCId c ++ "_" ++ show i) 
-                                 | (c,CncCat s e lbls) <- Map.toList (cnccats cnc), 
+    fcatCats = Map.fromList [(fc, showCId c ++ "_" ++ show i)
+                                 | (c,CncCat s e lbls) <- Map.toList (cnccats cnc),
                                    (fc,i) <- zip (range (s,e)) [1..]]
 
     fcatCat :: FId -> Cat
@@ -58,7 +58,7 @@ pgfToCFG pgf lang = mkCFG (showCId (lookStartCat pgf)) extCats (startRules ++ co
     topdownRules cat = f cat []
       where
         f cat rules = maybe rules (Set.foldr g rules) (IntMap.lookup cat (productions cnc))
-	 
+
         g (PApply funid args) rules = (cncfuns cnc ! funid,args) : rules
         g (PCoerce cat)       rules = f cat rules
 
@@ -67,13 +67,13 @@ pgfToCFG pgf lang = mkCFG (showCId (lookStartCat pgf)) extCats (startRules ++ co
     extCats = Set.fromList $ map ruleLhs startRules
 
     startRules :: [CFRule]
-    startRules = [Rule (showCId c) [NonTerminal (fcatToCat fc r)] (CFRes 0) 
-                      | (c,CncCat s e lbls) <- Map.toList (cnccats cnc), 
+    startRules = [Rule (showCId c) [NonTerminal (fcatToCat fc r)] (CFRes 0)
+                      | (c,CncCat s e lbls) <- Map.toList (cnccats cnc),
                         fc <- range (s,e), not (isPredefFId fc),
                         r <- [0..catLinArity fc-1]]
 
     ruleToCFRule :: (FId,Production) -> [CFRule]
-    ruleToCFRule (c,PApply funid args) = 
+    ruleToCFRule (c,PApply funid args) =
         [Rule (fcatToCat c l) (mkRhs row) (profilesToTerm [fixProfile row n | n <- [0..length args-1]])
            | (l,seqid) <- Array.assocs rhs
            , let row = sequences cnc ! seqid
@@ -106,7 +106,7 @@ pgfToCFG pgf lang = mkCFG (showCId (lookStartCat pgf)) extCats (startRules ++ co
         fixProfile row i = [k | (k,j) <- nts, j == i]
             where
               nts = zip [0..] [j | nt <- Array.elems row, j <- getPos nt]
-              
+
               getPos (SymCat j _) = [j]
               getPos (SymLit j _) = [j]
               getPos _            = []

src/compiler/GF/Speech/SRG.hs

@@ -2,8 +2,8 @@
 -- |
 -- Module      : SRG
 --
--- Representation of, conversion to, and utilities for 
--- printing of a general Speech Recognition Grammar. 
+-- Representation of, conversion to, and utilities for
+-- printing of a general Speech Recognition Grammar.
 --
 -- FIXME: remove \/ warn \/ fail if there are int \/ string literal
 -- categories in the grammar
@@ -40,20 +40,20 @@ import qualified Data.Set as Set
 --import Debug.Trace
 
 data SRG = SRG { srgName :: String    -- ^ grammar name
-		 , srgStartCat :: Cat     -- ^ start category name
-                 , srgExternalCats :: Set Cat
-                 , srgLanguage :: Maybe String -- ^ The language for which the grammar 
-                                                   --   is intended, e.g. en-UK
-	         , srgRules :: [SRGRule] 
-	       }
-	 deriving (Eq,Show)
+               , srgStartCat :: Cat     -- ^ start category name
+               , srgExternalCats :: Set Cat
+               , srgLanguage :: Maybe String -- ^ The language for which the grammar
+                                             --   is intended, e.g. en-UK
+               , srgRules :: [SRGRule]
+               }
+        deriving (Eq,Show)
 
 data SRGRule = SRGRule Cat [SRGAlt]
-	     deriving (Eq,Show)
+        deriving (Eq,Show)
 
 -- | maybe a probability, a rule name and an EBNF right-hand side
 data SRGAlt = SRGAlt (Maybe Double) CFTerm SRGItem
-	      deriving (Eq,Show)
+        deriving (Eq,Show)
 
 type SRGItem = RE SRGSymbol
 
@@ -65,7 +65,7 @@ type SRGNT = (Cat, Int)
 ebnfPrinter :: Options -> PGF -> CId -> String
 ebnfPrinter opts pgf cnc = prSRG opts $ makeSRG opts pgf cnc
 
--- | Create a compact filtered non-left-recursive SRG. 
+-- | Create a compact filtered non-left-recursive SRG.
 makeNonLeftRecursiveSRG :: Options -> PGF -> CId -> SRG
 makeNonLeftRecursiveSRG opts = makeSRG opts'
     where
@@ -76,11 +76,11 @@ makeSRG opts = mkSRG cfgToSRG preprocess
     where
       cfgToSRG cfg = [cfRulesToSRGRule rs | (_,rs) <- allRulesGrouped cfg]
       preprocess =   maybeTransform opts CFGMergeIdentical mergeIdentical
-                   . maybeTransform opts CFGNoLR removeLeftRecursion 
+                   . maybeTransform opts CFGNoLR removeLeftRecursion
                    . maybeTransform opts CFGRegular makeRegular
                    . maybeTransform opts CFGTopDownFilter topDownFilter
                    . maybeTransform opts CFGBottomUpFilter bottomUpFilter
-                   . maybeTransform opts CFGRemoveCycles removeCycles 
+                   . maybeTransform opts CFGRemoveCycles removeCycles
                    . maybeTransform opts CFGStartCatOnly purgeExternalCats
 
 setDefaultCFGTransform :: Options -> CFGTransform -> Bool -> Options
@@ -95,7 +95,7 @@ stats g = "Categories: " ++ show (countCats g)
           ++ ", External categories: " ++ show (Set.size (cfgExternalCats g))
           ++ ", Rules: " ++ show (countRules g)
 -}
-makeNonRecursiveSRG :: Options 
+makeNonRecursiveSRG :: Options
                     -> PGF
                     -> CId -- ^ Concrete syntax name.
                     -> SRG
@@ -111,26 +111,26 @@ makeNonRecursiveSRG opts = mkSRG cfgToSRG id
 mkSRG :: (CFG -> [SRGRule]) -> (CFG -> CFG) -> PGF -> CId -> SRG
 mkSRG mkRules preprocess pgf cnc =
     SRG { srgName = showCId cnc,
-	  srgStartCat = cfgStartCat cfg,
+          srgStartCat = cfgStartCat cfg,
           srgExternalCats = cfgExternalCats cfg,
           srgLanguage = languageCode pgf cnc,
-	  srgRules = mkRules cfg }
+          srgRules = mkRules cfg }
     where cfg = renameCats (showCId cnc) $ preprocess $ pgfToCFG pgf cnc
 
--- | Renames all external cats C to C_cat, and all internal cats C_X (where X is any string), 
+-- | Renames all external cats C to C_cat, and all internal cats C_X (where X is any string),
 --   to C_N where N is an integer.
 renameCats :: String -> CFG -> CFG
 renameCats prefix cfg = mapCFGCats renameCat cfg
   where renameCat c | isExternal c = c ++ "_cat"
                     | otherwise = Map.findWithDefault (badCat c) c names
-        isExternal c = c `Set.member` cfgExternalCats cfg        
+        isExternal c = c `Set.member` cfgExternalCats cfg
         catsByPrefix = buildMultiMap [(takeWhile (/='_') cat, cat) | cat <- allCats' cfg, not (isExternal cat)]
         names = Map.fromList [(c,pref++"_"++show i) | (pref,cs) <- catsByPrefix, (c,i) <- zip cs [1..]]
         badCat c = error ("GF.Speech.SRG.renameCats: " ++ c ++ "\n" ++ prCFG cfg)
 
 cfRulesToSRGRule :: [CFRule] -> SRGRule
 cfRulesToSRGRule rs@(r:_) = SRGRule (ruleLhs r) rhs
-    where 
+    where
       alts = [((n,Nothing),mkSRGSymbols 0 ss) | Rule c ss n <- rs]
       rhs = [SRGAlt p n (srgItem sss) | ((n,p),sss) <- buildMultiMap alts ]
 
@@ -153,7 +153,7 @@ srgItem = unionRE . map mergeItems . sortGroupBy (compareBy filterCats)
 -- non-optimizing version:
 --srgItem = unionRE . map seqRE
 
--- | Merges a list of right-hand sides which all have the same 
+-- | Merges a list of right-hand sides which all have the same
 -- sequence of non-terminals.
 mergeItems :: [[SRGSymbol]] -> SRGItem
 mergeItems = minimizeRE . ungroupTokens . minimizeRE . unionRE . map seqRE . map groupTokens
@@ -174,16 +174,16 @@ ungroupTokens = joinRE . mapRE (symbol (RESymbol . NonTerminal) (REConcat . map
 
 prSRG :: Options -> SRG -> String
 prSRG opts srg = prProductions $ map prRule $ ext ++ int
-    where 
+    where
       sisr = flag optSISR opts
       (ext,int) = partition (isExternalCat srg . srgLHSCat) (srgRules srg)
       prRule (SRGRule c alts) = (c,unwords (intersperse "|" (concatMap prAlt alts)))
-      prAlt (SRGAlt _ t rhs) = 
-          -- FIXME: hack: we high-jack the --sisr flag to add 
+      prAlt (SRGAlt _ t rhs) =
+          -- FIXME: hack: we high-jack the --sisr flag to add
           -- a simple lambda calculus format for semantic interpretation
           -- Maybe the --sisr flag should be renamed.
           case sisr of
-            Just _  -> 
+            Just _  ->
                 -- copy tags to each part of a top-level union,
                 -- to get simpler output
                 case rhs of

src/compiler/GF/Speech/SRGS_ABNF.hs

@@ -5,7 +5,7 @@
 -- Stability   : (stable)
 -- Portability : (portable)
 --
--- > CVS $Date: 2005/11/01 20:09:04 $ 
+-- > CVS $Date: 2005/11/01 20:09:04 $
 -- > CVS $Author: bringert $
 -- > CVS $Revision: 1.16 $
 --
@@ -38,7 +38,7 @@ width :: Int
 width = 75
 
 srgsAbnfPrinter :: Options
-	        -> PGF -> CId -> String
+                -> PGF -> CId -> String
 srgsAbnfPrinter opts pgf cnc = showDoc $ prABNF sisr $ makeNonLeftRecursiveSRG opts pgf cnc
     where sisr = flag optSISR opts
 
