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msyds:master msyds:majestic msyds:try-to-build-python-module-for-win msyds:gf-lsp-expose-all msyds:build-python-win msyds:tp_nix_flake msyds:build-timestamp msyds:wasm msyds:majestic-macos msyds:majestic-ci msyds:lpgf msyds:c-runtime msyds:concrete-new msyds:canonical msyds:pgf2-complete msyds:lpgf-memo msyds:lpgf-string msyds:compact-pgf msyds:js-bindings msyds:sense-disambiguation msyds:remove-example-based GitHub:master GitHub:majestic GitHub:try-to-build-python-module-for-win GitHub:gf-lsp-expose-all GitHub:build-python-win GitHub:tp_nix_flake GitHub:build-timestamp GitHub:wasm GitHub:majestic-macos GitHub:majestic-ci GitHub:lpgf GitHub:c-runtime GitHub:concrete-new GitHub:canonical GitHub:pgf2-complete GitHub:lpgf-memo GitHub:lpgf-string GitHub:compact-pgf GitHub:js-bindings GitHub:sense-disambiguation GitHub:remove-example-based
msyds:release-3.12 msyds:release3.12-rc-3 msyds:release3.12-rc-2 msyds:release3.12-rc-1 msyds:3.11 msyds:v3.11-test-release-9 msyds:v3.11-test-release-8 msyds:GF-3.10 msyds:RELEASE-3.9 msyds:RELEASE-3.8 msyds:introduced-parser-test GitHub:release-3.12 GitHub:release3.12-rc-3 GitHub:release3.12-rc-2 GitHub:release3.12-rc-1 GitHub:3.11 GitHub:v3.11-test-release-9 GitHub:v3.11-test-release-8 GitHub:GF-3.10 GitHub:RELEASE-3.9 GitHub:RELEASE-3.8 GitHub:introduced-parser-test
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GitHub:master GitHub:majestic GitHub:try-to-build-python-module-for-win GitHub:gf-lsp-expose-all GitHub:build-python-win GitHub:tp_nix_flake GitHub:build-timestamp GitHub:wasm GitHub:majestic-macos GitHub:majestic-ci GitHub:lpgf GitHub:c-runtime GitHub:concrete-new GitHub:canonical GitHub:pgf2-complete GitHub:lpgf-memo GitHub:lpgf-string GitHub:compact-pgf GitHub:js-bindings GitHub:sense-disambiguation GitHub:remove-example-based msyds:master msyds:majestic msyds:try-to-build-python-module-for-win msyds:gf-lsp-expose-all msyds:build-python-win msyds:tp_nix_flake msyds:build-timestamp msyds:wasm msyds:majestic-macos msyds:majestic-ci msyds:lpgf msyds:c-runtime msyds:concrete-new msyds:canonical msyds:pgf2-complete msyds:lpgf-memo msyds:lpgf-string msyds:compact-pgf msyds:js-bindings msyds:sense-disambiguation msyds:remove-example-based
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243 Commits
canonical ... release3.1

Author SHA1 Message Date
Arianna Masciolini
242cdcfa22 Update installation instructions (#195) 
* update install instructions some dates

* change when to install c runtime manually
 2025-08-08 19:44:48 +02:00
Arianna Masciolini
052916b454 try server mode on windows (#194) 2025-08-08 19:33:02 +02:00
Inari Listenmaa
d07646e753 Merge pull request #192 from GrammaticalFramework/build-timestamp 
Add build timestamps to GF prompt
 2025-08-08 19:32:52 +02:00
Inari Listenmaa
3b69a28dbd Delete src/runtime/python/pgf.egg-info directory 
remove files that were committed by accident
 2025-08-08 19:29:44 +02:00
Inari Listenmaa
aa004246d2 Merge pull request #190 from GrammaticalFramework/pgf-1.1 
Publish PGF 1.1
 2025-08-08 19:14:01 +02:00
Inari Listenmaa
7c6f53d003 add macos-13 to build for intel mac 2025-08-08 19:04:18 +02:00
Arianna Masciolini
a6d5d9a50c Merge pull request #193 from GrammaticalFramework/release3.12 
Update version numbers, changelog etc. for 3.12 release
 2025-08-08 18:34:26 +02:00
Arianna Masciolini
7792c3cc90 update debian changelog 2025-08-08 18:31:45 +02:00
Arianna Masciolini
a7d73a6861 link to changelog from CHANGELOG.md 2025-08-08 18:31:33 +02:00
Arianna Masciolini
646cfbea0c update cabal version number for 3.12 release 2025-08-08 18:31:17 +02:00
Arianna Masciolini
7ddb61eb48 update 3.12 release date in web news 2025-08-08 18:30:57 +02:00
Arianna Masciolini
dcae5f929e fix typo 2025-08-08 18:20:47 +02:00
Arianna Masciolini
638ed39fa4 readd changelog item on Java 2025-08-08 18:20:10 +02:00
Arianna Masciolini
726fb3467c Merge pull request #191 from GrammaticalFramework/minor-updates-binary-packages 
Update release scripts for 3.12
 2025-08-08 18:17:45 +02:00
Andreas Källberg
b02bb08532 Fix warnings for ghc-9.6 about multiplicity syntax 2025-08-08 18:12:39 +02:00
Inari Listenmaa
c7e26d7cd2 also add the 9.6 compatibility fixes to PGF2 2025-08-08 18:12:26 +02:00
Inari Listenmaa
4fea7cf37f Update release scripts for 3.12 2025-08-08 18:11:52 +02:00
Herbert Lange
9e5701b13c hide ambiguous function 2025-08-08 18:06:03 +02:00
Herbert Lange
78beac7598 change date/time formating 2025-08-08 18:02:59 +02:00
Herbert Lange
f96830f7de change template haskell required version 2025-08-08 17:50:33 +02:00
Herbert Lange
1c4cde7c66 updating formating for git info 2025-08-08 17:43:56 +02:00
Herbert Lange
e0ad7594dd add build time and git info to BuildInfo 2025-08-08 17:36:03 +02:00
Inari Listenmaa
a218903a2d use setuptools (so it works for 3.12+) + bump version to 1.1 2025-08-03 17:26:26 +02:00
Inari Listenmaa
f1c1d157b6 minor fixes in uploading to PyPI 2025-08-03 17:25:52 +02:00
Arianna Masciolini
e7c0b6dada add to what's new 2025-08-02 23:04:49 +02:00
Arianna Masciolini
8f4e8c73d2 Merge branch 'master' of https://github.com/GrammaticalFramework/gf-core into release-3.12 2025-08-02 23:01:53 +02:00
Arianna Masciolini
d983255326 Merge branch 'master' of https://github.com/GrammaticalFramework/gf-core 2025-08-02 23:01:29 +02:00
Arianna Masciolini
288984d243 fix compatibility with newer gcc versions 2025-08-02 23:01:20 +02:00
Inari Listenmaa
c23a03a2d1 Merge pull request #184 from inariksit/update-depth-documentation 
Update default depth to 5 + less hardcoding in documentation
 2025-08-02 22:05:29 +02:00
Inari Listenmaa
183e421a0f update default depth in tutorial and help text 2025-08-02 22:04:32 +02:00
Inari Listenmaa
3e0c0fa463 define default depths for shell and server only once 2025-08-02 21:46:13 +02:00
Arianna Masciolini
c2431e06b2 slightly less optimistic release date 2025-08-02 21:32:51 +02:00
Arianna Masciolini
eeab15bee1 redirect to 3.12 download page 2025-08-02 21:26:19 +02:00
Arianna Masciolini
b36b95c4d6 add news item about 3.12 release 2025-08-02 21:25:15 +02:00
Arianna Masciolini
2627e73b63 draft changelog for 3.12 2025-08-02 21:23:42 +02:00
Arianna Masciolini
e2ff43da0b init download page for 3.12 with 3.11 instructions with minor changes 2025-08-02 21:23:26 +02:00
Inari Listenmaa
af09351b66 Merge pull request #183 from inariksit/ghc-9.6.7 
replace 9.6.6 with 9.6.7
 2025-08-02 20:43:59 +02:00
Inari Listenmaa
8c89ba4e76 convert editor-modes into markdown 2025-08-02 20:36:03 +02:00
Inari Listenmaa
218c61b004 make 9.6.7 into default stack.yaml 2025-08-02 20:35:39 +02:00
Inari Listenmaa
52df0ed4fe replace 9.6.6 with 9.6.7 2025-08-02 20:35:22 +02:00
Arianna Masciolini
2324fe795c Merge pull request #181 from GrammaticalFramework/pr-174bis (also close #174) 
PR #174bis
 2025-08-02 20:26:36 +02:00
Arianna Masciolini
703b1e5d92 add eval.gfs to expected failures 2025-08-02 20:18:28 +02:00
Inari Listenmaa
f1a72a066f Merge pull request #182 from inariksit/fix-encoding 
use UTF8 for several GF files
 2025-08-02 19:26:06 +02:00
Inari Listenmaa
6f9f9642d7 use UTF8 for several GF files 2025-08-02 19:14:15 +02:00
Arianna Masciolini
f5752b345a fail slow 2025-08-02 19:14:09 +02:00
Arianna Masciolini
5170668ff2 Merge branch 'master' of https://github.com/GrammaticalFramework/gf-core into hleiss/master 2025-08-02 19:02:30 +02:00
Inari Listenmaa
65e85c5a3c Merge pull request #175 from inariksit/new-ghc 
Changes to make it work with newer stack/GHC:

- unix library changed API in 2.8
- Monad of no return & Semigroup as a superclass of Monoid
- import Control.Monad (join, when, (<=<))
- fixed CI issues
 2025-08-02 18:59:07 +02:00
Inari Listenmaa
01c4f82e07 misc small fixes: 
- update actions/cache to v4

- update haskell/actions/setup to haskell-actions/setup

- stack doesn't support ghc < 8.4, remove from CI

- don't fail immediately

- add -fpermissive flag to gcc

- only build 9.6.6 with macos and windows latest

- bump base upper bound
 2025-08-02 18:46:00 +02:00
Inari Listenmaa
e81d668605 higher upper bound for base,mtl,ghc-prim,json,time 2025-08-02 16:39:31 +02:00
Inari Listenmaa
155b9da861 choose openFd based on version of unix 2025-08-02 16:39:31 +02:00
Inari Listenmaa
ab0f09e9f7 build-depends for unix depending on ghc version 2025-08-02 16:39:31 +02:00
Inari Listenmaa
9fa8ac934a add stack file for GHC 9.6.6 2025-08-02 16:39:31 +02:00
Inari Listenmaa
e84826ed2a explicitly import join, when, (<=<) from Control.Monad 2025-08-02 16:39:31 +02:00
Inari Listenmaa
bbf12458c7 use openFd from unix >= 2.8 2025-08-02 16:39:31 +02:00
Inari Listenmaa
b914a25de3 define return in terms of pure, >> as *>, mappend as <> 
In preparation for deprecation, see https://gitlab.haskell.org/ghc/ghc/-/wikis/proposal/semigroup-monoid and https://gitlab.haskell.org/ghc/ghc/-/wikis/proposal/monad-of-no-return
 2025-08-02 16:39:31 +02:00
Inari Listenmaa
1037b209ae add whitespace on list comprehensions, applications etc. 
text editor interprets these things as errors (e.g. unterminated qq for list comprehension) and underlines red, even though there is no real error.
 2025-08-02 16:39:31 +02:00
Inari Listenmaa
981d6b9bdd Specify that extending a grammar doesn't inherit the startcat 2025-02-20 20:52:21 +01:00
Hans Leiss
5776b567a2 Reactivate the gf-shell command 'pt -transfer' 2025-02-19 12:59:43 +01:00
Hans Leiss
643617ccc4 Bug fix for gf-shell command 'pt -compute' in Expr.hs by 
tryMatch p (VConst _ _) env = match sig f eqs as0
 2025-02-18 12:41:14 +01:00
Inari Listenmaa
41f45e572b Instruction to downgrade LLVM for macOS Sequoia 2025-01-18 07:27:46 +01:00
Inari Listenmaa
c7226cc11c add GFSS2025 + remove IRC channel 2025-01-18 07:13:24 +01:00
aarneranta
bc56b54dd1 random generation of literals now has ten different values for each built in type; maybe a better solution for most cases than just one value 2025-01-07 11:20:23 +01:00
Krasimir Angelov
aa061aff0c Update robots.txt 2024-11-26 12:15:41 +01:00
Inari Listenmaa
934afc9655 Merge pull request #169 from GrammaticalFramework/dependabot/github_actions/dot-github/workflows/actions/download-artifact-4.1.7 
Bump actions/download-artifact from 2 to 4.1.7 in /.github/workflows
 2024-11-01 10:29:45 +01:00
Andreas Källberg
33b0bab610 Use different artifact names as is required by upload-artifact@v4 2024-10-23 16:22:59 +02:00
Andreas Källberg
9492967fc6 add sudo to make install to fix CI failure 2024-10-23 16:08:09 +02:00
Andreas Källberg
5eab0a626d add glibtoolize dependency for mac CI 2024-10-23 15:47:14 +02:00
Andreas Källberg
fc614cd48e Bump more action versions 2024-10-23 15:40:29 +02:00
Andreas Källberg
eaec428a89 fix typo 2024-10-23 15:35:39 +02:00
Andreas Källberg
ed0a8ca0df Update setup-python github action 
Let's see if this fixes CI
 2024-10-23 15:34:01 +02:00
dependabot[bot]
c65dc70aaf Bump actions/download-artifact from 2 to 4.1.7 in /.github/workflows 
Bumps [actions/download-artifact](https://github.com/actions/download-artifact) from 2 to 4.1.7.
- [Release notes](https://github.com/actions/download-artifact/releases)
- [Commits](https://github.com/actions/download-artifact/compare/v2...v4.1.7)

---
updated-dependencies:
- dependency-name: actions/download-artifact
  dependency-type: direct:production
...

Signed-off-by: dependabot[bot] <support@github.com>
 2024-09-03 21:17:51 +00:00
Inari Listenmaa
2a654c085f be consistent in the use of quotes 2024-04-29 20:44:53 +08:00
Inari Listenmaa
b855a094f8 Clarify description for vt 2024-04-29 20:42:51 +08:00
Inari Listenmaa
2f31bbab23 Apply gt to all arguments when piped 2024-03-15 12:43:17 +01:00
aarneranta
7e707508a7 showExpr and linearize now refresh the printed variables if needed 2024-03-01 09:17:08 +01:00
Aarne Ranta
c2182274df visualize_dependencies (vd) now creates latex in landscape mode to show long trees better 2023-12-14 11:56:11 +01:00
Inari Listenmaa
e11017abc0 Merge pull request #166 from GrammaticalFramework/fix-python-ci 
Fix CI for "Build & Publish Python Package": use python 3.10 instead of latest
 2023-11-17 14:36:06 +01:00
Inari Listenmaa
b59fe24c11 use older python version to keep distutils 2023-11-17 14:11:59 +01:00
Inari Listenmaa
9204884463 Merge pull request #164 from BeFunctional/tp_pgf_support_ghc_94 
Support GHC 9.4 for the PGF library
 2023-11-17 14:02:06 +01:00
o1lo01ol1o
2c98075a0b support ghc9.4 2023-11-15 12:04:41 -06:00
Inari Listenmaa
7d9015e2e1 Merge pull request #161 from anka-213/indent-errors 
Indent each line of error messages
 2023-09-25 17:29:50 +02:00
Andreas Källberg
cf1ef40789 gh-actions: Bump the python version 
cibuildwheel requires python >= 3.8
 2023-09-25 12:55:15 +02:00
Andreas Källberg
37f06a4ae8 gh-actions: Don't use ubuntu-18 and macos-10.15 
There are no longer any gihub actions runners available for these

