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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
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msyds:majestic msyds:try-to-build-python-module-for-win msyds:master 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

194 Commits
GF-3.10 ... compact-pg

Author SHA1 Message Date
krangelov
320ead943c Merge branch 'c-runtime' into compact-pgf 2019-09-20 14:08:30 +02:00
krangelov
c119d5e34b silence encoding error 2019-09-20 14:07:07 +02:00
krangelov
529635e0e9 Merge branch 'c-runtime' into compact-pgf 2019-09-20 11:22:15 +02:00
krangelov
a33a84df3d funnel the generated byte code to the runtime 2019-09-20 11:18:17 +02:00
krangelov
9e3512db81 Merge branch 'c-runtime' into compact-pgf 2019-09-20 10:55:23 +02:00
krangelov
8a419f66a6 Merge branch 'master' into c-runtime 2019-09-20 10:52:40 +02:00
krangelov
29662350dc removed more dead code 2019-09-20 10:49:29 +02:00
krangelov
a27bcb8092 Merge branch 'master' into c-runtime 2019-09-20 10:42:50 +02:00
krangelov
4d79aa8b19 remove obsolete code 2019-09-20 10:37:50 +02:00
krangelov
e989cc69a2 compute the parameter indices 2019-09-20 09:49:46 +02:00
krangelov
5c5af8df79 Merge branch 'c-runtime' into compact-pgf 2019-09-20 08:10:46 +02:00
krangelov
084b345663 added option to show the probabilities of results 2019-09-20 08:09:54 +02:00
krangelov
400aad1d07 Merge branch 'c-runtime' into compact-pgf 2019-09-20 07:19:47 +02:00
krangelov
a0cfe09e09 added option -number to limit the number of parse results 2019-09-20 07:18:58 +02:00
krangelov
12912299be added extra integer to store the offset of a parameter constructor 2019-09-19 22:53:07 +02:00
krangelov
b3c07d45b9 remove the old Haskell runtime 2019-09-19 22:40:40 +02:00
krangelov
acb70ccc1b cleanup 2019-09-19 22:30:08 +02:00
krangelov
4a71464ca7 Merge with master and drop the Haskell runtime completely 2019-09-19 22:01:57 +02:00
krangelov
e993ae59f8 drop the haskell runtime, part 2 2019-09-19 10:06:06 +02:00
krangelov
f12557acf8 remove the dependency to the Haskell runtime completely 2019-09-19 10:03:04 +02:00
Thomas Hallgren
9d3badd8b2 GrammarToCanonical: bug fix: add missing case for Empty 2019-09-10 12:41:16 +02:00
krangelov
e2ddea6c7d first version of a parser which returns chunks in case of failure 2019-08-30 13:31:57 +02:00
krangelov
59a6e3cfdd fix gu_map_next 2019-08-30 13:31:19 +02:00
krangelov
1e8d684f9a Merge branch 'master' of https://github.com/GrammaticalFramework/gf-core 2019-08-30 08:12:52 +02:00
krangelov
72cfc1f48a a more reasonable API to iterate over a map 2019-08-30 08:12:15 +02:00
John J. Camilleri
724bf67295 Update Stack files after testing with Stack v2 
- Also bump up some minor GHC versions (8.4.3 -> 8.4.4, 8.6.2 -> 8.6.5)
- Should still work with Stack < v2 (tested in docker/haskell:8.2.2)
 2019-08-28 10:57:21 +02:00
Thomas Hallgren
a7a592d93e Merge branch 'master' of https://github.com/GrammaticalFramework/gf-core 2019-08-21 14:33:30 +02:00
Thomas Hallgren
d1bb1de87f Minibar: support for links to open a given grammar in the minibar 
When you press the "i" or "More info" button for a grammar, the info now
includes a link that can be used by anyone to open this specific grammar in
the minibar.
 2019-08-21 14:27:56 +02:00
krangelov
394d033d19 added gu_map_delete 2019-08-20 18:55:36 +02:00
krangelov
cb678dfdc8 fix packages 2019-08-18 09:37:55 +02:00
krangelov
4161bbf0ec fix reference to FastCGIUtils 2019-08-18 09:12:30 +02:00
krangelov
148590927c remove obsolete code 2019-08-18 09:09:40 +02:00
krangelov
85a81ef741 Merge branch 'master' of https://github.com/GrammaticalFramework/gf-core 2019-08-09 15:18:27 +02:00
krangelov
3e662475ee bugfix in the parser's scanner 2019-08-09 15:15:30 +02:00
Thomas Hallgren
b77626b802 debian/rules: fix two build problems 2019-08-07 20:15:28 +02:00
Thomas Hallgren
12f2520b3c Download page: add binary package for Raspbian 10 2019-08-07 19:02:27 +02:00
Thomas Hallgren
941b4ddf1f GF home page: fix some links smoother operation over https 2019-08-07 14:07:47 +02:00
John J. Camilleri
85f12a5544 Remove wrong Haddock comment in PGF2 
Clearly just a copy-paste error
 2019-08-07 12:52:17 +02:00
Thomas Hallgren
81362ed7b7 Minibar can now display grammar documentation. 
The documentation is taken from a file called Grammar.pgf_info, located
next to the Grammar.pgf file on the server.

The first line of the documentation is displayed below the menu bar in
the minibar. The rest of the documentation is displayed when you press
the "More info" button (or the "i" button).

The documentation can contain HTML markup. Blank lines are treated as
paragraph breaks.
 2019-08-05 15:25:29 +02:00
John J. Camilleri
12079550f8 Remove TypeScript runtime and point to new repository 
https://github.com/GrammaticalFramework/gf-typescript
 2019-07-11 09:29:49 +02:00
John J. Camilleri
1ceb8c0342 Merge pull request #45 from GrammaticalFramework/pgf2json 
Add export to PGF JSON format
 2019-07-10 19:32:49 +02:00
John J. Camilleri
eab9fb88aa Minor renamings in JSON format 2019-07-10 08:49:00 +02:00
John J. Camilleri
acd4a5e8cd Address @heatherleaf's suggestions 2019-07-10 08:45:23 +02:00
John J. Camilleri
a4b1fb03aa Whitespace fixes 2019-07-07 17:38:07 +02:00
John J. Camilleri
cb88b56016 Finish compile to PGF JSON, including JSON schema for resulting format. 2019-07-07 17:35:31 +02:00
John J. Camilleri
ecf9b41db0 Finish JSON conversion for abstract 2019-07-03 16:34:07 +02:00
John J. Camilleri
c5a75c482c Start work on PGFtoJSON module. Add compiler flag -f json. 2019-07-03 15:07:31 +02:00
krangelov
32379a8d11 fully supported case-insensitive parsing/lookup 2019-06-30 08:48:23 +02:00
krangelov
b56591c6b6 the parser now ensures that all word senses are in the chart 2019-06-25 12:58:28 +02:00
krangelov
b94bb50ec9 fix in gu_buf_heap_pop 2019-06-24 12:27:36 +02:00
krangelov
e2395335cb Merge branch 'master' of https://github.com/GrammaticalFramework/gf-core 2019-06-24 12:14:15 +02:00
krangelov
2d9478b973 share some code for printing 2019-06-24 12:13:14 +02:00
John J. Camilleri
17e3f753fb gflib.ts: put warning on console when function undefined 2019-06-13 14:43:21 +02:00
John J. Camilleri
498ad572ac gflib.ts: fix in annotation when type is unknown 2019-06-13 14:12:53 +02:00
John J. Camilleri
bc61f8c191 gflib.ts: generate source map, which is helpful for debugging 2019-06-13 13:53:58 +02:00
John J. Camilleri
d252cfd610 gflib.ts: handled unimplemented functions during linearisation 2019-06-13 10:31:49 +02:00
John J. Camilleri
46a1bdc7ea gflib.ts: also accept U+00C0-U+00FF (\192-\255) in idents in parseTree 
Matches definition in src/compiler/GF/Grammar/Lexer.x
 2019-06-12 15:28:25 +02:00
John J. Camilleri
18d0e1fad0 gflb.ts: add comments about startsWith polyfill, making into module 2019-06-12 09:51:27 +02:00
John J. Camilleri
ab94e93b94 Avoid modifying String prototype in TypeScript runtime 
Adds new class TaggedString
 2019-06-10 11:39:31 +02:00
John J. Camilleri
a229507392 Use strict mode in TypeScript, catch some more corner cases 2019-06-10 11:14:14 +02:00
John J. Camilleri
6a9c917b29 TypeScript readme 2019-06-10 10:19:43 +02:00
John J. Camilleri
9ba4a42426 Add generated gflib.js under typescript/js. Add deprecation notice in javascript. 2019-06-10 10:15:03 +02:00
John J. Camilleri
bbd1c9147a Catch for when rules are undefined 2019-06-10 09:48:44 +02:00
John J. Camilleri
4793d376d9 Create copies when tagging 
Not sure if this behaviour is identical to previous version,
or in truth how important it really is anyway
 2019-06-10 09:45:04 +02:00
John J. Camilleri
63606fd2d0 Minor indentation fixes in gflib.js 
Despite it being deprecated 🙈
 2019-06-10 09:29:43 +02:00
John J. Camilleri
d6a1e87f4a Support for pre in gflib.ts. Some type annotation fixes. 2019-06-07 21:17:41 +02:00
John J. Camilleri
ffcdaa921f Porting of JS runtime to TypeScript (gflib.ts) complete 2019-06-07 13:58:23 +02:00
John J. Camilleri
f2e03bfc51 Remove type definitions gflib.d.ts which contained many errors and now obsolete 2019-06-07 10:07:23 +02:00
John J. Camilleri
c89656f3ee More type fixes in gflib.ts after setting noImplicitAny 2019-06-07 10:06:19 +02:00
John J. Camilleri
c9b4318e9e Clean up whitespace in [old] gflib.js 2019-06-07 09:34:13 +02:00
John J. Camilleri
1e43e7be4b Fix all type errs in gflib.ts except tagging ones. Add TS/eslint configs. 
gflib.js required changing the String prototype which I'm not sure I want to do here
 2019-06-07 09:33:24 +02:00
John J. Camilleri
44261b7582 More progress on gflib.ts 
All code has been copied from gflib.js but there are many type errors
yet to be resolved
 2019-06-05 10:23:27 +02:00
John J. Camilleri
b980bce334 Add gflib.ts, a port of JS runtime gflib.js into TypeScript (WIP) 2019-06-04 15:16:17 +02:00
John J. Camilleri
bd7753db1a Update TypeScript definitions for gflib.js 
Still not 100% tested: best solution will really be to rewrite
gflib.js in TypeScript and at the same time use ES modules
 2019-05-29 14:43:28 +02:00
krangelov
8c18d7162f bits of documentation 2019-05-28 12:59:07 +02:00
krangelov
ac039ec74f filter out empty cohorts 2019-05-28 12:42:59 +02:00
krangelov
9f0ea19a1c API for scanning for cohorts in an arbitrary text 2019-05-28 12:26:00 +02:00
krangelov
8df2121650 Merge branch 'master' of https://github.com/GrammaticalFramework/gf-core 2019-05-27 09:06:11 +02:00
krangelov
8b9719bd2d remove duplicate definition for RecordCompare 2019-05-27 09:05:41 +02:00
Aarne Ranta
b7249adf63 reordered error message for 'no overload'; might be even better to show complete types 2019-05-20 15:58:47 +02:00
John J. Camilleri
7a3efdfeb9 Update link to RGL tutorial (now HTML version) 2019-05-20 10:36:35 +02:00
Thomas Hallgren
86066d4b12 Eliminate the dependency on time-compat 
It was only needed for compatibility with directory<1.2, but
directory>=1.2 has been shipped with ghc since ghc-7.6.

Note: time-compat-1.9.* (the current version) is a completely different
package, that does not provide the needed function toUTCTime, which
was provided in time-compat-0.1.*.
 2019-05-15 12:05:38 +02:00
John J. Camilleri
af62a99bf5 update_html rewrites anchors which Pandoc 1.16 doesn't process 
See #43
 2019-05-06 08:45:07 +02:00
John J. Camilleri
ac1f304722 Merge pull request #42 from gear0/master 
corrected some minor typos in reference manual
 2019-05-06 08:11:02 +02:00
gear0
92720b92a4 corrected some minor typos in reference manual 2019-05-05 12:09:31 +02:00
Inari Listenmaa
078440ffbf Merge pull request #41 from inariksit/js-doc 
(doc) Update path to gflib.js
 2019-05-03 18:54:06 +02:00
Inari Listenmaa
68919a5e42 (doc) Update path to gflib.js 2019-05-03 18:53:28 +02:00
Thomas Hallgren
a5a019a124 runtime/javascript: use a grammar.js with two langauges 
grammar.js contained only one langauge: FoodsEng. Now it contains
FoodsEng and FoodsIta, similar to what's shown in the gf-tutorial.
The grammar comes from gf-contrib/tutorial/foods.
 2019-05-03 15:19:19 +02:00
Thomas Hallgren
61fe167392 gf-tutorial: fix link to JavaScript translator demo 
After fixing trivial problem in translator.html, the demo works, but
the example grammar contains only one langauge, so it is not so
interesting. translator.html is located in src/runtime/javascript.
The editor.html in the same location also works.
 2019-05-03 14:52:28 +02:00
Aarne Ranta
fd29925173 started collecting error messages in order to explain them 2019-04-29 16:53:43 +02:00
Thomas Hallgren
bea6aa1d2d GF.Compile.CheckGrammar: discard bad 'lincat C = …' with a warning 
e.g. if C is a fun and not a cat in the abstract syntax.
Discarding bad lincats prevents GF from generating malformed PGFs that
are rejected by the C run-time system.
I also added code to reject bad lincats with an error, but I left it
commented out since it seems a bit pedantic compared to GF's otherwise
rather sloppy grammar checking.
 2019-04-25 17:02:42 +02:00
krangelov
c628e11c01 respect the probs option also when merging PGFs 2019-04-12 11:04:40 +02:00
Thomas Hallgren
61e7df4d1c Fix outdated comment about which version of the Haskell Platform to use 2019-04-05 16:38:12 +02:00
krangelov
de53a7c4db Merge branch 'master' of https://github.com/GrammaticalFramework/gf-core 2019-03-26 12:21:52 +01:00
krangelov
1e9188ea60 bugfix in the pretty printer 2019-03-26 12:21:35 +01:00
Thomas Hallgren
a55c7c7889 GF.Compile.GrammarToCanonical: keep unreachable rows in tables 
since unreachable rows can become reachable after grammar transformation.
Also export smart constructors for projection and selection.
 2019-03-22 15:38:02 +01:00
Aarne Ranta
b3387e80e4 hiding morphological tags from Latex printing of dependency trees 2019-03-20 22:19:32 +01:00
Thomas Hallgren
de0a997fcd Merge branch 'master' of https://github.com/GrammaticalFramework/gf-core 2019-03-20 14:40:17 +01:00
Thomas Hallgren
0f53431221 GF.Grammar.Canonical: pretty printer: omit some redundant brackets 2019-03-20 14:39:42 +01:00
krangelov
099f2de5b4 support cross-compilation from Linux to Windows 2019-03-19 12:43:38 +01:00
krangelov
2f2b39c5d2 Merge branch 'master' of https://github.com/GrammaticalFramework/gf-core 2019-03-19 11:22:09 +01:00
krangelov
f3d7d55752 added one more possible location for Java headers 2019-03-19 11:21:39 +01:00
Thomas Hallgren
2979864752 GF.Compile.GrammarToCanonical: allow + in reg exps in pre { } 2019-03-14 16:52:37 +01:00
Thomas Hallgren
b11d7d93dc GF.Grammar.Canonical: some Functor/Foldable/Traversable instances 2019-03-13 01:51:26 +01:00
Thomas Hallgren
ba9aeb3322 Merge branch 'master' of https://github.com/GrammaticalFramework/gf-core 2019-03-12 22:34:00 +01:00
Thomas Hallgren
8e2424af49 GF.Grammar.Canonical: add TuplePattern and CommentedValue 2019-03-12 22:32:54 +01:00
Peter Ljunglöf
01b9e8da8d canonical GF: flatten several concatenations into one json array, and parse the array back into concatenations 2019-03-08 18:33:56 +01:00
Peter Ljunglöf
926a5cf414 added parsing of json into canonical GF 2019-03-08 17:58:24 +01:00
Peter Ljunglöf
21140fc0c0 remove case expressions (no particular reason) 2019-03-08 17:57:02 +01:00
Peter Ljunglöf
3328279120 corrected json printing 
some object labels must be preceded by ".", to not be in conflict with GF records (which are stored as json objects)
plus some minor bugfixes and cleaning
 2019-03-08 17:35:35 +01:00
Peter Ljunglöf
8cf4446e8c Remove "canonical_yaml" from the option descriptions 2019-03-08 17:21:23 +01:00
Thomas Hallgren
5b401f3880 Expose GF.Grammar.Canonical + some refactoring 
to make it available in other tools by depending on the gf package and
importing it
 2019-03-07 17:41:16 +01:00
Thomas Hallgren
b783299b73 Rename module GF.Compile.ConcreteToCanonical to GF.Compile.GrammarToCanonical 2019-03-07 14:47:37 +01:00
Thomas Hallgren
0970d678cf haskell-bind/utils.c: add missing return 
Found via C compiler warning
 2019-03-07 14:11:29 +01:00
Thomas Hallgren
bf17fa0bb2 Bump version number to 3.10.3-git 
This is not an announced realase, but this is version now installed on our
server.
 2019-03-05 20:18:30 +01:00
Thomas Hallgren
0b3c278f49 Merge branch 'master' of https://github.com/GrammaticalFramework/gf-core 2019-03-05 19:23:54 +01:00
Thomas Hallgren
c710bf0e84 Update .deb packages to verion 3.10-2 on the download page 
New .deb packages have been generated since it turned out that the
RGL was missing in original .deb packages.
 2019-03-05 19:18:45 +01:00
Thomas Hallgren
eb46577f58 debian/rules bug fix: the RGL was not included in .deb packages 
The problem was that the RGL was both built and copied to the destdir
during the build step, which caused it to be deleted before the install
step. It is now copied to destdir during the install step.
 2019-03-05 16:19:46 +01:00
krangelov
52f2739da1 strip empty phrases in bracketedLinearize 2019-02-27 08:27:50 +01:00
krangelov
fc37bc26cd fixed typo on c-bracketedLinearize 2019-02-26 21:10:06 +01:00
krangelov
bde1a6d586 fix the dependency to json 2019-02-26 19:32:08 +01:00
krangelov
25dc934871 replace aeson with json 2019-02-26 19:27:36 +01:00
krangelov
2fdfef13d8 added command c-bracketedLinearize 2019-02-26 15:16:36 +01:00
Thomas Hallgren
a928e4657e Need aeson>=1.3 
Also remove ununsed GF.Compile.PGFtoAbstract
 2019-02-21 14:43:53 +01:00
Thomas H
b6fd9a7744 Merge pull request #34 from heatherleaf/master 
Encode/decode of canonical grammars to/from JSON/YAML
 2019-02-21 14:26:11 +01:00
krangelov
64a2483b12 added Data.Data.Data instance for Expr 2019-02-20 13:00:51 +01:00
krangelov
1d1e65185a fixes in the headers for use with Microsoft Visual C++ 2019-02-18 11:39:21 +01:00
krangelov
c32cd7133f fixes in the headers for compilation on Windows 2019-02-18 11:23:01 +01:00
krangelov
409731413e disable the parser debugger which was left enabled by accident 2019-02-14 15:33:21 +01:00
krangelov
8a5e7fa25d fix the reader for patterns in a def rule 2019-02-14 15:32:12 +01:00
krangelov
e05c79a751 different definition for GF_ARRAY_LEN 2019-02-14 15:31:36 +01:00
krangelov
ef21d08225 bugfix in computing record lengths 2019-02-14 15:29:33 +01:00
Peter Ljunglöf
f8346c4557 added helper info about canonical grammar output 2019-02-08 09:22:08 +01:00
Peter Ljunglöf
47ac01e4b9 enable export of canonical grammars to JSON and YAML 2019-02-08 09:10:48 +01:00
Peter Ljunglöf
a0c1da2548 encoding/decoding canonical GF grammars to/from JSON and YAML 2019-02-08 09:10:04 +01:00
Thomas Hallgren
951b884118 Export of concrete syntax to Haskell now goes via Canonical GF 
TODO: better treatment of Predef functions and record subtyping coercions
 2019-01-23 02:47:10 +01:00
Thomas Hallgren
fc5c2b5a22 PGF.Haskell.fromStr: fix double spaces caused by empty tokens 2019-01-23 02:45:23 +01:00
Thomas Hallgren
e4abff7725 More work on the canonica_gf export 
+ Abstract syntax now is converted directly from the Grammar and not via PGF,
  so you can use `gf -batch -no-pmcfg -f canonical_gf ...`, to export to
  canonical_gf while skipping PMCFG and PGF file generation completely.
+ Flags that are normally copied to PGF files are now included in the
  caninical_gf output as well (in particular the startcat flag).
 2019-01-22 17:16:32 +01:00
Thomas Hallgren
a40130ddc4 gfse: prevent scrolling during drag-and-drop on iOS 
Applies to webkit-based browsers on other touch-based platforms too
 2019-01-21 21:18:01 +01:00
Thomas Hallgren
71307d6518 Two fixes in GF.Grammar.Canonical 
+ Hide Prelude.<> to avoid ambiguity with ghc-8.6
+ Vertical alternative in the pretty printer for table types A => B
 2019-01-18 14:44:45 +01:00
Thomas Hallgren
fc1b51aa95 Adding -output-format canonical_gf 
This output format converts a GF grammar to a "canonical" GF grammar. A
canonical GF grammar consists of

 - one self-contained module for the abstract syntax
 - one self-contained module per concrete syntax

The concrete syntax modules contain param, lincat and lin definitions,
everything else has been eliminated by the partial evaluator, including
references to resource library modules and functors. Record types
and tables are retained.

The -output-format canonical_gf option writes canonical GF grammars to a
subdirectory "canonical/". The canonical GF grammars are written as
normal GF ".gf" source files, which can be compiled with GF in the normal way.

The translation to canonical form goes via an AST for canonical GF grammars,
defined in GF.Grammar.Canonical. This is a simple, self-contained format that
doesn't cover everyting in GF (e.g. omitting dependent types and HOAS), but it
is complete enough to translate the Foods and Phrasebook grammars found in
gf-contrib. The AST is based on the GF grammar "GFCanonical" presented here:

  https://github.com/GrammaticalFramework/gf-core/issues/30#issuecomment-453556553

The translation of concrete syntax to canonical form is based on the
previously existing translation of concrete syntax to Haskell, implemented
in module GF.Compile.ConcreteToHaskell. This module could now be reimplemented
and simplified significantly by going via the canonical format. Perhaps exports
to other output formats could benefit by going via the canonical format too.

There is also the possibility of completing the GFCanonical grammar
mentioned above and using GF itself to convert canonical GF grammars to
other formats...
 2019-01-17 21:04:08 +01:00
Thomas Hallgren
5fe963dd02 Fix compilation with ghc-7.10 
NoMonadFailDesugaring is not supported by ghc-7.10, but it is only needed
with ghc>=8.6
 2019-01-16 14:42:34 +01:00
John J. Camilleri
f32d222e71 Update links to Haskell docs on homepage 2019-01-10 08:58:34 +01:00
Prasanth Kolachina
a131b244df Merge pull request #25 from pkolachi/master 
add CoNLLU as output format for gf2ud: merging issue (#24)
 2019-01-07 13:26:44 +01:00
Prasanth Kolachina
0accd97691 add CoNLLU as output format for gf2ud: merging issue (#24) 2019-01-07 13:24:49 +01:00
Prasanth Kolachina
f8bd35543c Merge pull request #24 from odanoburu/gf2ud-comments 
(gf2ud) add comments to CoNLL-U output
 2019-01-07 13:18:45 +01:00
John J. Camilleri
a7b10ea936 Change refs from RGL's Make.* to Setup.* in dev guide 2018-12-22 13:59:32 +01:00
Krasimir Angelov
7c97e5566d fix after the change in bracketed string 2018-12-20 12:40:46 +01:00
Krasimir Angelov
7288425daf Merge branch 'master' of https://github.com/GrammaticalFramework/gf-core 2018-12-20 10:55:56 +01:00
Krasimir Angelov
260c0d07e0 revert to printing the unique id in ppBracketedString 2018-12-20 10:54:04 +01:00
Krasimir Angelov
26dabeab9b save the original concrete category in BracketedString 2018-12-20 10:52:45 +01:00
odanoburu
f7c2fb8a7d (gf2ud) add comments to CoNLL-U output 
when debbuging labels, I find it useful to have comments saying what's
the original sentence (lazy, I know) and the original tree (depending
on the treebank, the trees can be similar).

I know this is not the goal exactly, but UDv2 treebanks
(http://universaldependencies.org/format.html) should always have a
'text =' comment, and a 'sent_id =' comment (which would be easy to
implement too, but not that useful).
 2018-12-19 12:13:31 -02:00
John J. Camilleri
4bda53acb7 Update PGF API link to point to 3.9, as 3.10 has no docs on Hackage 2018-12-18 22:14:32 +01:00
Aarne Ranta
54204d2d95 added the possibility to annotate features of syncat words, e.g. @"is" PresSg3 2018-12-18 18:44:02 +01:00
Aarne Ranta
9834b89a30 refactored cnc configfile parsing a bit 2018-12-18 18:30:40 +01:00
Aarne Ranta
b3a2b53df2 Merge pull request #22 from pkolachi/master 
fix conll output in gf2ud and allow comments in dependency configs
 2018-12-18 19:06:25 +02:00
Aarne Ranta
77c0a8e100 Merge branch 'master' into master 2018-12-18 19:05:42 +02:00
Prasanth Kolachina
86233e9c28 morph. feat generation by AR 2018-12-18 16:53:35 +01:00
Aarne Ranta
40e7544a2b added morphological tags to UD tree output. Tags are give in CncConfiguration, e.g. @N Sg Pl. Default tag is Cat-offset, as defined for each Cat in pgf 2018-12-18 15:59:48 +01:00
Prasanth Kolachina
61c1510620 allow comments in dependency configs and fix conll output 2018-12-17 12:02:13 +01:00
krangelov
eb22112178 a pool where the smallest chunks are memory pages 2018-12-16 07:46:14 +01:00
John J. Camilleri
083aa96e57 TOC for Markdown should now work for both Pandoc < 2.0 and >= 2.0 
The use of $toc$ and $table-of-contents$ flags changed, see:
https://pandoc.org/releases.html#pandoc-2.0-29-oct-2017
under "Behaviour changes"
 2018-12-10 14:25:44 +01:00
John J. Camilleri
d82a53ebc6 Replace gf-refman.html with Markdown version gf-refman.md 
The raw HTML was invalid, and this way we use the common website template
for a uniform look without any duplication.

It seems gf-refman.html was once generated from txt2tags, although I have
been unable to find this original .t2t file.
I also tried to re-generate txt2tags from HTML but was not able to.
However I was able to convert HTML to Markdown using Pandoc and I think
the result is pretty good, so I think we should use this.

The original gf-refman.html can be obtained from git history, e.g.:
a7e43d872f/doc/gf-refman.html
 2018-12-09 20:38:02 +01:00
John J. Camilleri
5006b520d1 Area under footer is all gray even on short pages 2018-12-08 14:29:43 +01:00
John J. Camilleri
f78dfe80a2 Update doc/index page 2018-12-08 14:29:02 +01:00
John J. Camilleri
44ac326da0 Regnerate HTML if template changes 2018-12-08 13:57:04 +01:00
John J. Camilleri
a8b23d52a8 Fix some invalid HTML. 2018-12-08 13:47:27 +01:00
John J. Camilleri
d880a61857 Add some documentation to update_html 2018-12-06 13:47:50 +01:00
John J. Camilleri
7bd086ba19 Case-insensitve sed replacements handled the dumb way 
Because BSD sed != GNU sed
 2018-12-06 10:18:31 +01:00
John J. Camilleri
ff0fe0a6c5 Add reference to DG in homepage footer. Spacing in top links. 2018-12-06 09:30:49 +01:00
John J. Camilleri
ef4df27d1b Add link to open #gf in web chat 2018-12-06 09:13:52 +01:00
John J. Camilleri
e9e2bd6b89 Fix linking to chapters in gf-tutorial; Remove reference to Htmls. 2018-12-06 09:00:44 +01:00
John J. Camilleri
72a9eb0c8a Another fake change to trigger rebuild of gf-tutorial 2018-12-05 18:14:17 +01:00
John J. Camilleri
b73f033b08 Rewrite <a name=...> to <div id=...> to preserve page anchors in Pandoc 2018-12-05 16:11:33 +01:00
John J. Camilleri
b974c09951 Update runtime-api.html to match the new visual look of the GF website 2018-12-05 15:48:07 +01:00
John J. Camilleri
159b6ee331 Fake change to trigger rebuild of gf-tutorial 2018-12-05 11:41:41 +01:00
John J. Camilleri
3dec78c21c Clarifications on download page: binary packages include RGL 2018-12-05 08:30:25 +01:00
John J. Camilleri
6ad9bf3dbf Add Stack files for different GHC versions 2018-12-04 10:32:26 +01:00
John J. Camilleri
ee5ac81dfc Make GF compile with GHC 8.6.2 
- Re-implement `Distribution.Simple.BuildPaths.exeExtension`
- Turn off `MonadFailDesugaring`

Tested with GHC:

- 7.10.3
- 8.0.2
- 8.2.2
- 8.4.3
- 8.6.2

Yay Stack!
 2018-12-04 10:31:53 +01:00
Thomas Hallgren
1a842efeaf downloads: add .deb package for Ubuntu (32-bit) 2018-12-03 16:10:01 +01:00
Thomas Hallgren
de005b9df3 Merge branch 'master' of https://github.com/GrammaticalFramework/gf-core 2018-12-03 15:53:36 +01:00
Thomas Hallgren
52bc0f566e debian/control: new dependency: pandoc 
This should have been added before the 3.10 release
 2018-12-03 15:52:52 +01:00
John J. Camilleri
b509d08cbf Add Travis build images to release notes 2018-12-03 15:47:45 +01:00
John J. Camilleri
fd0ee2756a Indent nested lists in Markdown by 4 spaces instead of 2 2018-12-03 15:44:44 +01:00
John J. Camilleri
34e89ac710 Put GF logo on the right again 2018-12-03 15:27:55 +01:00
John J. Camilleri
331d73b566 Update release notes RGL section (not much) 2018-12-03 15:25:05 +01:00
John J. Camilleri
8d460ac402 Update 3.10 release notes after going through all gf-core commits since 2017-08-11 2018-12-03 15:04:21 +01:00
John J. Camilleri
5546c6d6da Update clean_html to handle markdown sources too 2018-12-03 10:49:37 +01:00
John J. Camilleri
c380288db8 Put floating logo on left 2018-12-03 10:49:15 +01:00
Thomas Hallgren
bd7bb9b34a Merge branch 'master' of https://github.com/GrammaticalFramework/gf-core 2018-12-03 01:34:49 +01:00
Thomas Hallgren
18251e57a3 debian/changelog: updated release date 2018-12-03 01:33:52 +01:00
Krasimir Angelov
6a5053daeb move the PGF optimizer in the compiler 2018-11-02 14:48:30 +01:00
Krasimir Angelov
5a2b200948 manually copy the "c-runtime" branch from the old repository. 2018-11-02 14:38:44 +01:00
Krasimir Angelov
bf5abe2948 the compiler and the Haskell runtime now support abstract senses 2018-11-02 14:01:54 +01:00
208 changed files with 10316 additions and 18081 deletions
Expand all files Collapse all files

5
.gitignore vendored
View File

@@ -44,16 +44,19 @@ cabal.sandbox.config
.stack-work
DATA_DIR
stack*.yaml.lock
# Generated documentation (not exhaustive)
demos/index-numbers.html
demos/resourcegrammars.html
demos/translation.html
doc/tutorial/gf-tutorial.html
doc/index.html
doc/gf-bibliography.html
doc/gf-developers.html
doc/gf-editor-modes.html
doc/gf-people.html
doc/gf-reference.html
doc/gf-refman.html
doc/gf-shell-reference.html
doc/icfp-2012.html
download/*.html

5
Setup.hs
View File

@@ -1,3 +1,4 @@
import Distribution.System(Platform(..),OS(..))
import Distribution.Simple(defaultMainWithHooks,UserHooks(..),simpleUserHooks)
import Distribution.Simple.LocalBuildInfo(LocalBuildInfo(..),absoluteInstallDirs,datadir)
import Distribution.Simple.Setup(BuildFlags(..),Flag(..),InstallFlags(..),CopyDest(..),CopyFlags(..),SDistFlags(..))
@@ -73,5 +74,9 @@ dataDirFile = "DATA_DIR"
default_gf :: LocalBuildInfo -> FilePath
default_gf lbi = buildDir lbi </> exeName' </> exeNameReal
where
-- shadows Distribution.Simple.BuildPaths.exeExtension, which changed type signature in Cabal 2.4
exeExtension = case hostPlatform lbi of
Platform arch Windows -> "exe"
_ -> ""
exeName' = "gf"
exeNameReal = exeName' <.> exeExtension

2
bin/build-binary-dist.sh
View File

@@ -2,7 +2,7 @@
### This script builds a binary distribution of GF from the source
### package that this script is a part of. It assumes that you have installed
### the Haskell Platform, version 2013.2.0.0 or 2012.4.0.0.
### a recent version of the Haskell Platform.
### Two binary package formats are supported: plain tar files (.tar.gz) and
### OS X Installer packages (.pkg).