@@ -72,7 +72,7 @@ prItem :: Maybe SISRFormat -> CFTerm -> SRGItem -> Doc
 prItem sisr t = f 0
   where
     f _ (REUnion [])  = pp "$VOID"
-    f p (REUnion xs) 
+    f p (REUnion xs)
         | not (null es) = brackets (f 0 (REUnion nes))
         | otherwise = (if p >= 1 then parens else id) (alts (map (f 1) xs))
       where (es,nes) = partition isEpsilon xs
@@ -84,13 +84,13 @@ prItem sisr t = f 0
 
 prSymbol :: Maybe SISRFormat -> CFTerm -> SRGSymbol -> Doc
 prSymbol sisr cn (NonTerminal n@(c,_)) = prCat c <+> tag sisr (catSISR cn n)
-prSymbol _ cn (Terminal t) 
+prSymbol _ cn (Terminal t)
     | all isPunct t = empty  -- removes punctuation
     | otherwise = pp t -- FIXME: quote if there is whitespace or odd chars
 
 tag :: Maybe SISRFormat -> (SISRFormat -> SISRTag) -> Doc
 tag Nothing _ = empty
-tag (Just fmt) t = 
+tag (Just fmt) t =
     case t fmt of
       [] -> empty
       -- grr, silly SRGS ABNF does not have an escaping mechanism
@@ -125,4 +125,3 @@ prepunctuate p (x:xs) = x : map (p <>) xs
 
 ($++$) :: Doc -> Doc -> Doc
 x $++$ y = x $$ emptyLine $$ y
-

src/compiler/GF/Speech/SRGS_XML.hs

@@ -34,13 +34,13 @@ prSrgsXml :: Maybe SISRFormat -> SRG -> String
 prSrgsXml sisr srg = showXMLDoc (optimizeSRGS xmlGr)
     where
     xmlGr = grammar sisr (srgStartCat srg) (srgLanguage srg) $
-              [meta "description" 
+              [meta "description"
                  ("SRGS XML speech recognition grammar for " ++ srgName srg ++ "."),
                meta "generator" "Grammatical Framework"]
-	    ++ map ruleToXML (srgRules srg)
+               ++ map ruleToXML (srgRules srg)
     ruleToXML (SRGRule cat alts) = Tag "rule" ([("id",cat)]++pub) (prRhs alts)
         where pub = if isExternalCat srg cat then [("scope","public")] else []
-    prRhs rhss = [oneOf (map (mkProd sisr) rhss)] 
+    prRhs rhss = [oneOf (map (mkProd sisr) rhss)]
 
 mkProd :: Maybe SISRFormat -> SRGAlt -> XML
 mkProd sisr (SRGAlt mp n rhs) = Tag "item" [] (ti ++ [x] ++ tf)
@@ -50,9 +50,9 @@ mkProd sisr (SRGAlt mp n rhs) = Tag "item" [] (ti ++ [x] ++ tf)
 
 mkItem :: Maybe SISRFormat -> CFTerm -> SRGItem -> XML
 mkItem sisr cn = f
-  where 
+  where
     f (REUnion [])  = ETag "ruleref" [("special","VOID")]
-    f (REUnion xs) 
+    f (REUnion xs)
         | not (null es) = Tag "item" [("repeat","0-1")] [f (REUnion nes)]
         | otherwise = oneOf (map f xs)
       where (es,nes) = partition isEpsilon xs
@@ -62,7 +62,7 @@ mkItem sisr cn = f
     f (RESymbol s)  = symItem sisr cn s
 
 symItem :: Maybe SISRFormat -> CFTerm -> Symbol SRGNT Token -> XML
-symItem sisr cn (NonTerminal n@(c,_)) = 
+symItem sisr cn (NonTerminal n@(c,_)) =
     Tag "item" [] $ [ETag "ruleref" [("uri","#" ++ c)]] ++ tag sisr (catSISR cn n)
 symItem _ _ (Terminal t) = Tag "item" [] [Data (showToken t)]
 
@@ -81,12 +81,12 @@ oneOf = Tag "one-of" []
 grammar :: Maybe SISRFormat
         -> String  -- ^ root
         -> Maybe String -- ^language
-	-> [XML] -> XML
-grammar sisr root ml = 
+        -> [XML] -> XML
+grammar sisr root ml =
     Tag "grammar" $ [("xmlns","http://www.w3.org/2001/06/grammar"),
-		     ("version","1.0"),
-		     ("mode","voice"),
-		     ("root",root)]
+                     ("version","1.0"),
+                     ("mode","voice"),
+                     ("root",root)]
                  ++ (if isJust sisr then [("tag-format","semantics/1.0")] else [])
                  ++ maybe [] (\l -> [("xml:lang", l)]) ml
 
@@ -94,7 +94,7 @@ meta :: String -> String -> XML
 meta n c = ETag "meta" [("name",n),("content",c)]
 
 optimizeSRGS :: XML -> XML
-optimizeSRGS = bottomUpXML f 
+optimizeSRGS = bottomUpXML f
   where f (Tag "item" [] [x@(Tag "item" _ _)]) = x
         f (Tag "item" [] [x@(Tag "one-of" _ _)]) = x
         f (Tag "item" as [Tag "item" [] xs]) = Tag "item" as xs

src/compiler/GF/Text/Transliterations.hs

@@ -17,7 +17,7 @@ import qualified Data.Map as Map
 -- to add a new one: define the Unicode range and the corresponding ASCII strings,
 -- which may be one or more characters long
 
--- conventions to be followed: 
+-- conventions to be followed:
 --   each character is either [letter] or [letter+nonletters]
 --   when using a sparse range of unicodes, mark missing codes as "-" in transliterations
 --   characters can be invisible: ignored in translation to unicode
@@ -33,7 +33,7 @@ transliterateWithFile name src isFrom =
   (if isFrom then appTransFromUnicode else appTransToUnicode) (getTransliterationFile name src)
 
 transliteration :: String -> Maybe Transliteration
-transliteration s = Map.lookup s allTransliterations 
+transliteration s = Map.lookup s allTransliterations
 
 allTransliterations = Map.fromList [
   ("amharic",transAmharic),
@@ -67,25 +67,25 @@ data Transliteration = Trans {
   }
 
 appTransToUnicode :: Transliteration -> String -> String
-appTransToUnicode trans = 
+appTransToUnicode trans =
   concat .
   map (\c -> maybe c (return . toEnum) $
              Map.lookup c (trans_to_unicode trans)
-      ) . 
-  filter (flip notElem (invisible_chars trans)) . 
+      ) .
+  filter (flip notElem (invisible_chars trans)) .
   unchar
 
 appTransFromUnicode :: Transliteration -> String -> String
-appTransFromUnicode trans = 
+appTransFromUnicode trans =
   concat .
-  map (\c -> maybe [toEnum c] id $ 
+  map (\c -> maybe [toEnum c] id $
              Map.lookup c (trans_from_unicode trans)
-      ) . 
+      ) .
   map fromEnum
 
 
 mkTransliteration :: String -> [String] -> [Int] -> Transliteration
-mkTransliteration name ts us = 
+mkTransliteration name ts us =
  Trans (Map.fromList (tzip ts us)) (Map.fromList (uzip us ts)) [] name
   where
     tzip ts us = [(t,u) | (t,u) <- zip ts us, t /= "-"]
@@ -102,7 +102,7 @@ getTransliterationFile name = uncurry (mkTransliteration name) . codes
 
 unchar :: String -> [String]
 unchar s = case s of
-  c:d:cs 
+  c:d:cs
    | isAlpha d -> [c]    : unchar (d:cs)
    | isSpace d -> [c]:[d]: unchar cs
    | otherwise -> let (ds,cs2) = break (\x -> isAlpha x || isSpace x) cs in
@@ -122,8 +122,8 @@ transThai = mkTransliteration "Thai" allTrans allCodes where
   allCodes = [0x0e00 .. 0x0e7f]
 
 transDevanagari :: Transliteration
-transDevanagari = 
-  (mkTransliteration "Devanagari" 
+transDevanagari =
+  (mkTransliteration "Devanagari"
     allTransUrduHindi allCodes){invisible_chars = ["a"]} where
       allCodes = [0x0900 .. 0x095f] ++ [0x0966 .. 0x096f]
 
@@ -136,13 +136,13 @@ allTransUrduHindi = words $
     "-  -  -  -  -  -  -  -  q  x  g.  z  R R'  f  -  " ++
     "N0 N1 N2 N3 N4 N5 N6 N7 N8 N9 "
 
-
+
 transUrdu :: Transliteration
-transUrdu = 
+transUrdu =
   (mkTransliteration "Urdu" allTrans allCodes) where
-    allCodes = [0x0622 .. 0x062f] ++ [0x0630 .. 0x063a] ++ [0x0641,0x0642] ++ [0x06A9] ++ [0x0644 .. 0x0648] ++ 
+    allCodes = [0x0622 .. 0x062f] ++ [0x0630 .. 0x063a] ++ [0x0641,0x0642] ++ [0x06A9] ++ [0x0644 .. 0x0648] ++
                [0x0654,0x0658,0x0679,0x067e,0x0686,0x0688,0x0691,0x0698,0x06af,0x06c1,0x06c3,0x06cc,0x06ba,0x06be,0x06d2] ++
-			   [0x06f0 .. 0x06f9] ++ [0x061f,0x06D4]
+               [0x06f0 .. 0x06f9] ++ [0x061f,0x06D4]
     allTrans = words $
       "A - w^ - y^ a b - t C j H K d " ++  -- 0622 - 062f
       "Z r z s X S Z- t- z- e G "   ++  -- 0630 - 063a
@@ -151,22 +151,22 @@ transUrdu =
       "N0 N1 N2 N3 N4 N5 N6 N7 N8 N9 " ++ "? ."
 
 transSindhi :: Transliteration
-transSindhi = 
+transSindhi =
   (mkTransliteration "Sindhi" allTrans allCodes) where
     allCodes = [0x062e] ++ [0x0627 .. 0x062f] ++ [0x0630 .. 0x063a] ++ [0x0641 .. 0x0648] ++
                [0x067a,0x067b,0x067d,0x067e,0x067f] ++ [0x0680 .. 0x068f] ++
                [0x0699,0x0918,0x06a6,0x061d,0x06a9,0x06af,0x06b3,0x06bb,0x06be,0x06f6,0x064a,0x06b1, 0x06aa, 0x06fd, 0x06fe] ++
-			   [0x06f0 .. 0x06f9] ++ [0x061f,0x06D4]
+               [0x06f0 .. 0x06f9] ++ [0x061f,0x06D4]
     allTrans = words $
       "K a b - t C j H - d " ++  -- 0626 - 062f
       "Z r z s X S Z- t- z- e G "   ++  -- 0630 - 063a
       "f q - L m n - W "    ++  -- 0641 - 0648
       "T! B T p T' " ++  -- 067a,067b,067d,067e,067f
       "B' - - Y' J' - c c' - - d! - d' D - D' " ++  -- 0680 - 068f
-      "R - F' - k' g G' t' h' e' y c! k A M " ++  -- 0699, 0918, 06a6, 061d, 06a9,06af,06b3,06bb,06be,06f6,06cc,06b1 
+      "R - F' - k' g G' t' h' e' y c! k A M " ++  -- 0699, 0918, 06a6, 061d, 06a9,06af,06b3,06bb,06be,06f6,06cc,06b1
       "N0 N1 N2 N3 N4 N5 N6 N7 N8 N9 " ++ "? ."
 