Note that this means we can't build for ubuntu-18 anymore, but that
should hopefully no longer be relevant, since it's over 5 years old now.
 2023-09-25 12:48:56 +02:00
Andreas Källberg
30c1376232 Don't build twice for tests in CI 2023-09-25 12:43:19 +02:00
Andreas Källberg
ea3cef46b0 Update test to match new error 2023-09-25 12:01:56 +02:00
Andreas Källberg
268a25f59c Indent each line of an error message 
By indenting each line instead of just the first, we simplify
the work of the gf-lsp parser, so we can see which errors are the same
 2023-09-25 09:55:02 +02:00
Inari Listenmaa
318b710a14 Merge pull request #160 from anka-213/prettier-syntax-errors 
Improve syntax error messages
 2023-09-13 08:24:07 +02:00
Andreas Källberg
b90666455e Fix typo 2023-09-11 13:17:19 +02:00
Andreas Källberg
88db715c3d Fix ghc-7.10.3 build in gh-actions 
ghc-7.10.3 is not supported in the latest builder, so we
need an older version of ubuntu for it to work
 2023-09-11 13:03:05 +02:00
Andreas Källberg
003ab57576 Bump version of haskell github action 
The old one was failing
 2023-09-11 18:43:14 +08:00
Andreas Källberg
ffd7b27abd Improve syntax error messages 
Now you will get error messages like these:
example.gf:1:21:
   Syntax error:
     Unexpected token '}'.
     Expected one of:
     - '{'
     - 'open'
     - an identifier
 2023-09-11 12:30:28 +02:00
Krasimir Angelov
096b36c21d Update jit.c 2023-09-07 17:37:25 +02:00
Krasimir Angelov
86af7b12b3 the jitter should still read the absfuns even for EMSCRIPTEN and aarch64 2023-08-11 10:47:29 +02:00
Krasimir Angelov
e2c2763d59 One more place with __aarch64__ 2023-08-09 10:59:53 +02:00
Krasimir Angelov
fae2fc4c6c Try with __aarch64__ 2023-08-09 10:58:50 +02:00
Krasimir Angelov
5131fadd1f lightning.h not included on aarch64 2023-08-08 16:18:49 +02:00
Krasimir Angelov
0e1cbfaa7e Disable the jit on aarch64 2023-08-04 15:01:31 +02:00
Krasimir Angelov
95e5976b03 Create funcs.h 2023-08-04 14:49:55 +02:00
Krasimir Angelov
9dee033e2c Create Create aarch64/fp.h 2023-08-04 14:49:22 +02:00
Krasimir Angelov
83a4a0525e Create aarch64/core.h 2023-08-04 14:48:58 +02:00
Krasimir Angelov
f58697f31f Create aarch64/asm.h 2023-08-04 14:48:01 +02:00
Krasimir Angelov
8f6dc916b6 added aarch64 configure.ac 2023-08-04 14:46:27 +02:00
Inari Listenmaa
6a36b486fa Update instructions for Geany 2023-03-03 01:17:28 +01:00
Krasimir Angelov
8190d9fe49 export BindType(..) 2023-03-01 09:57:48 +01:00
Inari Listenmaa
527a4451d3 update to System.Environment (getArgs) 2023-02-10 10:46:10 +08:00
Krasimir Angelov
2c13f529f9 Update INSTALL 2023-02-05 09:40:14 +01:00
Inari Listenmaa
8b82f1ab33 remove 2020-specific link 2023-01-24 16:33:28 +08:00
Inari Listenmaa
7bcc70e79d Summer school 2023 2023-01-24 16:19:22 +08:00
Inari Listenmaa
85038d0175 Merge pull request #149 from anka-213/ghc-9.2 
Add support for ghc-9.2.4
 2022-10-10 12:00:40 +02:00
Inari Listenmaa
6edd449d68 Merge pull request #147 from anka-213/extend-performance-issue 
Improve performance with long extend-lists
 2022-10-10 12:00:23 +02:00
Andreas Källberg
a58c6d49d4 Extract the previous optimization to its own function 2022-10-04 17:01:47 +02:00
Andreas Källberg
fef7b80d8e Use a Set in isInherited to speed up long extend lists 
Now the time is O(log(n)*m) instead of O(n*m) where n is the number of
items in the extend list

e.g.
abstract FromWordNet = WordNet [
a_couple_Card,
a_la_carte_Adv,
a_la_mode_Adv,
a_little_Card,
...
];
 2022-10-04 17:01:47 +02:00
Andreas Källberg
03df25bb7a Add support for ghc-9.2.4 2022-10-04 17:01:23 +02:00
Inari Listenmaa
3122590e35 Merge pull request #148 from anka-213/fix-ghc-7.10-build 
Fix ghc-7.10 build
 2022-10-04 16:59:53 +02:00
Andreas Källberg
0a16b76875 Only include transformers-compat for ghc < 8 
Since that's the only place where it's needed
and we don't have to fight with versions elsewhere
 2022-10-04 13:28:23 +02:00
Andreas Källberg
51b7117a3d Restore build with ghc-7.10.3 2022-10-04 13:07:07 +02:00
Andreas Källberg
fef03e755b Update some old unused code to support newer ghc 2022-10-04 13:07:07 +02:00
Aarne Ranta
223f92d4f6 using an unparsable variable name in the internal desugaring of table extension to avoid captures; captures with iterated table extensions might still be possible, which needs further analysis 2022-10-04 11:06:56 +02:00
aarneranta
83483b93ba New construct: table update. Syntax t ** { cases }. Syntactic sugar for table {cases ; vvv => t \! vvv}.t 2022-10-03 17:04:29 +02:00
Krasimir Angelov
dc8dce90a0 added a Setup script to compile without cabal-install 2022-08-24 14:00:22 +02:00
Krasimir Angelov
e9bbd38f68 gf --version now prints the shared folder to be used by the RGL 2022-08-24 12:02:10 +02:00
Krasimir Angelov
3fac8415ca forgot to mention sudo 2022-08-24 12:00:43 +02:00
Krasimir Angelov
1294269cd6 workaround for the Nix madness 2022-08-24 11:57:47 +02:00
krangelov
3acb7d2da4 silence harmless warnings 2022-08-12 10:54:43 +02:00
krangelov
08fb29e6b8 fix the reference counting for pgf.BIND 2022-08-12 10:51:56 +02:00
Inari Listenmaa
f69babef6d add link to Inari's blog 2022-07-27 14:53:58 +02:00
Krasimir Angelov
a42cec2107 support for BIND tokens in the Python bindings 2022-07-16 20:29:36 +02:00
Krasimir Angelov
4d446fcd3f Merge branch 'master' of github.com:GrammaticalFramework/gf-core 2022-07-04 10:42:59 +02:00
Krasimir Angelov
ae460e76b6 allow compilation with emscripten 2022-07-04 10:42:34 +02:00
John J. Camilleri
65308861bc Merge branch 'master' of github.com:GrammaticalFramework/gf-core 2022-06-18 21:09:23 +02:00
Krasimir Angelov
b7672b67a3 adjust the -view command depending on the OS 2022-05-31 10:15:50 +02:00
Krasimir Angelov
e33de168fd use a relative link to WordNet 2022-05-31 07:44:25 +02:00
Inari Listenmaa
fc5b3e9037 Merge pull request #141 from anka-213/hardcode-utf8 
Always use UTF8 encoding in the gf executable
 2022-05-18 09:46:03 +02:00
Andreas Källberg
9b9905c0b2 Always use UTF8 encoding in the gf executable 
This fixes many of the "Invalid character" messages
you can get on different platforms.

This has helped both with a nix-installation that didn't have global
locale set and with a windows installation.
 2022-05-18 14:42:01 +08:00
Inari Listenmaa
ec70e4a83e Merge pull request #136 from mengwong/ghc9 
compiles with GHC 9.0.2
 2022-05-06 03:26:00 +02:00
Inari Listenmaa
e6ade90679 update nightly to latest lts 2022-05-06 08:45:12 +08:00
Inari Listenmaa
6414bc8923 Merge pull request #140 from anka-213/no-profile-bind 
Don't add automatic cost centres to Data.Binary.Get
 2022-05-04 10:46:37 +02:00
Andreas Källberg
b0b2a06f3b Improve comment 2022-05-03 13:10:29 +08:00
Andreas Källberg
221597bd79 When profiling, don't add cost centres in Data.Binary.Get 
This change speeds up profiling by an order of magnitude.
Without it, the >>= function for Get dominates runtime completely during profiling.
 2022-05-03 13:08:35 +08:00
Inari Listenmaa
862aeb5d9b Update base <4.15 to <4.16 for tests + pgf*.cabal 2022-03-05 13:42:11 +08:00
Inari Listenmaa
25dd1354c7 Merge pull request #135 from mengwong/base-4-15 
prepare for GHC 9, base 4.15, by using Buffer constructor interface
 2022-03-05 06:28:17 +01:00
Inari Listenmaa
b762e24a82 Add ghc-9.0.2 to CI 2022-03-05 13:25:26 +08:00
Meng Weng Wong
20453193fe add compilation support for ghc 9.0.2 2022-03-05 13:15:40 +08:00
Meng Weng Wong
b53a102c98 if this PR is accepted we don't need these instructions 2022-03-05 12:59:25 +08:00
Meng Weng Wong
bc14a56f83 "now try this" instructions for people flailing with Apple Silicon M1 2022-03-05 12:59:25 +08:00
Meng Weng Wong
3a1213ab37 prepare for GHC 9, base 4.15, by using Buffer constructor interface 2022-03-05 12:59:25 +08:00
Inari Listenmaa
1b41e94f83 Merge pull request #138 from anka-213/patch-1 
Fix stack ci
 2022-03-05 05:49:43 +01:00
Andreas Källberg
308f4773dc Upgrade to ghc-8.10.7 
This version has better support for m1 macbooks
 2022-03-05 12:25:46 +08:00
Andreas Källberg
05fc093b5e Add restore key to cache 2022-03-05 12:25:46 +08:00
Andreas Källberg
4caf6d684e Another attempt at fixing linker errors 2022-03-05 12:25:46 +08:00
Andreas Källberg
bfd8f9c16d Upgrade haskell setup action 2022-03-05 12:24:38 +08:00
Andreas Källberg
aefac84670 Clear stack cache and make cache-key more fine-grained 
Attempt at fixing #137
 2022-03-05 12:24:10 +08:00
John J. Camilleri
9f2a3de7a3 Add simpler VSCode extension to editor modes page 2021-11-08 12:30:21 +01:00
krangelov
e4b2f281d9 Merge branch 'master' of github.com:GrammaticalFramework/gf-core 2021-09-22 14:11:27 +02:00
krangelov
063c517f3c more tests for variants 2021-09-22 14:11:11 +02:00
John J. Camilleri
bedb46527d Move Thomas from current to previous on maintainers page 2021-08-17 10:18:34 +02:00
John J. Camilleri
0258a87257 Add IRC, Discord, SO links to "contribute" section at top of homepage 2021-08-17 09:57:50 +02:00
John J. Camilleri
ef0e831c9e Update installation instructions from Hackage, source code 2021-08-17 09:38:20 +02:00
Inari Listenmaa
8ec13b1030 Uncomment installation instructions from Hackage 2021-08-16 09:07:59 +08:00
John J. Camilleri
058526ec5d Remove Travis CI workflow, we use GitHub actions now 
Closes #123
 2021-08-12 15:27:10 +02:00
John J. Camilleri
974e8b0835 Typos in homepage 2021-08-12 15:20:29 +02:00
John J. Camilleri
bbe4682c3d Update homepage 
- Add Discord link
- Point to GitHub issues, Stack Overflow in "Getting help"
- Remove old news
 2021-08-12 15:19:17 +02:00
John J. Camilleri
e477ce4b1f HTML fix on homepage 2021-08-12 10:05:45 +02:00
John J. Camilleri
7a63ba34b4 Add changelog 
This will hopefully help us keep track of changes for the next release
 2021-08-12 09:56:34 +02:00
John J. Camilleri
723bec1ba0 Changes made in order to get Hackage upload working 2021-08-09 13:41:25 +02:00
krangelov
265f08d6ee added link to vis-network.min.js 2021-07-26 16:57:05 +02:00
krangelov
e47042424e Merge branch 'master' of https://github.com/GrammaticalFramework/gf-core 2021-07-26 16:52:11 +02:00
krangelov
ecf309a28e fix links to WordNet 2021-07-26 16:51:58 +02:00
Inari Listenmaa
d0a881f903 add VS code on the list of editor modes 2021-07-26 14:11:48 +08:00
Inari Listenmaa
810640822d Update documentation for release 3.11 2021-07-25 15:37:12 +08:00
Inari Listenmaa
ed79955931 Merge pull request #129 from anka-213/automate-release 
Automatically upload release assets after building for release
 2021-07-25 08:20:41 +02:00
Andreas Källberg
1867bfc8a1 Rename packages based on git tag 2021-07-25 11:08:21 +08:00
Andreas Källberg
6ef4f27d32 Upload release assets automatically as well 2021-07-25 10:43:36 +08:00
Inari Listenmaa
3ab07ec58f Update debian changelog for GF 3.11 2021-07-25 10:30:49 +08:00
Inari Listenmaa
b8324fe3e6 Merge pull request #116 from anka-213/fix-binary-package-build 
Update scripts to use `cabal v1-...` so they work on newer cabal
 2021-07-25 04:15:07 +02:00
Andreas Källberg
8814fde817 Only run the script once per release 2021-07-25 09:30:36 +08:00
Andreas Källberg
375b3cf285 Update release script to build for two ubuntu versions 2021-07-25 08:23:25 +08:00
Andreas Källberg
3c4f42db15 Build ubuntu packages on ubuntu-latest 
Fixes #74
 2021-07-25 08:23:25 +08:00
John J. Camilleri
0474a37af6 Make Makefile compatible with stack and old/new cabal (with v1- prefix when necessary) 2021-07-25 08:23:25 +08:00
Andreas Källberg
e3498d5ead Update to newest haskell github action 
Also fix so the stack builds use the correct ghc versions
 2021-07-25 08:23:25 +08:00
Andreas Källberg
4c5927c98c Update scripts to use cabal v1-... so they work on newer cabal 
Fixes build failures like https://github.com/GrammaticalFramework/gf-core/runs/2949099280?check_suite_focus=true
 2021-07-25 08:23:25 +08:00
John J. Camilleri
bb51224e8e IRC link pre-fills channel. Link to logs gives newest first. 2021-07-23 16:07:34 +02:00
John J. Camilleri
9533edc3ca Merge pull request #128 from GrammaticalFramework/windows-binary 
Fixes to building Windows binary
 2021-07-23 15:55:37 +02:00
John J. Camilleri
4df8999ed5 Change Python 3.8 to 3.9 2021-07-23 08:05:35 +02:00
John J. Camilleri
7fdbf3f400 Update path in main workflow for binaries 2021-07-22 23:11:01 +02:00
John J. Camilleri
0d6c67f6b1 Try without rewriting envvar 2021-07-22 23:02:22 +02:00
John J. Camilleri
2610219f6a Update path 2021-07-22 22:56:39 +02:00
John J. Camilleri
7674f078d6 Try another path 2021-07-22 22:49:44 +02:00
John J. Camilleri
c67fe05c08 Narrow search, print env var 2021-07-22 22:44:53 +02:00
John J. Camilleri
7b9bb780a2 Find Java stuff 2021-07-22 22:34:26 +02:00
John J. Camilleri
4f256447e2 Add separate Windows binary CI action for easier testing 2021-07-22 22:27:15 +02:00
Inari Listenmaa
dfa5b9276d #gf IRC channel has moved to Libera 2021-07-22 01:08:00 +02:00
Inari Listenmaa
667bfd30bd Merge pull request #87 from anka-213/make-it-fast 
Remove the `Either Int` from value2term
 2021-07-20 04:35:37 +02:00
Inari Listenmaa
66ae31e99e Merge pull request #126 from inariksit/developers-documentation 
Update developers' documentation
 2021-07-15 05:16:55 +02:00
Inari Listenmaa
a677f0373c General restructuring, various minor changes 2021-07-15 10:40:26 +08:00
Inari Listenmaa
13f845d127 Update C runtime instructions 2021-07-15 10:39:54 +08:00
Inari Listenmaa
aa530233fb Remove instructions to create binaries 
Those are in github actions
 2021-07-15 10:27:57 +08:00
Inari Listenmaa
45bc5595c0 Update C runtime install instructions 2021-07-15 09:54:15 +08:00
Inari Listenmaa
6d12754e4f Split the Cabal instructions to another page 
and link from main instructions
 2021-07-15 08:21:29 +08:00
1Regina
a09d9bd006 install and upgrade stack 2021-07-14 17:20:20 +08:00
Meowyam
fffe3161d4 updated docs to reflect binaries generated via github actions 
fix merge conflicts

resolve merge conflict
 2021-07-14 17:20:20 +08:00
Meowyam
743f5e55d4 add missing install.sh file for c runtime 2021-07-14 17:20:20 +08:00
Inari Listenmaa
9e209bbaba Changes in Git instructions 2021-07-14 17:20:07 +08:00
Inari Listenmaa
a1594e6a69 updated doc with instructions for C runtime for ubuntu and fedora 2021-07-14 16:44:44 +08:00
Inari Listenmaa
06e0a986d1 Changes in Git instructions 2021-07-14 16:12:11 +08:00
Meowyam
6f2a4bcd2c update doc for linux installation 2021-07-14 15:32:02 +08:00
Inari Listenmaa
f345f615f4 Update information about test suite 
Co-Authored-By: 1Regina <46968488+1Regina@users.noreply.github.com>
 2021-07-14 15:16:23 +08:00
Inari Listenmaa
80d16fcf94 Update instructions about C runtime 2021-07-14 15:03:59 +08:00
Andreas Källberg
7faf8c9dad Clean up redundant case expressions 2021-07-12 16:38:29 +08:00
Andreas Källberg
c2ffa6763b Github actions: Fix build for stack 2021-07-12 15:53:49 +08:00
Andreas Källberg
b3881570c7 Remove last traces of the Either in value2term 2021-07-12 15:53:49 +08:00
Andreas Källberg
bd270b05ff Remove the Either Int from value2term 
This prevents HUGE space leak and makes compiling a PGF a LOT faster