16
bin/clean_html
View File

@@ -1,8 +1,20 @@
#!/bin/bash
### This script finds all .t2t (txt2tags) files and deletes the corresponding html file
# This script finds all .t2t (txt2tags) and .md (Markdown) files
# and deletes the corresponding HTML file of the same name.
find . -name '*.t2t' | while read t2t ; do
html="${t2t%.t2t}.html"
rm -f "$html"
if [ -f "$html" ] ; then
echo "$html"
rm -f "$html"
fi
done
find . -name '*.md' | while read md ; do
html="${md%.md}.html"
if [ -f "$html" ] ; then
echo "$html"
rm -f "$html"
fi
done

31
bin/template.html
View File

@@ -28,16 +28,17 @@ $for(header-includes)$
$header-includes$
$endfor$
</head>
<body>
<body class="bg-light">
<div class="bg-white pb-5">
$for(include-before)$
$include-before$
$endfor$
<div class="container-fluid my-5" style="max-width:1200px">
<div class="container-fluid py-5" style="max-width:1200px">
$if(title)$
<header id="title-block-header">
<a href="$rel-root$" title="Home">
<img src="$rel-root$/doc/Logos/gf1.svg" height="200px" class="float-md-right mb-3 bg-white" alt="GF Logo">
<img src="$rel-root$/doc/Logos/gf1.svg" height="200" class="float-md-right ml-3 mb-3 bg-white" alt="GF Logo">
</a>
<h1 class="title">$title$</h1>
$if(subtitle)$
@@ -53,13 +54,20 @@ $endif$
$endif$
$if(toc)$
<nav id="$idprefix$TOC">
$table-of-contents$
$if(table-of-contents)$
<!-- pandoc >= 2.0 -->
$table-of-contents$
$else$
<!-- pandoc < 2.0 -->
$toc$
$endif$
</nav>
$endif$
$body$
</div><!-- .container -->
</div><!-- .bg-white -->
<footer class="bg-light mt-5 py-5">
<footer class="py-5">
<div class="container">
<div class="row">
@@ -72,7 +80,11 @@ $body$
<ul class="list-unstyled">
<li><a href="https://www.youtube.com/watch?v=x1LFbDQhbso">Google Tech Talk</a></li>
<li><a href="http://cloud.grammaticalframework.org/">GF Cloud</a></li>
<li><a href="$rel-root$/doc/tutorial/gf-tutorial.html">Tutorial</a></li>
<li>
<a href="$rel-root$/doc/tutorial/gf-tutorial.html">Tutorial</a>
/
<a href="$rel-root$/lib/doc/rgl-tutorial/index.html">RGL Tutorial</a>
</li>
<li><a href="$rel-root$/download"><strong>Download GF</strong></a></li>
</ul>
</div>
@@ -100,8 +112,7 @@ $body$
</div>
<div class="col-6 col-sm-3">
<h6 class="text-muted">Contribute</i>
</h6>
<h6 class="text-muted">Contribute</h6>
<ul class="list-unstyled">
<li><a href="http://groups.google.com/group/gf-dev">Mailing List</a></li>
<li><a href="https://github.com/GrammaticalFramework/gf-core/issues">Issue Tracker</a></li>
@@ -116,8 +127,8 @@ $body$
<a href="https://github.com/GrammaticalFramework/gf-rgl">RGL</a> ·
<a href="https://github.com/GrammaticalFramework/gf-contrib">Contributions</a>
</div>
<div>
<div>
</div>
</div>
</footer>
$for(include-after)$
$include-after$

54
bin/update_html
View File

@@ -1,9 +1,29 @@
#!/bin/bash
# Generate HTML from txt2tags (.t2t) and Markdown (.md)
# Usage:
# - update_html
# Look for all .t2t and .md files in the current directory and below,
# generating the output HTML when the source is newer than the HTML.
# - update_html path/to/file.t2t path/to/another.md
# Generate HTML for the specified file(s), ignoring modification time.
#
# Requires:
# - txt2tags for .t2t files. Tested with 2.6.
# - pandoc for both .t2t and .md files. Tested with 1.16.0.2 and 2.3.1.
# - the template file `template.html` in the same directory as this script.
#
# Tested with Ubuntu 16.04 and macOS Mojave.
#
# See also clean_html for removing the files generated by this script.
# Path to directory where this script is
# https://stackoverflow.com/a/246128/98600
DIR="$( cd "$( dirname "${BASH_SOURCE[0]}" )" >/dev/null && pwd )"
# HTML template
template="$DIR/template.html"
# Render txt2tags into html file
# Arguments:
# 1. txt2tags source file, e.g. download/index.t2t
@@ -22,6 +42,12 @@ function render_t2t_html {
--outfile="$tmp" \
--infile="$t2t"
# Replace <A NAME="toc3"></A> with <div id="toc3"></div> so that Pandoc retains it
# Do this for both cases since BSD sed doesn't support /i
sed -i.bak "s/<a name=\"\(.*\)\"><\/a>/<div id=\"\1\"><\/div>/" "$tmp"
sed -i.bak "s/<A NAME=\"\(.*\)\"><\/A>/<div id=\"\1\"><\/div>/" "$tmp"
rm -f "$tmp.bak"
# Capture first 3 lines of t2t file: title, author, date
# Documentation here: https://txt2tags.org/userguide/headerarea
l1=$(head -n 1 "$t2t")
@@ -41,7 +67,8 @@ function render_t2t_html {
--from=html \
--to=html5 \
--standalone \
--template="$DIR/template.html" \
--template="$template" \
--variable="lang:en" \
--variable="rel-root:$relroot" \
--metadata="title:$title" \
--metadata="author:$author" \
@@ -60,28 +87,43 @@ function render_t2t_html {
# Render markdown into html file
# Arguments:
# 1. markdown source file, e.g. download/index.md
# 2. html target filen, e.g. download/index.html
# 2. html target file, e.g. download/index.html
function render_md_html {
md="$1"
html="$2"
relroot="$( dirname $md | sed -E 's/^.\///' | sed -E 's/[^/]+/../g' )"
# Look for `show-toc: true` in metadata (first ten lines of file)
if head -n 10 "$md" | grep --quiet 'show-toc: true' ; then
tocflag='--table-of-contents'
else
tocflag=''
fi
pandoc \
--from=markdown \
--to=html5 \
--standalone \
--template="$DIR/template.html" \
$tocflag \
--template="$template" \
--variable="lang:en" \
--variable="rel-root:$relroot" \
"$md" \
--output="$html"
# Final post-processing
if [ -f "$html" ] ; then
sed -i.bak "s/<table/<table class=\"table\"/" "$html" && rm "$html.bak"
# add "table" class to tables
sed -i.bak "s/<table/<table class=\"table\"/" "$html"
# rewrite anchors that Pandoc 1.16 ignores: [content]{#anchor} -> <span id="anchor">content</span>
sed -i.bak -E "s/\[(.*)\]\{#(.+)\}/<span id=\"\2\">\1<\/span>/" "$html"
rm -f "$html.bak"
echo "$html"
fi
}
# Main entry point
# Script can be run in one of two modes:
if [ $# -gt 0 ] ; then
# Render specific file(s) from args, ignoring dates
for file in "$@" ; do
@@ -100,14 +142,14 @@ else
# Render all files found in cwd and deeper if source is newer
find . -name '*.t2t' | while read file ; do
html="${file%.t2t}.html"
if [ "$file" -nt "$html" ] ; then
if [ "$file" -nt "$html" ] || [ "$template" -nt "$html" ] ; then
render_t2t_html "$file" "$html"
fi
done
find . -name '*.md' | while read file ; do
if [[ "$file" == *"README.md" ]] ; then continue ; fi
html="${file%.md}.html"
if [ "$file" -nt "$html" ] ; then
if [ "$file" -nt "$html" ] || [ "$template" -nt "$html" ] ; then
render_md_html "$file" "$html"
fi
done

14
debian/changelog vendored
View File

@@ -1,8 +1,20 @@
gf (3.10.3-1) xenial bionic cosmic; urgency=low
* GF 3.10.3
-- Thomas Hallgren <hallgren@chalmers.se> Fri, 5 Mar 2019 19:30:00 +0100
gf (3.10-2) xenial bionic cosmic; urgency=low
* GF 3.10
-- Thomas Hallgren <hallgren@chalmers.se> Fri, 5 Mar 2019 16:00:00 +0100
gf (3.10-1) xenial bionic cosmic; urgency=low
* GF 3.10
-- Thomas Hallgren <hallgren@chalmers.se> Fri, 30 Nov 2018 20:00:00 +0100
-- Thomas Hallgren <hallgren@chalmers.se> Fri, 2 Dec 2018 15:00:00 +0100
gf (3.9-1) vivid xenial zesty; urgency=low

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, txt2tags
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, txt2tags, pandoc
Homepage: http://www.grammaticalframework.org/
Package: gf

35
debian/rules vendored
View File

@@ -13,21 +13,6 @@
override_dh_shlibdeps:
dh_shlibdeps --dpkg-shlibdeps-params=--ignore-missing-info
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/lib
echo LD_LIBRARY_PATH=$$LD_LIBRARY_PATH:$(CURDIR)/src/runtime/c/.libs
LD_LIBRARY_PATH=$$LD_LIBRARY_PATH:$(CURDIR)/src/runtime/c/.libs cabal build
LD_LIBRARY_PATH=$$LD_LIBRARY_PATH:$(CURDIR)/src/runtime/c/.libs cabal copy --destdir=$(CURDIR)/debian/gf # create www directory
PATH=$(CURDIR)/dist/build/gf:$$PATH && export GF_LIB_PATH="$$(dirname $$(find "$(CURDIR)/debian/gf" -name www))/lib" && echo "GF_LIB_PATH=$$GF_LIB_PATH" && mkdir -p "$$GF_LIB_PATH" && ( cd ../gf-rgl && make build && make copy ) && LD_LIBRARY_PATH=$$LD_LIBRARY_PATH:$(CURDIR)/src/runtime/c/.libs cabal build
make html
override_dh_auto_clean:
rm -fr dist/build
-cd src/runtime/python && rm -fr build
-cd src/runtime/java && make clean
-cd src/runtime/c && make clean
override_dh_auto_configure:
cd src/runtime/c && bash setup.sh configure --prefix=/usr
cd src/runtime/c && bash setup.sh build
@@ -35,13 +20,31 @@ override_dh_auto_configure:
cabal install --only-dependencies
cabal configure --prefix=/usr -fserver -fc-runtime --extra-lib-dirs=$(CURDIR)/src/runtime/c/.libs --extra-include-dirs=$(CURDIR)/src/runtime/c
SET_LDL=LD_LIBRARY_PATH=$$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/lib
echo $(SET_LDL)
-$(SET_LDL) cabal build # builds gf, fails to build example grammars
export $(SET_LDL); PATH=$(CURDIR)/dist/build/gf:$$PATH && make -C ../gf-rgl build
GF_LIB_PATH=$(CURDIR)/../gf-rgl/dist $(SET_LDL) cabal build # have RGL now, ok to build example grammars
make html
override_dh_auto_install:
LD_LIBRARY_PATH=$$LD_LIBRARY_PATH:$(CURDIR)/src/runtime/c/.libs cabal copy --destdir=$(CURDIR)/debian/gf
$(SET_LDL) cabal copy --destdir=$(CURDIR)/debian/gf # creates www directory
export GF_LIB_PATH="$$(dirname $$(find "$(CURDIR)/debian/gf" -name www))/lib" && echo "GF_LIB_PATH=$$GF_LIB_PATH" && mkdir -p "$$GF_LIB_PATH" && make -C ../gf-rgl copy
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/lib install
D="`find debian/gf -name site-packages`" && [ -n "$$D" ] && cd $$D && cd .. && mv site-packages dist-packages
override_dh_auto_clean:
rm -fr dist/build
-cd src/runtime/python && rm -fr build
-cd src/runtime/java && make clean
-cd src/runtime/c && make clean
override_dh_auto_test:
ifneq (nocheck,$(filter nocheck,$(DEB_BUILD_OPTIONS)))
true

551
doc/error-messages.txt Normal file
View File

@@ -0,0 +1,551 @@
Compiler.hs
mainGFC :: Options -> [FilePath] -> IO ()
_ | null fs -> fail $ "No input files."
_ | all (extensionIs ".pgf") fs -> unionPGFFiles opts fs
_ -> fail $ "Don't know what to do with these input files: " ++ unwords fs)
----------------------------------------
Compile.hs
compileModule
case length file1s of
0 -> raise (render ("Unable to find: " $$ nest 2 candidates))
1 -> do return $ head file1s
_ -> do putIfVerb opts1 ("matched multiple candidates: " +++ show file1s)
return $ head file1s
else raise (render ("File" <+> file <+> "does not exist"))
---------------------------------------
Grammar.Lexer.x
token :: P Token
AlexError (AI pos _ _) -> PFailed pos "lexical error"
---------------------------------------
Grammar.Parser.y
happyError = fail "syntax error"
tryLoc (c,mty,Just e) = return (c,(mty,e))
tryLoc (c,_ ,_ ) = fail ("local definition of" +++ showIdent c +++ "without value")
mkR [] = return $ RecType [] --- empty record always interpreted as record type
mkR fs@(f:_) =
case f of
(lab,Just ty,Nothing) -> mapM tryRT fs >>= return . RecType
_ -> mapM tryR fs >>= return . R
where
tryRT (lab,Just ty,Nothing) = return (ident2label lab,ty)
tryRT (lab,_ ,_ ) = fail $ "illegal record type field" +++ showIdent lab --- manifest fields ?!
tryR (lab,mty,Just t) = return (ident2label lab,(mty,t))
tryR (lab,_ ,_ ) = fail $ "illegal record field" +++ showIdent lab
---------------------------------------
ModDeps.hs
mkSourceGrammar :: [SourceModule] -> Err SourceGrammar
deplist <- either
return
(\ms -> Bad $ "circular modules" +++ unwords (map show ms)) $
checkUniqueImportNames :: [Ident] -> SourceModInfo -> Err ()
test ms = testErr (all (`notElem` ns) ms)
("import names clashing with module names among" +++ unwords (map prt ms))
moduleDeps :: [SourceModule] -> Err Dependencies
deps (c,m) = errIn ("checking dependencies of module" +++ prt c) $ case mtype m of
MTConcrete a -> do
am <- lookupModuleType gr a
testErr (mtype am == MTAbstract) "the of-module is not an abstract syntax"
testErr (all (compatMType ety . mtype) ests) "inappropriate extension module type"
---------------------------------------
Update.hs
buildAnyTree
Just i -> case unifyAnyInfo m i j of
Ok k -> go (Map.insert c k map) is
Bad _ -> fail $ render ("conflicting information in module"<+>m $$
nest 4 (ppJudgement Qualified (c,i)) $$
"and" $+$
nest 4 (ppJudgement Qualified (c,j)))
extendModule
unless (sameMType (mtype m) (mtype mo))
(checkError ("illegal extension type to module" <+> name))
rebuildModule
unless (null is || mstatus mi == MSIncomplete)
(checkError ("module" <+> i <+>
"has open interfaces and must therefore be declared incomplete"))
unless (isModRes m1)
(checkError ("interface expected instead of" <+> i0))
js' <- extendMod gr False ((i0,m1), isInherited mincl) i (jments mi)
unless (stat' == MSComplete || stat == MSIncomplete)
(checkError ("module" <+> i <+> "remains incomplete"))
extendMod
checkError ("cannot unify the information" $$
nest 4 (ppJudgement Qualified (c,i)) $$
"in module" <+> name <+> "with" $$
nest 4 (ppJudgement Qualified (c,j)) $$
"in module" <+> base)
unifyAnyInfo
(ResValue (L l1 t1), ResValue (L l2 t2))
| t1==t2 -> return (ResValue (L l1 t1))
| otherwise -> fail ""
(AnyInd b1 m1, AnyInd b2 m2) -> do
testErr (b1 == b2) $ "indirection status"
testErr (m1 == m2) $ "different sources of indirection"
unifAbsDefs _ _ = fail ""
----------------------------------
Rename.hs
renameIdentTerm'
_ -> case lookupTreeManyAll showIdent opens c of
[f] -> return (f c)
[] -> alt c ("constant not found:" <+> c $$
"given" <+> fsep (punctuate ',' (map fst qualifs)))
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
renameInfo
renLoc ren (L loc x) =
checkInModule cwd mi loc ("Happened in the renaming of" <+> i) $ do
renameTerm
| otherwise -> checks [ renid' (Q (MN r,label2ident l)) -- .. and qualified expression second.
, renid' t >>= \t -> return (P t l) -- try as a constant at the end
, checkError ("unknown qualified constant" <+> trm)
]
renamePattern env patt =
do r@(p',vs) <- renp patt
let dupl = vs \\ nub vs
unless (null dupl) $ checkError (hang ("[C.4.13] Pattern is not linear:") 4
patt)
return r
case c' of
Q d -> renp $ PM d
_ -> checkError ("unresolved pattern" <+> patt)
Q _ -> checkError ("data constructor expected but" <+> ppTerm Qualified 0 c' <+> "is found instead")
_ -> checkError ("unresolved data constructor" <+> ppTerm Qualified 0 c')
PM c -> do
x <- renid (Q c)
c' <- case x of
(Q c') -> return c'
_ -> checkError ("not a pattern macro" <+> ppPatt Qualified 0 patt)
PV x -> checks [ renid' (Vr x) >>= \t' -> case t' of
QC c -> return (PP c [],[])
_ -> checkError (pp "not a constructor")
, return (patt, [x])
-----------------------------------
CheckGrammar.hs
checkRestrictedInheritance :: FilePath -> SourceGrammar -> SourceModule -> Check ()
let illegals = [(f,is) |
(f,cs) <- allDeps, incld f, let is = filter illegal cs, not (null is)]
case illegals of
[] -> return ()
cs -> checkWarn ("In inherited module" <+> i <> ", dependence of excluded constants:" $$
nest 2 (vcat [f <+> "on" <+> fsep is | (f,is) <- cs]))
checkCompleteGrammar :: Options -> FilePath -> Grammar -> Module -> Module -> Check Module
case info of
CncCat (Just (L loc (RecType []))) _ _ _ _ -> return (foldr (\_ -> Abs Explicit identW) (R []) cxt)
_ -> Bad "no def lin"
where noLinOf c = checkWarn ("no linearization of" <+> c)
Ok (CncCat Nothing md mr mp mpmcfg) -> do
checkWarn ("no linearization type for" <+> c <> ", inserting default {s : Str}")
return $ updateTree (c,CncCat (Just (L NoLoc defLinType)) md mr mp mpmcfg) js
_ -> do
checkWarn ("no linearization type for" <+> c <> ", inserting default {s : Str}")
_ -> do checkWarn ("function" <+> c <+> "is not in abstract")
Ok (_,AbsFun {}) ->
checkError ("lincat:"<+>c<+>"is a fun, not a cat")
-}
_ -> do checkWarn ("category" <+> c <+> "is not in abstract")
checkInfo :: Options -> FilePath -> SourceGrammar -> SourceModule -> Ident -> Info -> Check Info
(Just (L loct ty), Nothing) -> do
chIn loct "operation" $
checkError (pp "No definition given to the operation")
ResOverload os tysts -> chIn NoLoc "overloading" $ do
checkUniq xss = case xss of
x:y:xs
| x == y -> checkError $ "ambiguous for type" <+>
ppType (mkFunType (tail x) (head x))
compAbsTyp g t = case t of
Vr x -> maybe (checkError ("no value given to variable" <+> x)) return $ lookup x g
checkReservedId x =
when (isReservedWord x) $
checkWarn ("reserved word used as identifier:" <+> x)
--------------------------------
TypeCheck/Abstract.hs
grammar2theory :: SourceGrammar -> Theory
Bad s -> case lookupCatContext gr m f of
Ok cont -> return $ cont2val cont
_ -> Bad s
--------------------------------
TypeCheck/ConcreteNew.hs
-- Concrete.hs has all its code commented out
--------------------------------
TypeCheck/RConcrete.hs
-- seems to be used more than ConcreteNew
computeLType :: SourceGrammar -> Context -> Type -> Check Type
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)
inferLType :: SourceGrammar -> Context -> Term -> Check (Term, Type)
Q (m,ident) | isPredef m -> termWith trm $ case typPredefined ident of
Nothing -> checkError ("unknown in Predef:" <+> ident)
Q ident -> checks [
checkError ("cannot infer type of constant" <+> ppTerm Unqualified 0 trm)
]
QC ident -> checks [
checkError ("cannot infer type of canonical constant" <+> ppTerm Unqualified 0 trm)
]
Vr ident -> termWith trm $ checkLookup ident g
AdHocOverload ts -> do
_ -> checkError ("unresolved overloading of constants" <+> ppTerm Qualified 0 trm)
App f a -> do
case fty' of
Prod bt z arg val -> do
_ -> checkError ("A function type is expected for" <+> ppTerm Unqualified 0 f <+> "instead of type" <+> ppType fty)
S f x -> do
_ -> checkError ("table lintype expected for the table in" $$ nest 2 (ppTerm Unqualified 0 trm))
P t i -> do
Nothing -> checkError ("unknown label" <+> i <+> "in" $$ nest 2 (ppTerm Unqualified 0 ty'))
_ -> checkError ("record type expected for:" <+> ppTerm Unqualified 0 t $$
" instead of the inferred:" <+> ppTerm Unqualified 0 ty')
R r -> do
checkCond ("cannot infer type of record" $$ nest 2 (ppTerm Unqualified 0 trm)) (length ts == length fsts)
T ti pts -> do -- tries to guess: good in oper type inference
[] -> checkError ("cannot infer table type of" <+> ppTerm Unqualified 0 trm)
---- hack from Rename.identRenameTerm, to live with files with naming conflicts 18/6/2007
Strs (Cn c : ts) | c == cConflict -> do
checkWarn ("unresolved constant, could be any of" <+> hcat (map (ppTerm Unqualified 0) ts))
ExtR r s -> do
case (rT', sT') of
(RecType rs, RecType ss) -> do
_ -> checkError ("records or record types expected in" <+> ppTerm Unqualified 0 trm)
_ -> checkError ("cannot infer lintype of" <+> ppTerm Unqualified 0 trm)
getOverload :: SourceGrammar -> Context -> Maybe Type -> Term -> Check (Maybe (Term,Type))
matchOverload f typs ttys = do
checkWarn $ "ignoring lock fields in resolving" <+> ppTerm Unqualified 0 ot $$
"for" $$
nest 2 (showTypes tys) $$
"using" $$
nest 2 (showTypes pre)
([],[]) -> do
checkError $ "no overload instance of" <+> ppTerm Unqualified 0 f $$
"for" $$
nest 2 stysError $$
"among" $$
nest 2 (vcat stypsError) $$
maybe empty (\x -> "with value type" <+> ppType x) mt
([],[(val,fun)]) -> do
checkWarn ("ignoring lock fields in resolving" <+> ppTerm Unqualified 0 ot)
(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
checkLType :: SourceGrammar -> Context -> Term -> Type -> Check (Term, Type)
Abs bt x c -> do
case typ of
Prod bt' z a b -> do
_ -> checkError $ "function type expected instead of" <+> ppType typ
AdHocOverload ts -> do
_ -> checkError ("unresolved overloading of constants" <+> ppTerm Qualified 0 trm)
T _ [] ->
checkError ("found empty table in type" <+> ppTerm Unqualified 0 typ)
T _ cs -> case typ of
else checkWarn ("patterns never reached:" $$
nest 2 (vcat (map (ppPatt Unqualified 0) ps)))
_ -> checkError $ "table type expected for table instead of" $$ nest 2 (ppType typ)
V arg0 vs ->
if length vs1 == length vs
then return ()
else checkError $ "wrong number of values in table" <+> ppTerm Unqualified 0 trm
R r -> case typ of --- why needed? because inference may be too difficult
RecType rr -> do
_ -> checkError ("record type expected in type checking instead of" $$ nest 2 (ppTerm Unqualified 0 typ))
ExtR r s -> case typ of
case trm' of
RecType _ -> termWith trm' $ return typeType
ExtR (Vr _) (RecType _) -> termWith trm' $ return typeType
-- ext t = t ** ...
_ -> checkError ("invalid record type extension" <+> nest 2 (ppTerm Unqualified 0 trm))
case typ2 of
RecType ss -> return $ map fst ss
_ -> checkError ("cannot get labels from" $$ nest 2 (ppTerm Unqualified 0 typ2))
_ -> checkError ("record extension not meaningful for" <+> ppTerm Unqualified 0 typ)
S tab arg -> checks [ do
_ -> checkError ("table type expected for applied table instead of" <+> ppType ty')
_ -> do
(trm',ty') <- inferLType gr g trm
termWith trm' $ checkEqLType gr g typ ty' trm'
checkM rms (l,ty) = case lookup l rms of
_ -> 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)
checkEqLType :: SourceGrammar -> Context -> Type -> Type -> Term -> Check Type
False -> checkError $ s <+> "type of" <+> ppTerm Unqualified 0 trm $$
"expected:" <+> ppTerm Qualified 0 t $$ -- ppqType t u $$
"inferred:" <+> ppTerm Qualified 0 u -- ppqType u t
checkIfEqLType :: SourceGrammar -> Context -> Type -> Type -> Term -> Check (Bool,Type,Type,String)
Ok lo -> do
checkWarn $ "missing lock field" <+> fsep lo
missingLock g t u = case (t,u) of
_:_ -> Bad $ render ("missing record fields:" <+> fsep (punctuate ',' (others)))
pattContext :: SourceGrammar -> Context -> Type -> Patt -> Check Context
checkCond ("wrong number of arguments for constructor in" <+> ppPatt Unqualified 0 p)
(length cont == length ps)
PR r -> do
_ -> checkError ("record type expected for pattern instead of" <+> ppTerm Unqualified 0 typ')
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
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 []
checkLookup :: Ident -> Context -> Check Type -- used for looking up Vr x type in context
[] -> checkError ("unknown variable" <+> x)
-------------------------------
Grammar/Lookup.hs
lookupIdent :: ErrorMonad m => Ident -> BinTree Ident b -> m b
Bad _ -> raise ("unknown identifier" +++ showIdent c)
lookupResDefLoc
_ -> raise $ render (c <+> "is not defined in resource" <+> m)
lookupResType :: ErrorMonad m => Grammar -> QIdent -> m Type
_ -> raise $ render (c <+> "has no type defined in resource" <+> m)
lookupOverloadTypes :: ErrorMonad m => Grammar -> QIdent -> m [(Term,Type)]
_ -> raise $ render (c <+> "has no types defined in resource" <+> m)
lookupOverload :: ErrorMonad m => Grammar -> QIdent -> m [([Type],(Type,Term))]
_ -> raise $ render (c <+> "is not an overloaded operation")
lookupParamValues :: ErrorMonad m => Grammar -> QIdent -> m [Term]
case info of
ResParam _ (Just pvs) -> return pvs
_ -> raise $ render (ppQIdent Qualified c <+> "has no parameter values defined")
allParamValues :: ErrorMonad m => Grammar -> Type -> m [Term]
_ -> raise (render ("cannot find parameter values for" <+> ptyp))
lookupFunType :: ErrorMonad m => Grammar -> ModuleName -> Ident -> m Type
_ -> raise (render ("cannot find type of" <+> c))
lookupCatContext :: ErrorMonad m => Grammar -> ModuleName -> Ident -> m Context
_ -> raise (render ("unknown category" <+> c))
-------------------------
PatternMatch.hs
matchPattern :: ErrorMonad m => [(Patt,rhs)] -> Term -> m (rhs, Substitution)
if not (isInConstantForm term)
then raise (render ("variables occur in" <+> pp term))
findMatch :: ErrorMonad m => [([Patt],rhs)] -> [Term] -> m (rhs, Substitution)
[] -> raise (render ("no applicable case for" <+> hsep (punctuate ',' terms)))
(patts,_):_ | length patts /= length terms ->
raise (render ("wrong number of args for patterns :" <+> hsep patts <+>
"cannot take" <+> hsep terms))
tryMatch :: (Patt, Term) -> Err [(Ident, Term)]
(PNeg p',_) -> case tryMatch (p',t) of
Bad _ -> return []
_ -> raise (render ("no match with negative pattern" <+> p))
---------------------------------------------
Compile.Optimize.hs
mkLinDefault :: SourceGrammar -> Type -> Err Term
_ -> Bad (render ("no parameter values given to type" <+> ppQIdent Qualified p))
_ -> Bad (render ("linearization type field cannot be" <+> typ))
mkLinReference :: SourceGrammar -> Type -> Err Term
[] -> Bad "no string"
---------------------------------------------
Compile.Compute.Concrete.hs
nfx env@(GE _ _ _ loc) t = do
Left i -> fail ("variable #"++show i++" is out of scope")
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)
resource env (m,c) =
where e = fail $ "Not found: "++render m++"."++showIdent c
extR t vv =
(VRecType rs1, VRecType rs2) ->
case intersect (map fst rs1) (map fst rs2) of
[] -> VRecType (rs1 ++ rs2)
ls -> error $ "clash"<+>show ls
(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
ppL loc (hang "unsupported token gluing:" 4
(Glue (vt v1) (vt v2)))
strsFromValue :: Value -> Err [Str]
_ -> fail ("cannot get Str from value " ++ show t)
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: "++)
inlinePattMacro p =
VPatt p' -> inlinePattMacro p'
_ -> ppbug $ hang "Expected pattern macro:" 4
linPattVars p =
if null dups
then return pvs
else fail.render $ hang "Pattern is not linear:" 4 (ppPatt Unqualified 0 p)
---------------------------------------------
Compile.Compute.Abstract.hs
---------------------------------------------
PGF.Linearize.hs
bracketedLinearize :: PGF -> Language -> Tree -> [BracketedString]
cnc = lookMap (error "no lang") lang (concretes pgf)
---------------------------------------------
PGF.TypeCheck.hs
ppTcError :: TcError -> Doc
ppTcError (UnknownCat cat) = text "Category" <+> ppCId cat <+> text "is not in scope"
ppTcError (UnknownFun fun) = text "Function" <+> ppCId fun <+> text "is not in scope"
ppTcError (WrongCatArgs xs ty cat m n) = text "Category" <+> ppCId cat <+> text "should have" <+> int m <+> text "argument(s), but has been given" <+> int n $$
text "In the type:" <+> ppType 0 xs ty
ppTcError (TypeMismatch xs e ty1 ty2) = text "Couldn't match expected type" <+> ppType 0 xs ty1 $$
text " against inferred type" <+> ppType 0 xs ty2 $$
text "In the expression:" <+> ppExpr 0 xs e
ppTcError (NotFunType xs e ty) = text "A function type is expected for the expression" <+> ppExpr 0 xs e <+> text "instead of type" <+> ppType 0 xs ty
ppTcError (CannotInferType xs e) = text "Cannot infer the type of expression" <+> ppExpr 0 xs e
ppTcError (UnresolvedMetaVars xs e ms) = text "Meta variable(s)" <+> fsep (List.map ppMeta ms) <+> text "should be resolved" $$
text "in the expression:" <+> ppExpr 0 xs e
ppTcError (UnexpectedImplArg xs e) = braces (ppExpr 0 xs e) <+> text "is implicit argument but not implicit argument is expected here"
ppTcError (UnsolvableGoal xs metaid ty)= text "The goal:" <+> ppMeta metaid <+> colon <+> ppType 0 xs ty $$
text "cannot be solved"

6
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@@ -405,13 +405,13 @@ There is also ``make build``, ``make copy`` and ``make clean`` which do what you
=== Advanced ===
For advanced build options, call the Haskell build script directly:
```
$ runghc Make.hs ...
$ runghc Setup.hs ...
```
For more details see the [README https://github.com/GrammaticalFramework/gf-rgl/blob/master/README.md].
=== Haskell-free ===
If you do not have Haskell installed, you can use the simple build script ``Make.sh``
(or ``Make.bat`` for Windows).
If you do not have Haskell installed, you can use the simple build script ``Setup.sh``
(or ``Setup.bat`` for Windows).
== Creating binary distribution packages ==

4622
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2770
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69
doc/index.html
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@@ -1,69 +0,0 @@
<!DOCTYPE html>
<html>
<head>
<title>GF Documentation</title>
<link rel=stylesheet href="../css/style.css">
</head>
<body>
<div class=center>
<a href="../"><img src="Logos/gf0.png"></a>
<h1>Grammatical Framework Documents</h1>
</div>
<b>Top-5 documents</b>:
<a href="gf-quickstart.html">Quick start instruction</a>.
<a href="tutorial/gf-tutorial.html">Old Tutorial</a>, application-oriented.
<a href="gf-lrec-2010.pdf">New Tutorial</a>, linguistics-oriented.
<a href="gf-refman.html">ReferenceManual</a>.
<a href="../lib/resource/doc/synopsis.html">LibrarySynopsis</a>.
<h2>Language and system documentation</h2>
<ul>
<li>
<a href="gf-reference.html">GF Quick Reference</a>. Also available in
<a href="gf-reference.pdf">pdf</a>. Covers all features of GF language
in a summary format.
<li>
<a href="gf-refman.html">GF Reference Manual</a>. A full-scale reference
manual of the GF language.
<li>
<a href="gf-shell-reference.html">GF Shell Reference</a>.
Describes the commands available in the interactive GF shell. Also
summarizes how to run GF as a batch compiler.
<li>
<a href="gf-editor-modes.html">Editor modes for GF</a>.
Editor modes for GF provides syntax highligting, automatic indentation and
other features that makes editing GF grammar files easier.
</ul>
<h2>Publications</h2>
<a href="gf-bibliography.html">
Bibliography</a>: more publications on GF, as well as background literature.
</body></html>

13
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@@ -0,0 +1,13 @@
---
title: Grammatical Framework Documentation
---
Perhaps you're looking for one of the following:
- [Tutorial](tutorial/gf-tutorial.html). This is a hands-on introduction to grammar writing in GF.
- [Reference Manual](gf-refman.html). A full-scale reference manual of the GF language.
- [RGL Tutorial](../lib/doc/rgl-tutorial/index.html)
- [RGL Synopsis](../lib/doc/synopsis/index.html). Documentation of the Resource Grammar Library, including the syntax API and lexical paradigms for each language.
- [Shell Reference](gf-shell-reference.html). Describes the commands available in the interactive GF shell.
Also summarizes how to run GF as a batch compiler.
- [Developers Guide](gf-developers/html). Detailed information about building and developing GF.