-    
+
 
 transArabic :: Transliteration
 transArabic = mkTransliteration "Arabic" allTrans allCodes where
@@ -175,8 +175,8 @@ transArabic = mkTransliteration "Arabic" allTrans allCodes where
     "W  r  z  s  C S  D  T  Z  c  G "                 ++  -- 0630 - 063a
     "   f  q  k  l  m  n  h  w  y. y a. u. i. a  u "  ++  -- 0641 - 064f
     "i  v2 o  a: V+ V- i: a+ "                        ++  -- 0650 - 0657
-    "A*  q?"                                              -- 0671 (used by AED) 
-  allCodes = [0x0621..0x062f] ++ [0x0630..0x063a] ++ 
+    "A*  q?"                                              -- 0671 (used by AED)
+  allCodes = [0x0621..0x062f] ++ [0x0630..0x063a] ++
              [0x0641..0x064f] ++ [0x0650..0x0657] ++ [0x0671,0x061f]
 
 
@@ -193,16 +193,16 @@ transPersian = (mkTransliteration "Persian/Farsi" allTrans allCodes)
     "   V  A: A? w? A- y? A  b  t. t  t-  j  H  K  d " ++  -- 0621 - 062f
     "W  r  z  s  C  S  D  T  Z  c  G "                 ++  -- 0630 - 063a
     "   f  q  -  l  m  n  h  v  -  y. a. u. i. a  u "   ++  -- 0640 - 064f
-    "i  v2 o  a: V+ V- i: a+ " ++                          -- 0650 - 0657 
+    "i  v2 o  a: V+ V- i: a+ " ++                          -- 0650 - 0657
     "p  c^ J  k  g  y q? Z0"
-  allCodes = [0x0621..0x062f] ++ [0x0630..0x063a] ++ 
-             [0x0641..0x064f] ++ [0x0650..0x0657] ++ 
+  allCodes = [0x0621..0x062f] ++ [0x0630..0x063a] ++
+             [0x0641..0x064f] ++ [0x0650..0x0657] ++
              [0x067e,0x0686,0x0698,0x06a9,0x06af,0x06cc,0x061f,0x200c]
 
 transNepali :: Transliteration
 transNepali = mkTransliteration "Nepali" allTrans allCodes where
   allTrans = words $
-    "z+  z= " ++ 
+    "z+  z= " ++
     "-  V  M  h: -  H  A  i: I: f  F  Z  -  -  -  e: " ++
     "E: -  -  O  W  k  K  g  G  n: C  c  j  J  Y  q  " ++
     "Q  x  X  N  t  T  d  D  n  -  p  P  b  B  m  y  " ++
@@ -241,7 +241,7 @@ transGreek = mkTransliteration "modern Greek" allTrans allCodes where
     "i= A  B  G  D  E  Z  H  V  I  K  L  M  N  X  O  " ++
     "P  R  -  S  T  Y  F  C  Q  W  I- Y- a' e' h' i' " ++
     "y= a  b  g  d  e  z  h  v  i  k  l  m  n  x  o  " ++
-    "p  r  s* s  t  y  f  c  q  w  i- y- o' y' w' -  "    
+    "p  r  s* s  t  y  f  c  q  w  i- y- o' y' w' -  "
   allCodes = [0x0380 .. 0x03cf]
 
 transAncientGreek :: Transliteration
@@ -261,32 +261,32 @@ transAncientGreek = mkTransliteration "ancient Greek" allTrans allCodes where
    "y)  y(  y)` y(` y)' y(' y)~ y(~ -   Y(  -   Y(` -   Y(' -   Y(~ " ++
    "w)  w(  w)` w(` w)' w(' w)~ w(~ W)  W(  W)` W(` W)' W(' W)~ W(~ " ++
    "a`  a'  e`  e'  h`  h'  i`  i'  o`  o'  y`  y'  w`  w'  -   -   " ++
-   "a|) a|( a|)` a|(` a|)' a|(' a|)~ a|(~ - - - - - - - - " ++ -- 1f80-  
-   "h|) h|( h|)` h|(` h|)' h|(' h|)~ h|(~ - - - - - - - - " ++ -- 1f90-  
-   "w|) w|( w|)` w|(` w|)' w|(' w|)~ w|(~ - - - - - - - - " ++ -- 1fa0-  
+   "a|) a|( a|)` a|(` a|)' a|(' a|)~ a|(~ - - - - - - - - " ++ -- 1f80-
+   "h|) h|( h|)` h|(` h|)' h|(' h|)~ h|(~ - - - - - - - - " ++ -- 1f90-
+   "w|) w|( w|)` w|(` w|)' w|(' w|)~ w|(~ - - - - - - - - " ++ -- 1fa0-
    "a.  a_  a|` a|  a|'  -  a~ a|~ - - - - - - - - " ++ -- 1fb0-
    "-  -  h|` h|  h|'  -  h~ h|~ - - - - - - - - " ++ -- 1fc0-
    "i. i_ i=` i=' -    -  i~ i=~ - - - - - - - - " ++ -- 1fd0-
-   "y. y_ y=` y=' r)   r( y~ y=~ - - - - - - - - " ++ -- 1fe0-   
+   "y. y_ y=` y=' r)   r( y~ y=~ - - - - - - - - " ++ -- 1fe0-
    "-  -  w|` w|  w|'  -  w~ w|~ - - - - - - - - " ++ -- 1ff0-
    -- HL, Private Use Area Code Points (New Athena Unicode, Cardo, ALPHABETUM, Antioch)
    -- see: http://apagreekkeys.org/technicalDetails.html
    --      GreekKeys Support by Donald Mastronarde
-   "- - - - - - - - - e. o. R) Y) Y)` Y)' Y)~ "    ++ -- e1a0-e1af  
+   "- - - - - - - - - e. o. R) Y) Y)` Y)' Y)~ "    ++ -- e1a0-e1af
    "e~ e)~ e(~ e_ e_' e_` e_) e_( e_)` e_(` e_)' e_(' E)~ E(~ E_ E. " ++ -- e1b0-e1bf
    "o~ o)~ o(~ o_ o_' o_` o_) o_( o_)` o_(` o_)' o_(' O)~ O(~ O_ O. " ++ -- e1c0-e1cf
-   "a_` - a_~ a_)` a_(` a_)~ a_(~ - a.` a.) a.)` a.(' a.(` - - - "    ++ -- eaf0-eaff  
-   "a_' - - - a_) a_( - a_)' - a_(' a.' a.( a.)' - - - "              ++ -- eb00-eb0f  
+   "a_` - a_~ a_)` a_(` a_)~ a_(~ - a.` a.) a.)` a.(' a.(` - - - "    ++ -- eaf0-eaff
+   "a_' - - - a_) a_( - a_)' - a_(' a.' a.( a.)' - - - "              ++ -- eb00-eb0f
    "e_)~ e_(~ - - - - - e_~ - - - - - - - - "                         ++ -- eb20-eb2f
-   "- - - - - - i_~ - i_` i_' - - i_) i_)' i_( i_(' "                 ++ -- eb30-eb3f   
+   "- - - - - - i_~ - i_` i_' - - i_) i_)' i_( i_(' "                 ++ -- eb30-eb3f
    "i.' i.) i.)' i.( i.` i.)` - i.(' i.(` - - - - - - - "             ++ -- eb40-eb4f
    "- - - - i_)` i_(` - i_)~ i_(~ - o_~ o_)~ o_(~ - - - "             ++ -- eb50-eb5f
    "y_` " ++ -- eb6f
    "y_~ y_)` - - - y_(` - y_)~ y_(~ - y_' - - y_) y_( y_)' "  ++         -- eb70-eb7f
    "y_(' y.' y.( y.` y.) y.)' - - y.)` y.(' y.(` - - - - - "             -- eb80-eb8f
- allCodes =  -- [0x00B0 .. 0x00Bf] 
-             [0x0380 .. 0x03cf] ++ [0x1f00 .. 0x1fff] 
-          ++ [0xe1a0 .. 0xe1af] 
+ allCodes =  -- [0x00B0 .. 0x00Bf]
+             [0x0380 .. 0x03cf] ++ [0x1f00 .. 0x1fff]
+          ++ [0xe1a0 .. 0xe1af]
           ++ [0xe1b0 .. 0xe1bf]
           ++ [0xe1c0 .. 0xe1cf]
           ++ [0xeaf0 .. 0xeaff]
@@ -297,36 +297,34 @@ transAncientGreek = mkTransliteration "ancient Greek" allTrans allCodes where
           ++ [0xeb50 .. 0xeb5f] ++ [0xeb6f]
           ++ [0xeb70 .. 0xeb7f]
           ++ [0xeb80 .. 0xeb8f]
- 
-transAmharic :: Transliteration
+
+transAmharic :: Transliteration
 transAmharic = mkTransliteration "Amharic" allTrans allCodes where
- 
-allTrans = words $
-    
-  	" h.  h-  h'  h(  h)  h  h?  h*  l.  l-  l'  l(  l)  l  l?  l*  "++
-	" H.  H-  H'  H(  H)  H  H?  H*  m.  m-  m'  m(  m)  m  m?  m*  "++
-	" s.  s-  s'  s(  s)  s  s?  s*  r.  r-  r'  r(  r)  r  r?  r* "++
-	" -   -   -   -   -  -   -  -   x.  x-  x'  x(  x)  x  x?   x* "++
-	" q.  q-  q'  q(  q)  q  q?  q*  -   -   -   -   -   -  -   - "++
-	" -   -   -   -   -   -  -   -   -   -   -   -   -   -  -   - "++
-	" b.  b-  b'  b(  b)  b  b?  b*  v.  v-  v'  v(  v)  v  v?  v* "++
-	" t.  t-  t'  t(  t)  t  t?  t*  c.  c-  c'  c(  c)  c  c?  c* "++
-	" X.  X-  X'  X(  X)  X  X?  -   -   -   -   X*  -   -  -   - "++
-	" n.  n-  n'  n(  n)  n  n?  n*  N.  N-  N'  N(  N)  N  N?  N* "++
-	" a   u   i   A   E   e  o   e*  k.  k-  k'  k(  k)  k  k?  - "++
-	" -   -   -   k*  -   -  -   -   -   -   -   -   -   -  -   - "++
-	" -   -   -   -   -   -  -   -   w.  w-  w'  w(  w)  w  w?  w* "++
-	" -   -   -   -   -   -  -   -   z.  z-  z'  z(  z)  z  z?  z* "++
-	" Z.  Z-  Z'  Z(  Z)  Z  Z?  Z*  y.  y-  y'  y(  y)  y  y?  y* "++
-	" d.  d-  d'  d(  d)  d  d?  d*  -   -   -   -   -   -  -   - "++
-	" j.  j-  j'  j(  j)  j  j?  j*  g.  g-  g'  g(  g)  g  g?  - "++
-	" -   -   -   g*  -   -  -   -   -   -   -   -   -   -  -   - "++
-	" T.  T-  T'  T(  T)  T  T?  T*  C.  C-  C'  C(  C)  C  C?  C* "++
-	" P.  P-  P'  P(  P)  P  P?  P*  S.  S-  S'  S(  S)  S  S?  S* "++
-	" -   -   -   -   -   -  -   -   f.  f-  f'  f(  f)  f  f?  f*"++
-	" p.  p-  p'  p(  p)  p  p?  p*" 	
-allCodes = [0x1200..0x1357]
- 
+  allTrans = words $
+    " h.  h-  h'  h(  h)  h  h?  h*  l.  l-  l'  l(  l)  l  l?  l*  "++
+    " H.  H-  H'  H(  H)  H  H?  H*  m.  m-  m'  m(  m)  m  m?  m*  "++
+    " s.  s-  s'  s(  s)  s  s?  s*  r.  r-  r'  r(  r)  r  r?  r* "++
+    " -   -   -   -   -  -   -  -   x.  x-  x'  x(  x)  x  x?   x* "++
+    " q.  q-  q'  q(  q)  q  q?  q*  -   -   -   -   -   -  -   - "++
+    " -   -   -   -   -   -  -   -   -   -   -   -   -   -  -   - "++
+    " b.  b-  b'  b(  b)  b  b?  b*  v.  v-  v'  v(  v)  v  v?  v* "++
+    " t.  t-  t'  t(  t)  t  t?  t*  c.  c-  c'  c(  c)  c  c?  c* "++
+    " X.  X-  X'  X(  X)  X  X?  -   -   -   -   X*  -   -  -   - "++
+    " n.  n-  n'  n(  n)  n  n?  n*  N.  N-  N'  N(  N)  N  N?  N* "++
+    " a   u   i   A   E   e  o   e*  k.  k-  k'  k(  k)  k  k?  - "++
+    " -   -   -   k*  -   -  -   -   -   -   -   -   -   -  -   - "++
+    " -   -   -   -   -   -  -   -   w.  w-  w'  w(  w)  w  w?  w* "++
+    " -   -   -   -   -   -  -   -   z.  z-  z'  z(  z)  z  z?  z* "++
+    " Z.  Z-  Z'  Z(  Z)  Z  Z?  Z*  y.  y-  y'  y(  y)  y  y?  y* "++
+    " d.  d-  d'  d(  d)  d  d?  d*  -   -   -   -   -   -  -   - "++
+    " j.  j-  j'  j(  j)  j  j?  j*  g.  g-  g'  g(  g)  g  g?  - "++
+    " -   -   -   g*  -   -  -   -   -   -   -   -   -   -  -   - "++
+    " T.  T-  T'  T(  T)  T  T?  T*  C.  C-  C'  C(  C)  C  C?  C* "++
+    " P.  P-  P'  P(  P)  P  P?  P*  S.  S-  S'  S(  S)  S  S?  S* "++
+    " -   -   -   -   -   -  -   -   f.  f-  f'  f(  f)  f  f?  f*"++
+    " p.  p-  p'  p(  p)  p  p?  p*"
+  allCodes = [0x1200..0x1357]
+
 -- by Prasad 31/5/2013
 transSanskrit :: Transliteration
 transSanskrit = (mkTransliteration "Sanskrit" allTrans allCodes) {invisible_chars = ["a"]} where