For example, an application grammar moved from taking over 50GB
of ram and taking 5 minutes (most of which is spent on garbage colelction)
to taking 1.2 seconds and using 42mb of memory

The price we pay is that the "variable #n is out of scope" error is now
lazy and will happen when we try to evaluate the term instead of
happening when the function returns and allowing the caller to chose how
to handle the error.
I don't think this should matter in practice, since it's very rare;
at least Inari has never encountered it.
 2021-07-12 15:50:43 +08:00
John J. Camilleri
a1fd3ea142 Fix bug introduced in cdbe73eb47 
Apparently I don't understand how pattern-matching works in Haskell
 2021-07-08 13:56:58 +02:00
John J. Camilleri
cdbe73eb47 Remove two missing-methods warnings 2021-07-08 12:10:41 +02:00
John J. Camilleri
6077d5dd5b Merge pull request #124 from GrammaticalFramework/cabal-cleanup 
More cabal file cleanup
 2021-07-08 08:56:31 +02:00
John J. Camilleri
0954b4cbab More cabal file cleanup. Remove some more tabs from Haskell source. 2021-07-07 13:04:09 +02:00
John J. Camilleri
f2e52d6f2c Replace tabs for whitespace in source code 2021-07-07 09:40:41 +02:00
John J. Camilleri
a2b23d5897 Make whitespace uniform in Cabal files, add a few more dependency bounds 2021-07-07 09:11:46 +02:00
John J. Camilleri
0886eb520d Update 3.11 release notes 2021-07-06 15:45:21 +02:00
John J. Camilleri
ef42216415 Add import from command line invocation to command history 
Closes #64
 2021-07-06 15:35:03 +02:00
John J. Camilleri
0c3ca3d79a Add note in PGF2 documentation about risk for integer overflow. 
Closes #109
 2021-07-06 14:43:21 +02:00
John J. Camilleri
e2e5033075 Merge pull request #122 from 2jacobtan/master 
specify version bounds in *.cabal files
 2021-07-06 14:31:29 +02:00
John J. Camilleri
84b4b6fab9 Some more cabal file cleanup. Add stack files for pgf, pgf2. 2021-07-06 14:11:30 +02:00
Inari Listenmaa
5e052ff499 Merge pull request #119 from GrammaticalFramework/concrete-new 
Clean up Compute.ConcreteNew and TypeCheck.RConcrete
 2021-07-06 14:05:00 +02:00
Inari Listenmaa
d2fb755fab Merge branch 'master' into concrete-new 2021-07-06 09:37:22 +02:00
Inari Listenmaa
1b66bf2773 Merge pull request #121 from Meowyam/issue97 
resolves GrammaticalFramework/gf-core/#97
 2021-07-06 09:22:48 +02:00
Meowyam
1e3de38ac4 remove redundant options 2021-07-06 15:22:59 +08:00
Inari Listenmaa
4e8859aa75 Merge pull request #118 from GrammaticalFramework/canonical 
Fixes to canonical compilation
 2021-07-06 09:16:52 +02:00
Meowyam
dff215504a resolves GrammaticalFramework/gf-core/#97, without l 2021-07-06 15:00:17 +08:00
Inari Listenmaa
173ab96839 Hotfix for https://github.com/GrammaticalFramework/gf-core/issues/56 2021-07-06 14:59:53 +08:00
John J. Camilleri
dff1193f7b Add --haskell=pgf2 flag 2021-07-06 14:59:53 +08:00
2jacobtan
e1a40640cd specify version bounds in pgf.cabal and pgf2.cabal 2021-07-06 05:42:34 +08:00
2jacobtan
be231584f6 set stack.yaml to lts-18.0 2021-07-06 05:20:09 +08:00
2jacobtan
12c564f97c specify version bounds in gf.cabal 2021-07-06 05:08:00 +08:00
Inari Listenmaa
09d772046e Merge pull request #57 from inariksit/cc-bugfix-rgl-only 
Hotfix for #56 (cc doesn't work for many RGL languages)
 2021-07-02 10:11:35 +02:00
Meowyam
d53e1713c7 resolves GrammaticalFramework/gf-core/#97 2021-07-02 16:08:34 +08:00
John J. Camilleri
3df04295d9 Merge pull request #120 from GrammaticalFramework/haskell-export 
Add --haskell=pgf2 flag
 2021-07-02 09:00:45 +02:00
John J. Camilleri
b090e9b0ff Add --haskell=pgf2 flag 2021-07-01 15:31:00 +02:00
John J. Camilleri
5d7c687cb7 Make imports in CheckGrammar a little more explicit 2021-07-01 14:32:39 +02:00
John J. Camilleri
376b1234a2 Rename GF.Compile.TypeCheck.RConcrete to GF.Compile.TypeCheck.Concrete 2021-07-01 14:27:11 +02:00
John J. Camilleri
71d99b9ecb Rename GF.Compile.Compute.ConcreteNew to GF.Compile.Compute.Concrete 2021-07-01 14:21:29 +02:00
John J. Camilleri
d5c6aec3ec Superficial refactoring to testsuite module 2021-06-30 12:12:26 +02:00
Inari Listenmaa
bfcab16de6 Hotfix for https://github.com/GrammaticalFramework/gf-core/issues/56 2020-06-06 11:35:05 +02:00
142 changed files with 4028 additions and 3631 deletions
Expand all files Collapse all files

43
.github/workflows/build-all-versions.yml vendored
View File

@@ -12,28 +12,34 @@ jobs:
name: ${{ matrix.os }} / ghc ${{ matrix.ghc }}
runs-on: ${{ matrix.os }}
strategy:
fail-fast: false
matrix:
os: [ubuntu-latest, macos-latest, windows-latest]
cabal: ["3.2"]
cabal: ["latest"]
ghc:
- "8.6.5"
- "8.8.3"
- "8.10.1"
- "8.10.7"
- "9.6.7"
exclude:
- os: macos-latest
ghc: 8.8.3
- os: macos-latest
ghc: 8.6.5
- os: macos-latest
ghc: 8.10.7
- os: windows-latest
ghc: 8.8.3
- os: windows-latest
ghc: 8.6.5
- os: windows-latest
ghc: 8.10.7
steps:
- 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@v2
id: setup-haskell-cabal
name: Setup Haskell
with:
@@ -44,7 +50,7 @@ jobs:
run: |
cabal freeze
- uses: actions/cache@v1
- uses: actions/cache@v4
name: Cache ~/.cabal/store
with:
path: ${{ steps.setup-haskell-cabal.outputs.cabal-store }}
@@ -62,33 +68,40 @@ jobs:
stack:
name: stack / ghc ${{ matrix.ghc }}
runs-on: ubuntu-latest
runs-on: ${{ matrix.ghc == '7.10.3' && 'ubuntu-20.04' || 'ubuntu-latest' }}
strategy:
fail-fast: false
matrix:
stack: ["2.3.3"]
ghc: ["7.10.3","8.0.2", "8.2.2", "8.4.4", "8.6.5", "8.8.4"]
# ghc: ["8.8.3"]
stack: ["latest"]
ghc: ["8.4.4", "8.6.5", "8.8.4", "8.10.7", "9.0.2", "9.6.7"]
steps:
- 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@v2
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
# Fix linker errrors on ghc-7.10.3 for ubuntu (see https://github.com/commercialhaskell/stack/blob/255cd830627870cdef34b5e54d670ef07882523e/doc/faq.md#i-get-strange-ld-errors-about-recompiling-with--fpic)
- run: sed -i.bak 's/"C compiler link flags", "/&-no-pie /' /home/runner/.ghcup/ghc/7.10.3/lib/ghc-7.10.3/settings
if: matrix.ghc == '7.10.3'
- uses: actions/cache@v4
name: Cache ~/.stack
with:
path: ~/.stack
key: ${{ runner.os }}-${{ matrix.ghc }}-stack
key: ${{ runner.os }}-${{ matrix.ghc }}-stack--${{ hashFiles(format('stack-ghc{0}', matrix.ghc)) }}
restore-keys: |
${{ runner.os }}-${{ matrix.ghc }}-stack
- name: Build
run: |
stack build --system-ghc --stack-yaml stack-ghc${{ matrix.ghc }}.yaml
# stack build --system-ghc --test --bench --no-run-tests --no-run-benchmarks
stack build --test --no-run-tests --system-ghc --stack-yaml stack-ghc${{ matrix.ghc }}.yaml
- name: Test
run: |

127
.github/workflows/build-binary-packages.yml vendored
View File

@@ -3,6 +3,7 @@ name: Build Binary Packages
on:
workflow_dispatch:
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:
ghc: ["9.6"]
cabal: ["3.10"]
os: ["ubuntu-24.04"]
runs-on: ${{ matrix.os }}
steps:
- uses: actions/checkout@v2
@@ -22,12 +25,13 @@ jobs:
# Note: `haskell-platform` is listed as requirement in debian/control,
# which is why it's installed using apt instead of the Setup Haskell action.
# - name: Setup Haskell
# uses: actions/setup-haskell@v1
# id: setup-haskell-cabal
# with:
# ghc-version: ${{ matrix.ghc }}
# cabal-version: ${{ matrix.cabal }}
- name: Setup Haskell
uses: haskell-actions/setup@v2
id: setup-haskell-cabal
with:
ghc-version: ${{ matrix.ghc }}
cabal-version: ${{ matrix.cabal }}
if: matrix.os == 'ubuntu-24.04'
- name: Install build tools
run: |
@@ -36,14 +40,15 @@ jobs:
make \
dpkg-dev \
debhelper \
haskell-platform \
libghc-json-dev \
python-dev \
default-jdk \
libtool-bin
python-dev-is-python3 \
libtool-bin
cabal install alex happy
- name: Build package
run: |
export PYTHONPATH="/home/runner/work/gf-core/gf-core/debian/gf/usr/local/lib/python3.12/dist-packages/"
make deb
- name: Copy package
@@ -51,27 +56,41 @@ jobs:
cp ../gf_*.deb dist/
- name: Upload artifact
uses: actions/upload-artifact@v2
uses: actions/upload-artifact@v4
with:
name: gf-${{ 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"]
ghc: ["9.6"]
cabal: ["3.10"]
os: ["macos-latest", "macos-13"]
runs-on: ${{ matrix.os }}
steps:
- uses: actions/checkout@v2
- name: Setup Haskell
uses: actions/setup-haskell@v1
uses: haskell-actions/setup@v2
id: setup-haskell-cabal
with:
ghc-version: ${{ matrix.ghc }}
@@ -80,8 +99,10 @@ jobs:
- name: Install build tools
run: |
brew install \
automake
automake \
libtool
cabal v1-install alex happy
pip install setuptools
- name: Build package
run: |
@@ -90,21 +111,35 @@ jobs:
make pkg
- name: Upload artifact
uses: actions/upload-artifact@v2
uses: actions/upload-artifact@v4
with:
name: gf-${{ github.sha }}-macos
name: gf-${{ github.event.release.tag_name }}-${{ matrix.os }}
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"]
ghc: ["9.6.7"]
cabal: ["3.10"]
os: ["windows-2022"]
runs-on: ${{ matrix.os }}
steps:
- uses: actions/checkout@v2
@@ -116,6 +151,7 @@ jobs:
base-devel
gcc
python-devel
autotools
- name: Prepare dist folder
shell: msys2 {0}
@@ -136,17 +172,23 @@ jobs:
cp /mingw64/bin/libpgf-0.dll /c/tmp-dist/c
cp /mingw64/bin/libgu-0.dll /c/tmp-dist/c
# JAVA_HOME_8_X64 = C:\hostedtoolcache\windows\Java_Adopt_jdk\8.0.292-10\x64
- name: Build Java bindings
shell: msys2 {0}
run: |
export PATH="${PATH}:/c/Program Files/Java/jdk8u275-b01/bin"
echo $JAVA_HOME_8_X64
export JDKPATH="$(cygpath -u "${JAVA_HOME_8_X64}")"
export PATH="${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
if: false
# - uses: actions/setup-python@v5
- name: Build Python bindings
shell: msys2 {0}
@@ -155,12 +197,13 @@ jobs:
EXTRA_LIB_DIRS: /mingw64/lib
run: |
cd src/runtime/python
pacman --noconfirm -S python-setuptools
python setup.py build
python setup.py install
cp /usr/lib/python3.8/site-packages/pgf* /c/tmp-dist/python
cp -r /usr/lib/python3.12/site-packages/pgf* /c/tmp-dist/python
- name: Setup Haskell
uses: actions/setup-haskell@v1
uses: haskell-actions/setup@v2
id: setup-haskell-cabal
with:
ghc-version: ${{ matrix.ghc }}
@@ -172,14 +215,26 @@ jobs:
- name: Build GF
run: |
cabal install --only-dependencies -fserver
cabal install -fserver --only-dependencies
cabal configure -fserver
cabal build
copy dist\build\gf\gf.exe C:\tmp-dist
copy dist-newstyle/build/x86_64-windows/ghc-${{matrix.ghc}}/*/x/gf/build/gf/gf.exe C:/tmp-dist
- name: Upload artifact
uses: actions/upload-artifact@v2
uses: actions/upload-artifact@v4
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

38
.github/workflows/build-python-package.yml vendored
View File

@@ -13,24 +13,25 @@ jobs:
strategy:
fail-fast: true
matrix:
os: [ubuntu-18.04, macos-10.15]
os: [ubuntu-latest, macos-latest, macos-13]
steps:
- uses: actions/checkout@v1
- uses: actions/checkout@v4
- uses: actions/setup-python@v1
- uses: actions/setup-python@v5
name: Install Python
with:
python-version: '3.7'
python-version: '3.x'
- name: Install cibuildwheel
run: |
python -m pip install git+https://github.com/joerick/cibuildwheel.git@main
python -m pip install cibuildwheel
- name: Install build tools for OSX
if: startsWith(matrix.os, 'macos')
run: |
brew install automake
brew install libtool
- name: Build wheels on Linux
if: startsWith(matrix.os, 'macos') != true
@@ -42,30 +43,32 @@ jobs:
- name: Build wheels on OSX
if: startsWith(matrix.os, 'macos')
env:
CIBW_BEFORE_BUILD: cd src/runtime/c && glibtoolize && autoreconf -i && ./configure && make && make install
CIBW_BEFORE_BUILD: cd src/runtime/c && glibtoolize && autoreconf -i && ./configure && make && sudo make install
run: |
python -m cibuildwheel src/runtime/python --output-dir wheelhouse
- uses: actions/upload-artifact@v2
- uses: actions/upload-artifact@v4
with:
name: wheel-${{ matrix.os }}
path: ./wheelhouse
build_sdist:
name: Build source distribution
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v2
- uses: actions/checkout@v4
- uses: actions/setup-python@v2
- uses: actions/setup-python@v5
name: Install Python
with:
python-version: '3.7'
python-version: '3.10'
- name: Build sdist
run: cd src/runtime/python && python setup.py sdist
- uses: actions/upload-artifact@v2
- uses: actions/upload-artifact@v4
with:
name: wheel-source
path: ./src/runtime/python/dist/*.tar.gz
upload_pypi:
@@ -75,24 +78,25 @@ jobs:
if: github.ref == 'refs/heads/master' && github.event_name == 'push'
steps:
- uses: actions/checkout@v2
- uses: actions/checkout@v4
- name: Set up Python
uses: actions/setup-python@v2
uses: actions/setup-python@v5
with:
python-version: '3.x'
- name: Install twine
run: pip install twine
- uses: actions/download-artifact@v2
- uses: actions/download-artifact@v4.1.7
with:
name: artifact
pattern: wheel-*
merge-multiple: true
path: ./dist
- name: Publish
env:
TWINE_USERNAME: __token__
TWINE_PASSWORD: ${{ secrets.pypi_password }}
TWINE_PASSWORD: ${{ secrets.PYPI_PASSWORD }}
run: |
(cd ./src/runtime/python && curl -I --fail https://pypi.org/project/$(python setup.py --name)/$(python setup.py --version)/) || twine upload dist/*
twine upload --verbose --non-interactive --skip-existing dist/*

14
.travis.yml
View File

@@ -1,14 +0,0 @@
sudo: required
language: c
services:
- docker
before_install:
- docker pull odanoburu/gf-src:3.9
script:
- |
docker run --mount src="$(pwd)",target=/home/gfer,type=bind odanoburu/gf-src:3.9 /bin/bash -c "cd /home/gfer/src/runtime/c &&
autoreconf -i && ./configure && make && make install ; cd /home/gfer ; cabal install -fserver -fc-runtime --extra-lib-dirs='/usr/local/lib'"

12
CHANGELOG.md Normal file
View File

@@ -0,0 +1,12 @@
### New since 3.12 (WIP)
### 3.12
See <https://www.grammaticalframework.org/download/release-3.12.html>
### 3.11
See <https://www.grammaticalframework.org/download/release-3.11.html>
### 3.10
See <https://www.grammaticalframework.org/download/release-3.10.html>