110
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@@ -1,29 +1,26 @@
<html>
<!DOCTYPE html>
<html xmlns="http://www.w3.org/1999/xhtml" lang="en" xml:lang="en">
<head>
<title>C Runtime API</title>
<meta charset="utf-8" />
<meta name="viewport" content="width=device-width, initial-scale=1.0" />
<link rel="stylesheet" href="https://stackpath.bootstrapcdn.com/bootstrap/4.1.3/css/bootstrap.min.css" integrity="sha384-MCw98/SFnGE8fJT3GXwEOngsV7Zt27NXFoaoApmYm81iuXoPkFOJwJ8ERdknLPMO" crossorigin="anonymous">
<style>
body { background: #eee; padding-top: 200px; }
pre.python {background-color:#ffc; display: none}
pre.haskell {background-color:#ffc; display: block}
pre.java {background-color:#ffc; display: none}
pre.csharp {background-color:#ffc; display: none}
pre {
background-color:#eee;
margin-top: 1em;
padding: 0.5em 1em;
}
pre.python {display: none}
pre.haskell {display: block}
pre.java {display: none}
pre.csharp {display: none}
span.python {display: none}
span.haskell {display: inline}
span.java {display: none}
span.csharp {display: none}
.header {
position: fixed;
top: 0;
left: 0;
background: #ddd;
width: 100%;
padding: 5pt;
border-bottom: solid #bbb 2pt;
}
</style>
<script lang="javascript">
function change_language(href) {
var name = href.split("#")[1];
@@ -50,14 +47,28 @@
</script>
</head>
<body onload="change_language(window.location.href); window.addEventListener('hashchange', function(e){change_language(window.location.href);});">
<span class="header">
<h1>Using the <span class="python">Python</span> <span class="haskell">Haskell</span> <span class="java">Java</span> <span class="csharp">C#</span> binding to the C runtime</h1>
Choose a language: <a href="#haskell">Haskell</a> <a href="#python">Python</a> <a href="#java">Java</a> <a href="#csharp">C#</a>
</span>
<div class="container-fluid" style="max-width: 1200px">
<div class="header sticky-top border-bottom py-3 bg-white">
<a href=".." title="Home">
<img src="../doc/Logos/gf1.svg" height="120px" class="float-md-right ml-3 mb-3 bg-white" alt="GF Logo">
</a>
<h1>
Using the
<span class="python">Python</span>
<span class="haskell">Haskell</span>
<span class="java">Java</span>
<span class="csharp">C#</span>
binding to the C runtime
</h1>
<h4 class="text-muted">Krasimir Angelov, July 2015 - August 2017</h4>
Choose a language:
<a href="#haskell" class="mx-1">Haskell</a>
<a href="#python" class="mx-1">Python</a>
<a href="#java" class="mx-1">Java</a>
<a href="#csharp" class="mx-1">C#</a>
</div>
<main class="py-4">
<h4>Krasimir Angelov, July 2015 - August 2017</h4>
<h2>Loading the Grammar</h2>
Before you use the <span class="python">Python</span> binding you need to import the <span class="haskell">PGF2 module</span><span class="python">pgf module</span><span class="java">pgf package</span><span class="csharp">PGFSharp package</span>:
@@ -127,7 +138,7 @@ Concr eng = gr.Languages["AppEng"];
<h2>Parsing</h2>
All language specific services are available as
All language specific services are available as
<span class="python">methods of the class <tt>pgf.Concr</tt></span><span class="haskell">functions that take as an argument an object of type <tt>Concr</tt></span><span class="java">methods of the class <tt>Concr</tt></span><span class="csharp">methods of the class <tt>Concr</tt></span>.
For example to invoke the parser, you can call:
<pre class="python">
@@ -220,10 +231,10 @@ Console.WriteLine(ep.Item1);
PhrUtt NoPConj (UttS (UseCl (TTAnt TPres ASimul) PPos (PredVP (DetNP (DetQuant this_Quant NumSg)) (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (AdjCN (PositA small_A) (UseN theatre_N)))))))) NoVoc
</pre>
<p>Note that depending on the grammar it is absolutely possible that for
a single sentence you might get infinitely many trees.
<p>Note that depending on the grammar it is absolutely possible that for
a single sentence you might get infinitely many trees.
In other cases the number of trees might be finite but still enormous.
The parser is specifically designed to be lazy, which means that
The parser is specifically designed to be lazy, which means that
each tree is returned as soon as it is found before exhausting
the full search space. For grammars with a patological number of
trees it is advisable to pick only the top <tt>N</tt> trees
@@ -246,16 +257,16 @@ parsing with a different start category can be done as follows:</p>
</pre>
</span>
<span class="haskell">
There is also the function <tt>parseWithHeuristics</tt> which
takes two more paramaters which let you to have a better control
There is also the function <tt>parseWithHeuristics</tt> which
takes two more paramaters which let you to have a better control
over the parser's behaviour:
<pre class="haskell">
Prelude PGF2> let res = parseWithHeuristics eng (startCat gr) heuristic_factor callbacks
</pre>
</span>
<span class="java">
There is also the method <tt>parseWithHeuristics</tt> which
takes two more paramaters which let you to have a better control
There is also the method <tt>parseWithHeuristics</tt> which
takes two more paramaters which let you to have a better control
over the parser's behaviour:
<pre class="java">
Iterable&lt;ExprProb&gt; iterable = eng.parseWithHeuristics(gr.startCat(), heuristic_factor, callbacks);
@@ -281,7 +292,7 @@ to factor 0.0. When we increase the factor then parsing becomes faster
but at the same time the sorting becomes imprecise. The worst
factor is 1.0. In any case the parser always returns the same set of
trees but in different order. Our experience is that even a factor
of about 0.6-0.8 with the translation grammar still orders
of about 0.6-0.8 with the translation grammar still orders
the most probable tree on top of the list but further down the list,
the trees become shuffled.
</p>
@@ -457,7 +468,7 @@ the object has the following public final variables:
</span>
</p>
The linearization works even if there are functions in the tree
The linearization works even if there are functions in the tree
that doesn't have linearization definitions. In that case you
will just see the name of the function in the generated string.
It is sometimes helpful to be able to see whether a function
@@ -483,7 +494,7 @@ true
<p>
An already constructed tree can be analyzed and transformed
in the host application. For example you can deconstruct
in the host application. For example you can deconstruct
a tree into a function name and a list of arguments:
<pre class="python">
>>> e.unpack()
@@ -523,8 +534,8 @@ literal. For example the result from:
<span class="haskell">
The result from <tt>unApp</tt> is <tt>Just</tt> if the expression
is an application and <tt>Nothing</tt> in all other cases.
Similarly, if the tree is a literal string then the return value
from <tt>unStr</tt> will be <tt>Just</tt> with the actual literal.
Similarly, if the tree is a literal string then the return value
from <tt>unStr</tt> will be <tt>Just</tt> with the actual literal.
For example the result from:
</span>
<pre class="haskell">
@@ -534,8 +545,8 @@ Prelude PGF2> readExpr "\"literal\"" >>= unStr
<span class="java">
The result from <tt>unApp</tt> is not <tt>null</tt> if the expression
is an application, and <tt>null</tt> in all other cases.
Similarly, if the tree is a literal string then the return value
from <tt>unStr</tt> will not be <tt>null</tt> with the actual literal.
Similarly, if the tree is a literal string then the return value
from <tt>unStr</tt> will not be <tt>null</tt> with the actual literal.
For example the output from:
</span>
<pre class="java">
@@ -545,15 +556,15 @@ System.out.println(elit.unStr());
<span class="csharp">
The result from <tt>UnApp</tt> is not <tt>null</tt> if the expression
is an application, and <tt>null</tt> in all other cases.
Similarly, if the tree is a literal string then the return value
from <tt>UnStr</tt> will not be <tt>null</tt> with the actual literal.
Similarly, if the tree is a literal string then the return value
from <tt>UnStr</tt> will not be <tt>null</tt> with the actual literal.
For example the output from:
</span>
<pre class="csharp">
Expr elit = Expr.ReadExpr("\"literal\"");
Console.WriteLine(elit.UnStr());
</pre>
is just the string "literal".
is just the string "literal".
<span class="python">Situations like this can be detected
in Python by checking the type of the result from <tt>unpack</tt>.
It is also possible to get an integer or a floating point number
@@ -569,7 +580,7 @@ There are also the methods <tt>UnAbs</tt>, <tt>UnInt</tt>, <tt>UnFloat</tt> and
</span>
</p>
Constructing new trees is also easy. You can either use
Constructing new trees is also easy. You can either use
<tt>readExpr</tt> to read trees from strings, or you can
construct new trees from existing pieces. This is possible by
<span class="python">
@@ -612,7 +623,7 @@ Console.WriteLine(e2);
<p>If the host application needs to do a lot of expression manipulations,
then it is helpful to use a higher-level API to the grammar,
also known as "embedded grammars" in GF. The advantage is that
you can construct and analyze expressions in a more compact way.</p>
you can construct and analyze expressions in a more compact way.</p>
<span class="python">
<p>In Python you first have to <tt>embed</tt> the grammar by calling:
@@ -721,7 +732,7 @@ call the method <tt>default</tt>. The following is an example:
def on_DetCN(self,quant,cn):
print("Found DetCN")
cn.visit(self)
def on_AdjCN(self,adj,cn):
print("Found AdjCN")
cn.visit(self)
@@ -1007,7 +1018,7 @@ Traceback (most recent call last):
pgf.PGFError: The concrete syntax is not loaded
</pre>
Before using the concrete syntax, you need to explicitly load it:
Before using the concrete syntax, you need to explicitly load it:
<pre class="python">
>>> eng.load("AppEng.pgf_c")
>>> print(eng.lookupMorpho("letter"))
@@ -1060,7 +1071,7 @@ Traceback (most recent call last):
pgf.PGFError: The concrete syntax is not loaded
</pre>
Before using the concrete syntax, you need to explicitly load it:
Before using the concrete syntax, you need to explicitly load it:
<pre class="java">
eng.load("AppEng.pgf_c")
for (MorphoAnalysis an : eng.lookupMorpho("letter")) {
@@ -1289,6 +1300,7 @@ graph {
}
</pre>
</main>
</div>
</body>
</html>

59
doc/tutorial/gf-tutorial.t2t
View File

@@ -618,32 +618,32 @@ and **semantic definitions**.
#NEW
==Slides==
You can chop this tutorial into a set of slides by the command
```
htmls gf-tutorial.html
```
where the program ``htmls`` is distributed with GF (see below), in
[``GF/src/tools/Htmls.hs`` http://grammaticalframework.org/src/tools/Htmls.hs]
The slides will appear as a set of files beginning with ``01-gf-tutorial.htmls``.
Internal links will not work in the slide format, except for those in the
upper left corner of each slide, and the links behind the "Contents" link.
% #NEW
%
% ==Slides==
%
% You can chop this tutorial into a set of slides by the command
% ```
% htmls gf-tutorial.html
% ```
% where the program ``htmls`` is distributed with GF (see below), in
%
% [``GF/src/tools/Htmls.hs`` http://grammaticalframework.org/src/tools/Htmls.hs]
%
% The slides will appear as a set of files beginning with ``01-gf-tutorial.htmls``.
%
% Internal links will not work in the slide format, except for those in the
% upper left corner of each slide, and the links behind the "Contents" link.
#NEW
#Lchaptwo
=Lesson 1: Getting Started with GF=
#Lchaptwo
Goals:
- install and run GF
- write the first GF grammar: a "Hello World" grammar in three languages
@@ -1037,9 +1037,10 @@ Application programs, using techniques from #Rchapeight:
#NEW
#Lchapthree
=Lesson 2: Designing a grammar for complex phrases=
#Lchapthree
Goals:
- build a larger grammar: phrases about food in English and Italian
@@ -1797,9 +1798,10 @@ where
#NEW
#Lchapfour
=Lesson 3: Grammars with parameters=
#Lchapfour
Goals:
- implement sophisticated linguistic structures:
@@ -2772,9 +2774,10 @@ Thus
#NEW
#Lchapfive
=Lesson 4: Using the resource grammar library=
#Lchapfive
Goals:
- navigate in the GF resource grammar library and use it in applications
@@ -3614,9 +3617,10 @@ tenses and moods, e.g. the Romance languages.
#NEW
#Lchapsix
=Lesson 5: Refining semantics in abstract syntax=
#Lchapsix
Goals:
- include semantic conditions in grammars, by using
@@ -4177,11 +4181,11 @@ Type checking can be invoked with ``put_term -transform=solve``.
#NEW
#Lchapseven
==Lesson 6: Grammars of formal languages==
#Lchapseven
Goals:
- write grammars for formal languages (mathematical notation, programming languages)
- interface between formal and natural langauges
@@ -4516,9 +4520,10 @@ point literals as arguments.
#NEW
#Lchapeight
=Lesson 7: Embedded grammars=
#Lchapeight
Goals:
- use grammars as parts of programs written in Haskell and JavaScript
@@ -4958,12 +4963,12 @@ syntax name. This file contains the multilingual grammar as a JavaScript object.
===Using the JavaScript grammar===
To perform parsing and linearization, the run-time library
``gflib.js`` is used. It is included in ``GF/lib/javascript/``, together with
``gflib.js`` is used. It is included in ``/src/runtime/javascript/``, together with
some other JavaScript and HTML files; these files can be used
as templates for building applications.
An example of usage is
[``translator.html`` http://grammaticalframework.org:41296],
[``translator.html`` ../../src/runtime/javascript/translator.html],
which is in fact initialized with
a pointer to the Food grammar, so that it provides translation between the English
and Italian grammars:

23
download/index.md
View File

@@ -3,22 +3,23 @@ title: Grammatical Framework Download and Installation
...
**GF 3.10** was released on 2 December 2018.
It is the first version of GF which _does not include the RGL_.
What's new? See the [release notes](release-3.10.html).
## Binary packages
These binary packages include both the GF core (compiler and runtime) as well as the pre-compiled RGL.
| Platform | Download | Features | How to install |
|:----------------|:---------------------------------------------------|:---------------|:-----------------------------------|
| macOS | [gf-3.10.pkg](gf-3.10.pkg) | GF, S, C, J, P | Double-click on the package icon |
| Ubuntu (64-bit) | [gf\_3.10-1\_amd64.deb](gf_3.10-1_amd64.deb) | GF, S, C, J, P | `sudo dpkg -i gf_3.10-1_amd64.deb` |
| Raspbian 10 (buster) | [gf\_3.10-2\_armhf.deb](gf_3.10-2_armhf.deb) | GF,S,C,J,P | `sudo dpkg -i gf_3.10-2_armhf.deb` |
| Ubuntu (32-bit) | [gf\_3.10-2\_i386.deb](gf_3.10-2_i386.deb) | GF, S, C, J, P | `sudo dpkg -i gf_3.10-2_i386.deb` |
| Ubuntu (64-bit) | [gf\_3.10-2\_amd64.deb](gf_3.10-2_amd64.deb) | GF, S, C, J, P | `sudo dpkg -i gf_3.10-2_amd64.deb` |
| Windows | [gf-3.10-bin-windows.zip](gf-3.10-bin-windows.zip) | GF, S | `unzip gf-3.10-bin-windows.zip` |
<!--
| macOS | [gf-3.10-bin-intel-mac.tar.gz](gf-3.10-bin-intel-mac.tar.gz) | GF,S,C,J,P | `sudo tar -C /usr/local -zxf gf-3.10-bin-intel-mac.tar.gz` |
| Raspbian 9.1 | [gf\_3.10-1\_armhf.deb](gf_3.10-1_armhf.deb) | GF,S,C,J,P | `sudo dpkg -i gf_3.10-1_armhf.deb` |
| Ubuntu (32-bit) | [gf\_3.10-1\_i386.deb](gf_3.10-1_i386.deb) | GF,S,C,J,P | `sudo dpkg -i gf_3.10-1_i386.deb` |
-->
**Features**
@@ -35,7 +36,10 @@ probably need to set the `PATH` and `GF_LIB_PATH` environment variables,
see Inari's notes on [Installing GF on Windows](http://www.grammaticalframework.org/~inari/gf-windows.html#toc3).
The Ubuntu `.deb` packages should work on Ubuntu 16.04 and 18.04 and
similar Linux distributions.
similar Linux distributions. The `.deb` packages were updated
to version 3.10-2 after the release of GF 3.10.
(Because of a packaging bug the Resource Grammar Library was missing
in the 3.10-1 packages.)
<!-- The Raspbian `.deb` package was created on a Raspberry Pi 3 and will
probably work on other ARM-based systems running Debian 9 (stretch) or
@@ -66,12 +70,10 @@ normal circumstances the procedure is fairly simple:
3. On Linux: install some C libraries from your Linux distribution (see note below)
4. `cabal install gf`
Note that this installs GF _without_ the RGL.
This installs the GF executable and Haskell libraries, but **does not include the RGL**.
You can also download full source packages from GitHub at the following links:
- [GF releases](https://github.com/GrammaticalFramework/gf-core/releases)
- [RGL releases](https://github.com/GrammaticalFramework/gf-rgl/releases)
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**.
### Notes
@@ -166,6 +168,7 @@ make
```
in the RGL folder.
This assumes that you already have GF installed.
For more details about building the RGL, see the [RGL README](https://github.com/GrammaticalFramework/gf-rgl/blob/master/README.md).
## Older releases

56
download/release-3.10.md
View File

@@ -9,8 +9,58 @@ See the [download page](index.html).
## What's new
- In this release, the GF "core" (compiler and runtimes) have been split from the RGL.
In this release, the GF "core" (compiler and runtimes) and RGL have been split into separate repositories.
The binary packages on the downloads page contain both GF and the RGL, but the sources are now separate:
[gf-core](https://github.com/GrammaticalFramework/gf-core) and
[gf-rgl](https://github.com/GrammaticalFramework/gf-rgl).
### Other
Over 300 changes have been pushed to GF and over 600 changes have been made to the RGL
since the release of GF 3.9 in August 2017.
- A lot of repository cleanup
## General
- Travis integration:
GF [![Build Status](https://travis-ci.org/GrammaticalFramework/gf-core.svg?branch=master)](https://travis-ci.org/GrammaticalFramework/gf-core) and
RGL [![Build Status](https://travis-ci.org/GrammaticalFramework/gf-rgl.svg?branch=master)](https://travis-ci.org/GrammaticalFramework/gf-rgl)
- A lot of bug fixes and repository cleanup, including things moved to new repositories:
- [Phrasebook](https://github.com/GrammaticalFramework/gf-contrib/tree/master/phrasebook)
- [Wide coverage translator](https://github.com/GrammaticalFramework/wide-coverage)
- [Mobile apps](https://github.com/GrammaticalFramework/gf-offline-translator)
- [gftest](https://github.com/GrammaticalFramework/gftest)
- [gf-mode](https://github.com/GrammaticalFramework/gf-emacs-mode) for Emacs
- [RGL browser](https://github.com/GrammaticalFramework/rgl-source-browser) (live [here](http://www.grammaticalframework.org/~john/rgl-browser/))
- A fresh look for the GF website.
## GF compiler and run-time library
- Extensive improvements in the C runtime and bindings to it from Python, Java, Haskell, C#
- A GF shell which uses the C runtime
- Better error messages
- GF now has a Stack configuration file
- The compiler source code has been updated for compatibility with GHC 8.4.3.
- `GF_LIB_PATH` can now be `path1:path2:path3`, not just `path1`
- Add TypeScript type definitions for `gflib.js`
- New compiler/shell options
- added option `-output-format=java` for producing code for embedded grammars in Java
- `rf -paragraphs`
- `linearize -tabtreebank`
- A new function called `completions` is added in the Haskell runtime and used in PGFService. This makes the extraction of completions more platform independent
## Resource Grammar Library
- [Bash build script](https://github.com/GrammaticalFramework/gf-rgl/blob/master/Setup.sh), for building the RGL without Haskell
- [Windows build script](https://github.com/GrammaticalFramework/gf-rgl/blob/master/Setup.bat), for building the RGL without Haskell on a regular Windows command shell
- New languages:
- Basque
- Portuguese
- Big progress with Arabic, Turkish, Persian
- Introduction of `Extend` module to combine the functions of `Extra` and `Extensions` in a more disciplined way
- Various fixes for several languages.
- Various fixes in the translation dictionaries.
## Apps and Cloud services
- Sort list of public grammars by age by default
- Browser compatibility fixes
- Allow public grammars to be deleted in more cases
- Show grammar comments in the list of public grammars

154
gf.cabal
View File

@@ -1,5 +1,5 @@
name: gf
version: 3.10
version: 3.10.3-git
cabal-version: >= 1.22
build-type: Custom
@@ -47,6 +47,10 @@ custom-setup
filepath,
process >=1.0.1.1
--source-repository head
-- type: darcs
-- location: http://www.grammaticalframework.org/
source-repository head
type: git
location: https://github.com/GrammaticalFramework/gf-core.git
@@ -63,17 +67,12 @@ flag network-uri
description: Get Network.URI from the network-uri package
default: True
--flag new-comp
-- Description: Make -new-comp the default
-- Default: True
flag c-runtime
Description: Include functionality from the C run-time library (which must be installed already)
Default: False
Library
executable gf
hs-source-dirs: src/programs
main-is: gf-main.hs
default-language: Haskell2010
build-depends: base >= 4.6 && <5,
build-depends: pgf2,
base >= 4.6 && <5,
array,
containers,
bytestring,
@@ -81,77 +80,28 @@ Library
random,
pretty,
mtl,
exceptions
hs-source-dirs: src/runtime/haskell
exceptions,
ghc-prim,
filepath, directory>=1.2, time,
process, haskeline, parallel>=3, json
ghc-options: -threaded
other-modules:
-- not really part of GF but I have changed the original binary library
-- and we have to keep the copy for now.
Data.Binary
Data.Binary.Put
Data.Binary.Get
Data.Binary.Builder
Data.Binary.IEEE754
if impl(ghc>=7.0)
ghc-options: -rtsopts -with-rtsopts=-I5
if impl(ghc<7.8)
ghc-options: -with-rtsopts=-K64M
--ghc-options: -fwarn-unused-imports
--if impl(ghc>=7.8)
-- ghc-options: +RTS -A20M -RTS
ghc-prof-options: -fprof-auto
extensions:
exposed-modules:
PGF
PGF.Internal
PGF.Haskell
other-modules:
PGF.Data
PGF.Macros
PGF.Binary
PGF.Optimize
PGF.Printer
PGF.CId
PGF.Expr
PGF.Generate
PGF.Linearize
PGF.Morphology
PGF.Paraphrase
PGF.Parse
PGF.Probabilistic
PGF.SortTop
PGF.Tree
PGF.Type
PGF.TypeCheck
PGF.Forest
PGF.TrieMap
PGF.VisualizeTree
PGF.ByteCode
PGF.OldBinary
PGF.Utilities
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
extra-libraries: pgf gu
c-sources: src/runtime/haskell-bind/utils.c
cc-options: -std=c99
---- GF compiler as a library:
build-depends: filepath, directory, time, time-compat,
process, haskeline, parallel>=3
ghc-prof-options: -auto-all
hs-source-dirs: src/compiler
exposed-modules:
other-modules:
GF
GF.Support
GF.Text.Pretty
GF.Text.Lexing
GF.Grammar.Canonical
other-modules:
GF.Main GF.Compiler GF.Interactive
GF.Compile GF.CompileInParallel GF.CompileOne GF.Compile.GetGrammar
@@ -174,7 +124,6 @@ Library
GF.Compile.CheckGrammar
GF.Compile.Compute.AppPredefined
GF.Compile.Compute.ConcreteNew
-- GF.Compile.Compute.ConcreteNew1
GF.Compile.Compute.Predef
GF.Compile.Compute.Value
GF.Compile.ExampleBased
@@ -184,13 +133,14 @@ Library
GF.Compile.GrammarToPGF
GF.Compile.Multi
GF.Compile.Optimize
GF.Compile.OptimizePGF
GF.Compile.PGFtoHaskell
GF.Compile.PGFtoJava
GF.Haskell
GF.Compile.ConcreteToHaskell
GF.Compile.PGFtoJS
GF.Compile.PGFtoProlog
GF.Compile.PGFtoPython
GF.Compile.GrammarToCanonical
GF.Grammar.CanonicalJSON
GF.Compile.PGFtoJSON
GF.Compile.ReadFiles
GF.Compile.Rename
GF.Compile.SubExOpt
@@ -260,14 +210,20 @@ Library
GF.System.Signal
GF.Text.Clitics
GF.Text.Coding
GF.Text.Lexing
GF.Text.Transliterations
Paths_gf
if flag(c-runtime)
cpp-options: -DC_RUNTIME
-- not really part of GF but I have changed the original binary library
-- and we have to keep the copy for now.
Data.Binary
Data.Binary.Put
Data.Binary.Get
Data.Binary.Builder
Data.Binary.IEEE754
if flag(server)
build-depends: httpd-shed>=0.4.0.3, network>=2.3 && <2.7, json,
build-depends: httpd-shed>=0.4.0.3, network>=2.3 && <2.7,
cgi>=3001.2.2.0
if flag(network-uri)
build-depends: network-uri>=2.6, network>=2.6
@@ -287,8 +243,6 @@ Library
CGIUtils
Cache
Fold
ExampleDemo
ExampleService
hs-source-dirs: src/server src/server/transfer src/example-based
if flag(interrupt)
@@ -299,7 +253,6 @@ Library
if impl(ghc>=7.8)
build-tools: happy>=1.19, alex>=3.1
-- ghc-options: +RTS -A20M -RTS
else
build-tools: happy, alex>=3
@@ -310,36 +263,13 @@ Library
else
build-depends: unix, terminfo>=0.4
if impl(ghc>=8.2)
ghc-options: -fhide-source-paths
Executable gf
hs-source-dirs: src/programs
main-is: gf-main.hs
test-suite rgl-tests
type: exitcode-stdio-1.0
main-is: run.hs
hs-source-dirs: lib/tests/
build-depends: base, HTF, process, HUnit, filepath, directory
default-language: Haskell2010
build-depends: gf, base
ghc-options: -threaded
--ghc-options: -fwarn-unused-imports
if impl(ghc>=7.0)
ghc-options: -rtsopts -with-rtsopts=-I5
if impl(ghc<7.8)
ghc-options: -with-rtsopts=-K64M
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
test-suite gf-tests
type: exitcode-stdio-1.0

61
index.html
View File

@@ -26,15 +26,19 @@
<div class="col-sm-6 col-md-3">
<h3>Get started</h3>
<ul>
<ul class="mb-2">
<li><a href="https://www.youtube.com/watch?v=x1LFbDQhbso">Google Tech Talk</a></li>
<li>
<a href="http://cloud.grammaticalframework.org/">
<a href="//cloud.grammaticalframework.org/">
GF Cloud
<img src="http://www.grammaticalframework.org/src/www/P/gf-cloud.png" style="height:30px" class="ml-2">
<img src="src/www/P/gf-cloud.png" style="height:30px" class="ml-2" alt="Cloud logo">
</a>
</li>
<li><a href="doc/tutorial/gf-tutorial.html">Tutorial</a></li>
<li>
<a href="doc/tutorial/gf-tutorial.html">Tutorial</a>
/
<a href="lib/doc/rgl-tutorial/index.html">RGL Tutorial</a>
</li>
</ul>
<a href="download/index.html" class="btn btn-primary ml-3">
@@ -46,7 +50,7 @@
<div class="col-sm-6 col-md-3">
<h3>Learn more</h3>
<ul>
<ul class="mb-2">
<li><a href="gf-book">The GF Book</a></li>
<li><a href="doc/gf-refman.html">Reference Manual</a></li>
<li><a href="doc/gf-shell-reference.html">Shell Reference</a></li>
@@ -61,7 +65,7 @@
<div class="col-sm-6 col-md-3">
<h3>Develop</h3>
<ul>
<ul class="mb-2">
<li><a href="doc/gf-developers.html">Developers Guide</a></li>
<!-- <li><a href="/~hallgren/gf-experiment/browse/">Browse Source Code</a></li> -->
<li><a href="http://hackage.haskell.org/package/gf/docs/PGF.html">PGF library API (Haskell runtime)</a></li>
@@ -75,11 +79,11 @@
<div class="col-sm-6 col-md-3">
<h3>Contribute</h3>
<ul>
<ul class="mb-2">
<li><a href="http://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="doc/gf-people.html">Authors</a></li>
<li><a href="http://school.grammaticalframework.org/2018/">Summer School</a></li>
<li><a href="//school.grammaticalframework.org/2018/">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>
@@ -148,9 +152,9 @@ least one, it may help you to get a first idea of what GF is.
<h2>Applications & Availability</h2>
<p>
GF can be used for building
<a href="http://cloud.grammaticalframework.org/translator/">translation systems</a>,
<a href="http://cloud.grammaticalframework.org/minibar/minibar.html">multilingual web gadgets</a>,
<a href="http://www.cs.chalmers.se/~hallgren/Alfa/Tutorial/GFplugin.html">natural-language interfaces</a>,
<a href="//cloud.grammaticalframework.org/translator/">translation systems</a>,
<a href="//cloud.grammaticalframework.org/minibar/minibar.html">multilingual web gadgets</a>,
<a href="http://www.cse.chalmers.se/~hallgren/Alfa/Tutorial/GFplugin.html">natural-language interfaces</a>,
<a href="http://www.youtube.com/watch?v=1bfaYHWS6zU">dialogue systems</a>, and
<a href="lib/doc/synopsis/index.html">natural language resources</a>.
</p>
@@ -205,7 +209,10 @@ least one, it may help you to get a first idea of what GF is.
<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.
IRC logs (in raw format) are available <a href="http://www.grammaticalframework.org/irc/">here</a>.
You can <a href="https://webchat.freenode.net/?channels=gf">open a web chat</a>
or <a href="/irc/">browse the channel logs</a>.
</p>
<p>
If you have a larger question which the community may benefit from, we recommend you ask it on the <a href="http://groups.google.com/group/gf-dev">mailing list</a>.
</p>
@@ -217,12 +224,12 @@ least one, it may help you to get a first idea of what GF is.
<dl class="row">
<dt class="col-sm-3 text-center text-nowrap">2018-12-03</dt>
<dd class="col-sm-9">
<a href="http://school.grammaticalframework.org/2018/">Sixth GF Summer School</a> in Stellenbosch (South Africa), 314 December 2018
<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> -->
<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">
@@ -241,7 +248,7 @@ least one, it may help you to get a first idea of what GF is.
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="http://school.grammaticalframework.org/2017/">GF Summer School</a> in Riga (Latvia), 14-25 August 2017
<a href="//school.grammaticalframework.org/2017/">GF Summer School</a> in Riga (Latvia), 14-25 August 2017
</dd>
</dl>
@@ -261,7 +268,7 @@ least one, it may help you to get a first idea of what GF is.
</p>
<ul>
<li>
<a href="http://www.cs.chalmers.se/~hallgren/Alfa/Tutorial/GFplugin.html">GF-Alfa</a>:
<a href="http://www.cse.chalmers.se/~hallgren/Alfa/Tutorial/GFplugin.html">GF-Alfa</a>:
natural language interface to formal proofs
</li>
<li>
@@ -286,11 +293,11 @@ least one, it may help you to get a first idea of what GF is.
<a href="http://www.cse.chalmers.se/alumni/markus/FM/">Functional Morphology</a>
</li>
<li>
<a href="http://www.molto-project.eu">MOLTO</a>:
<a href="//www.molto-project.eu">MOLTO</a>:
multilingual online translation
</li>
<li>
<a href="http://remu.grammaticalframework.org">REMU</a>:
<a href="//remu.grammaticalframework.org">REMU</a>:
reliable multilingual digital communication
</li>
</ul>
@@ -353,13 +360,14 @@ least one, it may help you to get a first idea of what GF is.
Swedish,
Thai,
Turkish (fragments),
Urdu
and
Urdu.
</p>
<p>
Adding a language to the resource library takes 3 to 9
months - contributions
are welcome! You can start with the <a href="doc/gf-lrec-2010.pdf">resource grammarian's tutorial</a>.
are welcome! You can start with the <a href="lib/doc/rgl-tutorial/index.html">resource grammarian's tutorial</a>.
</p>
</div><!-- .col-6 -->
@@ -368,11 +376,14 @@ least one, it may help you to get a first idea of what GF is.
</div><!-- .container -->
<footer class="bg-light mt-5 py-5">
<div class="container mb-5">
<div class="row">
<div>
<div>
<footer class="bg-light mt-5 py-4">
<div class="container mb-3">
<div class="text-center text-muted">
<img style="height:50px; filter: opacity(.5) grayscale(1);" class="mb-3" src="doc/Logos/gf0.svg" alt="GF Logo"><br>
Grammatical Framework is free and open source,<br>
with some support from <a href="https://www.digitalgrammars.com/">Digital Grammars AB</a>.
</div>
</div>
</footer>
<script type="text/javascript">

0
src/runtime/haskell/Data/Binary.hs → src/compiler/Data/Binary.hs
View File

0
src/runtime/haskell/Data/Binary/Builder.hs → src/compiler/Data/Binary/Builder.hs
View File

0
src/runtime/haskell/Data/Binary/Get.hs → src/compiler/Data/Binary/Get.hs
View File

0
src/runtime/haskell/Data/Binary/IEEE754.lhs → src/compiler/Data/Binary/IEEE754.lhs
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0
src/runtime/haskell/Data/Binary/Put.hs → src/compiler/Data/Binary/Put.hs
View File

6
src/compiler/GF.hs
View File

@@ -19,7 +19,9 @@ module GF(
module GF.Grammar.Printer,
module GF.Infra.Ident,
-- ** Binary serialisation
module GF.Grammar.Binary
module GF.Grammar.Binary,
-- * Canonical GF
module GF.Compile.GrammarToCanonical
) where
import GF.Main
import GF.Compiler
@@ -36,3 +38,5 @@ import GF.Grammar.Macros
import GF.Grammar.Printer
import GF.Infra.Ident
import GF.Grammar.Binary
import GF.Compile.GrammarToCanonical

24
src/compiler/GF/Command/Abstract.hs
View File

@@ -1,6 +1,6 @@
module GF.Command.Abstract(module GF.Command.Abstract,Expr,showExpr,Term) where
import PGF(CId,mkCId,Expr,showExpr)
import PGF2(Expr,showExpr)
import GF.Grammar.Grammar(Term)
type Ident = String
@@ -11,7 +11,7 @@ type Pipe = [Command]
data Command
= Command Ident [Option] Argument
deriving (Eq,Ord,Show)
deriving Show
data Option
= OOpt Ident
@@ -29,13 +29,7 @@ data Argument
| ATerm Term
| ANoArg
| AMacro Ident
deriving (Eq,Ord,Show)
valCIdOpts :: String -> CId -> [Option] -> CId
valCIdOpts flag def opts =
case [v | OFlag f (VId v) <- opts, f == flag] of
(v:_) -> mkCId v
_ -> def
deriving Show
valIntOpts :: String -> Int -> [Option] -> Int
valIntOpts flag def opts =
@@ -49,6 +43,18 @@ valStrOpts flag def opts =
v:_ -> valueString v
_ -> def
maybeIntOpts :: String -> a -> (Int -> a) -> [Option] -> a
maybeIntOpts flag def fn opts =
case [v | OFlag f (VInt v) <- opts, f == flag] of
(v:_) -> fn v
_ -> def
maybeStrOpts :: String -> a -> (String -> a) -> [Option] -> a
maybeStrOpts flag def fn opts =
case listFlags flag opts of
v:_ -> fn (valueString v)
_ -> def
listFlags flag opts = [v | OFlag f v <- opts, f == flag]
valueString v =

27
src/compiler/GF/Command/CommandInfo.hs
View File

@@ -3,8 +3,7 @@ import GF.Command.Abstract(Option,Expr,Term)
import GF.Text.Pretty(render)
import GF.Grammar.Printer() -- instance Pretty Term
import GF.Grammar.Macros(string2term)
import qualified PGF as H(showExpr)
import qualified PGF.Internal as H(Literal(LStr),Expr(ELit)) ----
import PGF2(mkStr,unStr,showExpr)
data CommandInfo m = CommandInfo {
exec :: [Option] -> CommandArguments -> m CommandOutput,
@@ -38,21 +37,19 @@ class Monad m => TypeCheckArg m where typeCheckArg :: Expr -> m Expr
--------------------------------------------------------------------------------
data CommandArguments = Exprs [Expr] | Strings [String] | Term Term
data CommandArguments = Exprs [(Expr,Float)] | Strings [String] | Term Term
newtype CommandOutput = Piped (CommandArguments,String) ---- errors, etc
-- ** Converting command output
fromStrings ss = Piped (Strings ss, unlines ss)
fromExprs es = Piped (Exprs es,unlines (map (H.showExpr []) es))
fromExprs show_p es = Piped (Exprs es,unlines (map (\(e,p) -> (if show_p then (++) ("["++show p++"] ") else id) (showExpr [] e)) es))
fromString s = Piped (Strings [s], s)
pipeWithMessage es msg = Piped (Exprs es,msg)
pipeMessage msg = Piped (Exprs [],msg)
pipeExprs es = Piped (Exprs es,[]) -- only used in emptyCommandInfo
void = Piped (Exprs [],"")
stringAsExpr = H.ELit . H.LStr -- should be a pattern macro
-- ** Converting command input
toStrings args =
@@ -61,23 +58,23 @@ toStrings args =
Exprs es -> zipWith showAsString (True:repeat False) es
Term t -> [render t]
where
showAsString first t =
case t of
H.ELit (H.LStr s) -> s
_ -> ['\n'|not first] ++
H.showExpr [] t ---newline needed in other cases than the first
showAsString first (e,p) =
case unStr e of
Just s -> s
Nothing -> ['\n'|not first] ++
showExpr [] e ---newline needed in other cases than the first
toExprs args =
case args of
Exprs es -> es
Strings ss -> map stringAsExpr ss
Term t -> [stringAsExpr (render t)]
Exprs es -> map fst es
Strings ss -> map mkStr ss
Term t -> [mkStr (render t)]
toTerm args =
case args of
Term t -> t
Strings ss -> string2term $ unwords ss -- hmm
Exprs es -> string2term $ unwords $ map (H.showExpr []) es -- hmm
Exprs es -> string2term $ unwords $ map (showExpr [] . fst) es -- hmm
-- ** Creating documentation

580
src/compiler/GF/Command/Commands.hs
View File

@@ -1,16 +1,12 @@
{-# LANGUAGE FlexibleInstances, UndecidableInstances #-}
module GF.Command.Commands (
PGFEnv,HasPGFEnv(..),pgf,mos,pgfEnv,pgfCommands,
HasPGF(..),pgfCommands,
options,flags,
) where
import Prelude hiding (putStrLn,(<>)) -- GHC 8.4.1 clash with Text.PrettyPrint
import Prelude hiding (putStrLn)
import PGF
import PGF.Internal(lookStartCat,functionsToCat,lookValCat,restrictPGF,hasLin)
import PGF.Internal(abstract,funs,cats,Expr(EFun)) ----
import PGF.Internal(ppFun,ppCat)
import PGF.Internal(optimizePGF)
import PGF2
import PGF2.Internal(writePGF)
import GF.Compile.Export
import GF.Compile.ToAPI
@@ -28,27 +24,25 @@ import GF.Command.TreeOperations ---- temporary place for typecheck and compute
import GF.Data.Operations
import PGF.Internal (encodeFile)
import Data.Char
import Data.List(intersperse,nub)
import Data.Maybe
import qualified Data.Map as Map
import GF.Text.Pretty
import Data.List (sort)
--import Debug.Trace
import Control.Monad(mplus)
class (Functor m,Monad m,MonadSIO m) => HasPGF m where getPGF :: m (Maybe PGF)
data PGFEnv = Env {pgf::PGF,mos::Map.Map Language Morpho}
instance (Monad m,HasPGF m) => TypeCheckArg m where
typeCheckArg e = do mb_pgf <- getPGF
case mb_pgf of
Just pgf -> either fail
(return . fst)
(inferExpr pgf e)
Nothing -> fail "Import a grammar before using this command"
pgfEnv pgf = Env pgf mos
where mos = Map.fromList [(la,buildMorpho pgf la) | la <- languages pgf]
class (Functor m,Monad m,MonadSIO m) => HasPGFEnv m where getPGFEnv :: m PGFEnv
instance (Monad m,HasPGFEnv m) => TypeCheckArg m where
typeCheckArg e = (either (fail . render . ppTcError) (return . fst)
. flip inferExpr e . pgf) =<< getPGFEnv
pgfCommands :: HasPGFEnv m => Map.Map String (CommandInfo m)
pgfCommands :: HasPGF m => Map.Map String (CommandInfo m)
pgfCommands = Map.fromList [
("aw", emptyCommandInfo {
longname = "align_words",
@@ -61,7 +55,7 @@ pgfCommands = Map.fromList [
"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)."
],
exec = getEnv $ \ opts arg (Env pgf mos) -> do
exec = needPGF $ \ opts arg pgf -> do
let es = toExprs arg
let langs = optLangs pgf opts
if isOpt "giza" opts
@@ -73,7 +67,7 @@ pgfCommands = Map.fromList [
let grph = if null es then [] else lsrc ++ "\n--end_source--\n\n"++ltrg++"\n-end_target--\n\n"++align
return $ fromString grph
else do
let grphs = map (graphvizAlignment pgf langs) es
let grphs = map (graphvizWordAlignment langs graphvizDefaults) es
if isFlag "view" opts || isFlag "format" opts
then do
let view = optViewGraph opts
@@ -95,6 +89,7 @@ pgfCommands = Map.fromList [
("view", "program to open the resulting file")
]
}),
("ca", emptyCommandInfo {
longname = "clitic_analyse",
synopsis = "print the analyses of all words into stems and clitics",
@@ -105,16 +100,17 @@ pgfCommands = Map.fromList [
"by the flag '-clitics'. The list of stems is given as the list of words",
"of the language given by the '-lang' flag."
],
exec = getEnv $ \opts ts env -> case opts of
_ | isOpt "raw" opts ->
return . fromString .
unlines . map (unwords . map (concat . intersperse "+")) .
map (getClitics (isInMorpho (optMorpho env opts)) (optClitics opts)) .
concatMap words $ toStrings ts
_ ->
return . fromStrings .
getCliticsText (isInMorpho (optMorpho env opts)) (optClitics opts) .
concatMap words $ toStrings ts,
exec = needPGF $ \opts ts pgf -> do
concr <- optLang pgf opts
case opts of
_ | isOpt "raw" opts ->
return . fromString .
unlines . map (unwords . map (concat . intersperse "+")) .
map (getClitics (not . null . lookupMorpho concr) (optClitics opts)) .
concatMap words $ toStrings ts
_ -> return . fromStrings .
getCliticsText (not . null . lookupMorpho concr) (optClitics opts) .
concatMap words $ toStrings ts,
flags = [
("clitics","the list of possible clitics (comma-separated, no spaces)"),
("lang", "the language of analysis")
@@ -146,19 +142,19 @@ pgfCommands = Map.fromList [
],
flags = [
("file","the file to be converted (suffix .gfe must be given)"),
("lang","the language in which to parse"),
("probs","file with probabilities to rank the parses")
("lang","the language in which to parse")
],
exec = getEnv $ \ opts _ env@(Env pgf mos) -> do
exec = needPGF $ \opts _ pgf -> do
let file = optFile opts
pgf <- optProbs opts pgf
let printer = if (isOpt "api" opts) then exprToAPI else (showExpr [])
let conf = configureExBased pgf (optMorpho env opts) (optLang pgf opts) printer
concr <- optLang pgf opts
let conf = configureExBased pgf concr printer
(file',ws) <- restricted $ parseExamplesInGrammar conf file
if null ws then return () else putStrLn ("unknown words: " ++ unwords ws)
return (fromString ("wrote " ++ file')),
needsTypeCheck = False
}),
("gr", emptyCommandInfo {
longname = "generate_random",
synopsis = "generate random trees in the current abstract syntax",
@@ -173,54 +169,53 @@ pgfCommands = Map.fromList [
explanation = unlines [
"Generates a list of random trees, by default one tree.",
"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."
"all metavariables in the tree. The generation can be biased by probabilities",
"if the grammar was compiled with option -probs"
],
options = [
("show_probs", "show the probability of each result")
],
flags = [
("cat","generation category"),
("lang","uses only functions that have linearizations in all these languages"),
("number","number of trees generated"),
("depth","the maximum generation depth"),
("probs", "file with biased probabilities (format 'f 0.4' one by line)")
("number","number of trees generated")
],
exec = getEnv $ \ opts arg (Env pgf mos) -> do
pgf <- optProbs opts (optRestricted opts pgf)
exec = needPGF $ \opts arg pgf -> do
gen <- newStdGen
let dp = valIntOpts "depth" 4 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)
returnFromExprs $ take (optNum opts) ts
Just ex -> generateRandomFrom gen pgf ex
Nothing -> generateRandom gen pgf (optType pgf opts)
returnFromExprs (isOpt "show_probs" opts) $ take (optNum opts) ts
}),
("gt", emptyCommandInfo {
longname = "generate_trees",
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.",
"Generates all trees of a given category.",
"If a Tree argument is given, the command completes the Tree with values",
"to all metavariables in the tree."
],
options = [
("show_probs", "show the probability of each result")
],
flags = [
("cat","the generation category"),
("depth","the maximum generation depth"),
("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 -- all trees in the startcat",
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)
returnFromExprs $ take (optNumInf opts) ts
exec = needPGF $ \opts arg pgf -> do
let es = case mexp (toExprs arg) of
Just ex -> generateAllFrom pgf ex
Nothing -> generateAll pgf (optType pgf opts)
returnFromExprs (isOpt "show_probs" opts) $ takeOptNum opts es
}),
("i", emptyCommandInfo {
longname = "import",
synopsis = "import a grammar from source code or compiled .pgf file",
@@ -241,33 +236,28 @@ pgfCommands = Map.fromList [
("probs","file with biased probabilities for generation")
],
options = [
-- ["gfo", "src", "no-cpu", "cpu", "quiet", "verbose"]
("retain","retain operations (used for cc command)"),
("src", "force compilation from source"),
("v", "be verbose - show intermediate status information")
],
needsTypeCheck = False
}),
("l", emptyCommandInfo {
longname = "linearize",
synopsis = "convert an abstract syntax expression to string",
explanation = unlines [
"Shows the linearization of a Tree by the grammars in scope.",
"Shows the linearization of a tree by the grammars in scope.",
"The -lang flag can be used to restrict this to fewer languages.",
"A sequence of string operations (see command ps) can be given",
"as options, and works then like a pipe to the ps command, except",
"that it only affect the strings, not e.g. the table labels.",
"These can be given separately to each language with the unlexer flag",
"whose results are prepended to the other lexer flags. The value of the",
"unlexer flag is a space-separated list of comma-separated string operation",
"sequences; see example."
"that it only affect the strings, not e.g. the table labels."
],
examples = [
mkEx "l -lang=LangSwe,LangNor no_Utt -- linearize tree to LangSwe and LangNor",
mkEx "gr -lang=LangHin -cat=Cl | l -table -to_devanagari -- hindi table",
mkEx "l -unlexer=\"LangAra=to_arabic LangHin=to_devanagari\" -- different unlexers"
mkEx "gr -lang=LangHin -cat=Cl | l -table -to_devanagari -- hindi table"
],
exec = getEnv $ \ opts ts (Env pgf mos) -> return . fromStrings . optLins pgf opts $ toExprs ts,
exec = needPGF $ \ opts ts pgf -> return . fromStrings . optLins pgf opts $ toExprs ts,
options = [
("all", "show all forms and variants, one by line (cf. l -list)"),
("bracket","show tree structure with brackets and paths to nodes"),
@@ -275,33 +265,13 @@ pgfCommands = Map.fromList [
("list","show all forms and variants, comma-separated on one line (cf. l -all)"),
("multi","linearize to all languages (default)"),
("table","show all forms labelled by parameters"),