src/compiler/SimpleEditor/JSON.hs

@@ -9,14 +9,24 @@ instance JSON Grammar where
   showJSON (Grammar name extends abstract concretes) =
     makeObj ["basename".=name, "extends".=extends,
              "abstract".=abstract, "concretes".=concretes]
+  readJSON = error "Grammar.readJSON intentionally not defined"
 
 instance JSON Abstract where
   showJSON (Abstract startcat cats funs) =
     makeObj ["startcat".=startcat, "cats".=cats, "funs".=funs]
+  readJSON = error "Abstract.readJSON intentionally not defined"
 
-instance JSON Fun   where showJSON (Fun   name typ) = signature  name typ
-instance JSON Param where showJSON (Param name rhs) = definition name rhs
-instance JSON Oper  where showJSON (Oper  name rhs) = definition name rhs
+instance JSON Fun where 
+  showJSON (Fun   name typ) = signature  name typ
+  readJSON = error "Fun.readJSON intentionally not defined"
+
+instance JSON Param where 
+  showJSON (Param name rhs) = definition name rhs
+  readJSON = error "Param.readJSON intentionally not defined"
+
+instance JSON Oper where 
+  showJSON (Oper  name rhs) = definition name rhs
+  readJSON = error "Oper.readJSON intentionally not defined"
 
 signature  name typ = makeObj ["name".=name,"type".=typ]
 definition name rhs = makeObj ["name".=name,"rhs".=rhs]
@@ -26,12 +36,15 @@ instance JSON Concrete where
     makeObj ["langcode".=langcode, "opens".=opens,
               "params".=params, "opers".=opers,
              "lincats".=lincats, "lins".=lins]
+  readJSON = error "Concrete.readJSON intentionally not defined"
 
 instance JSON Lincat where
   showJSON (Lincat cat lintype) = makeObj ["cat".=cat, "type".=lintype]
+  readJSON = error "Lincat.readJSON intentionally not defined"
 
 instance JSON Lin where
   showJSON (Lin fun args lin) = makeObj ["fun".=fun, "args".=args, "lin".=lin]
+  readJSON = error "Lin.readJSON intentionally not defined"
 
 infix 1 .=
 name .= v = (name,showJSON v)

src/compiler/SimpleEditor/Syntax.hs

@@ -23,10 +23,10 @@ data Fun      = Fun      { fname:: FunId, ftype:: Type }
 
 data Concrete = Concrete { langcode:: Id,
                            opens:: [ModId],
-		           params:: [Param],
-		           lincats:: [Lincat],
-		           opers:: [Oper],
-		           lins:: [Lin] }
+                           params:: [Param],
+                           lincats:: [Lincat],
+                           opers:: [Oper],
+                           lins:: [Lin] }
                 deriving Show
 
 data Param  = Param  {pname:: Id, prhs:: String}              deriving Show

src/runtime/c/INSTALL

@@ -14,6 +14,9 @@ For Linux users
 
 You will need the packages: autoconf, automake, libtool, make
 
+- On Ubuntu: $ apt-get install autotools-dev
+- On Fedora: $ dnf install autoconf automake libtool
+
 The compilation steps are:
 
 $ autoreconf -i
@@ -28,7 +31,7 @@ For Mac OSX users
 The following is what I did to make it work on MacOSX 10.8:
 
 - Install XCode and XCode command line tools
-- Install Homebrew: http://mxcl.github.com/homebrew/
+- Install Homebrew: https://brew.sh
 
 $ brew install automake autoconf libtool
 $ glibtoolize
@@ -49,7 +52,7 @@ For Windows users
   After the installation, don't forget to fix the fstab file. See here:
      http://www.mingw.org/wiki/Getting_Started
 
-- From the MSYS shell (c:/MinGW/msys/1.0/msys.bat) go to the directory 
+- From the MSYS shell (c:/MinGW/msys/1.0/msys.bat) go to the directory
   which contains the INSTALL file and do:
 
   $ autoreconf -i

src/runtime/c/install.sh

@@ -0,0 +1,3 @@
+bash setup.sh configure
+bash setup.sh build
+bash setup.sh install

src/runtime/haskell-bind/CHANGELOG.md

@@ -1,7 +1,11 @@
+## 1.3.0
+
+- Add completion support.
+
 ## 1.2.1
 
-- Remove deprecated pgf_print_expr_tuple
-- Added an API for cloning expressions/types/literals
+- Remove deprecated `pgf_print_expr_tuple`.
+- Added an API for cloning expressions/types/literals.
 
 ## 1.2.0
 

src/runtime/haskell-bind/PGF2.hsc

@@ -43,30 +43,28 @@ module PGF2 (-- * PGF
              mkCId,
              exprHash, exprSize, exprFunctions, exprSubstitute,
              treeProbability,
-
              -- ** Types
              Type, Hypo, BindType(..), startCat,
              readType, showType, showContext,
              mkType, unType,
-
              -- ** Type checking
+             -- | Dynamically-built expressions should always be type-checked before using in other functions,
+             -- as the exceptions thrown by using invalid expressions may not catchable.
              checkExpr, inferExpr, checkType,
-
              -- ** Computing
              compute,
 
              -- * Concrete syntax
              ConcName,Concr,languages,concreteName,languageCode,
-
              -- ** Linearization
              linearize,linearizeAll,tabularLinearize,tabularLinearizeAll,bracketedLinearize,bracketedLinearizeAll,
              FId, BracketedString(..), showBracketedString, flattenBracketedString,
              printName, categoryFields,
-
              alignWords,
              -- ** Parsing
              ParseOutput(..), parse, parseWithHeuristics,
              parseToChart, PArg(..),
+             complete,
              -- ** Sentence Lookup
              lookupSentence,
              -- ** Generation
@@ -180,7 +178,7 @@ languageCode c = unsafePerformIO (peekUtf8CString =<< pgf_language_code (concr c
 
 
 -- | Generates an exhaustive possibly infinite list of
--- all abstract syntax expressions of the given type. 
+-- all abstract syntax expressions of the given type.
 -- The expressions are ordered by their probability.
 generateAll :: PGF -> Type -> [(Expr,Float)]
 generateAll p (Type ctype _) =
@@ -469,21 +467,21 @@ newGraphvizOptions pool opts = do
 -- Functions using Concr
 -- Morpho analyses, parsing & linearization
 