49
Makefile
View File

@@ -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} ${CMD_PFX}clean
bash bin/clean_html
gf:
cabal build rgl-none
strip dist/build/gf/gf
html::
bash bin/update_html
@@ -33,9 +50,9 @@ html::
# number to the top of debian/changelog.
# (Tested on Ubuntu 15.04. You need to install dpkg-dev & debhelper.)
deb:
dpkg-buildpackage -b -uc
dpkg-buildpackage -b -uc -d
# Make an OS X Installer package
# Make a macOS installer package
pkg:
FMT=pkg bash bin/build-binary-dist.sh
@@ -48,6 +65,6 @@ bintar:
# Make a source tar.gz distribution using git to make sure that everything is included.
# We put the distribution in dist/ so it is removed on `make clean`
sdist:
test -d dist || mkdir dist
git archive --format=tar.gz --output=dist/gf-${VERSION}.tar.gz HEAD
# sdist:
# test -d dist || mkdir dist
# git archive --format=tar.gz --output=dist/gf-${VERSION}.tar.gz HEAD

19
README.md
View File

@@ -1,4 +1,4 @@
![GF Logo](doc/Logos/gf1.svg)
![GF Logo](https://www.grammaticalframework.org/doc/Logos/gf1.svg)
# Grammatical Framework (GF)
@@ -38,8 +38,23 @@ or:
```
stack install
```
Note that if you are unlucky to have Cabal 3.0 or later, then it uses
the so-called Nix style commands. Using those for GF development is
a pain. Every time when you change something in the source code, Cabal
will generate a new folder for GF to look for the GF libraries and
the GF cloud. Either reinstall everything with every change in the
compiler, or be sane and stop using cabal-install. Instead you can do:
```
runghc Setup.hs configure
runghc Setup.hs build
sudo runghc Setup.hs install
```
The script will install the GF dependencies globally. The only solution
to the Nix madness that I found is radical:
For more information, including links to precompiled binaries, see the [download page](http://www.grammaticalframework.org/download/index.html).
"No person, no problem" (Нет человека нет проблемы).
For more information, including links to precompiled binaries, see the [download page](https://www.grammaticalframework.org/download/index.html).
## About this repository

11
RELEASE.md
View File

@@ -47,11 +47,14 @@ but the generated _artifacts_ must be manually attached to the release as _asset
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`
1. Run `stack sdist --test-tarball` and address any issues.
2. Upload the package, either:
1. **Manually**: visit <https://hackage.haskell.org/upload> and upload the file `dist/gf-X.Y.tar.gz`
2. **via Cabal (≥2.4)**: `cabal upload dist/gf-X.Y.tar.gz`
3. If the documentation-building fails on the Hackage server, do:
1. **Manually**: visit <https://hackage.haskell.org/upload> and upload the file generated by the previous command.
2. **via Stack**: `stack upload . --candidate`
3. After testing the candidate, publish it:
1. **Manually**: visit <https://hackage.haskell.org/package/gf-X.Y.Z/candidate/publish>
1. **via Stack**: `stack upload .`
4. If the documentation-building fails on the Hackage server, do:
```
cabal v2-haddock --builddir=dist/docs --haddock-for-hackage --enable-doc
cabal upload --documentation dist/docs/*-docs.tar.gz

81
Setup.hs
View File

@@ -4,42 +4,68 @@ import Distribution.Simple.LocalBuildInfo(LocalBuildInfo(..),absoluteInstallDirs
import Distribution.Simple.Setup(BuildFlags(..),Flag(..),InstallFlags(..),CopyDest(..),CopyFlags(..),SDistFlags(..))
import Distribution.PackageDescription(PackageDescription(..),emptyHookedBuildInfo)
import Distribution.Simple.BuildPaths(exeExtension)
import System.Directory
import System.FilePath((</>),(<.>))
import System.Process
import Control.Monad(forM_,unless)
import Control.Exception(bracket_)
import Data.Char(isSpace)
import WebSetup
-- | Notice about RGL not built anymore
noRGLmsg :: IO ()
noRGLmsg = putStrLn "Notice: the RGL is not built as part of GF anymore. See https://github.com/GrammaticalFramework/gf-rgl"
main :: IO ()
main = defaultMainWithHooks simpleUserHooks
{ preBuild = gfPreBuild
{ preConf = gfPreConf
, preBuild = gfPreBuild
, postBuild = gfPostBuild
, preInst = gfPreInst
, postInst = gfPostInst
, postCopy = gfPostCopy
}
where
gfPreBuild args = gfPre args . buildDistPref
gfPreInst args = gfPre args . installDistPref
gfPreConf args flags = do
pkgs <- fmap (map (dropWhile isSpace) . tail . lines)
(readProcess "ghc-pkg" ["list"] "")
forM_ dependencies $ \pkg -> do
let name = takeWhile (/='/') (drop 36 pkg)
unless (name `elem` pkgs) $ do
let fname = name <.> ".tar.gz"
callProcess "wget" [pkg,"-O",fname]
callProcess "tar" ["-xzf",fname]
removeFile fname
bracket_ (setCurrentDirectory name) (setCurrentDirectory ".." >> removeDirectoryRecursive name) $ do
exists <- doesFileExist "Setup.hs"
unless exists $ do
writeFile "Setup.hs" (unlines [
"import Distribution.Simple",
"main = defaultMain"
])
let to_descr = reverse .
(++) (reverse ".cabal") .
drop 1 .
dropWhile (/='-') .
reverse
callProcess "wget" [to_descr pkg, "-O", to_descr name]
callProcess "runghc" ["Setup.hs","configure"]
callProcess "runghc" ["Setup.hs","build"]
callProcess "sudo" ["runghc","Setup.hs","install"]
preConf simpleUserHooks args flags
gfPreBuild args = gfPre args . buildDistPref
gfPreInst args = gfPre args . installDistPref
gfPre args distFlag = do
return emptyHookedBuildInfo
gfPostBuild args flags pkg lbi = do
-- noRGLmsg
let gf = default_gf lbi
buildWeb gf flags (pkg,lbi)
gfPostInst args flags pkg lbi = do
-- noRGLmsg
saveInstallPath args flags (pkg,lbi)
installWeb (pkg,lbi)
gfPostCopy args flags pkg lbi = do
-- noRGLmsg
saveCopyPath args flags (pkg,lbi)
copyWeb flags (pkg,lbi)
-- `cabal sdist` will not make a proper dist archive, for that see `make sdist`
@@ -47,27 +73,16 @@ main = defaultMainWithHooks simpleUserHooks
gfSDist pkg lbi hooks flags = do
return ()
saveInstallPath :: [String] -> InstallFlags -> (PackageDescription, LocalBuildInfo) -> IO ()
saveInstallPath args flags bi = do
let
dest = NoCopyDest
dir = datadir (uncurry absoluteInstallDirs bi dest)
writeFile dataDirFile dir
saveCopyPath :: [String] -> CopyFlags -> (PackageDescription, LocalBuildInfo) -> IO ()
saveCopyPath args flags bi = do
let
dest = case copyDest flags of
NoFlag -> NoCopyDest
Flag d -> d
dir = datadir (uncurry absoluteInstallDirs bi dest)
writeFile dataDirFile dir
-- | Name of file where installation's data directory is recording
-- This is a last-resort way in which the seprate RGL build script
-- can determine where to put the compiled RGL files
dataDirFile :: String
dataDirFile = "DATA_DIR"
dependencies = [
"https://hackage.haskell.org/package/utf8-string-1.0.2/utf8-string-1.0.2.tar.gz",
"https://hackage.haskell.org/package/json-0.10/json-0.10.tar.gz",
"https://hackage.haskell.org/package/network-bsd-2.8.1.0/network-bsd-2.8.1.0.tar.gz",
"https://hackage.haskell.org/package/httpd-shed-0.4.1.1/httpd-shed-0.4.1.1.tar.gz",
"https://hackage.haskell.org/package/exceptions-0.10.5/exceptions-0.10.5.tar.gz",
"https://hackage.haskell.org/package/stringsearch-0.3.6.6/stringsearch-0.3.6.6.tar.gz",
"https://hackage.haskell.org/package/multipart-0.2.1/multipart-0.2.1.tar.gz",
"https://hackage.haskell.org/package/cgi-3001.5.0.0/cgi-3001.5.0.0.tar.gz"
]
-- | Get path to locally-built gf
default_gf :: LocalBuildInfo -> FilePath

4
bin/build-binary-dist.sh
View File

@@ -32,7 +32,7 @@ set -x # print commands before executing them
pushd src/runtime/c
bash setup.sh configure --prefix="$prefix"
bash setup.sh build
bash setup.sh install prefix="$prefix" # hack required for GF build on macOS
# bash setup.sh install prefix="$prefix" # hack required for GF build on macOS
bash setup.sh install prefix="$destdir$prefix"
popd
@@ -46,7 +46,7 @@ if which >/dev/null python; then
pyver=$(ls "$destdir$prefix/lib" | sed -n 's/^python//p')
pydest="$destdir/Library/Python/$pyver/site-packages"
mkdir -p "$pydest"
ln "$destdir$prefix/lib/python$pyver/site-packages"/pgf* "$pydest"
ln "$destdir$prefix/lib/python$pyver/site-packages"/pgf*.so "$pydest"
fi
popd
else

11
debian/changelog vendored
View File

@@ -1,3 +1,14 @@
gf (3.12) noble; urgency=low
* GF 3.12
-- Inari Listenmaa <inari@digitalgrammars.com> Fri, 8 Aug 2025 18:29:29 +0100
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

2
debian/control vendored
View File

@@ -3,7 +3,7 @@ Section: devel
Priority: optional
Maintainer: Thomas Hallgren <hallgren@chalmers.se>
Standards-Version: 3.9.2
Build-Depends: debhelper (>= 5), haskell-platform (>= 2011.2.0.1), libghc-haskeline-dev, libghc-mtl-dev, libghc-json-dev, autoconf, automake, libtool-bin, python-dev, java-sdk
Build-Depends: debhelper (>= 5), libghc-haskeline-dev, libghc-mtl-dev, libghc-json-dev, autoconf, automake, libtool-bin, python-dev-is-python3, java-sdk
Homepage: http://www.grammaticalframework.org/
Package: gf

18
debian/rules vendored
View File

@@ -17,28 +17,30 @@ 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-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=$$LD_LIBRARY_PATH:$(CURDIR)/src/runtime/c/.libs
override_dh_auto_build:
cd src/runtime/python && EXTRA_INCLUDE_DIRS=$(CURDIR)/src/runtime/c EXTRA_LIB_DIRS=$(CURDIR)/src/runtime/c/.libs python setup.py build
cd src/runtime/java && make CFLAGS="-I$(CURDIR)/src/runtime/c -L$(CURDIR)/src/runtime/c/.libs" INSTALL_PATH=/usr
# cd src/runtime/java && make CFLAGS="-I$(CURDIR)/src/runtime/c -L$(CURDIR)/src/runtime/c/.libs" INSTALL_PATH=/usr
echo $(SET_LDL)
-$(SET_LDL) cabal build
-$(SET_LDL) cabal v1-build
override_dh_auto_install:
$(SET_LDL) cabal copy --destdir=$(CURDIR)/debian/gf
$(SET_LDL) cabal v1-copy --destdir=$(CURDIR)/debian/gf
cd src/runtime/c && bash setup.sh copy prefix=$(CURDIR)/debian/gf/usr
cd src/runtime/python && python setup.py install --prefix=$(CURDIR)/debian/gf/usr
cd src/runtime/java && make INSTALL_PATH=$(CURDIR)/debian/gf/usr install
D="`find debian/gf -name site-packages`" && [ -n "$$D" ] && cd $$D && cd .. && mv site-packages dist-packages
# cd src/runtime/java && make INSTALL_PATH=$(CURDIR)/debian/gf/usr install
# D="`find debian/gf -name dist-packages`" && [ -n "$$D" ] && cd $$D && cd .. && mv dist-packages dist-packages
override_dh_usrlocal:
override_dh_auto_clean:
rm -fr dist/build
-cd src/runtime/python && rm -fr build
-cd src/runtime/java && make clean
# -cd src/runtime/java && make clean
-cd src/runtime/c && make clean
override_dh_auto_test:

201
doc/gf-developers-old-cabal.t2t Normal file
View File

@@ -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
```

660
doc/gf-developers.t2t
View File

@@ -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.

75
doc/gf-editor-modes.md Normal file
View File

@@ -0,0 +1,75 @@
# Editor modes & IDE integration for GF
We collect GF modes for various editors on this page. Contributions are welcome!
## Emacs
[gf.el](https://github.com/GrammaticalFramework/gf-emacs-mode) by Johan
Bockgård provides syntax highlighting and automatic indentation and
lets you run the GF Shell in an emacs buffer. See installation
instructions inside.
## Atom
[language-gf](https://atom.io/packages/language-gf), by John J. Camilleri
## Visual Studio Code
* [Grammatical Framework Language Server](https://marketplace.visualstudio.com/items?itemName=anka-213.gf-vscode) by Andreas Källberg.
This provides syntax highlighting and a client for the Grammatical Framework language server. Follow the installation instructions in the link.
* [Grammatical Framework](https://marketplace.visualstudio.com/items?itemName=GrammaticalFramework.gf-vscode) is a simpler extension
without any external dependencies which provides only syntax highlighting.
## Eclipse
[GF Eclipse Plugin](https://github.com/GrammaticalFramework/gf-eclipse-plugin/), by John J. Camilleri
## Gedit
By John J. Camilleri
Copy the file below to
`~/.local/share/gtksourceview-3.0/language-specs/gf.lang` (under Ubuntu).
* [gf.lang](../src/tools/gf.lang)
Some helpful notes/links:
* The code is based heavily on the `haskell.lang` file which I found in
`/usr/share/gtksourceview-2.0/language-specs/haskell.lang`.
* Ruslan Osmanov recommends
[registering your file extension as its own MIME type](http://osmanov-dev-notes.blogspot.com/2011/04/how-to-add-new-highlight-mode-in-gedit.html)
(see also [here](https://help.ubuntu.com/community/AddingMimeTypes)),
however on my system the `.gf` extension was already registered
as a generic font (`application/x-tex-gf`) and I didn't want to risk
messing any of that up.
* This is a quick 5-minute job and might require some tweaking.
[The GtkSourceView language definition tutorial](http://developer.gnome.org/gtksourceview/stable/lang-tutorial.html)
is the place to start looking.
* Contributions are welcome!
## Geany
By John J. Camilleri
[Custom filetype](http://www.geany.org/manual/dev/index.html#custom-filetypes)
config files for syntax highlighting in [Geany](http://www.geany.org/).
For version 1.36 and above, copy one of the files below to
`/usr/share/geany/filedefs/filetypes.GF.conf` (under Ubuntu).
If you're using a version older than 1.36, copy the file to `/usr/share/geany/filetypes.GF.conf`.
You will need to manually create the file.
* [light-filetypes.GF.conf](../src/tools/light-filetypes.GF.conf)
* [dark-filetypes.GF.conf](../src/tools/dark-filetypes.GF.conf)
You will also need to edit the `filetype_extensions.conf` file and add the
following line somewhere:
```
GF=*.gf
```
## Vim
[vim-gf](https://github.com/gdetrez/vim-gf)

72
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View File

@@ -1,72 +0,0 @@
Editor modes & IDE integration for GF
We collect GF modes for various editors on this page. Contributions are
welcome!
==Emacs==
[gf.el https://github.com/GrammaticalFramework/gf-emacs-mode] by Johan
Bockgård provides syntax highlighting and automatic indentation and
lets you run the GF Shell in an emacs buffer. See installation
instructions inside.
==Atom==
[language-gf https://atom.io/packages/language-gf], by John J. Camilleri
==Eclipse==
[GF Eclipse Plugin https://github.com/GrammaticalFramework/gf-eclipse-plugin/], by John J. Camilleri
==Gedit==
By John J. Camilleri
Copy the file below to
``~/.local/share/gtksourceview-3.0/language-specs/gf.lang`` (under Ubuntu).
- [gf.lang ../src/tools/gf.lang]
Some helpful notes/links:
- The code is based heavily on the ``haskell.lang`` file which I found in
``/usr/share/gtksourceview-2.0/language-specs/haskell.lang``.
- Ruslan Osmanov recommends
[registering your file extension as its own MIME type http://osmanov-dev-notes.blogspot.com/2011/04/how-to-add-new-highlight-mode-in-gedit.html]
(see also [here https://help.ubuntu.com/community/AddingMimeTypes]),
however on my system the ``.gf`` extension was already registered
as a generic font (``application/x-tex-gf``) and I didn't want to risk
messing any of that up.
- This is a quick 5-minute job and might require some tweaking.
[The GtkSourceView language definition tutorial http://developer.gnome.org/gtksourceview/stable/lang-tutorial.html]
is the place to start looking.
- Contributions are welcome!
==Geany==
By John J. Camilleri
[Custom filetype http://www.geany.org/manual/dev/index.html#custom-filetypes]
config files for syntax highlighting in [Geany http://www.geany.org/].
Copy one of the files below to ``/usr/share/geany/filetypes.GF.conf``
(under Ubuntu). You will need to manually create the file.
- [light-filetypes.GF.conf ../src/tools/light-filetypes.GF.conf]
- [dark-filetypes.GF.conf ../src/tools/dark-filetypes.GF.conf]
You will also need to edit the ``filetype_extensions.conf`` file and add the
following line somewhere:
```
GF=*.gf
```
==Vim==
[vim-gf https://github.com/gdetrez/vim-gf]