("tabtreebank","show the tree and its linearizations on a tab-separated line"),
("treebank","show the tree and tag linearizations with language names")
] ++ stringOpOptions,
flags = [
("lang","the languages of linearization (comma-separated, no spaces)"),
("unlexer","set unlexers separately to each language (space-separated)")
]
}),
("lc", emptyCommandInfo {
longname = "linearize_chunks",
synopsis = "linearize a tree that has metavariables in maximal chunks without them",
explanation = unlines [
"A hopefully temporary command, intended to work around the type checker that fails",
"trees where a function node is a metavariable."
],
examples = [
mkEx "l -lang=LangSwe,LangNor -chunks ? a b (? c d)"
],
exec = getEnv $ \ opts ts (Env pgf mos) -> return . fromStrings $ optLins pgf (opts ++ [OOpt "chunks"]) (toExprs ts),
options = [
("treebank","show the tree and tag linearizations with language names")
] ++ stringOpOptions,
flags = [
("lang","the languages of linearization (comma-separated, no spaces)")
],
needsTypeCheck = False
]
}),
("ma", emptyCommandInfo {
longname = "morpho_analyse",
synopsis = "print the morphological analyses of all words in the string",
@@ -309,18 +279,20 @@ pgfCommands = Map.fromList [
"Prints all the analyses of space-separated words in the input string,",
"using the morphological analyser of the actual grammar (see command pg)"
],
exec = getEnv $ \opts ts env -> case opts of
_ | isOpt "missing" opts ->
return . fromString . unwords .
morphoMissing (optMorpho env opts) .
concatMap words $ toStrings ts
_ | isOpt "known" opts ->
return . fromString . unwords .
morphoKnown (optMorpho env opts) .
concatMap words $ toStrings ts
_ -> return . fromString . unlines .
map prMorphoAnalysis . concatMap (morphos env opts) .
concatMap words $ toStrings ts,
exec = needPGF $ \opts ts pgf -> do
concr <- optLang pgf opts
case opts of
_ | isOpt "missing" opts ->
return . fromString . unwords .
morphoMissing concr .
concatMap words $ toStrings ts
_ | isOpt "known" opts ->
return . fromString . unwords .
morphoKnown concr .
concatMap words $ toStrings ts
_ -> return . fromString . unlines .
map prMorphoAnalysis . concatMap (morphos pgf opts) .
concatMap words $ toStrings ts,
flags = [
("lang","the languages of analysis (comma-separated, no spaces)")
],
@@ -334,18 +306,16 @@ pgfCommands = Map.fromList [
longname = "morpho_quiz",
synopsis = "start a morphology quiz",
syntax = "mq (-cat=CAT)? (-probs=FILE)? TREE?",
exec = getEnv $ \ opts arg (Env pgf mos) -> do
let lang = optLang pgf opts
exec = needPGF $ \ opts arg pgf -> do
lang <- optLang pgf opts
let typ = optType pgf opts
pgf <- optProbs opts pgf
let mt = mexp (toExprs arg)
restricted $ morphologyQuiz mt pgf lang typ
return void,
flags = [
("lang","language of the quiz"),
("cat","category of the quiz"),
("number","maximum number of questions"),
("probs","file with biased probabilities for generation")
("number","maximum number of questions")
]
}),
@@ -356,24 +326,25 @@ pgfCommands = Map.fromList [
"Shows all trees returned by parsing a string in the grammars in scope.",
"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 parser. For example if -openclass=\"A,N,V\" is given, the parser",
"will accept unknown adjectives, nouns and verbs with the resource grammar."
"See also the ps command for lexing and character encoding."
],
exec = needPGF $ \opts ts pgf ->
return $
foldr (joinPiped . fromParse1 opts) void
(concat [
[(s,parse concr (optType pgf opts) s) |
concr <- optLangs pgf opts]
| s <- toStrings ts]),
options = [
("show_probs", "show the probability of each result")
],
exec = getEnv $ \ opts ts (Env pgf mos) ->
return $ fromParse opts (concat [map ((,) s) (par pgf opts s) | s <- toStrings ts]),
flags = [
("cat","target category of parsing"),
("lang","the languages of parsing (comma-separated, no spaces)"),
("openclass","list of open-class categories for robust parsing"),
("depth","maximal depth for proof search if the abstract syntax tree has meta variables")
],
options = [
("bracket","prints the bracketed string from the parser")
("number","limit the results to the top N trees")
]
}),
("pg", emptyCommandInfo { -----
longname = "print_grammar",
synopsis = "print the actual grammar with the given printer",
@@ -393,9 +364,8 @@ pgfCommands = Map.fromList [
" " ++ opt ++ "\t\t" ++ expl |
((opt,_),expl) <- outputFormatsExpl, take 1 expl /= "*"
]),
exec = getEnv $ \opts _ env -> prGrammar env opts,
exec = needPGF $ \opts _ pgf -> prGrammar pgf opts,
flags = [
--"cat",
("file", "set the file name when printing with -pgf option"),
("lang", "select languages for the some options (default all languages)"),
("printer","select the printing format (see flag values above)")
@@ -415,6 +385,7 @@ pgfCommands = Map.fromList [
mkEx ("pg -funs | ? grep \" S ;\" -- show functions with value cat S")
]
}),
("pt", emptyCommandInfo {
longname = "put_tree",
syntax = "pt OPT? TREE",
@@ -428,11 +399,12 @@ pgfCommands = Map.fromList [
examples = [
mkEx "pt -compute (plus one two) -- compute value"
],
exec = getEnv $ \ opts arg (Env pgf mos) ->
returnFromExprs . takeOptNum opts . treeOps pgf opts $ toExprs arg,
exec = needPGF $ \opts arg pgf ->
returnFromExprs False . takeOptNum opts . map (flip (,) 0) . treeOps pgf opts $ toExprs arg,
options = treeOpOptions undefined{-pgf-},
flags = [("number","take at most this many trees")] ++ treeOpFlags undefined{-pgf-}
}),
("rf", emptyCommandInfo {
longname = "read_file",
synopsis = "read string or tree input from a file",
@@ -445,10 +417,9 @@ pgfCommands = Map.fromList [
],
options = [
("lines","return the list of lines, instead of the singleton of all contents"),
("paragraphs","return the list of paragraphs, as separated by empty lines"),
("tree","convert strings into trees")
],
exec = getEnv $ \ opts _ (Env pgf mos) -> do
exec = needPGF $ \ opts _ pgf -> do
let file = valStrOpts "file" "_gftmp" opts
let exprs [] = ([],empty)
exprs ((n,s):ls) | null s
@@ -457,12 +428,12 @@ pgfCommands = Map.fromList [
Just e -> let (es,err) = exprs ls
in case inferExpr pgf e of
Right (e,t) -> (e:es,err)
Left tcerr -> (es,"on line" <+> n <> ':' $$ nest 2 (ppTcError tcerr) $$ err)
Left err -> (es,"on line" <+> n <> ':' $$ nest 2 err $$ err)
Nothing -> let (es,err) = exprs ls
in (es,"on line" <+> n <> ':' <+> "parse error" $$ err)
returnFromLines ls = case exprs ls of
(es, err) | null es -> return $ pipeMessage $ render (err $$ "no trees found")
| otherwise -> return $ pipeWithMessage es (render err)
| otherwise -> return $ pipeWithMessage (map (flip (,) 0) es) (render err)
s <- restricted $ readFile file
case opts of
@@ -471,56 +442,26 @@ pgfCommands = Map.fromList [
_ | isOpt "tree" opts ->
returnFromLines [(1::Int,s)]
_ | isOpt "lines" opts -> return (fromStrings $ lines s)
_ | isOpt "paragraphs" opts -> return (fromStrings $ toParagraphs $ lines s)
_ -> return (fromString s),
flags = [("file","the input file name")]
}),
("rt", emptyCommandInfo {
longname = "rank_trees",
synopsis = "show trees in an order of decreasing probability",
explanation = unlines [
"Order trees from the most to the least probable, using either",
"even distribution in each category (default) or biased as specified",
"by the file given by flag -probs=FILE, where each line has the form",
"'function probability', e.g. 'youPol_Pron 0.01'."
],
exec = getEnv $ \ opts arg (Env pgf mos) -> do
let ts = toExprs arg
pgf <- optProbs opts pgf
let tds = rankTreesByProbs pgf ts
if isOpt "v" opts
then putStrLn $
unlines [showExpr [] t ++ "\t--" ++ show d | (t,d) <- tds]
else return ()
returnFromExprs $ map fst tds,
flags = [
("probs","probabilities from this file (format 'f 0.6' per line)")
],
options = [
("v","show all trees with their probability scores")
],
examples = [
mkEx "p \"you are here\" | rt -probs=probs | pt -number=1 -- most probable result"
]
}),
("tq", emptyCommandInfo {
longname = "translation_quiz",
syntax = "tq -from=LANG -to=LANG (-cat=CAT)? (-probs=FILE)? TREE?",
synopsis = "start a translation quiz",
exec = getEnv $ \ opts arg (Env pgf mos) -> do
let from = optLangFlag "from" pgf opts
let to = optLangFlag "to" pgf opts
exec = needPGF $ \ opts arg pgf -> do
from <- optLangFlag "from" pgf opts
to <- optLangFlag "to" pgf opts
let typ = optType pgf opts
let mt = mexp (toExprs arg)
pgf <- optProbs opts pgf
restricted $ translationQuiz mt pgf from to typ
return void,
flags = [
("from","translate from this language"),
("to","translate to this language"),
("cat","translate in this category"),
("number","the maximum number of questions"),
("probs","file with biased probabilities for generation")
("number","the maximum number of questions")
],
examples = [
mkEx ("tq -from=Eng -to=Swe -- any trees in startcat"),
@@ -528,7 +469,6 @@ pgfCommands = Map.fromList [
]
}),
("vd", emptyCommandInfo {
longname = "visualize_dependency",
synopsis = "show word dependency tree graphically",
@@ -546,7 +486,7 @@ pgfCommands = Map.fromList [
"flag -format. Results from multiple trees are combined to pdf with convert (ImageMagick).",
"See also 'vp -showdep' for another visualization of dependencies."
],
exec = getEnv $ \ opts arg (Env pgf mos) -> do
exec = needPGF $ \ opts arg pgf -> do
let absname = abstractName pgf
let es = toExprs arg
let debug = isOpt "v" opts
@@ -559,8 +499,8 @@ pgfCommands = Map.fromList [
mclab <- case cnclabels of
"" -> return Nothing
_ -> (Just . getCncDepLabels) `fmap` restricted (readFile cnclabels)
let lang = optLang pgf opts
let grphs = map (graphvizDependencyTree outp debug mlab mclab pgf lang) es
concr <- optLang pgf opts
let grphs = map (graphvizDependencyTree outp debug mlab mclab concr) es
if isOpt "conll2latex" opts
then return $ fromString $ conlls2latexDoc $ stanzas $ unlines $ toStrings arg
else if isFlag "view" opts && valStrOpts "output" "" opts == "latex"
@@ -595,7 +535,6 @@ pgfCommands = Map.fromList [
]
}),
("vp", emptyCommandInfo {
longname = "visualize_parse",
synopsis = "show parse tree graphically",
@@ -607,9 +546,8 @@ pgfCommands = Map.fromList [
"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)."
],
exec = getEnv $ \ opts arg (Env pgf mos) -> do
let es = toExprs arg
let lang = optLang pgf opts
exec = needPGF $ \opts arg pgf -> do
let es = toExprs arg
let gvOptions = GraphvizOptions {noLeaves = isOpt "noleaves" opts && not (isOpt "showleaves" opts),
noFun = isOpt "nofun" opts || not (isOpt "showfun" opts),
noCat = isOpt "nocat" opts && not (isOpt "showcat" opts),
@@ -622,10 +560,11 @@ pgfCommands = Map.fromList [
leafEdgeStyle = valStrOpts "leafedgestyle" "dashed" opts
}
let depfile = valStrOpts "file" "" opts
concr <- optLang pgf opts
mlab <- case depfile of
"" -> return Nothing
_ -> (Just . getDepLabels) `fmap` restricted (readFile depfile)
let grphs = map (graphvizParseTreeDep mlab pgf lang gvOptions) es
let grphs = map (graphvizDependencyTree "dot" False mlab Nothing concr) es
if isFlag "view" opts || isFlag "format" opts
then do
let view = optViewGraph opts
@@ -660,7 +599,6 @@ pgfCommands = Map.fromList [
]
}),
("vt", emptyCommandInfo {
longname = "visualize_tree",
synopsis = "show a set of trees graphically",
@@ -673,7 +611,7 @@ pgfCommands = Map.fromList [
"flag -format. Results from multiple trees are combined to pdf with convert (ImageMagick).",
"With option -mk, use for showing library style function names of form 'mkC'."
],
exec = getEnv $ \ opts arg (Env pgf mos) ->
exec = needPGF $ \opts arg pgf ->
let es = toExprs arg in
if isOpt "mk" opts
then return $ fromString $ unlines $ map (tree2mk pgf) es
@@ -685,7 +623,7 @@ pgfCommands = Map.fromList [
else do
let funs = not (isOpt "nofun" opts)
let cats = not (isOpt "nocat" opts)
let grphs = map (graphvizAbstractTree pgf (funs,cats)) es
let grphs = map (graphvizAbstractTree pgf (graphvizDefaults{noFun=funs,noCat=cats})) es
if isFlag "view" opts || isFlag "format" opts
then do
let view = optViewGraph opts
@@ -707,6 +645,7 @@ pgfCommands = Map.fromList [
("view","program to open the resulting file (default \"open\")")
]
}),
("ai", emptyCommandInfo {
longname = "abstract_info",
syntax = "ai IDENTIFIER or ai EXPR",
@@ -719,205 +658,156 @@ pgfCommands = Map.fromList [
"If a whole expression is given it prints the expression with refined",
"metavariables and the type of the expression."
],
exec = getEnv $ \ opts arg (Env pgf mos) -> do
exec = needPGF $ \opts arg pgf -> do
case toExprs arg of
[EFun id] -> case Map.lookup id (funs (abstract pgf)) of
Just fd -> do putStrLn $ render (ppFun id fd)
let (_,_,_,prob) = fd
putStrLn ("Probability: "++show prob)
return void
Nothing -> case Map.lookup id (cats (abstract pgf)) of
Just cd -> do putStrLn $
render (ppCat id cd $$
if null (functionsToCat pgf id)
then empty
else ' ' $$
vcat [ppFun fid (ty,0,Just ([],[]),0) | (fid,ty) <- functionsToCat pgf id] $$
' ')
let (_,_,prob) = cd
putStrLn ("Probability: "++show prob)
return void
Nothing -> do putStrLn ("unknown category of function identifier "++show id)
return void
[e] -> case inferExpr pgf e of
Left tcErr -> error $ render (ppTcError tcErr)
Right (e,ty) -> do putStrLn ("Expression: "++showExpr [] e)
putStrLn ("Type: "++showType [] ty)
putStrLn ("Probability: "++show (probTree pgf e))
return void
[e] -> case unApp e of
Just (id, []) -> case functionType pgf id of
Just ty -> do putStrLn (showFun pgf id ty)
putStrLn ("Probability: "++show (treeProbability pgf e))
return void
Nothing -> case categoryContext pgf id of
Just hypos -> do putStrLn ("cat "++id++if null hypos then "" else ' ':showContext [] hypos)
let ls = [showFun pgf fn ty | fn <- functionsByCat pgf id, Just ty <- [functionType pgf fn]]
if null ls
then return ()
else putStrLn (unlines ("":ls))
putStrLn ("Probability: "++show (categoryProbability pgf id))
return void
Nothing -> do putStrLn ("unknown category of function identifier "++show id)
return void
_ -> case inferExpr pgf e of
Left err -> error err
Right (e,ty) -> do putStrLn ("Expression: "++showExpr [] e)
putStrLn ("Type: "++showType [] ty)
putStrLn ("Probability: "++show (treeProbability pgf e))
return void
_ -> do putStrLn "a single identifier or expression is expected from the command"
return void,
needsTypeCheck = False
})
]
where
getEnv exec opts ts = liftSIO . exec opts ts =<< getPGFEnv
par pgf opts s = case optOpenTypes opts of
[] -> [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
fromParse opts = foldr (joinPiped . fromParse1 opts) void
needPGF exec opts ts = do
mb_pgf <- getPGF
case mb_pgf of
Just pgf -> liftSIO $ exec opts ts pgf
_ -> fail "Import a grammar before using this command"
joinPiped (Piped (es1,ms1)) (Piped (es2,ms2)) = Piped (jA es1 es2,ms1+++-ms2)
where
jA (Exprs es1) (Exprs es2) = Exprs (es1++es2)
-- ^ fromParse1 always output Exprs
fromParse1 opts (s,(po,bs))
| isOpt "bracket" opts = pipeMessage (showBracketedString bs)
| otherwise =
case po of
ParseOk ts -> fromExprs ts
ParseFailed i -> pipeMessage $ "The parser failed at token "
++ show i ++": "
++ show (words s !! max 0 (i-1))
-- ++ " in " ++ show s
ParseIncomplete -> pipeMessage "The sentence is not complete"
TypeError errs ->
pipeMessage . render $
"The parsing is successful but the type checking failed with error(s):"
$$ nest 2 (vcat (map (ppTcError . snd) errs))
fromParse1 opts (s,po) =
case po of
ParseOk ts -> fromExprs (isOpt "show_probs" opts) (takeOptNum opts ts)
ParseFailed i t -> pipeMessage $ "The parser failed at token "
++ show i ++": "
++ show t
ParseIncomplete -> pipeMessage "The sentence is not complete"
optLins pgf opts ts = case opts of
_ | isOpt "groups" opts ->
concatMap snd $ groupResults
[[(lang, s) | lang <- optLangs pgf opts,s <- linear pgf opts lang t] | t <- ts]
_ -> concatMap (optLin pgf opts) ts
optLins pgf opts ts = concatMap (optLin pgf opts) ts
optLin pgf opts t =
case opts of
_ | isOpt "treebank" opts && isOpt "chunks" opts ->
(showCId (abstractName pgf) ++ ": " ++ showExpr [] t) :
[showCId lang ++ ": " ++ li | (lang,li) <- linChunks pgf opts t] --linear pgf opts lang t | lang <- optLangs pgf opts]
(abstractName pgf ++ ": " ++ showExpr [] t) :
[lang ++ ": " ++ li | (lang,li) <- linChunks pgf opts t] --linear pgf opts lang t | lang <- optLangs pgf opts]
_ | isOpt "treebank" opts ->
(showCId (abstractName pgf) ++ ": " ++ showExpr [] t) :
[showCId lang ++ ": " ++ s | lang <- optLangs pgf opts, s<-linear pgf opts lang t]
_ | isOpt "tabtreebank" opts ->
return $ concat $ intersperse "\t" $ (showExpr [] t) :
[s | lang <- optLangs pgf opts, s <- linear pgf opts lang t]
(abstractName pgf ++ ": " ++ showExpr [] t) :
[concreteName concr ++ ": " ++ s | concr <- optLangs pgf opts, s<-linear opts concr t]
_ | isOpt "chunks" opts -> map snd $ linChunks pgf opts t
_ -> [s | lang <- optLangs pgf opts, s<-linear pgf opts lang t]
_ -> [s | concr <- optLangs pgf opts, s <- linear opts concr t]
linChunks pgf opts t =
[(lang, unwords (intersperse "<+>" (map (unlines . linear pgf opts lang) (treeChunks t)))) | lang <- optLangs pgf opts]
[(concreteName concr, unwords (intersperse "<+>" (map (unlines . linear opts concr) (treeChunks t)))) | concr <- optLangs pgf opts]
linear :: PGF -> [Option] -> CId -> Expr -> [String]
linear pgf opts lang = let unl = unlex opts lang in case opts of
_ | isOpt "all" opts -> concat . -- intersperse [[]] .
map (map (unl . snd)) . tabularLinearizes pgf lang
linear :: [Option] -> Concr -> Expr -> [String]
linear opts concr = case opts of
_ | isOpt "all" opts -> concat .
map (map snd) . tabularLinearizeAll concr
_ | isOpt "list" opts -> (:[]) . commaList . concat .
map (map (unl . snd)) . tabularLinearizes pgf lang
_ | isOpt "table" opts -> concat . -- intersperse [[]] .
map (map (\(p,v) -> p+++":"+++unl v)) . tabularLinearizes pgf lang
_ | isOpt "bracket" opts -> (:[]) . unwords . map showBracketedString . bracketedLinearize pgf lang
_ -> (:[]) . unl . linearize pgf lang
map (map snd) . tabularLinearizeAll concr
_ | isOpt "table" opts -> concat .
map (map (\(p,v) -> p+++":"+++v)) . tabularLinearizeAll concr
_ | isOpt "bracket" opts -> (:[]) . unwords . map showBracketedString . bracketedLinearize concr
_ -> (:[]) . linearize concr
-- replace each non-atomic constructor with mkC, where C is the val cat
tree2mk pgf = showExpr [] . t2m where
t2m t = case unApp t of
Just (cid,ts@(_:_)) -> mkApp (mk cid) (map t2m ts)
_ -> t
mk = mkCId . ("mk" ++) . showCId . lookValCat (abstract pgf)
unlex opts lang = stringOps Nothing (getUnlex opts lang ++ map prOpt opts) ----
getUnlex opts lang = case words (valStrOpts "unlexer" "" opts) of
lexs -> case lookup lang
[(mkCId la,tail le) | lex <- lexs, let (la,le) = span (/='=') lex, not (null le)] of
Just le -> chunks ',' le
_ -> []
Just (cid,ts@(_:_)) -> mkApp (mk cid) (map t2m ts)
_ -> t
mk f = case functionType pgf f of
Just ty -> let (_,cat,_) = unType ty
in "mk" ++ cat
Nothing -> f
commaList [] = []
commaList ws = concat $ head ws : map (", " ++) (tail ws)
-- Proposed logic of coding in unlexing:
-- - If lang has no coding flag, or -to_utf8 is not in opts, just opts are used.
-- - If lang has flag coding=utf8, -to_utf8 is ignored.
-- - If lang has coding=other, and -to_utf8 is in opts, from_other is applied first.
-- THIS DOES NOT WORK UNFORTUNATELY - can't use the grammar flag properly
{-
unlexx pgf opts lang = {- trace (unwords optsC) $ -} stringOps Nothing optsC where ----
optsC = case lookConcrFlag pgf (mkCId lang) (mkCId "coding") of
Just (LStr "utf8") -> filter (/="to_utf8") $ map prOpt opts
Just (LStr other) | isOpt "to_utf8" opts ->
let cod = ("from_" ++ other)
in cod : filter (/=cod) (map prOpt opts)
_ -> map prOpt opts
-}
optRestricted opts pgf =
restrictPGF (\f -> and [hasLin pgf la f | la <- optLangs pgf opts]) pgf
optLang = optLangFlag "lang"
optLangs = optLangsFlag "lang"
optLangsFlag f pgf opts = case valStrOpts f "" opts of
"" -> languages pgf
lang -> map (completeLang pgf) (chunks ',' lang)
completeLang pgf la = let cla = (mkCId la) in
if elem cla (languages pgf)
then cla
else (mkCId (showCId (abstractName pgf) ++ la))
optLangFlag flag pgf opts =
case optLangsFlag flag pgf opts of
[] -> fail "no language specified"
(l:ls) -> return l
optLangFlag f pgf opts = head $ optLangsFlag f pgf opts ++ [wildCId]
optLangsFlag flag pgf opts =
case valStrOpts flag "" opts of
"" -> Map.elems langs
str -> mapMaybe (completeLang pgf) (chunks ',' str)
where
langs = languages pgf
optOpenTypes opts = case valStrOpts "openclass" "" opts of
"" -> []
cats -> mapMaybe readType (chunks ',' cats)
optProbs opts pgf = case valStrOpts "probs" "" opts of
"" -> return pgf
file -> do
probs <- restricted $ readProbabilitiesFromFile file pgf
return (setProbabilities probs pgf)
completeLang pgf la =
mplus (Map.lookup la langs)
(Map.lookup (abstractName pgf ++ la) langs)
optFile opts = valStrOpts "file" "_gftmp" opts
optType pgf opts =
let str = valStrOpts "cat" (showCId $ lookStartCat pgf) opts
in case readType str of
Just ty -> case checkType pgf ty of
Left tcErr -> error $ render (ppTcError tcErr)
Right ty -> ty
Nothing -> error ("Can't parse '"++str++"' as a type")
let readOpt str = case readType str of
Just ty -> case checkType pgf ty of
Left err -> error err
Right ty -> ty
Nothing -> error ("Can't parse '"++str++"' as a type")
in maybeStrOpts "cat" (startCat pgf) readOpt opts
optViewFormat opts = valStrOpts "format" "png" opts
optViewGraph opts = valStrOpts "view" "open" opts
optNum opts = valIntOpts "number" 1 opts
optNumInf opts = valIntOpts "number" 1000000000 opts ---- 10^9
takeOptNum opts = take (optNumInf opts)
returnFromExprs es = return $ case es of
[] -> pipeMessage "no trees found"
_ -> fromExprs es
returnFromExprs show_p es =
return $
case es of
[] -> pipeMessage "no trees found"
_ -> fromExprs show_p es
prGrammar (Env pgf mos) opts
prGrammar pgf opts
| isOpt "pgf" opts = do
let pgf1 = if isOpt "opt" opts then optimizePGF pgf else pgf
let outfile = valStrOpts "file" (showCId (abstractName pgf) ++ ".pgf") opts
restricted $ encodeFile outfile pgf1
let outfile = valStrOpts "file" (abstractName pgf ++ ".pgf") opts
restricted $ writePGF outfile pgf
putStrLn $ "wrote file " ++ outfile
return void
| isOpt "cats" opts = return $ fromString $ unwords $ map showCId $ categories pgf
| isOpt "funs" opts = return $ fromString $ unlines $ map showFun $ funsigs pgf
| isOpt "fullform" opts = return $ fromString $ concatMap (morpho mos "" prFullFormLexicon) $ optLangs pgf opts
| isOpt "langs" opts = return $ fromString $ unwords $ map showCId $ languages pgf
| isOpt "cats" opts = return $ fromString $ unwords $ categories pgf
| isOpt "funs" opts = return $ fromString $ unlines [showFun pgf f ty | f <- functions pgf, Just ty <- [functionType pgf f]]
| isOpt "fullform" opts = return $ fromString $ concatMap prFullFormLexicon $ optLangs pgf opts
| isOpt "langs" opts = return $ fromString $ unwords $ Map.keys $ languages pgf
| isOpt "lexc" opts = return $ fromString $ concatMap (morpho mos "" prLexcLexicon) $ optLangs pgf opts
| isOpt "missing" opts = return $ fromString $ unlines $ [unwords (showCId la:":": map showCId cs) |
la <- optLangs pgf opts, let cs = missingLins pgf la]
| isOpt "words" opts = return $ fromString $ concatMap (morpho mos "" prAllWords) $ optLangs pgf opts
| isOpt "lexc" opts = return $ fromString $ concatMap prLexcLexicon $ optLangs pgf opts
| isOpt "missing" opts = return $ fromString $ unlines $ [unwords (concreteName concr:":":[f | f <- functions pgf, not (hasLinearization concr f)]) |
concr <- optLangs pgf opts]
| isOpt "words" opts = return $ fromString $ concatMap prAllWords $ optLangs pgf opts
| otherwise = do fmt <- readOutputFormat (valStrOpts "printer" "pgf_pretty" opts)
return $ fromString $ concatMap snd $ exportPGF noOptions fmt pgf
funsigs pgf = [(f,ty) | (f,(ty,_,_,_)) <- Map.assocs (funs (abstract pgf))]
showFun (f,ty) = showCId f ++ " : " ++ showType [] ty ++ " ;"
showFun pgf id ty = kwd++" "++ id ++ " : " ++ showType [] ty
where
kwd | functionIsDataCon pgf id = "data"
| otherwise = "fun"
morphos (Env pgf mos) opts s =
[(s,morpho mos [] (\mo -> lookupMorpho mo s) la) | la <- optLangs pgf opts]
morpho mos z f la = maybe z f $ Map.lookup la mos
optMorpho (Env pgf mos) opts = morpho mos (error "no morpho") id (head (optLangs pgf opts))
morphos pgf opts s =
[(s,lookupMorpho concr s) | concr <- optLangs pgf opts]
optClitics opts = case valStrOpts "clitics" "" opts of
"" -> []
@@ -930,18 +820,28 @@ pgfCommands = Map.fromList [
-- ps -f -g s returns g (f s)
treeOps pgf opts s = foldr app s (reverse opts) where
app (OOpt op) | Just (Left f) <- treeOp pgf op = f
app (OFlag op (VId x)) | Just (Right f) <- treeOp pgf op = f (mkCId x)
app (OFlag op (VId x)) | Just (Right f) <- treeOp pgf op = f x
app _ = id
morphoMissing :: Concr -> [String] -> [String]
morphoMissing = morphoClassify False
morphoKnown :: Concr -> [String] -> [String]
morphoKnown = morphoClassify True
morphoClassify :: Bool -> Concr -> [String] -> [String]
morphoClassify k concr ws = [w | w <- ws, k /= null (lookupMorpho concr w), notLiteral w] where
notLiteral w = not (all isDigit w)
treeOpOptions pgf = [(op,expl) | (op,(expl,Left _)) <- allTreeOps pgf]
treeOpFlags pgf = [(op,expl) | (op,(expl,Right _)) <- allTreeOps pgf]
translationQuiz :: Maybe Expr -> PGF -> Language -> Language -> Type -> IO ()
translationQuiz :: Maybe Expr -> PGF -> Concr -> Concr -> Type -> IO ()
translationQuiz mex pgf ig og typ = do
tts <- translationList mex pgf ig og typ infinity
mkQuiz "Welcome to GF Translation Quiz." tts
morphologyQuiz :: Maybe Expr -> PGF -> Language -> Type -> IO ()
morphologyQuiz :: Maybe Expr -> PGF -> Concr -> Type -> IO ()
morphologyQuiz mex pgf ig typ = do
tts <- morphologyList mex pgf ig typ infinity
mkQuiz "Welcome to GF Morphology Quiz." tts
@@ -950,30 +850,28 @@ morphologyQuiz mex pgf ig typ = do
infinity :: Int
infinity = 256
prLexcLexicon :: Morpho -> String
prLexcLexicon mo =
unlines $ "Multichar_Symbols":multichars:"":"LEXICON Root" : [prLexc l p ++ ":" ++ w ++ " # ;" | (w,lps) <- morpho, (l,p) <- lps] ++ ["END"]
prLexcLexicon :: Concr -> String
prLexcLexicon concr =
unlines $ "Multichar_Symbols":multichars:"":"LEXICON Root" : [prLexc l p ++ ":" ++ w ++ " # ;" | (w,lps) <- morpho, (l,p,_) <- lps] ++ ["END"]
where
morpho = fullFormLexicon mo
prLexc l p = showCId l ++ concat (mkTags (words p))
morpho = fullFormLexicon concr
prLexc l p = l ++ concat (mkTags (words p))
mkTags p = case p of
"s":ws -> mkTags ws --- remove record field
ws -> map ('+':) ws
multichars = unwords $ nub $ concat [mkTags (words p) | (w,lps) <- morpho, (l,p) <- lps]
-- thick_A+(AAdj+Posit+Gen):thick's # ;
multichars = unwords $ nub $ concat [mkTags (words p) | (w,lps) <- morpho, (l,p,_) <- lps]
prFullFormLexicon :: Morpho -> String
prFullFormLexicon mo =
unlines (map prMorphoAnalysis (fullFormLexicon mo))
prFullFormLexicon :: Concr -> String
prFullFormLexicon concr =
unlines (map prMorphoAnalysis (fullFormLexicon concr))
prAllWords :: Morpho -> String
prAllWords mo =
unwords [w | (w,_) <- fullFormLexicon mo]
prAllWords :: Concr -> String
prAllWords concr =
unwords [w | (w,_) <- fullFormLexicon concr]
prMorphoAnalysis :: (String,[(Lemma,Analysis)]) -> String
prMorphoAnalysis (w,lps) =
unlines (w:[showCId l ++ " : " ++ p | (l,p) <- lps])
unlines (w:[l ++ " : " ++ p ++ show prob | (l,p,prob) <- lps])
viewGraphviz :: String -> String -> String -> [String] -> SIO CommandOutput
viewGraphviz view format name grphs = do

822
src/compiler/GF/Command/Commands2.hs
View File

@@ -1,822 +0,0 @@
{-# LANGUAGE FlexibleInstances, UndecidableInstances #-}
module GF.Command.Commands2 (
PGFEnv,HasPGFEnv(..),pgf,concs,pgfEnv,emptyPGFEnv,pgfCommands,
options, flags,
) where
import Prelude hiding (putStrLn,(<>)) -- GHC 8.4.1 clash with Text.PrettyPrint
import PGF2
import qualified PGF as H
import GF.Compile.ToAPI(exprToAPI)
import GF.Infra.UseIO(writeUTF8File)
import GF.Infra.SIO(MonadSIO,liftSIO,putStrLn,restricted,restrictedSystem)
import GF.Command.Abstract
import GF.Command.CommandInfo
import GF.Data.Operations
import Data.List(intersperse,intersect,nub,sortBy)
import Data.Maybe
import qualified Data.Map as Map
import GF.Text.Pretty
import Control.Monad(mplus)
data PGFEnv = Env {pgf::Maybe PGF,concs::Map.Map ConcName Concr}
pgfEnv pgf = Env (Just pgf) (languages pgf)
emptyPGFEnv = Env Nothing Map.empty
class (Monad m,MonadSIO m) => HasPGFEnv m where getPGFEnv :: m PGFEnv
instance (Monad m,HasPGFEnv m) => TypeCheckArg m where
typeCheckArg e = do env <- getPGFEnv
case pgf env of
Just gr -> either fail
(return . hsExpr . fst)
(inferExpr gr (cExpr e))
Nothing -> fail "Import a grammar before using this command"
pgfCommands :: HasPGFEnv m => Map.Map String (CommandInfo m)
pgfCommands = Map.fromList [
("aw", emptyCommandInfo {
longname = "align_words",
synopsis = "show word alignments between languages graphically",
explanation = unlines [
"Prints a set of strings in the .dot format (the graphviz format).",
"The graph can be saved in a file by the wf command as usual.",
"If the -view flag is defined, the graph is saved in a temporary file",
"which is processed by graphviz and displayed by the program indicated",
"by the flag. The target format is postscript, unless overridden by the",
"flag -format."
],
exec = needPGF $ \opts es env -> do
let cncs = optConcs env opts
if isOpt "giza" opts
then if length cncs == 2
then let giz = map (gizaAlignment pgf (snd (cncs !! 0)) (snd (cncs !! 1)) . cExpr) (toExprs es)
lsrc = unlines $ map (\(x,_,_) -> x) giz
ltrg = unlines $ map (\(_,x,_) -> x) giz
align = unlines $ map (\(_,_,x) -> x) giz
grph = if null (toExprs es) then [] else lsrc ++ "\n--end_source--\n\n"++ltrg++"\n-end_target--\n\n"++align
in return (fromString grph)
else error "For giza alignment you need exactly two languages"
else let gvOptions=graphvizDefaults{leafFont = valStrOpts "font" "" opts,
leafColor = valStrOpts "color" "" opts,
leafEdgeStyle = valStrOpts "edgestyle" "" opts
}
grph = if null (toExprs es) then [] else graphvizWordAlignment (map snd cncs) gvOptions (cExpr (head (toExprs es)))
in if isFlag "view" opts || isFlag "format" opts
then do let file s = "_grph." ++ s
let view = optViewGraph opts
let format = optViewFormat opts
restricted $ writeUTF8File (file "dot") grph
restrictedSystem $ "dot -T" ++ format ++ " " ++ file "dot" ++ " > " ++ file format
restrictedSystem $ view ++ " " ++ file format
return void
else return (fromString grph),
examples = [
("gr | aw" , "generate a tree and show word alignment as graph script"),