--- | This triple is returned by all functions that deal with 
+-- | This triple is returned by all functions that deal with
 -- the grammar's lexicon. Its first element is the name of an abstract
--- lexical function which can produce a given word or 
+-- lexical function which can produce a given word or
 -- a multiword expression (i.e. this is the lemma).
--- After that follows a string which describes 
+-- After that follows a string which describes
 -- the particular inflection form.
 --
 -- The last element is a logarithm from the
--- the probability of the function. The probability is not 
+-- the probability of the function. The probability is not
 -- conditionalized on the category of the function. This makes it
 -- possible to compare the likelihood of two functions even if they
--- have different types. 
+-- have different types.
 type MorphoAnalysis = (Fun,String,Float)
 
--- | 'lookupMorpho' takes a string which must be a single word or 
+-- | 'lookupMorpho' takes a string which must be a single word or
 -- a multiword expression. It then computes the list of all possible
 -- morphological analyses.
 lookupMorpho :: Concr -> String -> [MorphoAnalysis]
@@ -541,12 +539,12 @@ lookupCohorts lang@(Concr concr master) sent =
                      return ((start,tok,ans,end):cohs)
 
 filterBest :: [(Int,String,[MorphoAnalysis],Int)] -> [(Int,String,[MorphoAnalysis],Int)]
-filterBest ans = 
+filterBest ans =
   reverse (iterate (maxBound :: Int) [(0,0,[],ans)] [] [])
   where
     iterate v0 []                      []  res = res
     iterate v0 []                      new res = iterate v0 new []  res
-    iterate v0 ((_,v,conf,    []):old) new res = 
+    iterate v0 ((_,v,conf,    []):old) new res =
       case compare v0 v of
         LT                                    -> res
         EQ                                    -> iterate v0 old new (merge conf res)
@@ -649,7 +647,7 @@ getAnalysis ref self c_lemma c_anal prob exn = do
 data ParseOutput a
   = ParseFailed Int String         -- ^ The integer is the position in number of unicode characters where the parser failed.
                                    -- The string is the token where the parser have failed.
-  | ParseOk a                      -- ^ If the parsing and the type checking are successful 
+  | ParseOk a                      -- ^ If the parsing and the type checking are successful
                                    -- we get the abstract syntax trees as either a list or a chart.
   | ParseIncomplete                -- ^ The sentence is not complete.
 
@@ -659,9 +657,9 @@ parse lang ty sent = parseWithHeuristics lang ty sent (-1.0) []
 parseWithHeuristics :: Concr      -- ^ the language with which we parse
                     -> Type       -- ^ the start category
                     -> String     -- ^ the input sentence
-                    -> Double     -- ^ the heuristic factor. 
-                                  -- A negative value tells the parser 
-                                  -- to lookup up the default from 
+                    -> Double     -- ^ the heuristic factor.
+                                  -- A negative value tells the parser
+                                  -- to lookup up the default from
                                   -- the grammar flags
                     -> [(Cat, String -> Int -> Maybe (Expr,Float,Int))]
                                   -- ^ a list of callbacks for literal categories.
@@ -715,9 +713,9 @@ parseWithHeuristics lang (Type ctype touchType) sent heuristic callbacks =
 parseToChart :: Concr      -- ^ the language with which we parse
              -> Type       -- ^ the start category
              -> String     -- ^ the input sentence
-             -> Double     -- ^ the heuristic factor. 
-                           -- A negative value tells the parser 
-                           -- to lookup up the default from 
+             -> Double     -- ^ the heuristic factor.
+                           -- A negative value tells the parser
+                           -- to lookup up the default from
                            -- the grammar flags
              -> [(Cat, String -> Int -> Maybe (Expr,Float,Int))]
                            -- ^ a list of callbacks for literal categories.
@@ -886,7 +884,7 @@ lookupSentence lang (Type ctype _) sent =
 
 -- | The oracle is a triple of functions.
 -- The first two take a category name and a linearization field name
--- and they should return True/False when the corresponding 
+-- and they should return True/False when the corresponding
 -- prediction or completion is appropriate. The third function
 -- is the oracle for literals.
 type Oracle = (Maybe (Cat -> String -> Int -> Bool)
@@ -974,6 +972,67 @@ parseWithOracle lang cat sent (predict,complete,literal) =
                          return ep
         Nothing    -> do return nullPtr
 
+-- | Returns possible completions of the current partial input.
+complete :: Concr      -- ^ the language with which we parse
+         -> Type       -- ^ the start category
+         -> String     -- ^ the input sentence (excluding token being completed)
+         -> String     -- ^ prefix (partial token being completed)
+         -> ParseOutput [(String, CId, CId, Float)]  -- ^ (token, category, function, probability)
+complete lang (Type ctype _) sent pfx =
+  unsafePerformIO $ do
+    parsePl <- gu_new_pool
+    exn     <- gu_new_exn parsePl
+    sent <- newUtf8CString sent parsePl
+    pfx  <- newUtf8CString pfx parsePl
+    enum <- pgf_complete (concr lang) ctype sent pfx exn parsePl
+    failed <- gu_exn_is_raised exn
+    if failed
+    then do
+      is_parse_error <- gu_exn_caught exn gu_exn_type_PgfParseError
+      if is_parse_error
+      then do
+        c_err <- (#peek GuExn, data.data) exn
+        c_offset <- (#peek PgfParseError, offset) c_err
+        token_ptr <- (#peek PgfParseError, token_ptr) c_err
+        token_len <- (#peek PgfParseError, token_len) c_err
+        tok <- peekUtf8CStringLen token_ptr token_len
+        gu_pool_free parsePl
+        return (ParseFailed (fromIntegral (c_offset :: CInt)) tok)
+      else do
+        is_exn <- gu_exn_caught exn gu_exn_type_PgfExn
+        if is_exn
+        then do
+          c_msg <- (#peek GuExn, data.data) exn
+          msg <- peekUtf8CString c_msg
+          gu_pool_free parsePl
+          throwIO (PGFError msg)
+        else do
+          gu_pool_free parsePl
+          throwIO (PGFError "Parsing failed")
+    else do
+      fpl <- newForeignPtr gu_pool_finalizer parsePl
+      ParseOk <$> fromCompletions enum fpl
+  where
+    fromCompletions :: Ptr GuEnum -> ForeignPtr GuPool -> IO [(String, CId, CId, Float)]
+    fromCompletions enum fpl =
+      withGuPool $ \tmpPl -> do
+        cmpEntry <- alloca $ \ptr ->
+                      withForeignPtr fpl $ \pl ->
+                        do gu_enum_next enum ptr pl
+                           peek ptr
+        if cmpEntry == nullPtr
+        then do
+          finalizeForeignPtr fpl
+          touchConcr lang
+          return []
+        else do
+          tok <- peekUtf8CString =<< (#peek PgfTokenProb, tok) cmpEntry
+          cat <- peekUtf8CString =<< (#peek PgfTokenProb, cat) cmpEntry
+          fun <- peekUtf8CString =<< (#peek PgfTokenProb, fun) cmpEntry
+          prob <- (#peek PgfTokenProb, prob) cmpEntry
+          toks <- unsafeInterleaveIO (fromCompletions enum fpl)
+          return ((tok, cat, fun, prob) : toks)
+
 -- | Returns True if there is a linearization defined for that function in that language
 hasLinearization :: Concr -> Fun -> Bool
 hasLinearization lang id = unsafePerformIO $
@@ -1047,7 +1106,7 @@ linearizeAll lang e = unsafePerformIO $
 
 -- | Generates a table of linearizations for an expression
 tabularLinearize :: Concr -> Expr -> [(String, String)]
-tabularLinearize lang e = 
+tabularLinearize lang e =
   case tabularLinearizeAll lang e of
     (lins:_) -> lins
     _        -> []
@@ -1138,7 +1197,7 @@ data BracketedString
                                                                                -- the phrase. The 'FId' is an unique identifier for
                                                                                -- every phrase in the sentence. For context-free grammars
                                                                                -- i.e. without discontinuous constituents this identifier
-                                                                               -- is also unique for every bracket. When there are discontinuous 
+                                                                               -- is also unique for every bracket. When there are discontinuous
                                                                                -- phrases then the identifiers are unique for every phrase but
                                                                                -- not for every bracket since the bracket represents a constituent.
                                                                                -- The different constituents could still be distinguished by using
@@ -1148,7 +1207,7 @@ data BracketedString
                                                                                -- The second 'CId' is the name of the abstract function that generated
                                                                                -- this phrase.
 
--- | Renders the bracketed string as a string where 
+-- | Renders the bracketed string as a string where
 -- the brackets are shown as @(S ...)@ where
 -- @S@ is the category.
 showBracketedString :: BracketedString -> String
@@ -1166,7 +1225,7 @@ flattenBracketedString (Bracket _ _ _ _ bss) = concatMap flattenBracketedString
 
 bracketedLinearize :: Concr -> Expr -> [BracketedString]
 bracketedLinearize lang e = unsafePerformIO $
-  withGuPool $ \pl -> 
+  withGuPool $ \pl ->
     do exn <- gu_new_exn pl
        cts <- pgf_lzr_concretize (concr lang) (expr e) exn pl
        failed <- gu_exn_is_raised exn
@@ -1192,7 +1251,7 @@ bracketedLinearize lang e = unsafePerformIO $
 
 bracketedLinearizeAll :: Concr -> Expr -> [[BracketedString]]
 bracketedLinearizeAll lang e = unsafePerformIO $
-  withGuPool $ \pl -> 
+  withGuPool $ \pl ->
     do exn <- gu_new_exn pl
        cts <- pgf_lzr_concretize (concr lang) (expr e) exn pl
        failed <- gu_exn_is_raised exn
@@ -1467,7 +1526,7 @@ type LiteralCallback =
 literalCallbacks :: [(AbsName,[(Cat,LiteralCallback)])]
 literalCallbacks = [("App",[("PN",nerc),("Symb",chunk)])]
 
--- | Named entity recognition for the App grammar 
+-- | Named entity recognition for the App grammar
 -- (based on ../java/org/grammaticalframework/pgf/NercLiteralCallback.java)
 nerc :: LiteralCallback
 nerc pgf (lang,concr) sentence lin_idx offset =

src/runtime/haskell-bind/PGF2/Expr.hsc

@@ -19,7 +19,7 @@ wildCId = "_" :: CId
 type Cat = CId -- ^ Name of syntactic category
 type Fun = CId -- ^ Name of function
 