17
doc/gf-help-full.txt
View File

@@ -46,7 +46,7 @@
#TINY
The command has one argument which is either function, expression or
a category defined in the abstract syntax of the current grammar.
a category defined in the abstract syntax of the current grammar.
If the argument is a function then ?its type is printed out.
If it is a category then the category definition is printed.
If a whole expression is given it prints the expression with refined
@@ -303,7 +303,7 @@ but the resulting .gf file must be imported separately.
#TINY
Generates a list of random trees, by default one tree.
Generates a list of random trees, by default one tree up to depth 5.
If a tree argument is given, the command completes the Tree with values to
all metavariables in the tree. The generation can be biased by probabilities,
given in a file in the -probs flag.
@@ -315,13 +315,14 @@ given in a file in the -probs flag.
| ``-cat`` | generation category
| ``-lang`` | uses only functions that have linearizations in all these languages
| ``-number`` | number of trees generated
| ``-depth`` | the maximum generation depth
| ``-depth`` | the maximum generation depth (default: 5)
| ``-probs`` | file with biased probabilities (format 'f 0.4' one by line)
- Examples:
| ``gr`` | one tree in the startcat of the current grammar
| ``gr -cat=NP -number=16`` | 16 trees in the category NP
| ``gr -cat=NP -depth=2`` | one tree in the category NP, up to depth 2
| ``gr -lang=LangHin,LangTha -cat=Cl`` | Cl, both in LangHin and LangTha
| ``gr -probs=FILE`` | generate with bias
| ``gr (AdjCN ? (UseN ?))`` | generate trees of form (AdjCN ? (UseN ?))
@@ -338,8 +339,8 @@ given in a file in the -probs flag.
#TINY
Generates all trees of a given category. By default,
the depth is limited to 4, but this can be changed by a flag.
Generates all trees of a given category. By default,
the depth is limited to 5, but this can be changed by a flag.
If a Tree argument is given, the command completes the Tree with values
to all metavariables in the tree.
@@ -353,7 +354,7 @@ to all metavariables in the tree.
- Examples:
| ``gt`` | all trees in the startcat, to depth 4
| ``gt`` | all trees in the startcat, to depth 5
| ``gt -cat=NP -number=16`` | 16 trees in the category NP
| ``gt -cat=NP -depth=2`` | trees in the category NP to depth 2
| ``gt (AdjCN ? (UseN ?))`` | trees of form (AdjCN ? (UseN ?))
@@ -582,7 +583,7 @@ trees where a function node is a metavariable.
- Examples:
| ``l -lang=LangSwe,LangNor -chunks ? a b (? c d)`` |
| ``l -lang=LangSwe,LangNor -chunks ? a b (? c d)`` |
#NORMAL
@@ -647,7 +648,7 @@ The -lang flag can be used to restrict this to fewer languages.
The default start category can be overridden by the -cat flag.
See also the ps command for lexing and character encoding.
The -openclass flag is experimental and allows some robustness in
The -openclass flag is experimental and allows some robustness in
the parser. For example if -openclass="A,N,V" is given, the parser
will accept unknown adjectives, nouns and verbs with the resource grammar.

2
doc/gf-people.md
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@@ -7,7 +7,6 @@ title: "Grammatical Framework: Authors and Acknowledgements"
The current maintainers of GF are
[Krasimir Angelov](http://www.chalmers.se/cse/EN/organization/divisions/computing-science/people/angelov-krasimir),
[Thomas Hallgren](http://www.cse.chalmers.se/~hallgren/),
[Aarne Ranta](http://www.cse.chalmers.se/~aarne/),
[John J. Camilleri](http://johnjcamilleri.com), and
[Inari Listenmaa](https://inariksit.github.io/).
@@ -22,6 +21,7 @@ and
The following people have contributed code to some of the versions:
- [Thomas Hallgren](http://www.cse.chalmers.se/~hallgren/) (University of Gothenburg)
- Grégoire Détrez (University of Gothenburg)
- Ramona Enache (University of Gothenburg)
- [Björn Bringert](http://www.cse.chalmers.se/alumni/bringert) (University of Gothenburg)