("gr | aw -view=\"open\"" , "generate a tree and display alignment on Mac"),
("gr | aw -view=\"eog\"" , "generate a tree and display alignment on Ubuntu"),
("gt | aw -giza | wf -file=aligns" , "generate trees, send giza alignments to file")
],
options = [
("giza", "show alignments in the Giza format; the first two languages")
],
flags = [
("format","format of the visualization file (default \"png\")"),
("lang", "alignments for this list of languages (default: all)"),
("view", "program to open the resulting file"),
("font", "font for the words"),
("color", "color for the words"),
("edgestyle", "the style for links between words")
]
}),
{-
("eb", emptyCommandInfo {
longname = "example_based",
syntax = "eb (-probs=FILE | -lang=LANG)* -file=FILE.gfe",
synopsis = "converts .gfe files to .gf files by parsing examples to trees",
explanation = unlines [
"Reads FILE.gfe and writes FILE.gf. Each expression of form",
"'%ex CAT QUOTEDSTRING' in FILE.gfe is replaced by a syntax tree.",
"This tree is the first one returned by the parser; a biased ranking",
"can be used to regulate the order. If there are more than one parses",
"the rest are shown in comments, with probabilities if the order is biased.",
"The probabilities flag and configuration file is similar to the commands",
"gr and rt. Notice that the command doesn't change the environment,",
"but the resulting .gf file must be imported separately."
],
options = [
("api","convert trees to overloaded API expressions (using Syntax not Lang)")
],
flags = [
("file","the file to be converted (suffix .gfe must be given)"),
("lang","the language in which to parse"),
("probs","file with probabilities to rank the parses")
],
exec = \env@(pgf, mos) opts _ -> do
let file = optFile opts
pgf <- optProbs opts pgf
let printer = if (isOpt "api" opts) then exprToAPI else (H.showExpr [])
let conf = configureExBased pgf (optMorpho env opts) (optLang pgf opts) printer
(file',ws) <- restricted $ parseExamplesInGrammar conf file
if null ws then return () else putStrLn ("unknown words: " ++ unwords ws)
return (fromString ("wrote " ++ file')),
needsTypeCheck = False
}),
-}
{-
("gr", emptyCommandInfo {
longname = "generate_random",
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 ?))"
],
explanation = unlines [
"Generates a list of random trees, by default one tree.",
"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."
],
flags = [
("cat","generation category"),
("lang","uses only functions that have linearizations in all these languages"),
("number","number of trees generated"),
("depth","the maximum generation depth"),
("probs", "file with biased probabilities (format 'f 0.4' one by line)")
],
exec = \env@(pgf, mos) opts xs -> do
pgf <- optProbs opts (optRestricted opts pgf)
gen <- newStdGen
let dp = valIntOpts "depth" 4 opts
let ts = case mexp xs of
Just ex -> H.generateRandomFromDepth gen pgf ex (Just dp)
Nothing -> H.generateRandomDepth gen pgf (optType pgf opts) (Just dp)
returnFromExprs $ take (optNum opts) ts
}),
-}
("gt", emptyCommandInfo {
longname = "generate_trees",
synopsis = "generates a list of trees, by default exhaustive",
flags = [("cat","the generation category"),
("number","the number of trees generated")],
examples = [
mkEx "gt -- all trees in the startcat",
mkEx "gt -cat=NP -number=16 -- 16 trees in the category NP"],
exec = needPGF $ \ opts _ env@(pgf,_) ->
let ts = map fst (generateAll pgf cat)
cat = optType pgf opts
in returnFromCExprs (takeOptNum opts ts),
needsTypeCheck = False
}),
("i", emptyCommandInfo {
longname = "import",
synopsis = "import a grammar from a compiled .pgf file",
explanation = unlines [
"Reads a grammar from a compiled .pgf file.",
"Old modules are discarded.",
{-
"The grammar parser depends on the file name suffix:",
" .cf context-free (labelled BNF) source",
" .ebnf extended BNF source",
" .gfm multi-module GF source",
" .gf normal GF source",
" .gfo compiled GF source",
-}
" .pgf precompiled grammar in Portable Grammar Format"
],
flags = [
-- ("probs","file with biased probabilities for generation")
],
options = [
-- ["gfo", "src", "no-cpu", "cpu", "quiet", "verbose"]
-- ("retain","retain operations (used for cc command)"),
-- ("src", "force compilation from source"),
-- ("v", "be verbose - show intermediate status information")
],
needsTypeCheck = False
}),
("l", emptyCommandInfo {
longname = "linearize",
synopsis = "convert an abstract syntax expression to string",
explanation = unlines [
"Shows the linearization of a Tree by the grammars in scope.",
"The -lang flag can be used to restrict this to fewer languages.",
"A sequence of string operations (see command ps) can be given",
"as options, and works then like a pipe to the ps command, except",
"that it only affect the strings, not e.g. the table labels.",
"These can be given separately to each language with the unlexer flag",
"whose results are prepended to the other lexer flags. The value of the",
"unlexer flag is a space-separated list of comma-separated string operation",
"sequences; see example."
],
examples = [
mkEx "l -lang=LangSwe,LangNor no_Utt -- linearize a tree to LangSwe and LangNor",
mkEx "gr -lang=LangHin -cat=Cl | l -table -to_devanagari -- hindi table",
mkEx "l -unlexer=\"LangAra=to_arabic LangHin=to_devanagari\" -- different unlexers"
],
exec = needPGF $ \ opts arg env ->
return . fromStrings . optLins env opts . map cExpr $ toExprs arg,
options = [
("all", "show all forms and variants, one by line (cf. l -list)"),
("bracket","show tree structure with brackets and paths to nodes"),
("groups", "all languages, grouped by lang, remove duplicate strings"),
("list","show all forms and variants, comma-separated on one line (cf. l -all)"),
("multi","linearize to all languages (default)"),
("table","show all forms labelled by parameters"),
("treebank","show the tree and tag linearizations with language names")
],
flags = [
("lang","the languages of linearization (comma-separated, no spaces)")
]
}),
("ma", emptyCommandInfo {
longname = "morpho_analyse",
synopsis = "print the morphological analyses of the (multiword) expression in the string",
explanation = unlines [
"Prints all the analyses of the (multiword) expression in the input string,",
"using the morphological analyser of the actual grammar (see command pg)"
],
exec = needPGF $ \opts args env ->
return ((fromString . unlines .
map prMorphoAnalysis . concatMap (morphos env opts) . toStrings) args),
flags = [
("lang","the languages of analysis (comma-separated, no spaces)")
]
}),
{-
("mq", emptyCommandInfo {
longname = "morpho_quiz",
synopsis = "start a morphology quiz",
syntax = "mq (-cat=CAT)? (-probs=FILE)? TREE?",
exec = \env@(pgf, mos) opts xs -> do
let lang = optLang pgf opts
let typ = optType pgf opts
pgf <- optProbs opts pgf
let mt = mexp xs
restricted $ morphologyQuiz mt pgf lang typ
return void,
flags = [
("lang","language of the quiz"),
("cat","category of the quiz"),
("number","maximum number of questions"),
("probs","file with biased probabilities for generation")
]
}),
-}
("p", emptyCommandInfo {
longname = "parse",
synopsis = "parse a string to abstract syntax expression",
explanation = unlines [
"Shows all trees returned by parsing a string in the grammars in scope.",
"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."
],
flags = [
("cat","target category of parsing"),
("lang","the languages of parsing (comma-separated, no spaces)"),
("number","maximum number of trees returned")
],
examples = [
mkEx "p \"this fish is fresh\" | l -lang=Swe -- try parsing with all languages and translate the successful parses to Swedish"
],
exec = needPGF $ \ opts ts env -> return . cParse env opts $ toStrings ts
}),
("pg", emptyCommandInfo {
longname = "print_grammar",
synopsis = "prints different information about the grammar",
exec = needPGF $ \opts _ env -> prGrammar env opts,
options = [
("cats", "show just the names of abstract syntax categories"),
("fullform", "print the fullform lexicon"),
("funs", "show just the names and types of abstract syntax functions"),
("langs", "show just the names of top concrete syntax modules"),
("lexc", "print the lexicon in Xerox LEXC format"),
("missing","show just the names of functions that have no linearization"),
("words", "print the list of words")
],
flags = [
("lang","the languages that need to be printed")
],
examples = [
mkEx "pg -langs -- show the names of top concrete syntax modules",
mkEx "pg -funs | ? grep \" S ;\" -- show functions with value cat S"
]
}),
{-
("pt", emptyCommandInfo {
longname = "put_tree",
syntax = "pt OPT? TREE",
synopsis = "return a tree, possibly processed with a function",
explanation = unlines [
"Returns a tree obtained from its argument tree by applying",
"tree processing functions in the order given in the command line",
"option list. Thus 'pt -f -g s' returns g (f s). Typical tree processors",
"are type checking and semantic computation."
],
examples = [
mkEx "pt -compute (plus one two) -- compute value",
mkEx "p \"4 dogs love 5 cats\" | pt -transfer=digits2numeral | l -- four...five..."
],
exec = \env@(pgf, mos) opts ->
returnFromExprs . takeOptNum opts . treeOps pgf opts,
options = treeOpOptions undefined{-pgf-},
flags = [("number","take at most this many trees")] ++ treeOpFlags undefined{-pgf-}
}),
-}
("rf", emptyCommandInfo {
longname = "read_file",
synopsis = "read string or tree input from a file",
explanation = unlines [
"Reads input from file. The filename must be in double quotes.",
"The input is interpreted as a string by default, and can hence be",
"piped e.g. to the parse command. The option -tree interprets the",
"input as a tree, which can be given e.g. to the linearize command.",
"The option -lines will result in a list of strings or trees, one by line."
],
options = [
("lines","return the list of lines, instead of the singleton of all contents"),
("tree","convert strings into trees")
],
exec = needPGF $ \opts _ env@(pgf, mos) -> do
let file = optFile opts
let exprs [] = ([],empty)
exprs ((n,s):ls) | null s
= exprs ls
exprs ((n,s):ls) = case readExpr s of
Just e -> let (es,err) = exprs ls
in case inferExpr pgf e of
Right (e,t) -> (e:es,err)
Left msg -> (es,"on line" <+> n <> ':' $$ msg $$ err)
Nothing -> let (es,err) = exprs ls
in (es,"on line" <+> n <> ':' <+> "parse error" $$ err)
returnFromLines ls = case exprs ls of
(es, err) | null es -> return $ pipeMessage $ render (err $$ "no trees found")
| otherwise -> return $ pipeWithMessage (map hsExpr es) (render err)
s <- restricted $ readFile file
case opts of
_ | isOpt "lines" opts && isOpt "tree" opts ->
returnFromLines (zip [1::Int ..] (lines s))
_ | isOpt "tree" opts ->
returnFromLines [(1::Int,s)]
_ | isOpt "lines" opts -> return (fromStrings $ lines s)
_ -> return (fromString s),
flags = [("file","the input file name")]
}),
("rt", emptyCommandInfo {
longname = "rank_trees",
synopsis = "show trees in an order of decreasing probability",
explanation = unlines [
"Order trees from the most to the least probable, using either",
"even distribution in each category (default) or biased as specified",
"by the file given by flag -probs=FILE, where each line has the form",
"'function probability', e.g. 'youPol_Pron 0.01'."
],
exec = needPGF $ \opts es env@(pgf, _) -> do
let tds = sortBy (\(_,p) (_,q) -> compare p q)
[(t, treeProbability pgf t) | t <- map cExpr (toExprs es)]
if isOpt "v" opts
then putStrLn $
unlines [PGF2.showExpr [] t ++ "\t--" ++ show d | (t,d) <- tds]
else return ()
returnFromExprs $ map (hsExpr . fst) tds,
flags = [
("probs","probabilities from this file (format 'f 0.6' per line)")
],
options = [
("v","show all trees with their probability scores")
],
examples = [
mkEx "p \"you are here\" | rt -probs=probs | pt -number=1 -- most probable result"
]
}),
{-
("tq", emptyCommandInfo {
longname = "translation_quiz",
syntax = "tq -from=LANG -to=LANG (-cat=CAT)? (-probs=FILE)? TREE?",
synopsis = "start a translation quiz",
exec = \env@(pgf, mos) opts xs -> do
let from = optLangFlag "from" pgf opts
let to = optLangFlag "to" pgf opts
let typ = optType pgf opts
let mt = mexp xs
pgf <- optProbs opts pgf
restricted $ translationQuiz mt pgf from to typ
return void,
flags = [
("from","translate from this language"),
("to","translate to this language"),
("cat","translate in this category"),
("number","the maximum number of questions"),
("probs","file with biased probabilities for generation")
],
examples = [
mkEx ("tq -from=Eng -to=Swe -- any trees in startcat"),
mkEx ("tq -from=Eng -to=Swe (AdjCN (PositA ?2) (UseN ?)) -- only trees of this form")
]
}),
("vd", emptyCommandInfo {
longname = "visualize_dependency",
synopsis = "show word dependency tree graphically",
explanation = unlines [
"Prints a dependency tree in the .dot format (the graphviz format, default)",
"or the CoNLL/MaltParser format (flag -output=conll for training, malt_input",
"for unanalysed input).",
"By default, the last argument is the head of every abstract syntax",
"function; moreover, the head depends on the head of the function above.",
"The graph can be saved in a file by the wf command as usual.",
"If the -view flag is defined, the graph is saved in a temporary file",
"which is processed by graphviz and displayed by the program indicated",
"by the flag. The target format is png, unless overridden by the",
"flag -format."
],
exec = \env@(pgf, mos) opts es -> do
let debug = isOpt "v" opts
let file = valStrOpts "file" "" opts
let outp = valStrOpts "output" "dot" opts
mlab <- case file of
"" -> return Nothing
_ -> (Just . H.getDepLabels . lines) `fmap` restricted (readFile file)
let lang = optLang pgf opts
let grphs = unlines $ map (H.graphvizDependencyTree outp debug mlab Nothing pgf lang) es
if isFlag "view" opts || isFlag "format" opts then do
let file s = "_grphd." ++ s
let view = optViewGraph opts
let format = optViewFormat opts
restricted $ writeUTF8File (file "dot") grphs
restrictedSystem $ "dot -T" ++ format ++ " " ++ file "dot" ++ " > " ++ file format
restrictedSystem $ view ++ " " ++ file format
return void
else return $ fromString grphs,
examples = [
mkEx "gr | vd -- generate a tree and show dependency tree in .dot",
mkEx "gr | vd -view=open -- generate a tree and display dependency tree on a Mac",
mkEx "gr -number=1000 | vd -file=dep.labels -output=malt -- generate training treebank",
mkEx "gr -number=100 | vd -file=dep.labels -output=malt_input -- generate test sentences"
],
options = [
("v","show extra information")
],
flags = [
("file","configuration file for labels per fun, format 'fun l1 ... label ... l2'"),
("format","format of the visualization file (default \"png\")"),
("output","output format of graph source (default \"dot\")"),
("view","program to open the resulting file (default \"open\")"),
("lang","the language of analysis")
]
}),
-}
("vp", emptyCommandInfo {
longname = "visualize_parse",
synopsis = "show parse tree graphically",
explanation = unlines [
"Prints a parse tree in the .dot format (the graphviz format).",
"The graph can be saved in a file by the wf command as usual.",
"If the -view flag is defined, the graph is saved in a temporary file",
"which is processed by graphviz and displayed by the program indicated",
"by the flag. The target format is png, unless overridden by the",
"flag -format."
],
exec = needPGF $ \opts arg env@(pgf, concs) ->
do let es = toExprs arg
let concs = optConcs env opts
let gvOptions=graphvizDefaults{noLeaves = isOpt "noleaves" opts && not (isOpt "showleaves" opts),
noFun = isOpt "nofun" opts || not (isOpt "showfun" opts),
noCat = isOpt "nocat" opts && not (isOpt "showcat" opts),
nodeFont = valStrOpts "nodefont" "" opts,
leafFont = valStrOpts "leaffont" "" opts,
nodeColor = valStrOpts "nodecolor" "" opts,
leafColor = valStrOpts "leafcolor" "" opts,
nodeEdgeStyle = valStrOpts "nodeedgestyle" "solid" opts,
leafEdgeStyle = valStrOpts "leafedgestyle" "dashed" opts
}
let grph= if null es || null concs
then []
else graphvizParseTree (snd (head concs)) gvOptions (cExpr (head es))
if isFlag "view" opts || isFlag "format" opts then do
let file s = "_grph." ++ s
let view = optViewGraph opts
let format = optViewFormat opts
restricted $ writeUTF8File (file "dot") grph
restrictedSystem $ "dot -T" ++ format ++ " " ++ file "dot" ++ " > " ++ file format
restrictedSystem $ view ++ " " ++ file format
return void
else return $ fromString grph,
examples = [
mkEx "p -lang=Eng \"John walks\" | vp -- generate a tree and show parse tree as .dot script",
mkEx "gr | vp -view=\"open\" -- generate a tree and display parse tree on a Mac"
],
options = [
("showcat","show categories in the tree nodes (default)"),
("nocat","don't show categories"),
("showfun","show function names in the tree nodes"),
("nofun","don't show function names (default)"),
("showleaves","show the leaves of the tree (default)"),
("noleaves","don't show the leaves of the tree (i.e., only the abstract tree)")
],
flags = [
("lang","the language to visualize"),
("format","format of the visualization file (default \"png\")"),
("view","program to open the resulting file (default \"open\")"),
("nodefont","font for tree nodes (default: Times -- graphviz standard font)"),
("leaffont","font for tree leaves (default: nodefont)"),
("nodecolor","color for tree nodes (default: black -- graphviz standard color)"),
("leafcolor","color for tree leaves (default: nodecolor)"),
("nodeedgestyle","edge style between tree nodes (solid/dashed/dotted/bold, default: solid)"),
("leafedgestyle","edge style for links to leaves (solid/dashed/dotted/bold, default: dashed)")
]
}),
("vt", emptyCommandInfo {
longname = "visualize_tree",
synopsis = "show a set of trees graphically",
explanation = unlines [
"Prints a set of trees in the .dot format (the graphviz format).",
"The graph can be saved in a file by the wf command as usual.",
"If the -view flag is defined, the graph is saved in a temporary file",
"which is processed by graphviz and displayed by the program indicated",
"by the flag. The target format is postscript, unless overridden by the",
"flag -format."
],
exec = needPGF $ \opts arg env@(pgf, _) ->
let es = toExprs arg in
if isOpt "api" opts
then do
mapM_ (putStrLn . exprToAPI) es
return void
else do
let gvOptions=graphvizDefaults{noFun = isOpt "nofun" opts,
noCat = isOpt "nocat" opts,
nodeFont = valStrOpts "nodefont" "" opts,
nodeColor = valStrOpts "nodecolor" "" opts,
nodeEdgeStyle = valStrOpts "nodeedgestyle" "solid" opts
}
let grph = unlines (map (graphvizAbstractTree pgf gvOptions . cExpr) es)
if isFlag "view" opts || isFlag "format" opts then do
let file s = "_grph." ++ s
let view = optViewGraph opts
let format = optViewFormat opts
restricted $ writeUTF8File (file "dot") grph
restrictedSystem $ "dot -T" ++ format ++ " " ++ file "dot" ++ " > " ++ file format
restrictedSystem $ view ++ " " ++ file format
return void
else return $ fromString grph,
examples = [
mkEx "p \"hello\" | vt -- parse a string and show trees as graph script",
mkEx "p \"hello\" | vt -view=\"open\" -- parse a string and display trees on a Mac"
],
options = [
("api", "show the tree with function names converted to 'mkC' with value cats C"),
("nofun","don't show functions but only categories"),
("nocat","don't show categories but only functions")
],
flags = [
("format","format of the visualization file (default \"png\")"),
("view","program to open the resulting file (default \"open\")"),
("nodefont","font for tree nodes (default: Times -- graphviz standard font)"),
("nodecolor","color for tree nodes (default: black -- graphviz standard color)"),
("nodeedgestyle","edge style between tree nodes (solid/dashed/dotted/bold, default: solid)")
]
}),
("ai", emptyCommandInfo {
longname = "abstract_info",
syntax = "ai IDENTIFIER or ai EXPR",
synopsis = "Provides an information about a function, an expression or a category from the abstract syntax",
explanation = unlines [
"The command has one argument which is either function, expression or",
"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",
"metavariables and the type of the expression."
],
exec = needPGF $ \opts args env@(pgf,cncs) ->
case map cExpr (toExprs args) of
[e] -> case unApp e of
Just (id,[]) -> return (fromString
(case functionType pgf id of
Just ty -> showFun id ty
Nothing -> let funs = functionsByCat pgf id
in showCat id funs))
where
showCat c funs = "cat "++c++
" ;\n\n"++
unlines [showFun f ty| f<-funs,
Just ty <- [functionType pgf f]]
showFun f ty = "fun "++f++" : "++showType [] ty++" ;"
_ -> case inferExpr pgf e of
Left msg -> error msg
Right (e,ty) -> do putStrLn ("Expression: "++PGF2.showExpr [] e)
putStrLn ("Type: "++PGF2.showType [] ty)
putStrLn ("Probability: "++show (treeProbability pgf e))
return void
_ -> do putStrLn "a single function name or category name is expected"
return void,
needsTypeCheck = False
})
]
where
cParse env@(pgf,_) opts ss =
parsed [ parse cnc cat s | s<-ss,(lang,cnc)<-cncs]
where
cat = optType pgf opts
cncs = optConcs env opts
parsed rs = Piped (Exprs ts,unlines msgs)
where
ts = [hsExpr t|ParseOk ts<-rs,(t,p)<-takeOptNum opts ts]
msgs = concatMap mkMsg rs
mkMsg (ParseOk ts) = (map (PGF2.showExpr [] . fst).takeOptNum opts) ts
mkMsg (ParseFailed _ tok) = ["Parse failed: "++tok]
mkMsg (ParseIncomplete) = ["The sentence is incomplete"]
optLins env opts ts = case opts of
_ | isOpt "groups" opts ->
concatMap snd $ groupResults
[[(lang, s) | (lang,concr) <- optConcs env opts,s <- linear opts lang concr t] | t <- ts]
_ -> concatMap (optLin env opts) ts
optLin env@(pgf,_) opts t =
case opts of
_ | isOpt "treebank" opts ->
(abstractName pgf ++ ": " ++ PGF2.showExpr [] t) :
[lang ++ ": " ++ s | (lang,concr) <- optConcs env opts, s<-linear opts lang concr t]
_ -> [s | (lang,concr) <- optConcs env opts, s<-linear opts lang concr t]
linear :: [Option] -> ConcName -> Concr -> PGF2.Expr -> [String]
linear opts lang concr = case opts of
_ | isOpt "all" opts -> concat . map (map snd) . tabularLinearizeAll concr
_ | isOpt "list" opts -> (:[]) . commaList .
concatMap (map snd) . tabularLinearizeAll concr
_ | isOpt "table" opts -> concatMap (map (\(p,v) -> p+++":"+++v)) . tabularLinearizeAll concr
_ | isOpt "bracket" opts -> (:[]) . unwords . map showBracketedString . bracketedLinearize concr
_ -> (:[]) . linearize concr
groupResults :: [[(ConcName,String)]] -> [(ConcName,[String])]
groupResults = Map.toList . foldr more Map.empty . start . concat
where
start ls = [(l,[s]) | (l,s) <- ls]
more (l,s) =
Map.insertWith (\ [x] xs -> if elem x xs then xs else (x : xs)) l s
optConcs = optConcsFlag "lang"
optConcsFlag f (pgf,cncs) opts =
case valStrOpts f "" opts of
"" -> Map.toList cncs
lang -> mapMaybe pickLang (chunks ',' lang)
where
pickLang l = pick l `mplus` pick fl
where
fl = abstractName pgf++l
pick l = (,) l `fmap` Map.lookup l cncs
{-
-- replace each non-atomic constructor with mkC, where C is the val cat
tree2mk pgf = H.showExpr [] . t2m where
t2m t = case H.unApp t of
Just (cid,ts@(_:_)) -> H.mkApp (mk cid) (map t2m ts)
_ -> t
mk = H.mkCId . ("mk" ++) . H.showCId . H.lookValCat (H.abstract pgf)
unlex opts lang = stringOps Nothing (getUnlex opts lang ++ map prOpt opts) ----
getUnlex opts lang = case words (valStrOpts "unlexer" "" opts) of
lexs -> case lookup lang
[(H.mkCId la,tail le) | lex <- lexs, let (la,le) = span (/='=') lex, not (null le)] of
Just le -> chunks ',' le
_ -> []
-}
commaList [] = []
commaList ws = concat $ head ws : map (", " ++) (tail ws)
optFile opts = valStrOpts "file" "_gftmp" opts
optType pgf opts =
case listFlags "cat" opts of
v:_ -> let str = valueString v
in case readType str of
Just ty -> case checkType pgf ty of
Left msg -> error msg
Right ty -> ty
Nothing -> error ("Can't parse '"++str++"' as a type")
_ -> startCat pgf
optViewFormat opts = valStrOpts "format" "png" opts
optViewGraph opts = valStrOpts "view" "open" opts
{-
optNum opts = valIntOpts "number" 1 opts
-}
optNumInf opts = valIntOpts "number" 1000000000 opts ---- 10^9
takeOptNum opts = take (optNumInf opts)
returnFromCExprs = returnFromExprs . map hsExpr
returnFromExprs es =
return $ case es of
[] -> pipeMessage "no trees found"
_ -> fromExprs es
prGrammar env@(pgf,cncs) opts
| isOpt "langs" opts = return . fromString . unwords $ (map fst (optConcs env opts))
| isOpt "cats" opts = return . fromString . unwords $ categories pgf
| isOpt "funs" opts = return . fromString . unwords $ functions pgf
| isOpt "missing" opts = return . fromString . unwords $
[f | f <- functions pgf, not (and [hasLinearization concr f | (_,concr) <- optConcs env opts])]
| isOpt "fullform" opts = return $ fromString $ concatMap (prFullFormLexicon . snd) $ optConcs env opts
| isOpt "words" opts = return $ fromString $ concatMap (prAllWords . snd) $ optConcs env opts
| isOpt "lexc" opts = return $ fromString $ concatMap (prLexcLexicon . snd) $ optConcs env opts
| otherwise = return void
gizaAlignment pgf src_cnc tgt_cnc e =
let src_res = alignWords src_cnc e
tgt_res = alignWords tgt_cnc e
alignment = [show i++"-"++show j | (i,(_,src_fids)) <- zip [0..] src_res, (j,(_,tgt_fids)) <- zip [0..] tgt_res, not (null (intersect src_fids tgt_fids))]
in (unwords (map fst src_res), unwords (map fst tgt_res), unwords alignment)
morphos env opts s =
[(s,res) | (lang,concr) <- optConcs env opts, let res = lookupMorpho concr s, not (null res)]
{-
mexp xs = case xs of
t:_ -> Just t
_ -> Nothing
-}
-- ps -f -g s returns g (f s)
{-
treeOps pgf opts s = foldr app s (reverse opts) where
app (OOpt op) | Just (Left f) <- treeOp pgf op = f
app (OFlag op (VId x)) | Just (Right f) <- treeOp pgf op = f (H.mkCId x)
app _ = id
treeOpOptions pgf = [(op,expl) | (op,(expl,Left _)) <- allTreeOps pgf]
treeOpFlags pgf = [(op,expl) | (op,(expl,Right _)) <- allTreeOps pgf]
translationQuiz :: Maybe H.Expr -> H.PGF -> H.Language -> H.Language -> H.Type -> IO ()
translationQuiz mex pgf ig og typ = do
tts <- translationList mex pgf ig og typ infinity
mkQuiz "Welcome to GF Translation Quiz." tts
morphologyQuiz :: Maybe H.Expr -> H.PGF -> H.Language -> H.Type -> IO ()
morphologyQuiz mex pgf ig typ = do
tts <- morphologyList mex pgf ig typ infinity
mkQuiz "Welcome to GF Morphology Quiz." tts
-- | the maximal number of precompiled quiz problems
infinity :: Int
infinity = 256
-}
prLexcLexicon :: Concr -> String
prLexcLexicon concr =
unlines $ "Multichar_Symbols":multichars:"":"LEXICON Root" : [prLexc l p ++ ":" ++ w ++ " # ;" | (w,lps) <- morpho, (l,p,_) <- lps] ++ ["END"]
where
morpho = fullFormLexicon concr
prLexc l p = l ++ concat (mkTags (words p))
mkTags p = case p of
"s":ws -> mkTags ws --- remove record field
ws -> map ('+':) ws
multichars = unwords $ nub $ concat [mkTags (words p) | (w,lps) <- morpho, (l,p,_) <- lps]
-- thick_A+(AAdj+Posit+Gen):thick's # ;
prFullFormLexicon :: Concr -> String
prFullFormLexicon concr =
unlines (map prMorphoAnalysis (fullFormLexicon concr))
prAllWords :: Concr -> String
prAllWords concr =
unwords [w | (w,_) <- fullFormLexicon concr]
prMorphoAnalysis :: (String,[MorphoAnalysis]) -> String
prMorphoAnalysis (w,lps) =
unlines (w:[fun ++ " : " ++ cat | (fun,cat,p) <- lps])
hsExpr c =
case unApp c of
Just (f,cs) -> H.mkApp (H.mkCId f) (map hsExpr cs)
_ -> case unStr c of
Just str -> H.mkStr str
_ -> error $ "GF.Command.Commands2.hsExpr "++show c
cExpr e =
case H.unApp e of
Just (f,es) -> mkApp (H.showCId f) (map cExpr es)
_ -> case H.unStr e of
Just str -> mkStr str
_ -> error $ "GF.Command.Commands2.cExpr "++show e
needPGF exec opts ts =
do Env mb_pgf cncs <- getPGFEnv
case mb_pgf of
Just pgf -> liftSIO $ exec opts ts (pgf,cncs)
_ -> fail "Import a grammar before using this command"

43
src/compiler/GF/Command/CommonCommands.hs
View File

@@ -3,7 +3,6 @@
-- elsewhere
module GF.Command.CommonCommands where
import Data.List(sort)
import Data.Char (isSpace)
import GF.Command.CommandInfo
import qualified Data.Map as Map
import GF.Infra.SIO
@@ -16,7 +15,7 @@ import GF.Text.Pretty
import GF.Text.Transliterations
import GF.Text.Lexing(stringOp,opInEnv)
import qualified PGF as H(showCId,showExpr,toATree,toTrie,Trie(..))
import PGF2(showExpr)
extend old new = Map.union (Map.fromList new) old -- Map.union is left-biased
@@ -102,9 +101,7 @@ commonCommands = fmap (mapCommandExec liftSIO) $ Map.fromList [
"To see transliteration tables, use command ut."
],
examples = [
-- mkEx "l (EAdd 3 4) | ps -code -- linearize code-like output",
mkEx "l (EAdd 3 4) | ps -unlexcode -- linearize code-like output",
-- mkEx "ps -lexer=code | p -cat=Exp -- parse code-like input",
mkEx "ps -lexcode | p -cat=Exp -- parse code-like input",
mkEx "gr -cat=QCl | l | ps -bind -- linearization output from LangFin",
mkEx "ps -to_devanagari \"A-p\" -- show Devanagari in UTF8 terminal",
@@ -117,13 +114,11 @@ commonCommands = fmap (mapCommandExec liftSIO) $ Map.fromList [
let (os,fs) = optsAndFlags opts
trans <- optTranslit opts
case opts of
_ | isOpt "lines" opts -> return $ fromStrings $ map (trans . stringOps (envFlag fs) (map prOpt os)) $ toStrings x
_ | isOpt "paragraphs" opts -> return $ fromStrings $ map (trans . stringOps (envFlag fs) (map prOpt os)) $ toParagraphs $ toStrings x
_ -> return ((fromString . trans . stringOps (envFlag fs) (map prOpt os) . toString) x),
if isOpt "lines" opts
then return $ fromStrings $ map (trans . stringOps (envFlag fs) (map prOpt os)) $ toStrings x
else return ((fromString . trans . stringOps (envFlag fs) (map prOpt os) . toString) x),
options = [
("lines","apply the operation separately to each input line, returning a list of lines"),
("paragraphs","apply separately to each input paragraph (as separated by empty lines), returning a list of lines")
("lines","apply the operation separately to each input line, returning a list of lines")
] ++
stringOpOptions,
flags = [
@@ -178,12 +173,6 @@ commonCommands = fmap (mapCommandExec liftSIO) $ Map.fromList [
mkEx "gt | l | ? wc -- generate trees, linearize, and count words"
]
}),
("tt", emptyCommandInfo {
longname = "to_trie",
syntax = "to_trie",
synopsis = "combine a list of trees into a trie",
exec = \ _ -> return . fromString . trie . toExprs
}),
("ut", emptyCommandInfo {
longname = "unicode_table",
synopsis = "show a transliteration table for a unicode character set",
@@ -231,7 +220,6 @@ envFlag fs =
_ -> Nothing
stringOpOptions = sort $ [
("bind","bind tokens separated by Prelude.BIND, i.e. &+"),
("chars","lexer that makes every non-space character a token"),
("from_cp1251","decode from cp1251 (Cyrillic used in Bulgarian resource)"),
("from_utf8","decode from utf8 (default)"),