-data BindType = 
+data BindType =
     Explicit
   | Implicit
   deriving Show
@@ -38,7 +38,7 @@ instance Show Expr where
   show = showExpr []
 
 instance Eq Expr where
-  (Expr e1 e1_touch) == (Expr e2 e2_touch) = 
+  (Expr e1 e1_touch) == (Expr e2 e2_touch) =
     unsafePerformIO $ do
       res <- pgf_expr_eq e1 e2
       e1_touch >> e2_touch
@@ -113,9 +113,9 @@ unApp (Expr expr touch) =
       appl <- pgf_expr_unapply expr pl
       if appl == nullPtr
         then return Nothing
-        else do 
+        else do
            fun <- peekCString =<< (#peek PgfApplication, fun) appl
-           arity <- (#peek PgfApplication, n_args) appl :: IO CInt 
+           arity <- (#peek PgfApplication, n_args) appl :: IO CInt
            c_args <- peekArray (fromIntegral arity) (appl `plusPtr` (#offset PgfApplication, args))
            return $ Just (fun, [Expr c_arg touch | c_arg <- c_args])
 
@@ -140,7 +140,9 @@ unStr (Expr expr touch) =
               touch
               return (Just s)
 
--- | Constructs an expression from an integer literal
+-- | Constructs an expression from an integer literal.
+-- Note that the C runtime does not support long integers, and you may run into overflow issues with large values.
+-- See [here](https://github.com/GrammaticalFramework/gf-core/issues/109) for more details.
 mkInt :: Int -> Expr
 mkInt val =
   unsafePerformIO $ do
@@ -267,7 +269,7 @@ foreign import ccall "wrapper"
 -- in the expression in order reverse to the order
 -- of binding.
 showExpr :: [CId] -> Expr -> String
-showExpr scope e = 
+showExpr scope e =
   unsafePerformIO $
     withGuPool $ \tmpPl ->
       do (sb,out) <- newOut tmpPl

src/runtime/haskell-bind/PGF2/FFI.hsc

@@ -103,7 +103,7 @@ foreign import ccall unsafe "gu/file.h gu_file_in"
 
 foreign import ccall safe  "gu/enum.h gu_enum_next"
   gu_enum_next :: Ptr a -> Ptr (Ptr b) -> Ptr GuPool -> IO ()
- 
+
 foreign import ccall unsafe "gu/string.h gu_string_buf_freeze"
   gu_string_buf_freeze :: Ptr GuStringBuf -> Ptr GuPool -> IO CString
 
@@ -241,7 +241,7 @@ newSequence elem_size pokeElem values pool = do
 type FId = Int
 data PArg = PArg [FId] {-# UNPACK #-} !FId deriving (Eq,Ord,Show)
 
-peekFId :: Ptr a -> IO FId 
+peekFId :: Ptr a -> IO FId
 peekFId c_ccat = do
   c_fid <- (#peek PgfCCat, fid) c_ccat
   return (fromIntegral (c_fid :: CInt))
@@ -256,6 +256,7 @@ data PgfApplication
 data PgfConcr
 type PgfExpr = Ptr ()
 data PgfExprProb
+data PgfTokenProb
 data PgfExprParser
 data PgfFullFormEntry
 data PgfMorphoCallback
@@ -422,6 +423,9 @@ foreign import ccall
 foreign import ccall "pgf/pgf.h pgf_parse_with_oracle"
   pgf_parse_with_oracle :: Ptr PgfConcr -> CString -> CString -> Ptr PgfOracleCallback -> Ptr GuExn -> Ptr GuPool -> Ptr GuPool -> IO (Ptr GuEnum)
 
+foreign import ccall "pgf/pgf.h pgf_complete"
+  pgf_complete :: Ptr PgfConcr -> PgfType -> CString -> CString -> Ptr GuExn -> Ptr GuPool -> IO (Ptr GuEnum)
+
 foreign import ccall "pgf/pgf.h pgf_lookup_morpho"
   pgf_lookup_morpho :: Ptr PgfConcr -> CString -> Ptr PgfMorphoCallback -> Ptr GuExn -> IO ()
 

src/runtime/haskell-bind/pgf2.cabal

@@ -1,19 +1,21 @@
 name: pgf2
-version: 1.2.1
+version: 1.3.0
+
+cabal-version: 1.22
+build-type: Simple
+license: LGPL-3
+license-file: LICENSE
+category: Natural Language Processing
 synopsis: Bindings to the C version of the PGF runtime
 description:
   GF, Grammatical Framework, is a programming language for multilingual grammar applications.
   GF grammars are compiled into Portable Grammar Format (PGF) which can be used with the PGF runtime, written in C.
   This package provides Haskell bindings to that runtime.
-homepage: https://www.grammaticalframework.org
-license: LGPL-3
-license-file: LICENSE
+homepage: https://www.grammaticalframework.org/
+bug-reports: https://github.com/GrammaticalFramework/gf-core/issues
 author: Krasimir Angelov
-maintainer: kr.angelov@gmail.com
-category: Language
-build-type: Simple
 extra-source-files: CHANGELOG.md, README.md
-cabal-version: >=1.10
+tested-with: GHC==7.10.3, GHC==8.0.2, GHC==8.10.4
 
 library
   exposed-modules:
@@ -24,9 +26,9 @@ library
     PGF2.Expr,
     PGF2.Type
   build-depends:
-    base >=4.3 && <5,
-    containers,
-    pretty
+    base >= 4.9.1 && < 4.15,
+    containers >= 0.5.7 && < 0.7,
+    pretty >= 1.1.3 && < 1.2
   default-language: Haskell2010
   build-tools: hsc2hs
   extra-libraries: pgf gu

src/runtime/haskell-bind/stack-ghc7.10.3.yaml

@@ -0,0 +1,3 @@
+resolver: lts-6.35 # ghc 7.10.3
+
+allow-newer: true

src/runtime/haskell-bind/stack-ghc8.0.2.yaml

@@ -0,0 +1 @@
+resolver: lts-9.21 # ghc 8.0.2

src/runtime/haskell-bind/stack-ghc8.10.4.yaml

@@ -0,0 +1 @@
+resolver: lts-18.0 # ghc 8.10.4

src/runtime/haskell/Data/Binary/Builder.hs

@@ -68,7 +68,7 @@ import qualified Data.ByteString.Lazy as L
 import Data.ByteString.Base (inlinePerformIO)
 import qualified Data.ByteString.Base as S
 #else
-import Data.ByteString.Internal (inlinePerformIO)
+import Data.ByteString.Internal (accursedUnutterablePerformIO)
 import qualified Data.ByteString.Internal as S
 --import qualified Data.ByteString.Lazy.Internal as L
 #endif
@@ -199,7 +199,7 @@ defaultSize = 32 * k - overhead
 
 -- | Sequence an IO operation on the buffer
 unsafeLiftIO :: (Buffer -> IO Buffer) -> Builder
-unsafeLiftIO f =  Builder $ \ k buf -> inlinePerformIO $ do
+unsafeLiftIO f =  Builder $ \ k buf -> accursedUnutterablePerformIO $ do
     buf' <- f buf
     return (k buf')
 {-# INLINE unsafeLiftIO #-}

src/runtime/haskell/Data/Binary/Get.hs

@@ -423,7 +423,7 @@ readN n f = fmap f $ getBytes n
 getPtr :: Storable a => Int -> Get a
 getPtr n = do
     (fp,o,_) <- readN n B.toForeignPtr
-    return . B.inlinePerformIO $ withForeignPtr fp $ \p -> peek (castPtr $ p `plusPtr` o)
+    return . B.accursedUnutterablePerformIO $ withForeignPtr fp $ \p -> peek (castPtr $ p `plusPtr` o)
 {- INLINE getPtr -}
 
 ------------------------------------------------------------------------

src/runtime/haskell/PGF/Binary.hs

@@ -28,7 +28,7 @@ instance Binary PGF where
            let v = (major,minor)
            if major==pgfMajorVersion && minor<=pgfMinorVersion
              then getPGF'
-             else if v==Old.version 
+             else if v==Old.version
                   then Old.getPGF'
                   else fail $ "Unsupported PGF version "++show (major,minor)
 
@@ -185,6 +185,7 @@ instance Binary Instr where
   put (PUSH_ACCUM (LFlt d)) = putWord8 78 >> put d
   put (POP_ACCUM          ) = putWord8 80
   put (ADD                ) = putWord8 84
+  get = fail "Missing implementation for ‘get’ in the instance declaration for ‘Binary Instr’"
 
 instance Binary Type where
   put (DTyp hypos cat exps) = put (hypos,cat,exps)

src/runtime/haskell/PGF/TypeCheck.hs

@@ -41,7 +41,7 @@ import Control.Applicative
 import Control.Monad
 --import Control.Monad.Identity
 import Control.Monad.State
-import Control.Monad.Error
+import Control.Monad.Except
 import Text.PrettyPrint
 
 -----------------------------------------------------

src/runtime/haskell/pgf.cabal

@@ -1,28 +1,32 @@
 name: pgf
-version: 3.10
+version: 3.11.0-git
 
-cabal-version: >= 1.20
+cabal-version: 1.22
 build-type: Simple
 license: OtherLicense
 category: Natural Language Processing
 synopsis: Grammatical Framework
 description: A library for interpreting the Portable Grammar Format (PGF)
-homepage: http://www.grammaticalframework.org/
+homepage: https://www.grammaticalframework.org/
 bug-reports: https://github.com/GrammaticalFramework/gf-core/issues
-maintainer: Thomas Hallgren
-tested-with: GHC==7.6.3, GHC==7.8.3, GHC==7.10.3, GHC==8.0.2
+tested-with: GHC==7.10.3, GHC==8.0.2, GHC==8.10.4
 