27
doc/tutorial/gf-tutorial.t2t
View File

@@ -1188,7 +1188,7 @@ use ``generate_trees = gt``.
this wine is fresh
this wine is warm
```
The default **depth** is 3; the depth can be
The default **depth** is 5; the depth can be
set by using the ``depth`` flag:
```
> generate_trees -depth=2 | l
@@ -1265,10 +1265,16 @@ Human eye may prefer to see a visualization: ``visualize_tree = vt``:
> parse "this delicious cheese is very Italian" | visualize_tree
```
The tree is generated in postscript (``.ps``) file. The ``-view`` option is used for
telling what command to use to view the file. Its default is ``"open"``, which works
on Mac OS X. On Ubuntu Linux, one can write
telling what command to use to view the file.
This works on Mac OS X:
```
> parse "this delicious cheese is very Italian" | visualize_tree -view="eog"
> parse "this delicious cheese is very Italian" | visualize_tree -view=open
```
On Linux, one can use one of the following commands.
```
> parse "this delicious cheese is very Italian" | visualize_tree -view=eog
> parse "this delicious cheese is very Italian" | visualize_tree -view=xdg-open
```
@@ -1733,6 +1739,13 @@ A new module can **extend** an old one:
Pizza : Kind ;
}
```
Note that the extended grammar doesn't inherit the start
category from the grammar it extends, so if you want to
generate sentences with this grammar, you'll have to either
add a startcat (e.g. ``flags startcat = Question ;``),
or in the GF shell, specify the category to ``generate_random`` or ``geneate_trees``
(e.g. ``gr -cat=Comment`` or ``gt -cat=Question``).
Parallel to the abstract syntax, extensions can
be built for concrete syntaxes:
```
@@ -3733,7 +3746,7 @@ However, type-incorrect commands are rejected by the typecheck:
The parsing is successful but the type checking failed with error(s):
Couldn't match expected type Device light
against the interred type Device fan
In the expression: DKindOne fan
In the expression: DKindOne fan
```
#NEW
@@ -4171,7 +4184,7 @@ division of integers.
```
abstract Calculator = {
flags startcat = Exp ;
cat Exp ;
fun
@@ -4578,7 +4591,7 @@ in any multilingual grammar between any languages in the grammar.
module Main where
import PGF
import System (getArgs)
import System.Environment (getArgs)
main :: IO ()
main = do

75
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@@ -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
@@ -49,26 +53,39 @@ 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 Hackage release (macOS, Linux, and WSL2 on Windows)
## Installing from Hackage
_Instructions applicable for 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 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**.
```
cabal update
cabal install gf-3.11
```
### Notes
**GHC version**
The GF source code is known to be compilable with GHC versions 7.10 through to 8.10.
**Obtaining Haskell**
There are various ways of obtaining Haskell, including:
- ghcup
1. Install from https://www.haskell.org/ghcup/
2. `ghcup install ghc 8.10.4`
3. `ghcup set ghc 8.10.4`
- Haskell Platform https://www.haskell.org/platform/
- Stack https://haskellstack.org/
**Installation location**
The above steps installs GF for a single user.
The above steps install GF for a single user.
The executables are put in `$HOME/.cabal/bin` (or on macOS in `$HOME/Library/Haskell/bin`),
so you might want to add this directory to your path (in `.bash_profile` or similar):
@@ -80,32 +97,34 @@ PATH=$HOME/.cabal/bin:$PATH
GF uses [`haskeline`](http://hackage.haskell.org/package/haskeline), which
on Linux depends on some non-Haskell libraries that won't be installed
automatically by cabal, and therefore need to be installed manually.
automatically by Cabal, and therefore need to be installed manually.
Here is one way to do this:
- On Ubuntu: `sudo apt-get install libghc-haskeline-dev`
- On Fedora: `sudo dnf install ghc-haskeline-devel`
**GHC version**
## Installing from source code
The GF source code has been updated to compile with GHC versions 7.10 through to 8.8.
**Obtaining**
## Installing from the latest developer source code
To obtain the source code for the **release**,
download it from [GitHub](https://github.com/GrammaticalFramework/gf-core/releases).
If you haven't already, clone the repository with:
Alternatively, to obtain the **latest version** of the source code:
1. If you haven't already, clone the repository with:
```
git clone https://github.com/GrammaticalFramework/gf-core.git
```
If you've already cloned the repository previously, update with:
2. If you've already cloned the repository previously, update with:
```
git pull
```
Then install with:
**Installing**
You can then install with:
```
cabal install
```
@@ -116,10 +135,12 @@ 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).
For macOS Sequoia, you need to downgrade the LLVM package, see instructions [here](https://github.com/GrammaticalFramework/gf-core/issues/172#issuecomment-2599365457).
## Installing the Python bindings from PyPI
The Python library is available on PyPI as `pgf`, so it can be installed using:

186
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@@ -0,0 +1,186 @@
---
title: Grammatical Framework Download and Installation
date: 8 August 2025
---
**GF 3.12** was released on 8 August 2025.
What's new? See the [release notes](release-3.12.html).
#### Note: GF core and the RGL
The following instructions explain how to install **GF core**, i.e. the compiler, shell and run-time systems.
Obtaining the **Resource Grammar Library (RGL)** is done separately; see the section [at the bottom of this page](#installing-the-rgl-from-a-binary-release).
---
## Installing from a binary package
Binary packages are available for Debian/Ubuntu, macOS, and Windows and include:
- GF shell and grammar compiler
- `gf -server` mode
- C run-time system
- Python bindings to the C run-time system
[Binary packages on GitHub](https://github.com/GrammaticalFramework/gf-core/releases/tag/3.12)
#### Debian/Ubuntu
The package targets Ubuntu 24.04 (Noble).
To install it, use:
```
sudo apt install ./gf-3.12-ubuntu-24.04.deb
```
#### macOS
To install the package, just double-click it and follow the installer instructions.
The packages should work on at least Catalina and Big Sur.
#### Windows
To install the package:
1. unpack it anywhere and take note of the full path to the folder containing the `.exe` file.
2. add it to the `PATH` environment variable
For more information, see [Using GF on Windows](https://www.grammaticalframework.org/~inari/gf-windows.html) (latest updated for Windows 10).
## Installing from Hackage
_Instructions applicable for 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:
```
cabal update
cabal install gf-3.12
```
### Notes
#### GHC version
The GF source code is known to be compilable with GHC versions 7.10 through to 9.6.7.
#### Obtaining Haskell
There are various ways of obtaining Haskell, including:
- ghcup
1. Install from https://www.haskell.org/ghcup/
2. `ghcup install ghc 9.6.7`
3. `ghcup set ghc 9.6.7`
- Stack: https://haskellstack.org/
#### Installation location
The above steps install GF for a single user.
The executables are put in `$HOME/.cabal/bin` (or on macOS in `$HOME/Library/Haskell/bin`),
so you might want to add this directory to your path (in `.bash_profile` or similar):
```
PATH=$HOME/.cabal/bin:$PATH
```
#### Haskeline
GF uses [`haskeline`](http://hackage.haskell.org/package/haskeline), which
on Linux depends on some non-Haskell libraries that won't be installed
automatically by Cabal, and therefore need to be installed manually.
Here is one way to do this:
- On Ubuntu: `sudo apt-get install libghc-haskeline-dev`
- On Fedora: `sudo dnf install ghc-haskeline-devel`
## Installing from source code
### Obtaining
To obtain the source code for the **release**,
download it from [GitHub](https://github.com/GrammaticalFramework/gf-core/releases).
Alternatively, to obtain the **latest version** of the source code:
1. If you haven't already, clone the repository with:
```
git clone https://github.com/GrammaticalFramework/gf-core.git
```
2. If you've already cloned the repository previously, update with:
```
git pull
```
### Installing
You can then install with:
```
cabal install
```
or, if you're a Stack user:
```
stack install
```
<!--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).
## Installing the Python bindings from PyPI
The Python library is available on PyPI as `pgf`, so it can be installed using:
```
pip install pgf
```
If this doesn't work, you will need to install the C runtime manually; see the instructions [here](https://www.grammaticalframework.org/doc/gf-developers.html#toc12).
---
## Installing the RGL from a binary release
Binary releases of the RGL are made available on [GitHub](https://github.com/GrammaticalFramework/gf-rgl/releases).
In general the steps to follow are:
1. Download a binary release and extract it somewhere on your system.
2. Set the environment variable `GF_LIB_PATH` to point to wherever you extracted the RGL.
For more information, see [Using GF on Windows](https://www.grammaticalframework.org/~inari/gf-windows.html) (latest updated for Windows 10).
## Installing the RGL from source
To compile the RGL, you will need to have GF already installed and in your path.
1. Obtain the RGL source code, either by:
- cloning with `git clone https://github.com/GrammaticalFramework/gf-rgl.git`
- downloading a source archive [here](https://github.com/GrammaticalFramework/gf-rgl/archive/master.zip)
2. Run `make` in the source code folder.
For more options, see the [RGL README](https://github.com/GrammaticalFramework/gf-rgl/blob/master/README.md).
---
## Older releases
- [GF 3.11](index-3.11.html) (July 2021)
- [GF 3.10](index-3.10.html) (December 2018)
- [GF 3.9](index-3.9.html) (August 2017)
- [GF 3.8](index-3.8.html) (June 2016)
- [GF 3.7.1](index-3.7.1.html) (October 2015)
- [GF 3.7](index-3.7.html) (June 2015)
- [GF 3.6](index-3.6.html) (June 2014)
- [GF 3.5](index-3.5.html) (August 2013)
- [GF 3.4](index-3.4.html) (January 2013)
- [GF 3.3.3](index-3.3.3.html) (March 2012)
- [GF 3.3](index-3.3.html) (October 2011)
- [GF 3.2.9](index-3.2.9.html) source-only snapshot (September 2011)
- [GF 3.2](index-3.2.html) (December 2010)
- [GF 3.1.6](index-3.1.6.html) (April 2010)

4
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@@ -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-3.12.html">the current version</a> of this page.
</body>
</html>

15
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@@ -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.

37
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@@ -0,0 +1,37 @@
---
title: GF 3.12 Release Notes
date: 08 August 2025
---
## Installation
See the [download page](index-3.12.html).
## What's new
This release adds support for Apple Silicon M1 Mac computers and newer versions of GHC, along with various improvements and bug fixes.
Over 70 commits have been merged to gf-core since the release of GF 3.11 in July 2021.
## General
- Support for ARM, allowing to run GF on Mac computers with Apple Silicon M1
- Support for newer versions of GHC (8.10.7, 9.0.2, 9.2.4, 9.4, 9.6.7)
- Support compiling with Nix
- Better error messages
- Improvements to several GF shell commands
- Several bug fixes and performance improvements
- Temporarily dropped support for Java bindings
## GF compiler and run-time library
- Syntactic sugar for table update: `table {cases ; vvv => t \! vvv}.t` can now be written as `t ** { cases }`
- Adjust the `-view` command depending on the OS
- Improve output of the `visualize_dependencies` (`vd`) command for large dependency trees
- Reintroduce syntactic transfer with `pt -transfer` and fix a bug in `pt -compute`
- Bug fix: apply `gt` to all arguments when piped
- Fix many "Invalid character" messages by always encoding GF files in UTF-8
- Improve performance with long extend-lists
- Improve syntax error messages
- Add support for BIND tokens in the Python bindings
- Allow compilation with emscripten
## Other
- Add support for Visual Studio Code

2
gf-book/examples/chapter2/FoodIta.gf
View File

@@ -2,7 +2,7 @@ concrete FoodIta of Food = {
lincat
Comment, Item, Kind, Quality = Str ;
lin
Pred item quality = item ++ "è" ++ quality ;
Pred item quality = item ++ "è" ++ quality ;
This kind = "questo" ++ kind ;
That kind = "quel" ++ kind ;
Mod quality kind = kind ++ quality ;

2
gf-book/examples/chapter3/ResIta.gf
View File

@@ -32,5 +32,5 @@ resource ResIta = open Prelude in {
in
adjective nero (ner+"a") (ner+"i") (ner+"e") ;
copula : Number => Str =
table {Sg => "è" ; Pl => "sono"} ;
table {Sg => "è" ; Pl => "sono"} ;
}

12
gf-book/examples/chapter5/LexFoodsFin.gf
View File

@@ -8,13 +8,13 @@ instance LexFoodsFin of LexFoods =
cheese_N = mkN "juusto" ;
fish_N = mkN "kala" ;
fresh_A = mkA "tuore" ;
warm_A = mkA
(mkN "lämmin" "lämpimän" "lämmintä" "lämpimänä" "lämpimään"
"lämpiminä" "lämpimiä" "lämpimien" "lämpimissä" "lämpimiin"
)
"lämpimämpi" "lämpimin" ;
warm_A = mkA
(mkN "lämmin" "lämpimän" "lämmintä" "lämpimänä" "lämpimään"
"lämpiminä" "lämpimiä" "lämpimien" "lämpimissä" "lämpimiin"
)
"lämpimämpi" "lämpimin" ;
italian_A = mkA "italialainen" ;
expensive_A = mkA "kallis" ;
delicious_A = mkA "herkullinen" ;
boring_A = mkA "tylsä" ;
boring_A = mkA "tylsä" ;
}

8
gf-book/examples/chapter5/LexFoodsGer.gf
View File

@@ -1,16 +1,16 @@
-- (c) 2009 Aarne Ranta under LGPL
instance LexFoodsGer of LexFoods =
instance LexFoodsGer of LexFoods =
open SyntaxGer, ParadigmsGer in {
oper
wine_N = mkN "Wein" ;
pizza_N = mkN "Pizza" "Pizzen" feminine ;
cheese_N = mkN "Käse" "Käse" masculine ;
cheese_N = mkN "Käse" "Käse" masculine ;
fish_N = mkN "Fisch" ;
fresh_A = mkA "frisch" ;
warm_A = mkA "warm" "wärmer" "wärmste" ;
warm_A = mkA "warm" "wärmer" "wärmste" ;
italian_A = mkA "italienisch" ;
expensive_A = mkA "teuer" ;
delicious_A = mkA "köstlich" ;
delicious_A = mkA "köstlich" ;
boring_A = mkA "langweilig" ;
}

6
gf-book/examples/chapter5/LexFoodsSwe.gf
View File

@@ -7,10 +7,10 @@ instance LexFoodsSwe of LexFoods =
pizza_N = mkN "pizza" ;
cheese_N = mkN "ost" ;
fish_N = mkN "fisk" ;
fresh_A = mkA "färsk" ;
fresh_A = mkA "färsk" ;
warm_A = mkA "varm" ;
italian_A = mkA "italiensk" ;
expensive_A = mkA "dyr" ;
delicious_A = mkA "läcker" ;
boring_A = mkA "tråkig" ;
delicious_A = mkA "läcker" ;
boring_A = mkA "tråkig" ;
}

2
gf-book/examples/chapter7/QueryFin.gf
View File

@@ -6,7 +6,7 @@ concrete QueryFin of Query = {
Odd = pred "pariton" ;
Prime = pred "alkuluku" ;
Number i = i.s ;
Yes = "kyllä" ;
Yes = "kyllä" ;
No = "ei" ;
oper
pred : Str -> Str -> Str = \f,x -> "onko" ++ x ++ f ;

6
gf-book/examples/chapter9/ResIta.gf
View File

@@ -43,10 +43,10 @@ oper
} ;
auxVerb : Aux -> Verb = \a -> case a of {
Avere =>
Avere =>
mkVerb "avere" "ho" "hai" "ha" "abbiamo" "avete" "hanno" "avuto" Avere ;
Essere =>
mkVerb "essere" "sono" "sei" "è" "siamo" "siete" "sono" "stato" Essere
Essere =>
mkVerb "essere" "sono" "sei" "è" "siamo" "siete" "sono" "stato" Essere
} ;
agrPart : Verb -> Agr -> ClitAgr -> Str = \v,a,c -> case v.aux of {

197
gf.cabal
View File

@@ -1,20 +1,24 @@
name: gf
version: 3.10.4-git
version: 3.12.0
cabal-version: >= 1.22
build-type: Custom
cabal-version: 1.22
build-type: Simple
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/
maintainer: John J. Camilleri <john@digitalgrammars.com>
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, GHC==9.0.2, GHC==9.2.4
data-dir: src
extra-source-files: WebSetup.hs
extra-source-files:
README.md
CHANGELOG.md
WebSetup.hs
doc/Logos/gf0.png
data-files:
www/*.html
www/*.css
@@ -40,25 +44,17 @@ data-files:
www/translator/*.css
www/translator/*.js
custom-setup
setup-depends:
base,
Cabal >=1.22.0.0,
directory,
filepath,
process >=1.0.1.1
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
@@ -70,24 +66,29 @@ 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: 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
default-language: Haskell2010
build-depends:
-- GHC 8.0.2 to GHC 8.10.4
array >= 0.5.1 && < 0.6,
base >= 4.9.1 && < 4.22,
bytestring >= 0.10.8 && < 0.12,
containers >= 0.5.7 && < 0.7,
exceptions >= 0.8.3 && < 0.11,
ghc-prim >= 0.5.0 && <= 0.10.0,
mtl >= 2.2.1 && <= 2.3.1,
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:
-- We need this in order for ghc-7.10 to build
transformers-compat >= 0.6.3 && < 0.7,
fail >= 4.9.0 && < 4.10
hs-source-dirs: src/runtime/haskell
other-modules:
@@ -102,7 +103,7 @@ library
--ghc-options: -fwarn-unused-imports
--if impl(ghc>=7.8)
-- ghc-options: +RTS -A20M -RTS
ghc-prof-options: -fprof-auto
-- ghc-prof-options: -fprof-auto
exposed-modules:
PGF
@@ -136,18 +137,29 @@ 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 && <= 1.12.2,
template-haskell >= 2.13.0.0
hs-source-dirs: src/compiler
exposed-modules:
@@ -158,12 +170,19 @@ 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
@@ -178,7 +197,7 @@ 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
@@ -207,7 +226,6 @@ 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
@@ -274,12 +292,17 @@ 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 && <3.2
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 && <3.2
else
build-depends: network<2.6
build-depends:
network >= 2.5 && <3.2
cpp-options: -DSERVER_MODE
other-modules:
@@ -296,7 +319,10 @@ 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
@@ -305,17 +331,30 @@ 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
if impl(ghc >= 9.6.6)
build-depends: unix >= 2.8
else
build-depends: unix >= 2.7.2 && < 2.8
if impl(ghc>=8.2)
ghc-options: -fhide-source-paths
@@ -323,8 +362,10 @@ library
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
@@ -333,25 +374,35 @@ executable gf
if impl(ghc<7.8)
ghc-options: -with-rtsopts=-K64M
ghc-prof-options: -auto-all
-- ghc-prof-options: -auto-all
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
build-depends:
base >= 4.9.1,
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
default-language: Haskell2010

87
index.html
View File

@@ -8,7 +8,7 @@
<meta name="viewport" content="width=device-width, initial-scale=1, shrink-to-fit=no">
<link rel="stylesheet" href="https://stackpath.bootstrapcdn.com/bootstrap/4.1.3/css/bootstrap.min.css" integrity="sha384-MCw98/SFnGE8fJT3GXwEOngsV7Zt27NXFoaoApmYm81iuXoPkFOJwJ8ERdknLPMO" crossorigin="anonymous">
<link rel="stylesheet" href="https://use.fontawesome.com/releases/v5.4.2/css/all.css" integrity="sha384-/rXc/GQVaYpyDdyxK+ecHPVYJSN9bmVFBvjA/9eOB+pb3F2w2N6fc5qB9Ew5yIns" crossorigin="anonymous">
<link rel="stylesheet" href="https://use.fontawesome.com/releases/v5.15.4/css/all.css" crossorigin="anonymous">
<link rel="alternate" href="https://github.com/GrammaticalFramework/gf-core/" title="GF GitHub repository">
</head>
@@ -57,6 +57,7 @@
<li><a href="doc/gf-shell-reference.html">Shell Reference</a></li>
<li><a href="http://www.molto-project.eu/sites/default/files/MOLTO_D2.3.pdf">Best Practices</a> <small>[PDF]</small></li>
<li><a href="https://www.mitpressjournals.org/doi/pdf/10.1162/COLI_a_00378">Scaling Up (Computational Linguistics 2020)</a></li>