@@ -256,27 +244,6 @@ stringOpOptions = sort $ [
("to_" ++ p, "from GF " ++ n ++ " transliteration to unicode")] |
(p,n) <- transliterationPrintNames]
trie = render . pptss . H.toTrie . map H.toATree
where
pptss [ts] = "*"<+>nest 2 (ppts ts)
pptss tss = vcat [i<+>nest 2 (ppts ts)|(i,ts)<-zip [(1::Int)..] tss]
ppts = vcat . map ppt
ppt t =
case t of
H.Oth e -> pp (H.showExpr [] e)
H.Ap f [[]] -> pp (H.showCId f)
H.Ap f tss -> H.showCId f $$ nest 2 (pptss tss)
-- ** Converting command input
toString = unwords . toStrings
toLines = unlines . toStrings
toParagraphs = map (unwords . words) . toParas
where
toParas ls = case break (all isSpace) ls of
([],[]) -> []
([],_:ll) -> toParas ll
(l, []) -> [unwords l]
(l, _:ll) -> unwords l : toParas ll

34
src/compiler/GF/Command/Importing.hs
View File

@@ -1,7 +1,7 @@
module GF.Command.Importing (importGrammar, importSource) where
import PGF
import PGF.Internal(optimizePGF,unionPGF,msgUnionPGF)
import PGF2
import PGF2.Internal(unionPGF)
import GF.Compile
import GF.Compile.Multi (readMulti)
@@ -17,14 +17,16 @@ import GF.Data.ErrM
import System.FilePath
import qualified Data.Set as Set
import qualified Data.Map as Map
import Control.Monad(foldM)
-- import a grammar in an environment where it extends an existing grammar
importGrammar :: PGF -> Options -> [FilePath] -> IO PGF
importGrammar pgf0 _ [] = return pgf0
importGrammar :: Maybe PGF -> Options -> [FilePath] -> IO (Maybe PGF)
importGrammar pgf0 _ [] = return pgf0
importGrammar pgf0 opts files =
case takeExtensions (last files) of
".cf" -> importCF opts files getBNFCRules bnfc2cf
".ebnf" -> importCF opts files getEBNFRules ebnf2cf
".cf" -> fmap Just $ importCF opts files getBNFCRules bnfc2cf
".ebnf" -> fmap Just $ importCF opts files getEBNFRules ebnf2cf
".gfm" -> do
ascss <- mapM readMulti files
let cs = concatMap snd ascss
@@ -36,14 +38,15 @@ importGrammar pgf0 opts files =
Bad msg -> do putStrLn ('\n':'\n':msg)
return pgf0
".pgf" -> do
pgf2 <- mapM readPGF files >>= return . foldl1 unionPGF
ioUnionPGF pgf0 pgf2
mapM readPGF files >>= foldM ioUnionPGF pgf0
ext -> die $ "Unknown filename extension: " ++ show ext
ioUnionPGF :: PGF -> PGF -> IO PGF
ioUnionPGF one two = case msgUnionPGF one two of
(pgf, Just msg) -> putStrLn msg >> return pgf
(pgf,_) -> return pgf
ioUnionPGF :: Maybe PGF -> PGF -> IO (Maybe PGF)
ioUnionPGF Nothing two = return (Just two)
ioUnionPGF (Just one) two =
case unionPGF one two of
Nothing -> putStrLn "Abstract changed, previous concretes discarded." >> return (Just two)
Just pgf -> return (Just pgf)
importSource :: Options -> [FilePath] -> IO SourceGrammar
importSource opts files = fmap (snd.snd) (batchCompile opts files)
@@ -56,7 +59,6 @@ importCF opts files get convert = impCF
startCat <- case rules of
(Rule cat _ _ : _) -> return cat
_ -> fail "empty CFG"
let pgf = cf2pgf (last files) (mkCFG startCat Set.empty rules)
probs <- maybe (return . defaultProbabilities) readProbabilitiesFromFile (flag optProbsFile opts) pgf
return $ setProbabilities probs
$ if flag optOptimizePGF opts then optimizePGF pgf else pgf
probs <- maybe (return Map.empty) readProbabilitiesFromFile (flag optProbsFile opts)
let pgf = cf2pgf opts (last files) (mkCFG startCat Set.empty rules) probs
return pgf

15
src/compiler/GF/Command/Interpreter.hs
View File

@@ -6,8 +6,8 @@ module GF.Command.Interpreter (
import GF.Command.CommandInfo
import GF.Command.Abstract
import GF.Command.Parse
import PGF.Internal(Expr(..))
import GF.Infra.UseIO(putStrLnE)
import PGF2
import Control.Monad(when)
import qualified Data.Map as Map
@@ -53,17 +53,8 @@ interpretPipe env cs = do
-- | macro definition applications: replace ?i by (exps !! i)
appCommand :: CommandArguments -> Command -> Command
appCommand args c@(Command i os arg) = case arg of
AExpr e -> Command i os (AExpr (app e))
AExpr e -> Command i os (AExpr (exprSubstitute e (toExprs args)))
_ -> c
where
xs = toExprs args
app e = case e of
EAbs b x e -> EAbs b x (app e)
EApp e1 e2 -> EApp (app e1) (app e2)
ELit l -> ELit l
EMeta i -> xs !! i
EFun x -> EFun x
-- | return the trees to be sent in pipe, and the output possibly printed
--interpret :: CommandEnv -> [Expr] -> Command -> SIO CommandOutput
@@ -110,4 +101,4 @@ getCommandTrees env needsTypeCheck a args =
ATerm t -> return (Term t)
ANoArg -> return args -- use piped
where
one e = return (Exprs [e]) -- ignore piped
one e = return (Exprs [(e,0)]) -- ignore piped

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

@@ -1,6 +1,6 @@
module GF.Command.Parse(readCommandLine, pCommand) where
import PGF(pExpr,pIdent)
import PGF2(pExpr,pIdent)
import GF.Grammar.Parser(runPartial,pTerm)
import GF.Command.Abstract
@@ -22,7 +22,7 @@ pCommandLine =
pPipe = sepBy1 (skipSpaces >> pCommand) (skipSpaces >> char '|')
pCommand = (do
cmd <- pIdent <++ (char '%' >> fmap ('%':) pIdent)
cmd <- readS_to_P pIdent <++ (char '%' >> fmap ('%':) (readS_to_P pIdent))
skipSpaces
opts <- sepBy pOption skipSpaces
arg <- if getCommandOp cmd == "cc" then pArgTerm else pArgument
@@ -37,7 +37,7 @@ pCommand = (do
pOption = do
char '-'
flg <- pIdent
flg <- readS_to_P pIdent
option (OOpt flg) (fmap (OFlag flg) (char '=' >> pValue))
pValue = do
@@ -52,9 +52,9 @@ pFilename = liftM2 (:) (satisfy isFileFirst) (munch (not . isSpace)) where
pArgument =
option ANoArg
(fmap AExpr pExpr
(fmap AExpr (readS_to_P pExpr)
<++
(skipSpaces >> char '%' >> fmap AMacro pIdent))
(skipSpaces >> char '%' >> fmap AMacro (readS_to_P pIdent)))
pArgTerm = ATerm `fmap` readS_to_P sTerm
where

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

@@ -4,15 +4,15 @@ module GF.Command.TreeOperations (
treeChunks
) where
import PGF(Expr,PGF,CId,compute,mkApp,unApp,unapply,unMeta,exprSize,exprFunctions)
import PGF2(Expr,PGF,Fun,compute,mkApp,unApp,unapply,unMeta,exprSize,exprFunctions)
import Data.List
type TreeOp = [Expr] -> [Expr]
treeOp :: PGF -> String -> Maybe (Either TreeOp (CId -> TreeOp))
treeOp :: PGF -> String -> Maybe (Either TreeOp (Fun -> TreeOp))
treeOp pgf f = fmap snd $ lookup f $ allTreeOps pgf
allTreeOps :: PGF -> [(String,(String,Either TreeOp (CId -> TreeOp)))]
allTreeOps :: PGF -> [(String,(String,Either TreeOp (Fun -> TreeOp)))]
allTreeOps pgf = [
("compute",("compute by using semantic definitions (def)",
Left $ map (compute pgf))),

40
src/compiler/GF/Compile.hs
View File

@@ -1,6 +1,6 @@
module GF.Compile (compileToPGF, link, batchCompile, srcAbsName) where
import GF.Compile.GrammarToPGF(mkCanon2pgf)
import GF.Compile.GrammarToPGF(grammar2PGF)
import GF.Compile.ReadFiles(ModEnv,getOptionsFromFile,getAllFiles,
importsOfModule)
import GF.CompileOne(compileOne)
@@ -14,7 +14,7 @@ import GF.Infra.UseIO(IOE,FullPath,liftIO,getLibraryDirectory,putIfVerb,
justModuleName,extendPathEnv,putStrE,putPointE)
import GF.Data.Operations(raise,(+++),err)
import Control.Monad(foldM,when,(<=<),filterM,liftM)
import Control.Monad(foldM,when,(<=<))
import GF.System.Directory(doesFileExist,getModificationTime)
import System.FilePath((</>),isRelative,dropFileName)
import qualified Data.Map as Map(empty,insert,elems) --lookup
@@ -22,8 +22,7 @@ import Data.List(nub)
import Data.Time(UTCTime)
import GF.Text.Pretty(render,($$),(<+>),nest)
import PGF.Internal(optimizePGF)
import PGF(PGF,defaultProbabilities,setProbabilities,readProbabilitiesFromFile)
import PGF2(PGF,readProbabilitiesFromFile)
-- | Compiles a number of source files and builds a 'PGF' structure for them.
-- This is a composition of 'link' and 'batchCompile'.
@@ -36,11 +35,10 @@ link :: Options -> (ModuleName,Grammar) -> IOE PGF
link opts (cnc,gr) =
putPointE Normal opts "linking ... " $ do
let abs = srcAbsName gr cnc
pgf <- mkCanon2pgf opts gr abs
probs <- liftIO (maybe (return . defaultProbabilities) readProbabilitiesFromFile (flag optProbsFile opts) pgf)
probs <- liftIO (maybe (return Map.empty) readProbabilitiesFromFile (flag optProbsFile opts))
pgf <- grammar2PGF opts gr abs probs
when (verbAtLeast opts Normal) $ putStrE "OK"
return $ setProbabilities probs
$ if flag optOptimizePGF opts then optimizePGF pgf else pgf
return pgf
-- | Returns the name of the abstract syntax corresponding to the named concrete syntax
srcAbsName gr cnc = err (const cnc) id $ abstractOfConcrete gr cnc
@@ -78,14 +76,10 @@ compileModule opts1 env@(_,rfs) file =
do file <- getRealFile file
opts0 <- getOptionsFromFile file
let curr_dir = dropFileName file
lib_dirs <- getLibraryDirectory (addOptions opts0 opts1)
let opts = addOptions (fixRelativeLibPaths curr_dir lib_dirs opts0) opts1
-- putIfVerb opts $ "curr_dir:" +++ show curr_dir ----
-- putIfVerb opts $ "lib_dir:" +++ show lib_dirs ----
lib_dir <- getLibraryDirectory (addOptions opts0 opts1)
let opts = addOptions (fixRelativeLibPaths curr_dir lib_dir opts0) opts1
ps0 <- extendPathEnv opts
let ps = nub (curr_dir : ps0)
-- putIfVerb opts $ "options from file: " ++ show opts0
-- putIfVerb opts $ "augmented options: " ++ show opts
putIfVerb opts $ "module search path:" +++ show ps ----
files <- getAllFiles opts ps rfs file
putIfVerb opts $ "files to read:" +++ show files ----
@@ -98,17 +92,13 @@ compileModule opts1 env@(_,rfs) file =
if exists
then return file
else if isRelative file
then do
lib_dirs <- getLibraryDirectory opts1
let candidates = [ lib_dir </> file | lib_dir <- lib_dirs ]
putIfVerb opts1 (render ("looking for: " $$ nest 2 candidates))
file1s <- filterM doesFileExist candidates
case length file1s of
0 -> raise (render ("Unable to find: " $$ nest 2 candidates))
1 -> do return $ head file1s
_ -> do putIfVerb opts1 ("matched multiple candidates: " +++ show file1s)
return $ head file1s
else raise (render ("File" <+> file <+> "does not exist"))
then do lib_dir <- getLibraryDirectory opts1
let file1 = lib_dir </> file
exists <- doesFileExist file1
if exists
then return file1
else raise (render ("None of these files exists:" $$ nest 2 (file $$ file1)))
else raise (render ("File" <+> file <+> "does not exist."))
compileOne' :: Options -> CompileEnv -> FullPath -> IOE CompileEnv
compileOne' opts env@(gr,_) = extendCompileEnv env <=< compileOne opts gr

135
src/compiler/GF/Compile/CFGtoPGF.hs
View File

@@ -1,99 +1,110 @@
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE FlexibleContexts, ImplicitParams #-}
module GF.Compile.CFGtoPGF (cf2pgf) where
import GF.Grammar.CFG
import GF.Infra.UseIO
import GF.Infra.Option
import GF.Compile.OptimizePGF
import PGF
import PGF.Internal
import PGF2
import PGF2.Internal
import qualified Data.Set as Set
import qualified Data.Map as Map
import qualified Data.IntMap as IntMap
import Data.Array.IArray
import Data.List
import Data.Maybe(fromMaybe)
--------------------------
-- the compiler ----------
--------------------------
cf2pgf :: FilePath -> ParamCFG -> PGF
cf2pgf fpath cf =
let pgf = PGF Map.empty aname (cf2abstr cf) (Map.singleton cname (cf2concr cf))
in updateProductionIndices pgf
cf2pgf :: Options -> FilePath -> ParamCFG -> Map.Map Fun Double -> PGF
cf2pgf opts fpath cf probs =
build (let abstr = cf2abstr cf probs
in newPGF [] aname abstr [(cname, cf2concr opts abstr cf)])
where
name = justModuleName fpath
aname = mkCId (name ++ "Abs")
cname = mkCId name
aname = name ++ "Abs"
cname = name
cf2abstr :: ParamCFG -> Abstr
cf2abstr cfg = Abstr aflags afuns acats
cf2abstr :: (?builder :: Builder s) => ParamCFG -> Map.Map Fun Double -> B s AbstrInfo
cf2abstr cfg probs = newAbstr aflags acats afuns
where
aflags = Map.singleton (mkCId "startcat") (LStr (fst (cfgStartCat cfg)))
aflags = [("startcat", LStr (fst (cfgStartCat cfg)))]
acats = Map.fromList [(cat, ([], [(0,mkRuleName rule) | rule <- rules], 0))
| (cat,rules) <- (Map.toList . Map.fromListWith (++))
[(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]
acats = [(c', [], toLogProb (fromMaybe 0 (Map.lookup c' probs))) | cat <- allCats' cfg, let c' = cat2id cat]
afuns = [(f', dTyp [hypo Explicit "_" (dTyp [] (cat2id c) []) | NonTerminal c <- ruleRhs rule] (cat2id (ruleLhs rule)) [], 0, [], toLogProb (fromMaybe 0 (Map.lookup f' funs_probs)))
| rule <- allRules cfg
, let f' = mkRuleName rule]
cat2id = mkCId . fst
funs_probs = (Map.fromList . concat . Map.elems . fmap pad . Map.fromListWith (++))
[(cat,[(f',Map.lookup f' probs)]) | rule <- allRules cfg,
let cat = cat2id (ruleLhs rule),
let f' = mkRuleName rule]
where
pad :: [(a,Maybe Double)] -> [(a,Double)]
pad pfs = [(f,fromMaybe deflt mb_p) | (f,mb_p) <- pfs]
where
deflt = case length [f | (f,Nothing) <- pfs] of
0 -> 0
n -> max 0 ((1 - sum [d | (f,Just d) <- pfs]) / fromIntegral n)
cf2concr :: ParamCFG -> Concr
cf2concr cfg = Concr Map.empty Map.empty
cncfuns lindefsrefs lindefsrefs
sequences productions
IntMap.empty Map.empty
cnccats
IntMap.empty
totalCats
toLogProb = realToFrac . negate . log
cat2id = fst
cf2concr :: (?builder :: Builder s) => Options -> B s AbstrInfo -> ParamCFG -> B s ConcrInfo
cf2concr opts abstr cfg =
let (lindefs',linrefs',productions',cncfuns',sequences',cnccats') =
(if flag optOptimizePGF opts then optimizePGF (fst (cfgStartCat cfg)) else id)
(lindefsrefs,lindefsrefs,IntMap.toList productions,cncfuns,sequences,cnccats)
in newConcr abstr [] []
lindefs' linrefs'
productions' cncfuns'
sequences' cnccats' totalCats
where
cats = allCats' cfg
rules = allRules cfg
sequences0 = Set.fromList (listArray (0,0) [SymCat 0 0] :
map mkSequence rules)
sequences = listArray (0,Set.size sequences0-1) (Set.toList sequences0)
idSeq = [SymCat 0 0]
idFun = CncFun wildCId (listArray (0,0) [seqid])
where
seq = listArray (0,0) [SymCat 0 0]
seqid = binSearch seq sequences (bounds sequences)
sequences0 = Set.fromList (idSeq :
map mkSequence rules)
sequences = Set.toList sequences0
idFun = ("_",[Set.findIndex idSeq sequences0])
((fun_cnt,cncfuns0),productions0) = mapAccumL (convertRule cs) (1,[idFun]) rules
productions = foldl addProd IntMap.empty (concat (productions0++coercions))
cncfuns = listArray (0,fun_cnt-1) (reverse cncfuns0)
cncfuns = reverse cncfuns0
lbls = listArray (0,0) ["s"]
(fid,cnccats0) = (mapAccumL mkCncCat 0 . Map.toList . Map.fromListWith max)
[(c,p) | (c,ps) <- cats, p <- ps]
lbls = ["s"]
(fid,cnccats) = (mapAccumL mkCncCat 0 . Map.toList . Map.fromListWith max)
[(c,p) | (c,ps) <- cats, p <- ps]
((totalCats,cs), coercions) = mapAccumL mkCoercions (fid,Map.empty) cats
cnccats = Map.fromList cnccats0
lindefsrefs =
IntMap.fromList (map mkLinDefRef cats)
lindefsrefs = map mkLinDefRef cats
convertRule cs (funid,funs) rule =
let args = [PArg [] (cat2arg c) | NonTerminal c <- ruleRhs rule]
prod = PApply funid args
seqid = binSearch (mkSequence rule) sequences (bounds sequences)
fun = CncFun (mkRuleName rule) (listArray (0,0) [seqid])
seqid = Set.findIndex (mkSequence rule) sequences0
fun = (mkRuleName rule, [seqid])
funid' = funid+1
in funid' `seq` ((funid',fun:funs),let (c,ps) = ruleLhs rule in [(cat2fid c p, prod) | p <- ps])
mkSequence rule = listArray (0,length syms-1) syms
mkSequence rule = snd $ mapAccumL convertSymbol 0 (ruleRhs rule)
where
syms = snd $ mapAccumL convertSymbol 0 (ruleRhs rule)
convertSymbol d (NonTerminal (c,_)) = (d+1,if c `elem` ["Int","Float","String"] then SymLit d 0 else SymCat d 0)
convertSymbol d (Terminal t) = (d, SymKS t)
mkCncCat fid (cat,n)
| cat == "Int" = (fid, (mkCId cat, CncCat fidInt fidInt lbls))
| cat == "Float" = (fid, (mkCId cat, CncCat fidFloat fidFloat lbls))
| cat == "String" = (fid, (mkCId cat, CncCat fidString fidString lbls))
| cat == "Int" = (fid, (cat, fidInt, fidInt, lbls))
| cat == "Float" = (fid, (cat, fidFloat, fidFloat, lbls))
| cat == "String" = (fid, (cat, fidString, fidString, lbls))
| otherwise = let fid' = fid+n+1
in fid' `seq` (fid', (mkCId cat,CncCat fid (fid+n) lbls))
in fid' `seq` (fid', (cat, fid, fid+n, lbls))
mkCoercions (fid,cs) c@(cat,[p]) = ((fid,cs),[])
mkCoercions (fid,cs) c@(cat,ps ) =
@@ -102,25 +113,16 @@ 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
Nothing -> IntMap.insert fid (Set.singleton prod) prods
binSearch v arr (i,j)
| i <= j = case compare v (arr ! k) of
LT -> binSearch v arr (i,k-1)
EQ -> k
GT -> binSearch v arr (k+1,j)
| otherwise = error "binSearch"
where
k = (i+j) `div` 2
Just set -> IntMap.insert fid (prod:set) prods
Nothing -> IntMap.insert fid [prod] prods
cat2fid cat p =
case Map.lookup (mkCId cat) cnccats of
Just (CncCat fid _ _) -> fid+p
_ -> error "cat2fid"
case [start | (cat',start,_,_) <- cnccats, cat == cat'] of
(start:_) -> fid+p
_ -> error "cat2fid"
cat2arg c@(cat,[p]) = cat2fid cat p
cat2arg c@(cat,ps ) =
@@ -131,4 +133,5 @@ cf2concr cfg = Concr Map.empty Map.empty
mkRuleName rule =
case ruleName rule of
CFObj n _ -> n
_ -> wildCId
_ -> "_"

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

@@ -21,7 +21,6 @@
-----------------------------------------------------------------------------
module GF.Compile.CheckGrammar(checkModule) where
import Prelude hiding ((<>)) -- GHC 8.4.1 clash with Text.PrettyPrint
import GF.Infra.Ident
import GF.Infra.Option
@@ -34,14 +33,13 @@ import qualified GF.Compile.Compute.ConcreteNew as CN
import GF.Grammar
import GF.Grammar.Lexer
import GF.Grammar.Lookup
--import GF.Grammar.Predef
--import GF.Grammar.PatternMatch
import GF.Data.Operations
import GF.Infra.CheckM
import Data.List
import qualified Data.Set as Set
import qualified Data.Map as Map
import Control.Monad
import GF.Text.Pretty
@@ -59,7 +57,7 @@ checkModule opts cwd sgr mo@(m,mi) = do
where
updateCheckInfos mo = fmap (foldl update mo) . parallelCheck . map check
where check (i,info) = fmap ((,) i) (checkInfo opts cwd sgr mo i info)
update mo@(m,mi) (i,info) = (m,mi{jments=updateTree (i,info) (jments mi)})
update mo@(m,mi) (i,info) = (m,mi{jments=Map.insert i info (jments mi)})
-- check if restricted inheritance modules are still coherent
-- i.e. that the defs of remaining names don't depend on omitted names
@@ -72,7 +70,7 @@ checkRestrictedInheritance cwd sgr (name,mo) = checkInModule cwd mo NoLoc empty
where
mos = modules sgr
checkRem ((i,m),mi) = do
let (incl,excl) = partition (isInherited mi) (map fst (tree2list (jments m)))
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) |
@@ -89,10 +87,10 @@ checkCompleteGrammar opts cwd gr (am,abs) (cm,cnc) = checkInModule cwd cnc NoLoc
let jsc = jments cnc
-- check that all concrete constants are in abstract; build types for all lin
jsc <- foldM checkCnc emptyBinTree (tree2list jsc)
jsc <- foldM checkCnc Map.empty (Map.toList jsc)
-- check that all abstract constants are in concrete; build default lin and lincats
jsc <- foldM checkAbs jsc (tree2list jsa)
jsc <- foldM checkAbs jsc (Map.toList jsa)
return (cm,cnc{jments=jsc})
where
@@ -113,17 +111,17 @@ checkCompleteGrammar opts cwd gr (am,abs) (cm,cnc) = checkInModule cwd cnc NoLoc
case lookupIdent c js of
Ok (AnyInd _ _) -> return js
Ok (CncFun ty (Just def) mn mf) ->
return $ updateTree (c,CncFun ty (Just def) mn mf) js
return $ Map.insert c (CncFun ty (Just def) mn mf) js
Ok (CncFun ty Nothing mn mf) ->
case mb_def of
Ok def -> return $ updateTree (c,CncFun ty (Just (L NoLoc def)) mn mf) js
Ok def -> return $ Map.insert c (CncFun ty (Just (L NoLoc def)) mn mf) js
Bad _ -> do noLinOf c
return js
_ -> do
case mb_def of
Ok def -> do (cont,val) <- linTypeOfType gr cm ty
let linty = (snd (valCat ty),cont,val)
return $ updateTree (c,CncFun (Just linty) (Just (L NoLoc def)) Nothing Nothing) js
return $ Map.insert c (CncFun (Just linty) (Just (L NoLoc def)) Nothing Nothing) js
Bad _ -> do noLinOf c
return js
where noLinOf c = checkWarn ("no linearization of" <+> c)
@@ -132,26 +130,32 @@ checkCompleteGrammar opts cwd gr (am,abs) (cm,cnc) = checkInModule cwd cnc NoLoc
Ok (CncCat (Just _) _ _ _ _) -> return js
Ok (CncCat Nothing md mr mp mpmcfg) -> do
checkWarn ("no linearization type for" <+> c <> ", inserting default {s : Str}")
return $ updateTree (c,CncCat (Just (L NoLoc defLinType)) md mr mp mpmcfg) js
return $ Map.insert c (CncCat (Just (L NoLoc defLinType)) md mr mp mpmcfg) js
_ -> do
checkWarn ("no linearization type for" <+> c <> ", inserting default {s : Str}")
return $ updateTree (c,CncCat (Just (L NoLoc defLinType)) Nothing Nothing Nothing Nothing) js
return $ Map.insert c (CncCat (Just (L NoLoc defLinType)) Nothing Nothing Nothing Nothing) js
_ -> return js
checkCnc js i@(c,info) =
checkCnc js (c,info) =
case info of
CncFun _ d mn mf -> case lookupOrigInfo gr (am,c) of
Ok (_,AbsFun (Just (L _ ty)) _ _ _) ->
do (cont,val) <- linTypeOfType gr cm ty
let linty = (snd (valCat ty),cont,val)
return $ updateTree (c,CncFun (Just linty) d mn mf) js
return $ Map.insert c (CncFun (Just linty) d mn mf) js
_ -> do checkWarn ("function" <+> c <+> "is not in abstract")
return js
CncCat _ _ _ _ _ -> case lookupOrigInfo gr (am,c) of
Ok _ -> return $ updateTree i js
_ -> do checkWarn ("category" <+> c <+> "is not in abstract")
return js
_ -> return $ updateTree i js
CncCat {} ->
case lookupOrigInfo gr (am,c) of
Ok (_,AbsCat _) -> return $ Map.insert c info js
{- -- This might be too pedantic:
Ok (_,AbsFun {}) ->
checkError ("lincat:"<+>c<+>"is a fun, not a cat")
-}
_ -> do checkWarn ("category" <+> c <+> "is not in abstract")
return js
_ -> return $ Map.insert c info js
-- | General Principle: only Just-values are checked.
@@ -255,18 +259,30 @@ checkInfo opts cwd sgr (m,mo) c info = checkInModule cwd mo NoLoc empty $ do
return (ResOverload os [(y,x) | (x,y) <- tysts'])
ResParam (Just (L loc pcs)) _ -> do
ts <- chIn loc "parameter type" $
liftM concat $ mapM mkPar pcs
return (ResParam (Just (L loc pcs)) (Just ts))
(vs,pcs) <- chIn loc "parameter type" $
mkParams 0 [] pcs
return (ResParam (Just (L loc pcs)) (Just vs))
ResValue (L loc ty) _ ->
chIn loc "operation" $ do
let (_,Cn x) = typeFormCnc ty
is = case Map.lookup x (jments mo) of
Just (ResParam (Just (L _ pcs)) _) -> [i | (f,_,i) <- pcs, f == c]
_ -> []
case is of
[i] -> return (ResValue (L loc ty) i)
_ -> checkError (pp "Failed to find the value index for parameter" <+> pp c)
_ -> return info
where
gr = prependModule sgr (m,mo)
chIn loc cat = checkInModule cwd mo loc ("Happened in" <+> cat <+> c)
mkPar (f,co) = do
vs <- liftM combinations $ mapM (\(_,_,ty) -> allParamValues gr ty) co
return $ map (mkApp (QC (m,f))) vs
mkParams i vs [] = return (vs,[])
mkParams i vs ((f,co,_):pcs) = do
vs0 <- liftM combinations $ mapM (\(_,_,ty) -> allParamValues gr ty) co
(vs,pcs) <- mkParams (i + length vs0) (vs ++ map (mkApp (QC (m,f))) vs0) pcs
return (vs,(f,co,i):pcs)
checkUniq xss = case xss of
x:y:xs

64
src/compiler/GF/Compile/Coding.hs
View File

@@ -1,64 +0,0 @@
module GF.Compile.Coding where
{-
import GF.Grammar.Grammar
import GF.Grammar.Macros
import GF.Text.Coding
--import GF.Infra.Option
import GF.Data.Operations
--import Data.Char
import System.IO
import qualified Data.ByteString.Char8 as BS
encodeStringsInModule :: TextEncoding -> SourceModule -> SourceModule
encodeStringsInModule enc = codeSourceModule (BS.unpack . encodeUnicode enc)
decodeStringsInModule :: TextEncoding -> SourceModule -> SourceModule
decodeStringsInModule enc mo = codeSourceModule (decodeUnicode enc . BS.pack) mo
codeSourceModule :: (String -> String) -> SourceModule -> SourceModule
codeSourceModule co (id,mo) = (id,mo{jments = mapTree codj (jments mo)})
where
codj (c,info) = case info of
ResOper pty pt -> ResOper (codeLTerms co pty) (codeLTerms co pt)
ResOverload es tyts -> ResOverload es [(codeLTerm co ty,codeLTerm co t) | (ty,t) <- tyts]
CncCat mcat mdef mref mpr mpmcfg -> CncCat mcat (codeLTerms co mdef) (codeLTerms co mref) (codeLTerms co mpr) mpmcfg
CncFun mty mt mpr mpmcfg -> CncFun mty (codeLTerms co mt) (codeLTerms co mpr) mpmcfg
_ -> info
codeLTerms co = fmap (codeLTerm co)
codeLTerm :: (String -> String) -> L Term -> L Term
codeLTerm = fmap . codeTerm
codeTerm :: (String -> String) -> Term -> Term
codeTerm co = codt
where
codt t = case t of
K s -> K (co s)
T ty cs -> T ty [(codp p,codt v) | (p,v) <- cs]
EPatt p -> EPatt (codp p)
_ -> composSafeOp codt t
codp p = case p of --- really: composOpPatt
PR rs -> PR [(l,codp p) | (l,p) <- rs]
PString s -> PString (co s)
PChars s -> PChars (co s)
PT x p -> PT x (codp p)
PAs x p -> PAs x (codp p)
PNeg p -> PNeg (codp p)
PRep p -> PRep (codp p)
PSeq p q -> PSeq (codp p) (codp q)
PAlt p q -> PAlt (codp p) (codp q)
_ -> p
-- | Run an encoding function on all string literals within the given string.
codeStringLiterals :: (String -> String) -> String -> String
codeStringLiterals _ [] = []
codeStringLiterals co ('"':cs) = '"' : inStringLiteral cs
where inStringLiteral [] = error "codeStringLiterals: unterminated string literal"
inStringLiteral ('"':ds) = '"' : codeStringLiterals co ds
inStringLiteral ('\\':d:ds) = '\\' : co [d] ++ inStringLiteral ds
inStringLiteral (d:ds) = co [d] ++ inStringLiteral ds
codeStringLiterals co (c:cs) = c : codeStringLiterals co cs
-}

1
src/compiler/GF/Compile/Compute/ConcreteNew.hs
View File

@@ -5,7 +5,6 @@ module GF.Compile.Compute.ConcreteNew
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)

2
src/compiler/GF/Compile/Compute/Value.hs
View File

@@ -1,6 +1,6 @@
module GF.Compile.Compute.Value where
import GF.Grammar.Grammar(Label,Type,MetaId,Patt,QIdent)
import PGF.Internal(BindType)
import PGF2(BindType)
import GF.Infra.Ident(Ident)
import Text.Show.Functions()
import Data.Ix(Ix)

655
src/compiler/GF/Compile/ConcreteToHaskell.hs
View File

@@ -1,365 +1,351 @@
-- | Translate concrete syntax to Haskell
module GF.Compile.ConcreteToHaskell(concretes2haskell,concrete2haskell) where
import Data.List(sort,sortBy)
import Data.Function(on)
import Data.List(isPrefixOf,sort,sortOn)
import qualified Data.Map as M
import qualified Data.Set as S
import GF.Data.ErrM
import GF.Data.Utilities(mapSnd)
import GF.Text.Pretty
import GF.Grammar.Grammar
import GF.Grammar.Lookup(lookupFunType,lookupOrigInfo,allOrigInfos)--,allParamValues
import GF.Grammar.Macros(typeForm,collectOp,collectPattOp,mkAbs,mkApp)
import GF.Grammar.Lockfield(isLockLabel)
import GF.Grammar.Predef(cPredef,cInts)
import GF.Compile.Compute.Predef(predef)
import GF.Compile.Compute.Value(Predefined(..))
import GF.Infra.Ident(Ident,identS,prefixIdent) --,moduleNameS
--import GF.Grammar.Predef(cPredef,cInts)
--import GF.Compile.Compute.Predef(predef)
--import GF.Compile.Compute.Value(Predefined(..))
import GF.Infra.Ident(Ident,identS,identW,prefixIdent)
import GF.Infra.Option
import GF.Compile.Compute.ConcreteNew(normalForm,resourceValues)
import GF.Haskell
import Debug.Trace
import GF.Haskell as H
import GF.Grammar.Canonical as C
import GF.Compile.GrammarToCanonical
import Debug.Trace(trace)
-- | Generate Haskell code for the all concrete syntaxes associated with
-- the named abstract syntax in given the grammar.
concretes2haskell opts absname gr =
[(cncname,concrete2haskell opts gr cenv absname cnc cncmod)
| let cenv = resourceValues opts gr,
cnc<-allConcretes gr absname,
let cncname = render cnc ++ ".hs" :: FilePath
Ok cncmod = lookupModule gr cnc
[(filename,render80 $ concrete2haskell opts abstr cncmod)
| let Grammar abstr cncs = grammar2canonical opts absname gr,
cncmod<-cncs,
let ModId name = concName cncmod
filename = name ++ ".hs" :: FilePath
]
-- | Generate Haskell code for the given concrete module.
-- The only options that make a difference are
-- @-haskell=noprefix@ and @-haskell=variants@.
concrete2haskell opts gr cenv absname cnc modinfo =
renderStyle style{lineLength=80,ribbonsPerLine=1} $
haskPreamble va absname cnc $$ vcat (
nl:Comment "--- Parameter types ---":
neededParamTypes S.empty (params defs) ++
nl:Comment "--- Type signatures for linearization functions ---":
map signature (S.toList allcats)++
nl:Comment "--- Linearization functions for empty categories ---":
emptydefs ++
nl:Comment "--- Linearization types and linearization functions ---":
map ppDef defs ++
nl:Comment "--- Type classes for projection functions ---":
map labelClass (S.toList labels) ++
nl:Comment "--- Record types ---":
concatMap recordType recs)
concrete2haskell opts
abstr@(Abstract _ _ cats funs)
modinfo@(Concrete cnc absname _ ps lcs lns) =
haskPreamble absname cnc $$
vcat (
nl:Comment "--- Parameter types ---":
map paramDef ps ++
nl:Comment "--- Type signatures for linearization functions ---":
map signature cats ++
nl:Comment "--- Linearization functions for empty categories ---":
emptydefs ++
nl:Comment "--- Linearization types ---":
map lincatDef lcs ++
nl:Comment "--- Linearization functions ---":
lindefs ++
nl:Comment "--- Type classes for projection functions ---":
map labelClass (S.toList labels) ++
nl:Comment "--- Record types ---":
concatMap recordType recs)
where
nl = Comment ""
recs = S.toList (S.difference (records (lcs,lns)) common_records)
labels = S.difference (S.unions (map S.fromList recs)) common_labels
recs = S.toList (S.difference (records rhss) common_records)
common_records = S.fromList [[label_s]]
common_labels = S.fromList [label_s]
label_s = ident2label (identS "s")
label_s = LabelId "s"
rhss = map (either snd (snd.snd)) defs
defs = sortBy (compare `on` either (const Nothing) (Just . fst)) .
concatMap (toHaskell gId gr absname cenv) .
M.toList $
jments modinfo
-- signature c = "lin"<>c<+>"::"<+>"A."<>gId c<+>"->"<+>"Lin"<>c
-- signature c = "--lin"<>c<+>":: (Applicative f,Monad f) =>"<+>"A."<>gId c<+>"->"<+>"f Lin"<>c
signature c = TypeSig lf (Fun abs (pure lin))
signature (CatDef c _) = TypeSig lf (Fun abs (pure lin))
where
abs = tcon0 (prefixIdent "A." (gId c))
lin = tcon0 lc
lf = prefixIdent "lin" c
lc = prefixIdent "Lin" c
lf = linfunName c
lc = lincatName c
emptydefs = map emptydef (S.toList emptyCats)
emptydef c = Eqn (prefixIdent "lin" c,[WildP]) (Const "undefined")
emptydef c = Eqn (linfunName c,[WildP]) (Const "undefined")
emptyCats = allcats `S.difference` cats
cats = S.fromList [c|Right (c,_)<-defs]
allcats = S.fromList [c|((_,c),AbsCat (Just _))<-allOrigInfos gr absname]
emptyCats = allcats `S.difference` linfuncats
where
--funcats = S.fromList [c | FunDef f (C.Type _ (TypeApp c _))<-funs]
allcats = S.fromList [c | CatDef c _<-cats]
gId :: ToIdent i => i -> Ident
gId = (if haskellOption opts HaskellNoPrefix then id else prefixIdent "G")
. toIdent
params = S.toList . S.unions . map params1
params1 (Left (_,rhs)) = paramTypes gr rhs
params1 (Right (_,(_,rhs))) = tableTypes gr [rhs]
ppDef (Left (lhs,rhs)) = lhs (convType va gId rhs)
ppDef (Right (_,(lhs,rhs))) = lhs (convert va gId gr rhs)
gId :: Ident -> Ident
gId = if haskellOption opts HaskellNoPrefix then id else prefixIdent "G"
va = haskellOption opts HaskellVariants
pure = if va then ListT else id