-Library
-  default-language:    Haskell2010
-  build-depends: base >= 4.6 && <5,
-                 array,
-                 containers,
-                 bytestring,
-                 utf8-string,
-                 random,
-                 pretty,
-                 mtl,
-                 exceptions
+library
+  default-language: Haskell2010
+  build-depends:
+    array >= 0.5.1 && < 0.6,
+    base >= 4.9.1 && < 4.15,
+    bytestring >= 0.10.8 && < 0.11,
+    containers >= 0.5.7 && < 0.7,
+    ghc-prim >= 0.5.0 && < 0.7,
+    mtl >= 2.2.1 && < 2.3,
+    pretty >= 1.1.3 && < 1.2,
+    random >= 1.1 && < 1.3,
+    utf8-string >= 1.0.1.1 && < 1.1
+
+  if impl(ghc<8.0)
+    build-depends:
+      fail >= 4.9.0 && < 4.10
 
   other-modules:
     -- not really part of GF but I have changed the original binary library
@@ -37,7 +41,6 @@ Library
 --if impl(ghc>=7.8)
 --  ghc-options: +RTS -A20M -RTS
   ghc-prof-options: -fprof-auto
-  extensions:
 
   exposed-modules:
     PGF

src/runtime/haskell/stack-ghc7.10.3.yaml

@@ -0,0 +1,3 @@
+resolver: lts-6.35 # ghc 7.10.3
+
+allow-newer: true

src/runtime/haskell/stack-ghc8.0.2.yaml

@@ -0,0 +1 @@
+resolver: lts-9.21 # ghc 8.0.2

src/runtime/haskell/stack-ghc8.10.4.yaml

@@ -0,0 +1 @@
+resolver: lts-18.0 # ghc 8.10.4

src/server/PGFService.hs

@@ -151,29 +151,37 @@ getFile get path =
 cpgfMain qsem command (t,(pgf,pc)) =
   case command of
     "c-parse"       -> withQSem qsem $
-                       out t=<< join (parse # input % start % limit % treeopts)
+                       out t=<< join (parse # input % cat % start % limit % treeopts)
     "c-parseToChart"-> withQSem qsem $
-                       out t=<< join (parseToChart # input % limit)
+                       out t=<< join (parseToChart # input % cat % limit)
     "c-linearize"   -> out t=<< lin # tree % to
     "c-bracketedLinearize"
                     -> out t=<< bracketedLin # tree % to
     "c-linearizeAll"-> out t=<< linAll # tree % to
     "c-translate"   -> withQSem qsem $
-                       out t=<<join(trans # input % to % start % limit%treeopts)
+                       out t=<<join(trans # input % cat % to % start % limit%treeopts)
     "c-lookupmorpho"-> out t=<< morpho # from1 % textInput
     "c-lookupcohorts"->out t=<< cohorts # from1 % getInput "filter" % textInput
     "c-flush"       -> out t=<< flush
     "c-grammar"     -> out t grammar
     "c-abstrtree"   -> outputGraphviz=<< C.graphvizAbstractTree pgf C.graphvizDefaults # tree
     "c-parsetree"   -> outputGraphviz=<< (\cnc -> C.graphvizParseTree cnc C.graphvizDefaults) . snd # from1 %tree
-    "c-wordforword" -> out t =<< wordforword # input % to
+    "c-wordforword" -> out t =<< wordforword # input % cat % to
     _               -> badRequest "Unknown command" command
   where
     flush = liftIO $ do --modifyMVar_ pc $ const $ return Map.empty
                         performGC
                         return $ showJSON ()
 
-    cat = C.startCat pgf
+    cat :: CGI C.Type
+    cat =
+       do mcat  <- getInput1 "cat"
+          case mcat of
+            Nothing -> return (C.startCat pgf)
+            Just cat -> case C.readType cat of
+                          Nothing  -> badRequest "Bad category" cat
+                          Just typ -> return typ
+
     langs = C.languages pgf
 
     grammar = showJSON $ makeObj
@@ -184,8 +192,8 @@ cpgfMain qsem command (t,(pgf,pc)) =
       where
         languages = [makeObj ["name".= l] | (l,_)<-Map.toList langs]
 
-    parse input@((from,_),_) start mlimit (trie,json) =
-        do r <- parse' start mlimit input
+    parse input@((from,_),_) cat start mlimit (trie,json) =
+        do r <- parse' cat start mlimit input
            return $ showJSON [makeObj ("from".=from:jsonParseResult json r)]
 
     jsonParseResult json = either bad good
@@ -195,7 +203,7 @@ cpgfMain qsem command (t,(pgf,pc)) =
         tp (tree,prob) = makeObj (addTree json tree++["prob".=prob])
 
     -- Without caching parse results:
-    parse' start mlimit ((from,concr),input) =
+    parse' cat start mlimit ((from,concr),input) =
         case C.parseWithHeuristics concr cat input (-1) callbacks of
           C.ParseOk ts        -> return (Right (maybe id take mlimit (drop start ts)))
           C.ParseFailed _ tok -> return (Left tok)
@@ -221,7 +229,7 @@ cpgfMain qsem command (t,(pgf,pc)) =
                              -- remove unused parse results after 2 minutes
 -}
 
-    parseToChart ((from,concr),input) mlimit =
+    parseToChart ((from,concr),input) cat mlimit =
       do r <- case C.parseToChart concr cat input (-1) callbacks (fromMaybe 5 mlimit) of
                 C.ParseOk chart     -> return (good chart)
                 C.ParseFailed _ tok -> return (bad tok)
@@ -262,8 +270,8 @@ cpgfMain qsem command (t,(pgf,pc)) =
     bracketedLin' tree (tos,unlex) =
         [makeObj ["to".=to,"brackets".=showJSON (C.bracketedLinearize c tree)]|(to,c)<-tos]
 
-    trans input@((from,_),_) to start mlimit (trie,jsontree) =
-      do parses <- parse' start mlimit input
+    trans input@((from,_),_) cat to start mlimit (trie,jsontree) =
+      do parses <- parse' cat start mlimit input
          return $
            showJSON [ makeObj ["from".=from,
                                "translations".= jsonParses parses]]
@@ -297,7 +305,7 @@ cpgfMain qsem command (t,(pgf,pc)) =
                                       _              -> id)
                                      (C.lookupCohorts concr input)]
 
-    wordforword input@((from,_),_) = jsonWFW from . wordforword' input
+    wordforword input@((from,_),_) cat = jsonWFW from . wordforword' input cat
 
     jsonWFW from rs =
       showJSON
@@ -307,7 +315,7 @@ cpgfMain qsem command (t,(pgf,pc)) =
                                         [makeObj["to".=to,"text".=text]
                                          | (to,text)<-rs]]]]]
 
-    wordforword' inp@((from,concr),input) (tos,unlex) =
+    wordforword' inp@((from,concr),input) cat (tos,unlex) =
         [(to,unlex . unwords $ map (lin_word' c) pws)
          |let pws=map parse_word' (words input),(to,c)<-tos]
       where
@@ -1024,6 +1032,7 @@ instance JSON PGF.Trie where
     showJSON (PGF.Ap f [[]]) = makeObj ["fun".=f] -- leaf
 --  showJSON (PGF.Ap f [es]) = makeObj ["fun".=f,"children".=es] -- one alternative
     showJSON (PGF.Ap f alts) = makeObj ["fun".=f,"alts".=alts]
+    readJSON = error "PGF.Trie.readJSON intentionally not defined"
 
 instance JSON PGF.CId where
     readJSON x = readJSON x >>= maybe (fail "Bad language.") return . PGF.readLanguage

src/server/URLEncoding.hs

@@ -6,9 +6,9 @@ import Data.Char (chr,digitToInt,isHexDigit)
 -- | Decode hexadecimal escapes
 urlDecodeUnicode :: String -> String
 urlDecodeUnicode [] = ""
-urlDecodeUnicode ('%':'u':x1:x2:x3:x4:s) 
+urlDecodeUnicode ('%':'u':x1:x2:x3:x4:s)
     | all isHexDigit [x1,x2,x3,x4] =
-    chr (    digitToInt x1 `shiftL` 12 
+    chr (    digitToInt x1 `shiftL` 12
          .|. digitToInt x2 `shiftL` 8
          .|. digitToInt x3 `shiftL` 4
          .|. digitToInt x4) : urlDecodeUnicode s
@@ -45,8 +45,8 @@ fromhex2 d1 d2 = 16*digitToInt d1+digitToInt d2
 -- Repeatedly extract (and transform) values until a predicate hold.  Return the list of values.
 unfoldr :: (a -> (b, a)) -> (a -> Bool) -> a -> [b]
 unfoldr f p x | p x       = []
-	      | otherwise = y:unfoldr f p x'
-			      where (y, x') = f x
+              | otherwise = y:unfoldr f p x'
+                              where (y, x') = f x
 
 chopList :: ([a] -> (b, [a])) -> [a] -> [b]
 chopList f l = unfoldr f null l
@@ -54,8 +54,8 @@ chopList f l = unfoldr f null l
 breakAt :: (Eq a) => a -> [a] -> ([a], [a])
 breakAt _ [] = ([], [])
 breakAt x (x':xs) =
-	if x == x' then
-	    ([], xs)
-	else
-	    let (ys, zs) = breakAt x xs
-	    in  (x':ys, zs)
+    if x == x' then
+        ([], xs)
+    else
+        let (ys, zs) = breakAt x xs
+        in  (x':ys, zs)

src/server/transfer/Fold.hs

@@ -13,14 +13,14 @@ fold t =
   case unApp t of
     Just (i,[x])  ->
         case M.lookup i foldable of
-	        Just j -> appFold j x
-	        _      -> mkApp i [fold x]
+          Just j -> appFold j x
+          _      -> mkApp i [fold x]
     Just (i,xs)   -> mkApp i $ map fold xs
     _             -> t
 
 appFold :: CId -> Tree -> Tree
-appFold j t = 
+appFold j t =
   case unApp t of
     Just (i,[t,ts]) | isPre i "Cons"  -> mkApp j [fold t, appFold j ts]
     Just (i,[t,s])  | isPre i "Base"  -> mkApp j [fold t, fold s]
-  where isPre i s = take 4 (show i) == s
+  where isPre i s = take 4 (show i) == s

stack-ghc7.10.3.yaml

@@ -4,9 +4,16 @@ extra-deps:
 - happy-1.19.9
 - alex-3.2.4
 - transformers-compat-0.6.5
+- directory-1.2.3.0
+- process-1.2.3.0@sha256:ee08707f1c806ad4a628c5997d8eb6e66d2ae924283548277d85a66341d57322,1806
 
 allow-newer: true
 
 flags:
   transformers-compat:
-    four: true
+    four: true
+#   gf:
+#     c-runtime: true
+#
+# extra-lib-dirs:
+#   - /usr/local/lib

stack-ghc8.0.2.yaml

@@ -1 +1,7 @@
 resolver: lts-9.21 # ghc 8.0.2
+
+# flags:
+#   gf:
+#     c-runtime: true
+# extra-lib-dirs:
+#   - /usr/local/lib

stack-ghc8.10.4.yaml

@@ -0,0 +1,14 @@
+resolver: lts-18.0 # ghc 8.10.4
+
+extra-deps:
+- network-2.6.3.6
+- httpd-shed-0.4.0.3
+- cgi-3001.5.0.0@sha256:3d1193a328d5f627a021a0ef3927c1ae41dd341e32dba612fed52d0e3a6df056,2990
+- json-0.10@sha256:d9fc6b07ce92b8894825a17d2cf14799856767eb30c8bf55962baa579207d799,3210
+- multipart-0.2.0@sha256:b8770e3ff6089be4dd089a8250894b31287cca671f3d258190a505f9351fa8a9,1084
+
+# flags:
+#   gf:
+#     c-runtime: true
+# extra-lib-dirs:
+#   - /usr/local/lib

stack-ghc8.2.2.yaml

@@ -4,3 +4,9 @@ extra-deps:
 - cgi-3001.3.0.3
 - httpd-shed-0.4.0.3
 - exceptions-0.10.2
+
+# flags:
+#   gf:
+#     c-runtime: true
+# extra-lib-dirs:
+#   - /usr/local/lib

stack-ghc8.4.4.yaml

@@ -2,3 +2,9 @@ resolver: lts-12.26 # ghc 8.4.4
 
 extra-deps:
 - cgi-3001.3.0.3
+
+# flags:
+#   gf:
+#     c-runtime: true
+# extra-lib-dirs:
+#   - /usr/local/lib

stack-ghc8.6.5.yaml

@@ -4,3 +4,9 @@ extra-deps:
 - network-2.6.3.6
 - httpd-shed-0.4.0.3
 - cgi-3001.5.0.0
+
+# flags:
+#   gf:
+#     c-runtime: true
+# extra-lib-dirs:
+#   - /usr/local/lib

stack-ghc8.8.4.yaml

@@ -7,3 +7,8 @@ extra-deps:
 - json-0.10@sha256:d9fc6b07ce92b8894825a17d2cf14799856767eb30c8bf55962baa579207d799,3210
 - multipart-0.2.0@sha256:b8770e3ff6089be4dd089a8250894b31287cca671f3d258190a505f9351fa8a9,1084
 