<li><a href="https://inariksit.github.io/blog/">GF blog</a></li>
</ul>
<a href="lib/doc/synopsis/index.html" class="btn btn-primary ml-3">
@@ -85,10 +86,22 @@
<div class="col-sm-6 col-md-3 mb-4">
<h3>Contribute</h3>
<ul class="mb-2">
<li><a href="http://groups.google.com/group/gf-dev">Mailing List</a></li>
<li>
<a href="https://discord.gg/EvfUsjzmaz">
<i class="fab fa-discord"></i>
Discord
</a>
</li>
<li>
<a href="https://stackoverflow.com/questions/tagged/gf">
<i class="fab fa-stack-overflow"></i>
Stack Overflow
</a>
</li>
<li><a href="https://groups.google.com/group/gf-dev">Mailing List</a></li>
<li><a href="https://github.com/GrammaticalFramework/gf-core/issues">Issue Tracker</a></li>
<li><a href="//school.grammaticalframework.org/">Summer School</a></li>
<li><a href="doc/gf-people.html">Authors</a></li>
<li><a href="//school.grammaticalframework.org/2020/">Summer School</a></li>
</ul>
<a href="https://github.com/GrammaticalFramework/" class="btn btn-primary ml-3">
<i class="fab fa-github mr-1"></i>
@@ -154,7 +167,7 @@ least one, it may help you to get a first idea of what GF is.
<div class="row">
<div class="col-md-6">
<h2>Applications & Availability</h2>
<h2>Applications & availability</h2>
<p>
GF can be used for building
<a href="//cloud.grammaticalframework.org/translator/">translation systems</a>,
@@ -214,60 +227,50 @@ 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 <a href="https://discord.gg/EvfUsjzmaz">GF server on Discord</a>, where you are welcome to look for help with small questions or just start a general discussion.
</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>.
For bug reports and feature requests, please create an issue in the
<a href="https://github.com/GrammaticalFramework/gf-core/issues">GF Core</a> or
<a href="https://github.com/GrammaticalFramework/gf-rgl/issues">RGL</a> repository.
For programming questions, consider asking them on <a href="https://stackoverflow.com/questions/tagged/gf">Stack Overflow with the <code>gf</code> tag</a>.
If you have a more general question to the community, we recommend you ask it on the <a href="http://groups.google.com/group/gf-dev">mailing list</a>.
</p>
</div>
<div class="col-md-6">
<h2>News</h2>
<dl class="row">
<dt class="col-sm-3 text-center text-nowrap">2025-08-08</dt>
<dd class="col-sm-9">
<strong>GF 3.12 released.</strong>
<a href="download/release-3.12.html">Release notes</a>
</dd>
<dt class="col-sm-3 text-center text-nowrap">2025-01-18</dt>
<dd class="col-sm-9">
<a href="//school.grammaticalframework.org/2025/">9th GF Summer School</a>, in Gothenburg, Sweden, 18 &ndash; 29 August 2025.
</dd>
<dt class="col-sm-3 text-center text-nowrap">2023-01-24</dt>
<dd class="col-sm-9">
<a href="//school.grammaticalframework.org/2023/">8th GF Summer School</a>, in Tampere, Finland, 14 &ndash; 25 August 2023.
</dd>
<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>
<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.
</dd>
<dt class="col-sm-3 text-center text-nowrap">2020-09-29</dt>
<dd class="col-sm-9">
<a href="https://www.mitpressjournals.org/doi/pdf/10.1162/COLI_a_00378">Abstract Syntax as Interlingua</a>: Scaling Up the Grammatical Framework from Controlled Languages to Robust Pipelines. A paper in Computational Linguistics (2020) summarizing much of the development in GF in the past ten years.
</dd>
<dt class="col-sm-3 text-center text-nowrap">2018-12-03</dt>
<dd class="col-sm-9">
<a href="//school.grammaticalframework.org/2018/">Sixth GF Summer School</a> in Stellenbosch (South Africa), 314 December 2018
</dd>
<dt class="col-sm-3 text-center text-nowrap">2018-12-02</dt>
<dd class="col-sm-9">
<strong>GF 3.10 released.</strong>
<a href="download/release-3.10.html">Release notes</a>
</dd>
<dt class="col-sm-3 text-center text-nowrap">2018-07-25</dt>
<dd class="col-sm-9">
The GF repository has been split in two:
<a href="https://github.com/GrammaticalFramework/gf-core">gf-core</a> and
<a href="https://github.com/GrammaticalFramework/gf-rgl">gf-rgl</a>.
The original <a href="https://github.com/GrammaticalFramework/GF">GF</a> repository is now archived.
</dd>
<dt class="col-sm-3 text-center text-nowrap">2017-08-11</dt>
<dd class="col-sm-9">
<strong>GF 3.9 released.</strong>
<a href="download/release-3.9.html">Release notes</a>
</dd>
<dt class="col-sm-3 text-center text-nowrap">2017-06-29</dt>
<dd class="col-sm-9">
GF is moving to <a href="https://github.com/GrammaticalFramework/GF/">GitHub</a>.</dd>
<dt class="col-sm-3 text-center text-nowrap">2017-03-13</dt>
<dd class="col-sm-9">
<a href="//school.grammaticalframework.org/2017/">GF Summer School</a> in Riga (Latvia), 14-25 August 2017
</dd>
</dl>
<h2>Projects</h2>
@@ -337,7 +340,7 @@ least one, it may help you to get a first idea of what GF is.
Libraries are at the heart of modern software engineering. In natural language
applications, libraries are a way to cope with thousands of details involved in
syntax, lexicon, and inflection. The
<a href="lib/doc/synopsis/index.html">GF resource grammar library</a> has
<a href="lib/doc/synopsis/index.html">GF resource grammar library</a> (RGL) has
support for an increasing number of languages, currently including
Afrikaans,
Amharic (partial),

62
src/compiler/GF/Command/Commands.hs
View File

@@ -4,6 +4,7 @@ module GF.Command.Commands (
options,flags,
) where
import Prelude hiding (putStrLn,(<>)) -- GHC 8.4.1 clash with Text.PrettyPrint
import System.Info(os)
import PGF
@@ -21,6 +22,7 @@ import GF.Infra.SIO
import GF.Command.Abstract
import GF.Command.CommandInfo
import GF.Command.CommonCommands
import qualified GF.Command.CommonCommands as Common
import GF.Text.Clitics
import GF.Quiz
@@ -165,14 +167,15 @@ pgfCommands = Map.fromList [
synopsis = "generate random trees in the current abstract syntax",
syntax = "gr [-cat=CAT] [-number=INT]",
examples = [
mkEx "gr -- one tree in the startcat of the current grammar",
mkEx "gr -cat=NP -number=16 -- 16 trees in the category NP",
mkEx "gr -lang=LangHin,LangTha -cat=Cl -- Cl, both in LangHin and LangTha",
mkEx "gr -probs=FILE -- generate with bias",
mkEx "gr (AdjCN ? (UseN ?)) -- generate trees of form (AdjCN ? (UseN ?))"
mkEx $ "gr -- one tree in the startcat of the current grammar, up to depth " ++ Common.default_depth_str,
mkEx "gr -cat=NP -number=16 -- 16 trees in the category NP",
mkEx "gr -cat=NP -depth=2 -- one tree in the category NP, up to depth 2",
mkEx "gr -lang=LangHin,LangTha -cat=Cl -- Cl, both in LangHin and LangTha",
mkEx "gr -probs=FILE -- generate with bias",
mkEx "gr (AdjCN ? (UseN ?)) -- generate trees of form (AdjCN ? (UseN ?))"
],
explanation = unlines [
"Generates a list of random trees, by default one tree.",
"Generates a list of random trees, by default one tree up to depth " ++ Common.default_depth_str ++ ".",
"If a tree argument is given, the command completes the Tree with values to",
"all metavariables in the tree. The generation can be biased by probabilities,",
"given in a file in the -probs flag."
@@ -181,13 +184,13 @@ pgfCommands = Map.fromList [
("cat","generation category"),
("lang","uses only functions that have linearizations in all these languages"),
("number","number of trees generated"),
("depth","the maximum generation depth"),
("depth","the maximum generation depth (default: " ++ Common.default_depth_str ++ ")"),
("probs", "file with biased probabilities (format 'f 0.4' one by line)")
],
exec = getEnv $ \ opts arg (Env pgf mos) -> do
pgf <- optProbs opts (optRestricted opts pgf)
gen <- newStdGen
let dp = valIntOpts "depth" 4 opts
let dp = valIntOpts "depth" Common.default_depth opts
let ts = case mexp (toExprs arg) of
Just ex -> generateRandomFromDepth gen pgf ex (Just dp)
Nothing -> generateRandomDepth gen pgf (optType pgf opts) (Just dp)
@@ -198,28 +201,28 @@ pgfCommands = Map.fromList [
synopsis = "generates a list of trees, by default exhaustive",
explanation = unlines [
"Generates all trees of a given category. By default, ",
"the depth is limited to 4, but this can be changed by a flag.",
"the depth is limited to " ++ Common.default_depth_str ++ ", but this can be changed by a flag.",
"If a Tree argument is given, the command completes the Tree with values",
"to all metavariables in the tree."
],
flags = [
("cat","the generation category"),
("depth","the maximum generation depth"),
("depth","the maximum generation depth (default: " ++ Common.default_depth_str ++ ")"),
("lang","excludes functions that have no linearization in this language"),
("number","the number of trees generated")
],
examples = [
mkEx "gt -- all trees in the startcat, to depth 4",
mkEx "gt -cat=NP -number=16 -- 16 trees in the category NP",
mkEx "gt -cat=NP -depth=2 -- trees in the category NP to depth 2",
mkEx "gt (AdjCN ? (UseN ?)) -- trees of form (AdjCN ? (UseN ?))"
mkEx $ "gt -- all trees in the startcat, to depth " ++ Common.default_depth_str,
mkEx "gt -cat=NP -number=16 -- 16 trees in the category NP",
mkEx "gt -cat=NP -depth=2 -- trees in the category NP to depth 2",
mkEx "gt (AdjCN ? (UseN ?)) -- trees of form (AdjCN ? (UseN ?))"
],
exec = getEnv $ \ opts arg (Env pgf mos) -> do
let pgfr = optRestricted opts pgf
let dp = valIntOpts "depth" 4 opts
let ts = case mexp (toExprs arg) of
Just ex -> generateFromDepth pgfr ex (Just dp)
Nothing -> generateAllDepth pgfr (optType pgf opts) (Just dp)
let dp = valIntOpts "depth" Common.default_depth opts
let ts = case toExprs arg of
[] -> generateAllDepth pgfr (optType pgf opts) (Just dp)
es -> concat [generateFromDepth pgfr e (Just dp) | e <- es]
returnFromExprs $ take (optNumInf opts) ts
}),
("i", emptyCommandInfo {
@@ -427,7 +430,8 @@ pgfCommands = Map.fromList [
"are type checking and semantic computation."
],
examples = [
mkEx "pt -compute (plus one two) -- compute value"
mkEx "pt -compute (plus one two) -- compute value",
mkEx ("p \"the 4 dogs\" | pt -transfer=digits2numeral | l -- \"the four dogs\" ")
],
exec = getEnv $ \ opts arg (Env pgf mos) ->
returnFromExprs . takeOptNum opts . treeOps pgf opts $ toExprs arg,
@@ -545,7 +549,7 @@ pgfCommands = Map.fromList [
"which is processed by dot (graphviz) and displayed by the program indicated",
"by the view flag. The target format is png, unless overridden by the",
"flag -format. Results from multiple trees are combined to pdf with convert (ImageMagick).",
"See also 'vp -showdep' for another visualization of dependencies."
"See also 'vp -showdep' for another visualization of dependencies."
],
exec = getEnv $ \ opts arg (Env pgf mos) -> do
let absname = abstractName pgf
@@ -758,7 +762,7 @@ pgfCommands = Map.fromList [
[] -> [parse_ pgf lang (optType pgf opts) (Just dp) s | lang <- optLangs pgf opts]
open_typs -> [parseWithRecovery pgf lang (optType pgf opts) open_typs (Just dp) s | lang <- optLangs pgf opts]
where
dp = valIntOpts "depth" 4 opts
dp = valIntOpts "depth" Common.default_depth opts
fromParse opts = foldr (joinPiped . fromParse1 opts) void
@@ -798,9 +802,9 @@ pgfCommands = Map.fromList [
_ | isOpt "tabtreebank" opts ->
return $ concat $ intersperse "\t" $ (showExpr [] t) :
[s | lang <- optLangs pgf opts, s <- linear pgf opts lang t]
_ | isOpt "chunks" opts -> map snd $ linChunks pgf opts t
_ | isOpt "chunks" opts -> map snd $ linChunks pgf opts t
_ -> [s | lang <- optLangs pgf opts, s<-linear pgf opts lang t]
linChunks pgf opts t =
linChunks pgf opts t =
[(lang, unwords (intersperse "<+>" (map (unlines . linear pgf opts lang) (treeChunks t)))) | lang <- optLangs pgf opts]
linear :: PGF -> [Option] -> CId -> Expr -> [String]
@@ -882,11 +886,15 @@ pgfCommands = Map.fromList [
Right ty -> ty
Nothing -> error ("Can't parse '"++str++"' as a type")
optViewFormat opts = valStrOpts "format" "png" opts
optViewGraph opts = valStrOpts "view" "open" opts
optViewGraph opts = valStrOpts "view" open_cmd opts
optNum opts = valIntOpts "number" 1 opts
optNumInf opts = valIntOpts "number" 1000000000 opts ---- 10^9
takeOptNum opts = take (optNumInf opts)
open_cmd | os == "linux" = "xdg-open"
| os == "mingw32" = "start"
| otherwise = "open"
returnFromExprs es = return $ case es of
[] -> pipeMessage "no trees found"
_ -> fromExprs es
@@ -1000,13 +1008,13 @@ viewLatex view name grphs = do
restrictedSystem $ "pdflatex " ++ texfile
restrictedSystem $ view ++ " " ++ pdffile
return void
---- copied from VisualizeTree ; not sure about proper place AR Nov 2015
latexDoc :: [String] -> String
latexDoc body = unlines $
"\\batchmode"
: "\\documentclass{article}"
: "\\usepackage[utf8]{inputenc}"
: "\\usepackage[utf8]{inputenc}"
: "\\begin{document}"
: spaces body
++ ["\\end{document}"]
@@ -1022,4 +1030,4 @@ stanzas = map unlines . chop . lines where
#if !(MIN_VERSION_base(4,9,0))
errorWithoutStackTrace = error
#endif
#endif

10
src/compiler/GF/Command/CommonCommands.hs
View File

@@ -15,9 +15,16 @@ 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(..))
-- store default generation depth in a variable and use everywhere
default_depth :: Int
default_depth = 5
default_depth_str = show default_depth
extend old new = Map.union (Map.fromList new) old -- Map.union is left-biased
commonCommands :: (Monad m,MonadSIO m) => Map.Map String (CommandInfo m)
@@ -170,7 +177,8 @@ 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")
],

6
src/compiler/GF/Command/SourceCommands.hs
View File

@@ -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

23
src/compiler/GF/Command/TreeOperations.hs
View File

@@ -5,6 +5,8 @@ module GF.Command.TreeOperations (
) where
import PGF(Expr,PGF,CId,compute,mkApp,unApp,unapply,unMeta,exprSize,exprFunctions)
import PGF.Data(Expr(EApp,EFun))
import PGF.TypeCheck(inferExpr)
import Data.List
type TreeOp = [Expr] -> [Expr]
@@ -16,15 +18,17 @@ allTreeOps :: PGF -> [(String,(String,Either TreeOp (CId -> TreeOp)))]
allTreeOps pgf = [
("compute",("compute by using semantic definitions (def)",
Left $ map (compute pgf))),
("transfer",("apply this transfer function to all maximal subtrees of suitable type",
Right $ \f -> map (transfer pgf f))), -- HL 12/24, modified from gf-3.3
("largest",("sort trees from largest to smallest, in number of nodes",
Left $ largest)),
("nub",("remove duplicate trees",
("nub\t",("remove duplicate trees",
Left $ nub)),
("smallest",("sort trees from smallest to largest, in number of nodes",
Left $ smallest)),
("subtrees",("return all fully applied subtrees (stopping at abstractions), by default sorted from the largest",
Left $ concatMap subtrees)),
("funs",("return all fun functions appearing in the tree, with duplications",
("funs\t",("return all fun functions appearing in the tree, with duplications",
Left $ \es -> [mkApp f [] | e <- es, f <- exprFunctions e]))
]
@@ -48,3 +52,18 @@ subtrees :: Expr -> [Expr]
subtrees t = t : case unApp t of
Just (f,ts) -> concatMap subtrees ts
_ -> [] -- don't go under abstractions
-- Apply transfer function f:C -> D to all maximal subtrees s:C of tree e and replace
-- these s by the values of f(s). This modifies the 'simple-minded transfer' of gf-3.3.
-- If applied to strict subtrees s of e, better use with f:C -> C only. HL 12/2024
transfer :: PGF -> CId -> Expr -> Expr
transfer pgf f e = case inferExpr pgf (appf e) of
Left _err -> case e of
EApp g a -> EApp (transfer pgf f g) (transfer pgf f a)
_ -> e
Right _ty -> case (compute pgf (appf e)) of
v | v /= (appf e) -> v
_ -> e -- default case of f, or f has no computation rule
where
appf = EApp (EFun f)

12
src/compiler/GF/Compile/CFGtoPGF.hs
View File

@@ -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

54
src/compiler/GF/Compile/CheckGrammar.hs
View File

@@ -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" $$
nest 2 vars $$

593
src/compiler/GF/Compile/Compute/Concrete.hs
View File

@@ -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

588
src/compiler/GF/Compile/Compute/ConcreteNew.hs
View File

@@ -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)
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

4
src/compiler/GF/Compile/Compute/Predef.hs
View File

@@ -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

8
src/compiler/GF/Compile/Compute/Value.hs
View File

@@ -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)

16
src/compiler/GF/Compile/GeneratePMCFG.hs
View File

@@ -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]
@@ -201,11 +201,11 @@ instance Fail.MonadFail CnvMonad where
fail = bug
instance Applicative CnvMonad where
pure = return
pure a = CM (\gr c s -> c a s)
(<*>) = ap
instance Monad CnvMonad where
return a = CM (\gr c s -> c a s)
return = pure
CM m >>= k = CM (\gr c s -> m gr (\a s -> unCM (k a) gr c s) s)
instance MonadState ([ProtoFCat],[Symbol]) CnvMonad where
@@ -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

3
src/compiler/GF/Compile/GetGrammar.hs
View File

@@ -42,11 +42,12 @@ getSourceModule opts file0 =
raw <- liftIO $ keepTemp tmp
--ePutStrLn $ "1 "++file0
(optCoding,parsed) <- parseSource opts pModDef raw
let indentLines = unlines . map (" "++) . lines
case parsed of
Left (Pn l c,msg) -> do file <- liftIO $ writeTemp tmp
cwd <- getCurrentDirectory
let location = makeRelative cwd file++":"++show l++":"++show c
raise (location++":\n "++msg)
raise (location++":\n" ++ indentLines msg)
Right (i,mi0) ->
do liftIO $ removeTemp tmp
let mi =mi0 {mflags=mflags mi0 `addOptions` opts, msrc=file0}

2
src/compiler/GF/Compile/GrammarToCanonical.hs
View File

@@ -20,7 +20,7 @@ import GF.Compile.Compute.Value(Predefined(..))
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(GlobalEnv,normalForm,resourceValues)
import GF.Compile.Compute.Concrete(GlobalEnv,normalForm,resourceValues)
import GF.Grammar.Canonical as C
import System.FilePath ((</>), (<.>))
import qualified Debug.Trace as T

16
src/compiler/GF/Compile/Optimize.hs
View File

@@ -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

120
src/compiler/GF/Compile/PGFtoHaskell.hs
View File

@@ -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 }"
]

48
src/compiler/GF/Compile/Rename.hs
View File

@@ -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

16
src/compiler/GF/Compile/TypeCheck/Abstract.hs
View File

@@ -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

365
src/compiler/GF/Compile/TypeCheck/Concrete.hs
View File

@@ -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
-}

70
src/compiler/GF/Compile/TypeCheck/ConcreteNew.hs
View File

@@ -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
@@ -644,7 +644,7 @@ data TcResult a
newtype TcM a = TcM {unTcM :: MetaStore -> [Message] -> TcResult a}
instance Monad TcM where
return x = TcM (\ms msgs -> TcOk x ms msgs)
return = pure
f >>= g = TcM (\ms msgs -> case unTcM f ms msgs of
TcOk x ms msgs -> unTcM (g x) ms msgs
TcFail msgs -> TcFail msgs)
@@ -659,7 +659,7 @@ instance Fail.MonadFail TcM where
instance Applicative TcM where
pure = return
pure x = TcM (\ms msgs -> TcOk x ms msgs)
(<*>) = ap
instance Functor TcM where
@@ -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])])

801
src/compiler/GF/Compile/TypeCheck/RConcrete.hs
View File