+# flags:
+#   gf:
+#     c-runtime: true
+# extra-lib-dirs:
+#   - /usr/local/lib

stack.yaml

@@ -1,9 +1,18 @@
-# This default stack file is a copy of stack-ghc8.6.5.yaml
-# But committing a symlink is probably a bad idea, so it's a real copy
+# This default stack file is a copy of stack-ghc8.10.4.yaml
+# But committing a symlink can be problematic on Windows, so it's a real copy.
+# See: https://github.com/GrammaticalFramework/gf-core/pull/106
 
-resolver: lts-14.27 # ghc 8.6.5
+resolver: lts-18.0 # ghc 8.10.4
 
 extra-deps:
 - network-2.6.3.6
 - httpd-shed-0.4.0.3
-- cgi-3001.5.0.0
+- cgi-3001.5.0.0@sha256:3d1193a328d5f627a021a0ef3927c1ae41dd341e32dba612fed52d0e3a6df056,2990
+- json-0.10@sha256:d9fc6b07ce92b8894825a17d2cf14799856767eb30c8bf55962baa579207d799,3210
+- multipart-0.2.0@sha256:b8770e3ff6089be4dd089a8250894b31287cca671f3d258190a505f9351fa8a9,1084
+
+# flags:
+#   gf:
+#     c-runtime: true
+# extra-lib-dirs:
+#   - /usr/local/lib

testsuite/canonical/.gitignore

@@ -0,0 +1 @@
+canonical/

testsuite/canonical/gold/FoodsFin.gf

@@ -0,0 +1,102 @@
+concrete FoodsFin of Foods = {
+param ParamX_Number = ParamX_Sg | ParamX_Pl;
+param Prelude_Bool = Prelude_False | Prelude_True;
+param ResFin_Agr = ResFin_Ag ParamX_Number ParamX_Person | ResFin_AgPol;
+param ParamX_Person = ParamX_P1 | ParamX_P2 | ParamX_P3;
+param ResFin_Harmony = ResFin_Back | ResFin_Front;
+param ResFin_NForm =
+    ResFin_NCase ParamX_Number ResFin_Case | ResFin_NComit | ResFin_NInstruct |
+    ResFin_NPossNom ParamX_Number | ResFin_NPossGen ParamX_Number |
+    ResFin_NPossTransl ParamX_Number | ResFin_NPossIllat ParamX_Number |
+    ResFin_NCompound;
+param ResFin_Case =
+    ResFin_Nom | ResFin_Gen | ResFin_Part | ResFin_Transl | ResFin_Ess |
+    ResFin_Iness | ResFin_Elat | ResFin_Illat | ResFin_Adess | ResFin_Ablat |
+    ResFin_Allat | ResFin_Abess;
+param ResFin_NPForm = ResFin_NPCase ResFin_Case | ResFin_NPAcc | ResFin_NPSep;
+lincat Comment = {s : Str};
+       Item =
+           {s : ResFin_NPForm => Str; a : ResFin_Agr; isNeg : Prelude_Bool;
+            isPron : Prelude_Bool};
+       Kind =
+           {s : ResFin_NForm => Str; h : ResFin_Harmony;
+            postmod : ParamX_Number => Str};
+       Quality =
+           {s : Prelude_Bool => ResFin_NForm => Str; hasPrefix : Prelude_Bool;
+            p : Str};
+lin Expensive =
+        {s =
+           table {Prelude_False =>
+                    table {ResFin_NCase ParamX_Sg ResFin_Nom => "kallis";
+                           ResFin_NCase ParamX_Sg ResFin_Gen => "kalliin";
+                           ResFin_NCase ParamX_Sg ResFin_Part => "kallista";
+                           ResFin_NCase ParamX_Sg ResFin_Transl => "kalliiksi";
+                           ResFin_NCase ParamX_Sg ResFin_Ess => "kalliina";
+                           ResFin_NCase ParamX_Sg ResFin_Iness => "kalliissa";
+                           ResFin_NCase ParamX_Sg ResFin_Elat => "kalliista";
+                           ResFin_NCase ParamX_Sg ResFin_Illat => "kalliiseen";
+                           ResFin_NCase ParamX_Sg ResFin_Adess => "kalliilla";
+                           ResFin_NCase ParamX_Sg ResFin_Ablat => "kalliilta";
+                           ResFin_NCase ParamX_Sg ResFin_Allat => "kalliille";
+                           ResFin_NCase ParamX_Sg ResFin_Abess => "kalliitta";
+                           ResFin_NCase ParamX_Pl ResFin_Nom => "kalliit";
+                           ResFin_NCase ParamX_Pl ResFin_Gen => "kalliiden";
+                           ResFin_NCase ParamX_Pl ResFin_Part => "kalliita";
+                           ResFin_NCase ParamX_Pl ResFin_Transl => "kalliiksi";
+                           ResFin_NCase ParamX_Pl ResFin_Ess => "kalliina";
+                           ResFin_NCase ParamX_Pl ResFin_Iness => "kalliissa";
+                           ResFin_NCase ParamX_Pl ResFin_Elat => "kalliista";
+                           ResFin_NCase ParamX_Pl ResFin_Illat => "kalliisiin";
+                           ResFin_NCase ParamX_Pl ResFin_Adess => "kalliilla";
+                           ResFin_NCase ParamX_Pl ResFin_Ablat => "kalliilta";
+                           ResFin_NCase ParamX_Pl ResFin_Allat => "kalliille";
+                           ResFin_NCase ParamX_Pl ResFin_Abess => "kalliitta";
+                           ResFin_NComit => "kalliine";
+                           ResFin_NInstruct => "kalliin";
+                           ResFin_NPossNom ParamX_Sg => "kallii";
+                           ResFin_NPossNom ParamX_Pl => "kallii";
+                           ResFin_NPossGen ParamX_Sg => "kallii";
+                           ResFin_NPossGen ParamX_Pl => "kalliide";
+                           ResFin_NPossTransl ParamX_Sg => "kalliikse";
+                           ResFin_NPossTransl ParamX_Pl => "kalliikse";
+                           ResFin_NPossIllat ParamX_Sg => "kalliisee";
+                           ResFin_NPossIllat ParamX_Pl => "kalliisii";
+                           ResFin_NCompound => "kallis"};
+                  Prelude_True =>
+                    table {ResFin_NCase ParamX_Sg ResFin_Nom => "kallis";
+                           ResFin_NCase ParamX_Sg ResFin_Gen => "kalliin";
+                           ResFin_NCase ParamX_Sg ResFin_Part => "kallista";
+                           ResFin_NCase ParamX_Sg ResFin_Transl => "kalliiksi";
+                           ResFin_NCase ParamX_Sg ResFin_Ess => "kalliina";
+                           ResFin_NCase ParamX_Sg ResFin_Iness => "kalliissa";
+                           ResFin_NCase ParamX_Sg ResFin_Elat => "kalliista";
+                           ResFin_NCase ParamX_Sg ResFin_Illat => "kalliiseen";
+                           ResFin_NCase ParamX_Sg ResFin_Adess => "kalliilla";
+                           ResFin_NCase ParamX_Sg ResFin_Ablat => "kalliilta";
+                           ResFin_NCase ParamX_Sg ResFin_Allat => "kalliille";
+                           ResFin_NCase ParamX_Sg ResFin_Abess => "kalliitta";
+                           ResFin_NCase ParamX_Pl ResFin_Nom => "kalliit";
+                           ResFin_NCase ParamX_Pl ResFin_Gen => "kalliiden";
+                           ResFin_NCase ParamX_Pl ResFin_Part => "kalliita";
+                           ResFin_NCase ParamX_Pl ResFin_Transl => "kalliiksi";
+                           ResFin_NCase ParamX_Pl ResFin_Ess => "kalliina";
+                           ResFin_NCase ParamX_Pl ResFin_Iness => "kalliissa";
+                           ResFin_NCase ParamX_Pl ResFin_Elat => "kalliista";
+                           ResFin_NCase ParamX_Pl ResFin_Illat => "kalliisiin";
+                           ResFin_NCase ParamX_Pl ResFin_Adess => "kalliilla";
+                           ResFin_NCase ParamX_Pl ResFin_Ablat => "kalliilta";
+                           ResFin_NCase ParamX_Pl ResFin_Allat => "kalliille";
+                           ResFin_NCase ParamX_Pl ResFin_Abess => "kalliitta";
+                           ResFin_NComit => "kalliine";
+                           ResFin_NInstruct => "kalliin";
+                           ResFin_NPossNom ParamX_Sg => "kallii";
+                           ResFin_NPossNom ParamX_Pl => "kallii";
+                           ResFin_NPossGen ParamX_Sg => "kallii";
+                           ResFin_NPossGen ParamX_Pl => "kalliide";
+                           ResFin_NPossTransl ParamX_Sg => "kalliikse";
+                           ResFin_NPossTransl ParamX_Pl => "kalliikse";
+                           ResFin_NPossIllat ParamX_Sg => "kalliisee";
+                           ResFin_NPossIllat ParamX_Pl => "kalliisii";
+                           ResFin_NCompound => "kallis"}};
+         hasPrefix = Prelude_False; p = ""};
+}