@@ -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

88
src/compiler/GF/Compile/TypeCheck/TC.hs
View File

@@ -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)

66
src/compiler/GF/Compile/Update.hs
View File

@@ -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

18
src/compiler/GF/CompileInParallel.hs
View File

@@ -61,11 +61,11 @@ parallelBatchCompile jobs opts rootfiles0 =
usesPresent (_,paths) = take 1 libs==["present"]
where
libs = [p|path<-paths,
let (d,p0) = splitAt n path
p = dropSlash p0,
d==lib_dir,p `elem` all_modes]
n = length lib_dir
libs = [p | path<-paths,
let (d,p0) = splitAt n path
p = dropSlash p0,
d==lib_dir, p `elem` all_modes]
n = length lib_dir
all_modes = ["alltenses","present"]
@@ -175,7 +175,7 @@ batchCompile1 lib_dir (opts,filepaths) =
" from being compiled."
else return (maximum ts,(cnc,gr))
splitEither es = ([x|Left x<-es],[y|Right y<-es])
splitEither es = ([x | Left x<-es], [y | Right y<-es])
canonical path = liftIO $ D.canonicalizePath path `catch` const (return path)
@@ -238,12 +238,12 @@ runCO (CO m) = do (o,x) <- m
instance Functor m => Functor (CollectOutput m) where
fmap f (CO m) = CO (fmap (fmap f) m)
instance (Functor m,Monad m) => Applicative (CollectOutput m) where
pure = return
instance (Functor m,Monad m) => Applicative (CollectOutput m) where
pure x = CO (return (return (),x))
(<*>) = ap
instance Monad m => Monad (CollectOutput m) where
return x = CO (return (return (),x))
return = pure
CO m >>= f = CO $ do (o1,x) <- m
let CO m2 = f x
(o2,y) <- m2

30
src/compiler/GF/Data/BacktrackM.hs
View File

@@ -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
@@ -64,13 +64,13 @@ finalStates :: BacktrackM s () -> s -> [s]
finalStates bm = map fst . runBM bm
instance Applicative (BacktrackM s) where
pure = return
pure a = BM (\c s b -> c a s b)
(<*>) = ap
instance Monad (BacktrackM s) where
return a = BM (\c s b -> c a s b)
return = pure
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

4
src/compiler/GF/Data/ErrM.hs
View File

@@ -34,7 +34,7 @@ fromErr :: a -> Err a -> a
fromErr a = err (const a) id
instance Monad Err where
return = Ok
return = pure
Ok a >>= f = f a
Bad s >>= f = Bad s
@@ -54,7 +54,7 @@ instance Functor Err where
fmap f (Bad s) = Bad s
instance Applicative Err where
pure = return
pure = Ok
(<*>) = ap
-- | added by KJ

20
src/compiler/GF/Data/Graph.hs
View File

@@ -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]

28
src/compiler/GF/Data/Graphviz.hs
View File

@@ -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

66
src/compiler/GF/Data/Operations.hs
View File

@@ -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))

18
src/compiler/GF/Data/Relation.hs
View File

@@ -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

10
src/compiler/GF/Data/Utilities.hs
View File

@@ -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

22
src/compiler/GF/Grammar/Canonical.hs
View File

@@ -45,12 +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)
@@ -60,7 +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]
@@ -74,9 +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
@@ -107,7 +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)
--------------------------------------------------------------------------------
@@ -250,7 +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
@@ -265,7 +265,7 @@ instance PPA LinPattern where
ParamPattern pv -> ppA pv
RecordPattern r -> block r
TuplePattern ps -> "<"<>punctuate "," ps<>">"
WildPattern -> pp "_"
WildPattern -> pp "_"
instance RhsSeparator LinPattern where rhsSep _ = pp "="

19
src/compiler/GF/Grammar/Grammar.hs
View File

@@ -78,6 +78,7 @@ import PGF.Internal (FId, FunId, SeqId, LIndex, Sequence, BindType(..))
import Data.Array.IArray(Array)
import Data.Array.Unboxed(UArray)
import qualified Data.Map as Map
import qualified Data.Set as Set
import GF.Text.Pretty
@@ -125,10 +126,20 @@ extends :: ModuleInfo -> [ModuleName]
extends = map fst . mextend
isInherited :: MInclude -> Ident -> Bool
isInherited c i = case c of
MIAll -> True
MIOnly is -> elem i is
MIExcept is -> notElem i is
isInherited c =
case c of
MIAll -> const True
MIOnly is -> elemOrd is
MIExcept is -> not . elemOrd is
-- | Faster version of `elem`, using a `Set`.
-- Make sure you give this the first argument _outside_ of the inner loop
--
-- Example:
-- > myIntersection xs ys = filter (elemOrd xs) ys
elemOrd :: Ord a => [a] -> a -> Bool
elemOrd list = (`Set.member` set)
where set = Set.fromList list
inheritAll :: ModuleName -> (ModuleName,MInclude)
inheritAll i = (i,MIAll)

17
src/compiler/GF/Grammar/Lexer.x
View File

@@ -4,7 +4,7 @@
module GF.Grammar.Lexer
( Token(..), Posn(..)
, P, runP, runPartial, token, lexer, getPosn, failLoc
, isReservedWord
, isReservedWord, invMap
) where
import Control.Applicative
@@ -134,7 +134,7 @@ data Token
| T_Double Double -- double precision float literals
| T_Ident Ident
| T_EOF
-- deriving Show -- debug
deriving (Eq, Ord, Show) -- debug
res = eitherResIdent
eitherResIdent :: (Ident -> Token) -> Ident -> Token
@@ -224,6 +224,13 @@ resWords = Map.fromList
]
where b s t = (identS s, t)
invMap :: Map.Map Token String
invMap = res
where
lst = Map.toList resWords
flp = map (\(k,v) -> (v,showIdent k)) lst
res = Map.fromList flp
unescapeInitTail :: String -> String
unescapeInitTail = unesc . tail where
unesc s = case s of
@@ -267,7 +274,7 @@ 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 }
@@ -276,11 +283,11 @@ instance Functor P where
fmap = liftA
instance Applicative P where
pure = return
pure a = a `seq` (P $ \s -> POk s a)
(<*>) = ap
instance Monad P where
return a = a `seq` (P $ \s -> POk s a)
return = pure
(P m) >>= k = P $ \ s -> case m s of
POk s a -> unP (k a) s
PFailed posn err -> PFailed posn err

26
src/compiler/GF/Grammar/Lookup.hs
View File

@@ -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),

18
src/compiler/GF/Grammar/Parser.y
View File

@@ -37,6 +37,9 @@ import PGF(mkCId)
%name pBNFCRules ListCFRule
%name pEBNFRules ListEBNFRule
%errorhandlertype explist
%error { happyError }
-- no lexer declaration
%monad { P } { >>= } { return }
%lexer { lexer } { T_EOF }
@@ -430,6 +433,7 @@ Exp3
RecType xs -> RecType (xs ++ [(tupleLabel (length xs+1),$3)])
t -> RecType [(tupleLabel 1,$1), (tupleLabel 2,$3)] }
| Exp3 '**' Exp4 { ExtR $1 $3 }
| Exp3 '**' '{' ListCase '}' { let v = identS "$vvv" in T TRaw ($4 ++ [(PV v, S $1 (Vr v))]) }
| Exp4 { $1 }
Exp4 :: { Term }
@@ -701,8 +705,18 @@ Posn
{
happyError :: P a
happyError = fail "syntax error"
happyError :: (Token, [String]) -> P a
happyError (t,strs) = fail $
"Syntax error:\n Unexpected " ++ showToken t ++ ".\n Expected one of:\n"
++ unlines (map ((" - "++).cleanupToken) strs)
where
cleanupToken "Ident" = "an identifier"
cleanupToken x = x
showToken (T_Ident i) = "identifier '" ++ showIdent i ++ "'"
showToken t = case Map.lookup t invMap of
Nothing -> show t
Just s -> "token '" ++ s ++"'"
mkListId,mkConsId,mkBaseId :: Ident -> Ident
mkListId = prefixIdent "List"

33
src/compiler/GF/Grammar/PatternMatch.hs
View File

@@ -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 []

729
src/compiler/GF/Grammar/Printer.hs
View File

@@ -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)

19
src/compiler/GF/Grammar/Values.hs
View File

@@ -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

25
src/compiler/GF/Infra/BuildInfo.hs
View File

@@ -1,13 +1,34 @@
{-# LANGUAGE CPP #-}
{-# LANGUAGE TemplateHaskell #-}
module GF.Infra.BuildInfo where
import System.Info
import Data.Version(showVersion)
import Language.Haskell.TH.Syntax
import Control.Monad.IO.Class
import Control.Exception
import Data.Time hiding (buildTime)
import System.Process
-- Use Template Haskell to get compile time
buildTime :: String
buildTime = $(do
timeZone <- liftIO getCurrentTimeZone
time <- liftIO $ utcToLocalTime timeZone <$> getCurrentTime
return $ LitE $ StringL $ formatTime defaultTimeLocale "%F %T" time )
-- Use Template Haskell to get current Git information
gitInfo :: String
gitInfo = $(do
info <- liftIO $ try $ readProcess "git" ["log", "--format=commit %h tag %(describe:tags=true)", "-1"] "" :: Q (Either SomeException String)
return $ LitE $ StringL $ either (\_ -> "unavailable") id info )
{-# NOINLINE buildInfo #-}
buildInfo =
"Built on "++os++"/"++arch
++" with "++compilerName++"-"++showVersion compilerVersion
++", flags:"
++" with "++compilerName++"-"++showVersion compilerVersion ++ " at " ++ buildTime ++ "\nGit info: " ++ gitInfo
++"\nFlags:"
#ifdef USE_INTERRUPT
++" interrupt"
#endif

16
src/compiler/GF/Infra/CheckM.hs
View File

@@ -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
@@ -48,7 +48,7 @@ newtype Check a
instance Functor Check where fmap = liftM
instance Monad Check where
return x = Check $ \{-ctxt-} ws -> (ws,Success x)
return = pure
f >>= g = Check $ \{-ctxt-} ws ->
case unCheck f {-ctxt-} ws of
(ws,Success x) -> unCheck (g x) {-ctxt-} ws
@@ -58,7 +58,7 @@ instance Fail.MonadFail Check where
fail = raise
instance Applicative Check where
pure = return
pure x = Check $ \{-ctxt-} ws -> (ws,Success x)
(<*>) = ap
instance ErrorMonad Check where
@@ -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 ()

104
src/compiler/GF/Infra/Option.hs
View File

@@ -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

4
src/compiler/GF/Infra/SIO.hs
View File

@@ -52,11 +52,11 @@ newtype SIO a = SIO {unS::PutStr->IO a}
instance Functor SIO where fmap = liftM
instance Applicative SIO where
pure = return
pure x = SIO (const (pure x))
(<*>) = ap
instance Monad SIO where
return x = SIO (const (return x))
return = pure
SIO m1 >>= xm2 = SIO $ \ h -> m1 h >>= \ x -> unS (xm2 x) h
instance Fail.MonadFail SIO where

9
src/compiler/GF/Interactive.hs
View File

@@ -32,15 +32,17 @@ import qualified Text.ParserCombinators.ReadP as RP
import System.Directory({-getCurrentDirectory,-}getAppUserDataDirectory)
import Control.Exception(SomeException,fromException,evaluate,try)
import Control.Monad.State hiding (void)
import Control.Monad (join, when, (<=<))
import qualified GF.System.Signal as IO(runInterruptibly)
#ifdef SERVER_MODE
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
#if !(MIN_VERSION_base(4,9,0))
-- Needed to make it compile on GHC < 8
import Control.Monad.Trans.Instances ()
#endif
-- | Run the GF Shell in quiet mode (@gf -run@).
mainRunGFI :: Options -> [FilePath] -> IO ()
@@ -56,6 +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
#ifdef SERVER_MODE
@@ -433,7 +436,7 @@ 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

15
src/compiler/GF/Interactive2.hs
View File

@@ -12,7 +12,7 @@ import GF.Command.Abstract
import GF.Command.Parse(readCommandLine,pCommand)
import GF.Data.Operations (Err(..))
import GF.Data.Utilities(whenM,repeatM)
import Control.Monad (join, when, (<=<))
import GF.Infra.UseIO(ioErrorText,putStrLnE)
import GF.Infra.SIO
import GF.Infra.Option
@@ -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

14
src/compiler/GF/Main.hs
View File

@@ -16,18 +16,21 @@ import Data.Version
import System.Directory
import System.Environment (getArgs)
import System.Exit
import GF.System.Console (setConsoleEncoding)
import GHC.IO.Encoding
-- 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
setLocaleEncoding utf8
-- 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
@@ -43,9 +46,12 @@ 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
ModeVersion -> do datadir <- getDataDir
putStrLn $ "Grammatical Framework (GF) version " ++ showVersion version ++ "\n" ++
buildInfo ++ "\n" ++
"Shared folder: " ++ datadir
ModeHelp -> putStrLn helpMessage
ModeServer port -> GFI1.mainServerGFI opts port files
ModeCompiler -> mainGFC opts files

110
src/compiler/GF/Speech/FiniteState.hs
View File

@@ -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

6
src/compiler/GF/Speech/GSL.hs
View File

@@ -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

7
src/compiler/GF/Speech/JSGF.hs
View File

@@ -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

16
src/compiler/GF/Speech/PGFToCFG.hs
View File

@@ -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 _ = []

50
src/compiler/GF/Speech/SRG.hs
View File

@@ -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

11
src/compiler/GF/Speech/SRGS_ABNF.hs
View File

@@ -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

24
src/compiler/GF/Speech/SRGS_XML.hs
View File

@@ -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

2
src/compiler/GF/Text/Coding.hs
View File

@@ -38,7 +38,7 @@ decodeUnicode :: TextEncoding -> ByteString -> String
decodeUnicode enc bs = unsafePerformIO $ decodeUnicodeIO enc bs
decodeUnicodeIO enc (PS fptr l len) = do
let bbuf = Buffer{bufRaw=fptr, bufState=ReadBuffer, bufSize=len, bufL=l, bufR=l+len}
let bbuf = (emptyBuffer fptr len ReadBuffer) { bufL=l, bufR=l+len }
cbuf <- newCharBuffer 128 WriteBuffer
case enc of
TextEncoding {mkTextDecoder=mk} -> do decoder <- mk

132
src/compiler/GF/Text/Transliterations.hs
View File

@@ -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

8
src/compiler/SimpleEditor/Syntax.hs
View File

@@ -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

2
src/programs/gf-main.hs
View File

@@ -1,3 +1,5 @@
module Main where
import qualified GF
main = GF.main

9
src/runtime/c/INSTALL
View File

@@ -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
@@ -41,7 +44,7 @@ $ make install
For Windows users
-----------------
- Install MinGW: http://www.mingw.org/. From the installer you need
- Install MinGW: http://www.mingw-w64.org/. From the installer you need
to select at least the following packages:
- Mingw-developer-toolkit
- Mingw-base
@@ -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

5
src/runtime/c/configure.ac
View File

@@ -30,6 +30,7 @@ AM_PROG_CC_C_O
-Wall\
-Wextra\
-Wno-missing-field-initializers\
-fpermissive\
-Wno-unused-parameter\
-Wno-unused-value"
fi]
@@ -43,8 +44,10 @@ case "$target_cpu" in
[Define if lightning is targeting the sparc architecture]) ;;
powerpc) cpu=ppc; AC_DEFINE(LIGHTNING_PPC, 1,
[Define if lightning is targeting the powerpc architecture]) ;;
arm*) cpu=arm; AC_DEFINE(LIGHTNING_ARM, 1,
arm*) cpu=arm; AC_DEFINE(LIGHTNING_ARM, 1,
[Define if lightning is targeting the arm architecture]) ;;
aarch64) cpu=aarch64; AC_DEFINE(LIGHTNING_AARCH64, 1,
[Define if lightning is targeting the aarch64 architecture]) ;;
*) AC_MSG_ERROR([cpu $target_cpu not supported]) ;;
esac

6
src/runtime/c/gu/fun.h
View File

@@ -12,17 +12,17 @@ typedef void (*GuFn2)(GuFn* clo, void* arg1, void* arg2);
static inline void
gu_apply0(GuFn* fn) {
(*fn)(fn);
((GuFn0)(*fn))(fn);
}
static inline void
gu_apply1(GuFn* fn, void* arg1) {
(*fn)(fn, arg1);
((GuFn1)(*fn))(fn, arg1);
}
static inline void
gu_apply2(GuFn* fn, void* arg1, void* arg2) {
(*fn)(fn, arg1, arg2);
((GuFn2)(*fn))(fn, arg1, arg2);
}
#define gu_apply(fn_, ...) \

3
src/runtime/c/install.sh Executable file
View File

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

41
src/runtime/c/pgf/jit.c
View File

@@ -4,10 +4,49 @@
#include <pgf/data.h>
#include <pgf/reasoner.h>
#include <pgf/reader.h>
#if !defined(__aarch64__)
#include "lightning.h"
#endif
//#define PGF_JIT_DEBUG
#if defined(EMSCRIPTEN) || defined(__aarch64__)
PGF_INTERNAL PgfJitState*
pgf_new_jit(PgfReader* rdr)
{
return NULL;
}
PGF_INTERNAL PgfEvalGates*
pgf_jit_gates(PgfReader* rdr)
{
PgfEvalGates* gates = gu_new(PgfEvalGates, rdr->opool);
memset(gates, 0, sizeof(*gates));
return gates;
}
PGF_INTERNAL void
pgf_jit_predicate(PgfReader* rdr, PgfAbstr* abstr,
PgfAbsCat* abscat)
{
size_t n_funs = pgf_read_len(rdr);
gu_return_on_exn(rdr->err, );
for (size_t i = 0; i < n_funs; i++) {
gu_in_f64be(rdr->in, rdr->err); // ignore
gu_return_on_exn(rdr->err,);
pgf_read_cid(rdr, rdr->tmp_pool);
}
}
PGF_INTERNAL void
pgf_jit_done(PgfReader* rdr, PgfAbstr* abstr)
{
}
#else
struct PgfJitState {
jit_state jit;
@@ -1329,3 +1368,5 @@ pgf_jit_done(PgfReader* rdr, PgfAbstr* abstr)
jit_flush_code(rdr->jit_state->buf, jit_get_ip().ptr);
}
#endif

1
src/runtime/c/pgf/lightning/aarch64/asm.h Normal file
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@@ -0,0 +1 @@
// DUMMY

1
src/runtime/c/pgf/lightning/aarch64/core.h Normal file
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@@ -0,0 +1 @@

1
src/runtime/c/pgf/lightning/aarch64/fp.h Normal file
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@@ -0,0 +1 @@

1
src/runtime/c/pgf/lightning/aarch64/funcs.h Normal file
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@@ -0,0 +1 @@
// DUMMY

44
src/runtime/c/pgf/parser.c
View File

@@ -44,6 +44,7 @@ typedef struct {
PgfParseState *before;
PgfParseState *after;
PgfToken prefix;
bool prefix_bind;
PgfTokenProb* tp;
PgfExprEnum en; // enumeration for the generated trees/tokens
#ifdef PGF_COUNTS_DEBUG
@@ -1009,6 +1010,7 @@ pgf_new_parse_state(PgfParsing* ps, size_t start_offset,
(start_offset == end_offset);
state->start_offset = start_offset;
state->end_offset = end_offset;
state->viterbi_prob = viterbi_prob;
state->lexicon_idx =
gu_new_buf(PgfLexiconIdxEntry, ps->pool);
@@ -1381,20 +1383,30 @@ pgf_parsing_symbol(PgfParsing* ps, PgfItem* item, PgfSymbol sym)
break;
}
case PGF_SYMBOL_BIND: {
if (ps->before->start_offset == ps->before->end_offset &&
ps->before->needs_bind) {
PgfParseState* state =
pgf_new_parse_state(ps, ps->before->end_offset, BIND_HARD,
item->inside_prob+item->conts->outside_prob);
if (state != NULL) {
pgf_item_advance(item, ps->pool);
gu_buf_heap_push(state->agenda, pgf_item_prob_order, &item);
} else {
pgf_item_free(ps, item);
}
} else {
pgf_item_free(ps, item);
}
if (!ps->prefix_bind && ps->prefix != NULL && *(ps->sentence + ps->before->end_offset) == 0) {
PgfProductionApply* papp = gu_variant_data(item->prod);
ps->tp = gu_new(PgfTokenProb, ps->out_pool);
ps->tp->tok = NULL;
ps->tp->cat = item->conts->ccat->cnccat->abscat->name;
ps->tp->fun = papp->fun->absfun->name;
ps->tp->prob = item->inside_prob + item->conts->outside_prob;
} else {
if (ps->before->start_offset == ps->before->end_offset &&
ps->before->needs_bind) {
PgfParseState* state =
pgf_new_parse_state(ps, ps->before->end_offset, BIND_HARD,
item->inside_prob+item->conts->outside_prob);
if (state != NULL) {
pgf_item_advance(item, ps->pool);
gu_buf_heap_push(state->agenda, pgf_item_prob_order, &item);
} else {
pgf_item_free(ps, item);
}
} else {
pgf_item_free(ps, item);
}
}
break;
}
case PGF_SYMBOL_SOFT_BIND:
@@ -2337,7 +2349,8 @@ pgf_parser_completions_next(GuEnum* self, void* to, GuPool* pool)
PGF_API GuEnum*
pgf_complete(PgfConcr* concr, PgfType* type, GuString sentence,
GuString prefix, GuExn *err, GuPool* pool)
GuString prefix, bool prefix_bind,
GuExn *err, GuPool* pool)
{
if (concr->sequences == NULL ||
concr->cnccats == NULL) {
@@ -2377,6 +2390,7 @@ pgf_complete(PgfConcr* concr, PgfType* type, GuString sentence,
// Now begin enumerating the completions
ps->en.next = pgf_parser_completions_next;
ps->prefix = prefix;
ps->prefix_bind = prefix_bind;
ps->tp = NULL;
return &ps->en;
}

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