neededParamTypes have [] = []
neededParamTypes have (q:qs) =
if q `S.member` have
then neededParamTypes have qs
else let ((got,need),def) = paramType va gId gr q
in def++neededParamTypes (S.union got have) (S.toList need++qs)
haskPreamble :: Bool -> ModuleName -> ModuleName -> Doc
haskPreamble va absname cncname =
"{-# LANGUAGE MultiParamTypeClasses, FunctionalDependencies, FlexibleInstances, LambdaCase #-}" $$
"module" <+> cncname <+> "where" $$
"import Prelude hiding (Ordering(..))" $$
"import Control.Applicative((<$>),(<*>))" $$
"import PGF.Haskell" $$
"import qualified" <+> absname <+> "as A" $$
"" $$
"--- Standard definitions ---" $$
"linString (A.GString s) ="<+>pure "R_s [TK s]" $$
"linInt (A.GInt i) ="<+>pure "R_s [TK (show i)]" $$
"linFloat (A.GFloat x) ="<+>pure "R_s [TK (show x)]" $$
"" $$
"----------------------------------------------------" $$
"-- Automatic translation from GF to Haskell follows" $$
"----------------------------------------------------"
where
pure = if va then brackets else pp
toHaskell gId gr absname cenv (name,jment) =
case jment of
CncCat (Just (L loc typ)) _ _ pprn _ ->
[Left (tsyn0 (prefixIdent "Lin" name),nf loc typ)]
CncFun (Just r@(cat,ctx,lincat)) (Just (L loc def)) pprn _ ->
-- trace (render (name<+>hcat[parens (x<>"::"<>t)|(_,x,t)<-ctx]<+>"::"<+>cat)) $
[Right (cat,(Eqn (prefixIdent "lin" cat,lhs),coerce [] lincat rhs))]
haskPreamble :: ModId -> ModId -> Doc
haskPreamble absname cncname =
"{-# LANGUAGE MultiParamTypeClasses, FunctionalDependencies, FlexibleInstances, LambdaCase #-}" $$
"module" <+> cncname <+> "where" $$
"import Prelude hiding (Ordering(..))" $$
"import Control.Applicative((<$>),(<*>))" $$
"import PGF.Haskell" $$
"import qualified" <+> absname <+> "as A" $$
"" $$
"--- Standard definitions ---" $$
"linString (A.GString s) ="<+>pure "R_s [TK s]" $$
"linInt (A.GInt i) ="<+>pure "R_s [TK (show i)]" $$
"linFloat (A.GFloat x) ="<+>pure "R_s [TK (show x)]" $$
"" $$
"----------------------------------------------------" $$
"-- Automatic translation from GF to Haskell follows" $$
"----------------------------------------------------"
where
Ok abstype = lookupFunType gr absname name
(absctx,_abscat,_absargs) = typeForm abstype
pure = if va then brackets else pp
e' = unAbs (length params) $
nf loc (mkAbs params (mkApp def (map Vr args)))
params = [(b,prefixIdent "g" x)|(b,x,_)<-ctx]
args = map snd params
abs_args = map (prefixIdent "abs_") args
lhs = [ConP (aId name) (map VarP abs_args)]
rhs = foldr letlin e' (zip args absctx)
letlin (a,(_,_,at)) =
Let (a,(Just (con ("Lin"++render at)),(App (con ("lin"++render at)) (con ("abs_"++render a)))))
AnyInd _ m -> case lookupOrigInfo gr (m,name) of
Ok (m,jment) -> toHaskell gId gr absname cenv (name,jment)
_ -> []
_ -> []
where
nf loc = normalForm cenv (L loc name)
aId n = prefixIdent "A." (gId n)
paramDef pd =
case pd of
ParamAliasDef p t -> H.Type (conap0 (gId p)) (convLinType t)
ParamDef p pvs -> Data (conap0 (gId p)) (map paramCon pvs) derive
where
paramCon (Param c cs) = ConAp (gId c) (map (tcon0.gId) cs)
derive = ["Eq","Ord","Show"]
unAbs 0 t = t
unAbs n (Abs _ _ t) = unAbs (n-1) t
unAbs _ t = t
convLinType = ppT
where
ppT t =
case t of
FloatType -> tcon0 (identS "Float")
IntType -> tcon0 (identS "Int")
ParamType (ParamTypeId p) -> tcon0 (gId p)
RecordType rs -> tcon (rcon' ls) (map ppT ts)
where (ls,ts) = unzip $ sortOn fst [(l,t)|RecordRow l t<-rs]
StrType -> tcon0 (identS "Str")
TableType pt lt -> Fun (ppT pt) (ppT lt)
-- TupleType lts ->
lincatDef (LincatDef c t) = tsyn0 (lincatName c) (convLinType t)
linfuncats = S.fromList linfuncatl
(linfuncatl,lindefs) = unzip (linDefs lns)
linDefs = map eqn . sortOn fst . map linDef
where eqn (cat,(f,(ps,rhs))) = (cat,Eqn (f,ps) rhs)
linDef (LinDef f xs rhs0) =
(cat,(linfunName cat,(lhs,rhs)))
where
lhs = [ConP (aId f) (map VarP abs_args)]
aId f = prefixIdent "A." (gId f)
[lincat] = [lincat | LincatDef c lincat<-lcs,c==cat]
[C.Type absctx (TypeApp cat _)] = [t | FunDef f' t<-funs, f'==f]
abs_args = map abs_arg args
abs_arg = prefixIdent "abs_"
args = map (prefixIdent "g" . toIdent) xs
rhs = lets (zipWith letlin args absctx)
(convert vs (coerce env lincat rhs0))
where
vs = [(VarValueId (Unqual x),a)|(VarId x,a)<-zip xs args]
env= [(VarValueId (Unqual x),lc)|(VarId x,lc)<-zip xs (map arglincat absctx)]
letlin a (TypeBinding _ (C.Type _ (TypeApp acat _))) =
(a,Ap (Var (linfunName acat)) (Var (abs_arg a)))
arglincat (TypeBinding _ (C.Type _ (TypeApp acat _))) = lincat
where
[lincat] = [lincat | LincatDef c lincat<-lcs,c==acat]
convert = convert' va
convert' va vs = ppT
where
ppT0 = convert' False vs
ppTv vs' = convert' va vs'
pure = if va then single else id
ppT t =
case t of
TableValue ty cs -> pure (table cs)
Selection t p -> select (ppT t) (ppT p)
ConcatValue t1 t2 -> concat (ppT t1) (ppT t2)
RecordValue r -> aps (rcon ls) (map ppT ts)
where (ls,ts) = unzip $ sortOn fst [(l,t)|RecordRow l t<-r]
PredefValue p -> single (Var (toIdent p)) -- hmm
Projection t l -> ap (proj l) (ppT t)
VariantValue [] -> empty
VariantValue ts@(_:_) -> variants ts
VarValue x -> maybe (Var (gId x)) (pure . Var) $ lookup x vs
PreValue vs t' -> pure (alts t' vs)
ParamConstant (Param c vs) -> aps (Var (pId c)) (map ppT vs)
ErrorValue s -> ap (Const "error") (Const (show s)) -- !!
LiteralValue l -> ppL l
_ -> error ("convert "++show t)
ppL l =
case l of
FloatConstant x -> pure (lit x)
IntConstant n -> pure (lit n)
StrConstant s -> pure (token s)
pId p@(ParamId s) =
if "to_R_" `isPrefixOf` unqual s then toIdent p else gId p -- !! a hack
table cs =
if all (null.patVars) ps
then lets ds (LambdaCase [(ppP p,t')|(p,t')<-zip ps ts'])
else LambdaCase (map ppCase cs)
where
(ds,ts') = dedup ts
(ps,ts) = unzip [(p,t)|TableRow p t<-cs]
ppCase (TableRow p t) = (ppP p,ppTv (patVars p++vs) t)
{-
ppPredef n =
case predef n of
Ok BIND -> single (c "BIND")
Ok SOFT_BIND -> single (c "SOFT_BIND")
Ok SOFT_SPACE -> single (c "SOFT_SPACE")
Ok CAPIT -> single (c "CAPIT")
Ok ALL_CAPIT -> single (c "ALL_CAPIT")
_ -> Var n
-}
ppP p =
case p of
ParamPattern (Param c ps) -> ConP (gId c) (map ppP ps)
RecordPattern r -> ConP (rcon' ls) (map ppP ps)
where (ls,ps) = unzip $ sortOn fst [(l,p)|RecordRow l p<-r]
WildPattern -> WildP
token s = single (c "TK" `Ap` lit s)
alts t' vs = single (c "TP" `Ap` List (map alt vs) `Ap` ppT0 t')
where
alt (s,t) = Pair (List (pre s)) (ppT0 t)
pre s = map lit s
c = Const
lit s = c (show s) -- hmm
concat = if va then concat' else plusplus
where
concat' (List [List ts1]) (List [List ts2]) = List [List (ts1++ts2)]
concat' t1 t2 = Op t1 "+++" t2
pure' = single -- forcing the list monad
select = if va then select' else Ap
select' (List [t]) (List [p]) = Op t "!" p
select' (List [t]) p = Op t "!$" p
select' t p = Op t "!*" p
ap = if va then ap' else Ap
where
ap' (List [f]) x = fmap f x
ap' f x = Op f "<*>" x
fmap f (List [x]) = pure' (Ap f x)
fmap f x = Op f "<$>" x
-- join = if va then join' else id
join' (List [x]) = x
join' x = c "concat" `Ap` x
empty = if va then List [] else c "error" `Ap` c (show "empty variant")
variants = if va then \ ts -> join' (List (map ppT ts))
else \ (t:_) -> ppT t
aps f [] = f
aps f (a:as) = aps (ap f a) as
dedup ts =
if M.null dups
then ([],map ppT ts)
else ([(ev i,ppT t)|(i,t)<-defs],zipWith entry ts is)
where
entry t i = maybe (ppT t) (Var . ev) (M.lookup i dups)
ev i = identS ("e'"++show i)
defs = [(i1,t)|(t,i1:_:_)<-ms]
dups = M.fromList [(i2,i1)|(_,i1:is@(_:_))<-ms,i2<-i1:is]
ms = M.toList m
m = fmap sort (M.fromListWith (++) (zip ts [[i]|i<-is]))
is = [0..]::[Int]
con = Cn . identS
--con = Cn . identS
tableTypes gr ts = S.unions (map tabtys ts)
where
tabtys t =
case t of
V t cc -> S.union (paramTypes gr t) (tableTypes gr cc)
T (TTyped t) cs -> S.union (paramTypes gr t) (tableTypes gr (map snd cs))
_ -> collectOp tabtys t
class Records t where
records :: t -> S.Set [LabelId]
paramTypes gr t =
case t of
RecType fs -> S.unions (map (paramTypes gr.snd) fs)
Table t1 t2 -> S.union (paramTypes gr t1) (paramTypes gr t2)
App tf ta -> S.union (paramTypes gr tf) (paramTypes gr ta)
Sort _ -> S.empty
EInt _ -> S.empty
Q q -> lookup q
QC q -> lookup q
FV ts -> S.unions (map (paramTypes gr) ts)
_ -> ignore
where
lookup q = case lookupOrigInfo gr q of
Ok (_,ResOper _ (Just (L _ t))) ->
S.insert q (paramTypes gr t)
Ok (_,ResParam {}) -> S.singleton q
_ -> ignore
instance Records t => Records [t] where
records = S.unions . map records
ignore = trace ("Ignore: "++show t) S.empty
records ts = S.unions (map recs ts)
where
recs t =
case t of
R r -> S.insert (labels r) (records (map (snd.snd) r))
RecType r -> S.insert (labels r) (records (map snd r))
_ -> collectOp recs t
labels = sort . filter (not . isLockLabel) . map fst
instance (Records t1,Records t2) => Records (t1,t2) where
records (t1,t2) = S.union (records t1) (records t2)
instance Records LincatDef where
records (LincatDef _ lt) = records lt
instance Records LinDef where
records (LinDef _ _ lv) = records lv
instance Records LinType where
records t =
case t of
RecordType r -> rowRecords r
TableType pt lt -> records (pt,lt)
TupleType ts -> records ts
_ -> S.empty
rowRecords r = S.insert (sort ls) (records ts)
where (ls,ts) = unzip [(l,t)|RecordRow l t<-r]
instance Records LinValue where
records v =
case v of
ConcatValue v1 v2 -> records (v1,v2)
ParamConstant (Param c vs) -> records vs
RecordValue r -> rowRecords r
TableValue t r -> records (t,r)
TupleValue vs -> records vs
VariantValue vs -> records vs
PreValue alts d -> records (map snd alts,d)
Projection v l -> records v
Selection v1 v2 -> records (v1,v2)
_ -> S.empty
instance Records rhs => Records (TableRow rhs) where
records (TableRow _ v) = records v
-- | Record subtyping is converted into explicit coercions in Haskell
coerce env ty t =
case (ty,t) of
(_,Let d t) -> Let d (coerce (extend env d) ty t)
(_,FV ts) -> FV (map (coerce env ty) ts)
(Table ti tv,V _ ts) -> V ti (map (coerce env tv) ts)
(Table ti tv,T (TTyped _) cs) -> T (TTyped ti) (mapSnd (coerce env tv) cs)
(RecType rt,R r) ->
R [(l,(Just ft,coerce env ft f))|(l,(_,f))<-r,Just ft<-[lookup l rt]]
(RecType rt,Vr x)->
(_,VariantValue ts) -> VariantValue (map (coerce env ty) ts)
(TableType ti tv,TableValue _ cs) ->
TableValue ti [TableRow p (coerce env tv t)|TableRow p t<-cs]
(RecordType rt,RecordValue r) ->
RecordValue [RecordRow l (coerce env ft f) |
RecordRow l f<-r,ft<-[ft|RecordRow l' ft<-rt,l'==l]]
(RecordType rt,VarValue x)->
case lookup x env of
Just ty' | ty'/=ty -> -- better to compare to normal form of ty'
--trace ("coerce "++render ty'++" to "++render ty) $
App (to_rcon (map fst rt)) t
_ -> trace ("no coerce to "++render ty) t
--trace ("coerce "++render ty'++" to "++render ty) $
app (to_rcon rt) [t]
| otherwise -> t -- types match, no coercion needed
_ -> trace (render ("missing type to coerce"<+>x<+>"to"<+>render ty
$$ "in" <+> map fst env))
t
_ -> t
where
extend env (x,(Just ty,rhs)) = (x,ty):env
extend env _ = env
app f ts = ParamConstant (Param f ts) -- !! a hack
to_rcon = ParamId . Unqual . to_rcon' . labels
convert va gId gr = convert' va gId [] gr
patVars p = []
convert' va gId vs gr = ppT
where
ppT0 = convert' False gId vs gr
ppTv vs' = convert' va gId vs' gr
labels r = [l|RecordRow l _<-r]
ppT t =
case t of
-- Only for 'let' inserted on the top-level by this converter:
Let (x,(_,xt)) t -> let1 x (ppT0 xt) (ppT t)
-- Abs b x t -> ...
V ty ts -> pure (c "table" `Ap` dedup ts)
T (TTyped ty) cs -> pure (LambdaCase (map ppCase cs))
S t p -> select (ppT t) (ppT p)
C t1 t2 -> concat (ppT t1) (ppT t2)
App f a -> ap (ppT f) (ppT a)
R r -> aps (ppT (rcon (map fst r))) (fields r)
P t l -> ap (ppT (proj l)) (ppT t)
FV [] -> empty
Vr x -> if x `elem` vs then pure (Var x) else Var x
Cn x -> pure (Var x)
Con c -> pure (Var (gId c))
Sort k -> pure (Var k)
EInt n -> pure (lit n)
Q (m,n) -> if m==cPredef then pure (ppPredef n) else Var (qual m n)
QC (m,n) -> pure (Var (gId (qual m n)))
K s -> pure (token s)
Empty -> pure (List [])
FV ts@(_:_) -> variants ts
Alts t' vs -> pure (alts t' vs)
ppCase (p,t) = (ppP p,ppTv (patVars p++vs) t)
ppPredef n =
case predef n of
Ok BIND -> single (c "BIND")
Ok SOFT_BIND -> single (c "SOFT_BIND")
Ok SOFT_SPACE -> single (c "SOFT_SPACE")
Ok CAPIT -> single (c "CAPIT")
Ok ALL_CAPIT -> single (c "ALL_CAPIT")
_ -> Var n
ppP p =
case p of
PC c ps -> ConP (gId c) (map ppP ps)
PP (_,c) ps -> ConP (gId c) (map ppP ps)
PR r -> ConP (rcon' (map fst r)) (map (ppP.snd) (filter (not.isLockLabel.fst) r))
PW -> WildP
PV x -> VarP x
PString s -> Lit (show s) -- !!
PInt i -> Lit (show i)
PFloat x -> Lit (show x)
PT _ p -> ppP p
PAs x p -> AsP x (ppP p)
token s = single (c "TK" `Ap` lit s)
alts t' vs = single (c "TP" `Ap` List (map alt vs) `Ap` ppT0 t')
where
alt (t,p) = Pair (List (pre p)) (ppT0 t)
pre (K s) = [lit s]
pre (Strs ts) = concatMap pre ts
pre (EPatt p) = pat p
pre t = error $ "pre "++show t
pat (PString s) = [lit s]
pat (PAlt p1 p2) = pat p1++pat p2
pat p = error $ "pat "++show p
fields = map (ppT.snd.snd) . sort . filter (not.isLockLabel.fst)
c = Const
lit s = c (show s) -- hmm
concat = if va then concat' else plusplus
where
concat' (List [List ts1]) (List [List ts2]) = List [List (ts1++ts2)]
concat' t1 t2 = Op t1 "+++" t2
pure = if va then single else id
pure' = single -- forcing the list monad
select = if va then select' else Ap
select' (List [t]) (List [p]) = Op t "!" p
select' (List [t]) p = Op t "!$" p
select' t p = Op t "!*" p
ap = if va then ap' else Ap
where
ap' (List [f]) x = fmap f x
ap' f x = Op f "<*>" x
fmap f (List [x]) = pure' (Ap f x)
fmap f x = Op f "<$>" x
-- join = if va then join' else id
join' (List [x]) = x
join' x = c "concat" `Ap` x
empty = if va then List [] else c "error" `Ap` c (show "empty variant")
variants = if va then \ ts -> join' (List (map ppT ts))
else \ (t:_) -> ppT t
aps f [] = f
aps f (a:as) = aps (ap f a) as
dedup ts =
if M.null dups
then List (map ppT ts)
else Lets [(ev i,ppT t)|(i,t)<-defs] (List (zipWith entry ts is))
where
entry t i = maybe (ppT t) (Var . ev) (M.lookup i dups)
ev i = identS ("e'"++show i)
defs = [(i1,t)|(t,i1:_:_)<-ms]
dups = M.fromList [(i2,i1)|(_,i1:is@(_:_))<-ms,i2<-i1:is]
ms = M.toList m
m = fmap sort (M.fromListWith (++) (zip ts [[i]|i<-is]))
is = [0..]::[Int]
patVars p =
case p of
PV x -> [x]
PAs x p -> x:patVars p
_ -> collectPattOp patVars p
convType va gId = ppT
where
ppT t =
case t of
Table ti tv -> Fun (ppT ti) (if va then ListT (ppT tv) else ppT tv)
RecType rt -> tcon (rcon' (map fst rt)) (fields rt)
App tf ta -> TAp (ppT tf) (ppT ta)
FV [] -> tcon0 (identS "({-empty variant-})")
Sort k -> tcon0 k
EInt n -> tcon0 (identS ("({-"++show n++"-})")) -- type level numeric literal
FV (t:ts) -> ppT t -- !!
QC (m,n) -> tcon0 (gId (qual m n))
Q (m,n) -> tcon0 (gId (qual m n))
_ -> error $ "Missing case in convType for: "++show t
fields = map (ppT.snd) . sort . filter (not.isLockLabel.fst)
proj = con . proj'
proj' l = "proj_"++render l
rcon = con . rcon_name
proj = Var . identS . proj'
proj' (LabelId l) = "proj_"++l
rcon = Var . rcon'
rcon' = identS . rcon_name
rcon_name ls = "R"++concat (sort ['_':render l|l<-ls,not (isLockLabel l)])
to_rcon = con . to_rcon'
rcon_name ls = "R"++concat (sort ['_':l|LabelId l<-ls])
to_rcon' = ("to_"++) . rcon_name
recordType ls =
@@ -400,31 +386,6 @@ labelClass l =
r = identS "r"
a = identS "a"
paramType va gId gr q@(_,n) =
case lookupOrigInfo gr q of
Ok (m,ResParam (Just (L _ ps)) _)
{- - | m/=cPredef && m/=moduleNameS "Prelude"-} ->
((S.singleton (m,n),argTypes ps),
[Data (conap0 name) (map (param m) ps)["Eq","Ord","Show"],
Instance [] (TId (identS "EnumAll") `TAp` TId name)
[(lhs0 "enumAll",foldr1 plusplus (map (enumParam m) ps))]]
)
where name = gId (qual m n)
Ok (m,ResOper _ (Just (L _ t)))
| m==cPredef && n==cInts ->
((S.singleton (m,n),S.empty),
[Type (ConAp (gId (qual m n)) [identS "n"]) (TId (identS "Int"))])
| otherwise ->
((S.singleton (m,n),paramTypes gr t),
[Type (conap0 (gId (qual m n))) (convType va gId t)])
_ -> ((S.empty,S.empty),[])
where
param m (n,ctx) = ConAp (gId (qual m n)) [convType va gId t|(_,_,t)<-ctx]
argTypes = S.unions . map argTypes1
argTypes1 (n,ctx) = S.unions [paramTypes gr t|(_,_,t)<-ctx]
enumParam m (n,ctx) = enumCon (gId (qual m n)) (length ctx)
enumCon name arity =
if arity==0
then single (Var name)
@@ -433,5 +394,23 @@ enumCon name arity =
ap (List [f]) a = Op f "<$>" a
ap f a = Op f "<*>" a
qual :: ModuleName -> Ident -> Ident
qual m = prefixIdent (render m++"_")
lincatName,linfunName :: CatId -> Ident
lincatName c = prefixIdent "Lin" (toIdent c)
linfunName c = prefixIdent "lin" (toIdent c)
class ToIdent i where toIdent :: i -> Ident
instance ToIdent ParamId where toIdent (ParamId q) = qIdentS q
instance ToIdent PredefId where toIdent (PredefId s) = identS s
instance ToIdent CatId where toIdent (CatId s) = identS s
instance ToIdent C.FunId where toIdent (FunId s) = identS s
instance ToIdent VarValueId where toIdent (VarValueId q) = qIdentS q
qIdentS = identS . unqual
unqual (Qual (ModId m) n) = m++"_"++n
unqual (Unqual n) = n
instance ToIdent VarId where
toIdent Anonymous = identW
toIdent (VarId s) = identS s

35
src/compiler/GF/Compile/ExampleBased.hs
View File

@@ -3,11 +3,7 @@ module GF.Compile.ExampleBased (
configureExBased
) where
import PGF
--import PGF.Probabilistic
--import PGF.Morphology
--import GF.Compile.ToAPI
import PGF2
import Data.List
parseExamplesInGrammar :: ExConfiguration -> FilePath -> IO (FilePath,[String])
@@ -37,47 +33,38 @@ convertFile conf src file = do
(ex, end) = break (=='"') (tail exend)
in ((unwords (words cat),ex), tail end) -- quotes ignored
pgf = resource_pgf conf
morpho = resource_morpho conf
lang = language conf
convEx (cat,ex) = do
appn "("
let typ = maybe (error "no valid cat") id $ readType cat
ws <- case fst (parse_ pgf lang typ (Just 4) ex) of
ParseFailed _ -> do
let ws = morphoMissing morpho (words ex)
ws <- case parse lang typ ex of
ParseFailed _ _ -> do
appv ("WARNING: cannot parse example " ++ ex)
case ws of
[] -> return ()
_ -> appv (" missing words: " ++ unwords ws)
return ws
TypeError _ ->
return []
ParseIncomplete ->
return []
ParseOk ts ->
case rank ts of
case ts of
(t:tt) -> do
if null tt
then return ()
else appv ("WARNING: ambiguous example " ++ ex)
appn t
mapM_ (appn . (" --- " ++)) tt
appn (printExp conf (fst t))
mapM_ (appn . (" --- " ++) . printExp conf . fst) tt
appn ")"
return []
return ws
rank ts = [printExp conf t ++ " -- " ++ show p | (t,p) <- rankTreesByProbs pgf ts]
appf = appendFile file
appn s = appf s >> appf "\n"
appv s = appn ("--- " ++ s) >> putStrLn s
data ExConfiguration = ExConf {
resource_pgf :: PGF,
resource_morpho :: Morpho,
resource_pgf :: PGF,
verbose :: Bool,
language :: Language,
printExp :: Tree -> String
language :: Concr,
printExp :: Expr -> String
}
configureExBased :: PGF -> Morpho -> Language -> (Tree -> String) -> ExConfiguration
configureExBased pgf morpho lang pr = ExConf pgf morpho False lang pr
configureExBased :: PGF -> Concr -> (Expr -> String) -> ExConfiguration
configureExBased pgf concr pr = ExConf pgf False concr pr

31
src/compiler/GF/Compile/Export.hs
View File

@@ -1,12 +1,10 @@
module GF.Compile.Export where
import PGF
import PGF.Internal(ppPGF)
import PGF2
import GF.Compile.PGFtoHaskell
--import GF.Compile.PGFtoAbstract
import GF.Compile.PGFtoJava
import GF.Compile.PGFtoProlog
import GF.Compile.PGFtoJS
import GF.Compile.PGFtoPython
import GF.Compile.PGFtoJSON
import GF.Infra.Option
--import GF.Speech.CFG
import GF.Speech.PGFToCFG
@@ -20,6 +18,7 @@ import GF.Speech.SLF
import GF.Speech.PrRegExp
import Data.Maybe
import qualified Data.Map as Map
import System.FilePath
import GF.Text.Pretty
@@ -33,12 +32,12 @@ exportPGF :: Options
-> [(FilePath,String)] -- ^ List of recommended file names and contents.
exportPGF opts fmt pgf =
case fmt of
FmtPGFPretty -> multi "txt" (render . ppPGF)
FmtJavaScript -> multi "js" pgf2js
FmtPython -> multi "py" pgf2python
FmtPGFPretty -> multi "txt" (showPGF)
FmtCanonicalGF -> [] -- canon "gf" (render80 . abstract2canonical)
FmtCanonicalJson-> []
FmtJSON -> multi "json" pgf2json
FmtHaskell -> multi "hs" (grammar2haskell opts name)
FmtJava -> multi "java" (grammar2java opts name)
FmtProlog -> multi "pl" grammar2prolog
FmtBNF -> single "bnf" bnfPrinter
FmtEBNF -> single "ebnf" (ebnfPrinter opts)
FmtSRGS_XML -> single "grxml" (srgsXmlPrinter opts)
@@ -52,17 +51,13 @@ exportPGF opts fmt pgf =
FmtRegExp -> single "rexp" regexpPrinter
FmtFA -> single "dot" slfGraphvizPrinter
where
name = fromMaybe (showCId (abstractName pgf)) (flag optName opts)
name = fromMaybe (abstractName pgf) (flag optName opts)
multi :: String -> (PGF -> String) -> [(FilePath,String)]
multi ext pr = [(name <.> ext, pr pgf)]
single :: String -> (PGF -> CId -> String) -> [(FilePath,String)]
single ext pr = [(showCId cnc <.> ext, pr pgf cnc) | cnc <- languages pgf]
-- canon ext pr = [("canonical"</>name<.>ext,pr pgf)]
single :: String -> (PGF -> Concr -> String) -> [(FilePath,String)]
single ext pr = [(concreteName cnc <.> ext, pr pgf cnc) | cnc <- Map.elems (languages pgf)]
-- | Get the name of the concrete syntax to generate output from.
-- FIXME: there should be an option to change this.
outputConcr :: PGF -> CId
outputConcr pgf = case languages pgf of
[] -> error "No concrete syntax."
cnc:_ -> cnc

27
src/compiler/GF/Compile/GenerateBC.hs
View File

@@ -1,10 +1,10 @@
{-# LANGUAGE CPP #-}
module GF.Compile.GenerateBC(generateByteCode) where
import GF.Grammar
import GF.Grammar.Lookup(lookupAbsDef,lookupFunType)
import GF.Data.Operations
import PGF(CId,utf8CId)
import PGF.Internal(CodeLabel,Instr(..),IVal(..),TailInfo(..),Literal(..))
import PGF2.Internal(CodeLabel,Instr(..),IVal(..),TailInfo(..),Literal(..))
import qualified Data.Map as Map
import Data.List(nub,mapAccumL)
import Data.Maybe(fromMaybe)
@@ -63,7 +63,7 @@ compileEquations gr arity st (i:is) eqs fl bs = whilePP eqs Map.empty
case_instr t =
case t of
(Q (_,id)) -> CASE (i2i id)
(Q (_,id)) -> CASE (showIdent id)
(EInt n) -> CASE_LIT (LInt n)
(K s) -> CASE_LIT (LStr s)
(EFloat d) -> CASE_LIT (LFlt d)
@@ -105,7 +105,7 @@ compileFun gr eval st vs (App e1 e2) h0 bs args =
compileFun gr eval st vs (Q (m,id)) h0 bs args =
case lookupAbsDef gr m id of
Ok (_,Just _)
-> (h0,bs,eval st (GLOBAL (i2i id)) args)
-> (h0,bs,eval st (GLOBAL (showIdent id)) args)
_ -> let Ok ty = lookupFunType gr m id
(ctxt,_,_) = typeForm ty
c_arity = length ctxt
@@ -114,14 +114,14 @@ compileFun gr eval st vs (Q (m,id)) h0 bs args =
diff = c_arity-n_args
in if diff <= 0
then if n_args == 0
then (h0,bs,eval st (GLOBAL (i2i id)) [])
then (h0,bs,eval st (GLOBAL (showIdent id)) [])
else let h1 = h0 + 2 + n_args
in (h1,bs,PUT_CONSTR (i2i id):is1++eval st (HEAP h0) [])
in (h1,bs,PUT_CONSTR (showIdent id):is1++eval st (HEAP h0) [])
else let h1 = h0 + 1 + n_args
is2 = [SET (FREE_VAR i) | i <- [0..n_args-1]] ++ [SET (ARG_VAR (i+1)) | i <- [0..diff-1]]
b = CHECK_ARGS diff :
ALLOC (c_arity+2) :
PUT_CONSTR (i2i id) :
PUT_CONSTR (showIdent id) :
is2 ++
TUCK (ARG_VAR 0) diff :
EVAL (HEAP h0) (TailCall diff) :
@@ -167,16 +167,16 @@ compileFun gr eval st vs e _ _ _ = error (show e)
compileArg gr st vs (Q(m,id)) h0 bs =
case lookupAbsDef gr m id of
Ok (_,Just _) -> (h0,bs,GLOBAL (i2i id),[])
Ok (_,Just _) -> (h0,bs,GLOBAL (showIdent id),[])
_ -> let Ok ty = lookupFunType gr m id
(ctxt,_,_) = typeForm ty
c_arity = length ctxt
in if c_arity == 0
then (h0,bs,GLOBAL (i2i id),[])
then (h0,bs,GLOBAL (showIdent id),[])
else let is2 = [SET (ARG_VAR (i+1)) | i <- [0..c_arity-1]]
b = CHECK_ARGS c_arity :
ALLOC (c_arity+2) :
PUT_CONSTR (i2i id) :
PUT_CONSTR (showIdent id) :
is2 ++
TUCK (ARG_VAR 0) c_arity :
EVAL (HEAP h0) (TailCall c_arity) :
@@ -224,12 +224,12 @@ compileArg gr st vs e h0 bs =
diff = c_arity-n_args
in if diff <= 0
then let h2 = h1 + 2 + n_args
in (h2,bs1,HEAP h1,is1 ++ (PUT_CONSTR (i2i id) : is2))
in (h2,bs1,HEAP h1,is1 ++ (PUT_CONSTR (showIdent id) : is2))
else let h2 = h1 + 1 + n_args
is2 = [SET (FREE_VAR i) | i <- [0..n_args-1]] ++ [SET (ARG_VAR (i+1)) | i <- [0..diff-1]]
b = CHECK_ARGS diff :
ALLOC (c_arity+2) :
PUT_CONSTR (i2i id) :
PUT_CONSTR (showIdent id) :
is2 ++
TUCK (ARG_VAR 0) diff :
EVAL (HEAP h0) (TailCall diff) :
@@ -298,9 +298,6 @@ freeVars xs (Vr x)
| not (elem x xs) = [x]
freeVars xs e = collectOp (freeVars xs) e
i2i :: Ident -> CId
i2i = utf8CId . ident2utf8
push_is :: Int -> Int -> [IVal] -> [IVal]
push_is i 0 is = is
push_is i n is = ARG_VAR i : push_is (i-1) (n-1) is

40
src/compiler/GF/Compile/GeneratePMCFG.hs
View File

@@ -13,8 +13,9 @@ module GF.Compile.GeneratePMCFG
(generatePMCFG, pgfCncCat, addPMCFG, resourceValues
) where
--import PGF.CId
import PGF.Internal as PGF(CncCat(..),Symbol(..),fidVar)
import qualified PGF2 as PGF2
import qualified PGF2.Internal as PGF2
import PGF2.Internal(Symbol(..),fidVar)
import GF.Infra.Option
import GF.Grammar hiding (Env, mkRecord, mkTable)
@@ -68,7 +69,7 @@ mapAccumWithKeyM f a m = do let xs = Map.toAscList m
--addPMCFG :: Options -> SourceGrammar -> GlobalEnv -> Maybe FilePath -> Ident -> Ident -> SeqSet -> Ident -> Info -> IOE (SeqSet, Info)
addPMCFG opts gr cenv opath am cm seqs id (GF.Grammar.CncFun mty@(Just (cat,cont,val)) mlin@(Just (L loc term)) mprn Nothing) = do
addPMCFG opts gr cenv opath am cm seqs id (CncFun mty@(Just (cat,cont,val)) mlin@(Just (L loc term)) mprn Nothing) = do
--when (verbAtLeast opts Verbose) $ ePutStr ("\n+ "++showIdent id++" ...")
let pres = protoFCat gr res val
pargs = [protoFCat gr (snd $ catSkeleton ty) lincat | ((_,_,ty),(_,_,lincat)) <- zip ctxt cont]
@@ -92,7 +93,7 @@ addPMCFG opts gr cenv opath am cm seqs id (GF.Grammar.CncFun mty@(Just (cat,cont
ePutStr ("\n+ "++showIdent id++" "++show (product (map catFactor pargs)))
seqs1 `seq` stats `seq` return ()
when (verbAtLeast opts Verbose) $ ePutStr (" "++show stats)
return (seqs1,GF.Grammar.CncFun mty mlin mprn (Just pmcfg))
return (seqs1,CncFun mty mlin mprn (Just pmcfg))
where
(ctxt,res,_) = err bug typeForm (lookupFunType gr am id)
@@ -102,11 +103,11 @@ 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))
mdef@(Just (L loc1 def))
mref@(Just (L loc2 ref))
mprn
Nothing) = do
addPMCFG opts gr cenv opath am cm seqs id (CncCat mty@(Just (L _ lincat))
mdef@(Just (L loc1 def))
mref@(Just (L loc2 ref))
mprn
Nothing) = do
let pcat = protoFCat gr (am,id) lincat
pvar = protoFCat gr (MN identW,cVar) typeStr
@@ -131,7 +132,7 @@ addPMCFG opts gr cenv opath am cm seqs id (GF.Grammar.CncCat mty@(Just (L _ linc
let pmcfg = getPMCFG pmcfgEnv2
when (verbAtLeast opts Verbose) $ ePutStr ("\n+ "++showIdent id++" "++show (catFactor pcat))
seqs2 `seq` pmcfg `seq` return (seqs2,GF.Grammar.CncCat mty mdef mref mprn (Just pmcfg))
seqs2 `seq` pmcfg `seq` return (seqs2,CncCat mty mdef mref mprn (Just pmcfg))
where
addLindef lins (newCat', newArgs') env0 =
let [newCat] = getFIds newCat'
@@ -157,12 +158,15 @@ convert opts gr cenv loc term ty@(_,val) pargs =
args = map Vr vars
vars = map (\(bt,x,t) -> x) context
pgfCncCat :: SourceGrammar -> Type -> Int -> CncCat
pgfCncCat gr lincat index =
pgfCncCat :: SourceGrammar -> PGF2.Cat -> Type -> Int -> (PGF2.Cat,Int,Int,[String])
pgfCncCat gr id lincat index =
let ((_,size),schema) = computeCatRange gr lincat
in PGF.CncCat index (index+size-1)
(mkArray (map (renderStyle style{mode=OneLineMode} . ppPath)
(getStrPaths schema)))
in ( id
, index
, index+size-1
, map (renderStyle style{mode=OneLineMode} . ppPath)
(getStrPaths schema)
)
where
getStrPaths :: Schema Identity s c -> [Path]
getStrPaths = collect CNil []
@@ -471,7 +475,7 @@ goV (CPar t) rpath ss = restrictHead (reversePath rpath) t >> return ss
----------------------------------------------------------------------
-- SeqSet
type SeqSet = Map.Map Sequence SeqId
type SeqSet = Map.Map [Symbol] SeqId
addSequencesB :: SeqSet -> Branch (Value [Symbol]) -> (SeqSet, Branch (Value SeqId))
addSequencesB seqs (Case nr path bs) = let !(seqs1,bs1) = mapAccumL' (\seqs (trm,b) -> let !(seqs',b') = addSequencesB seqs b
@@ -500,13 +504,11 @@ mapAccumL' f s (x:xs) = (s'',y:ys)
!(s'',ys) = mapAccumL' f s' xs
addSequence :: SeqSet -> [Symbol] -> (SeqSet,SeqId)
addSequence seqs lst =
addSequence seqs seq =
case Map.lookup seq seqs of
Just id -> (seqs,id)
Nothing -> let !last_seq = Map.size seqs
in (Map.insert seq last_seq seqs, last_seq)
where
seq = mkArray lst
------------------------------------------------------------

15
src/compiler/GF/Compile/GetGrammar.hs
View File

@@ -50,20 +50,13 @@ getSourceModule opts file0 =
Right (i,mi0) ->
do liftIO $ removeTemp tmp
let mi =mi0 {mflags=mflags mi0 `addOptions` opts, msrc=file0}
optCoding' = renameEncoding `fmap` flag optEncoding (mflags mi0)
case (optCoding,optCoding') of
{-
(Nothing,Nothing) ->
unless (BS.all isAscii raw) $
ePutStrLn $ file0++":\n Warning: default encoding has changed from Latin-1 to UTF-8"
-}
(_,Just coding') ->
when (coding/=coding') $
case renameEncoding `fmap` flag optEncoding (mflags mi0) of
Just coding' ->
when (coding/=coding') $
raise $ "Encoding mismatch: "++coding++" /= "++coding'
where coding = maybe defaultEncoding renameEncoding optCoding
_ -> return ()
--liftIO $ transcodeModule' (i,mi) -- old lexer
return (i,mi) -- new lexer
return (i,mi)
getBNFCRules :: Options -> FilePath -> IOE [BNFCRule]
getBNFCRules opts fpath = do

389
src/compiler/GF/Compile/GrammarToCanonical.hs Normal file
View File

@@ -0,0 +1,389 @@
-- | Translate grammars to Canonical form
-- (a common intermediate representation to simplify export to other formats)
module GF.Compile.GrammarToCanonical(
grammar2canonical,abstract2canonical,concretes2canonical,
projection,selection
) where
import Data.List(nub,partition)
import qualified Data.Map as M
import qualified Data.Set as S
import GF.Data.ErrM
import GF.Text.Pretty
import GF.Grammar.Grammar
import GF.Grammar.Lookup(lookupOrigInfo,allOrigInfos,allParamValues)
import GF.Grammar.Macros(typeForm,collectOp,collectPattOp,mkAbs,mkApp,term2patt)
import GF.Grammar.Lockfield(isLockLabel)
import GF.Grammar.Predef(cPredef,cInts)
import GF.Compile.Compute.Predef(predef)
import GF.Compile.Compute.Value(Predefined(..))
import GF.Infra.Ident(ModuleName(..),Ident,prefixIdent,showIdent,isWildIdent)
import GF.Infra.Option(optionsPGF)
import PGF2.Internal(Literal(..))
import GF.Compile.Compute.ConcreteNew(normalForm,resourceValues)
import GF.Grammar.Canonical as C
import Debug.Trace
-- | Generate Canonical code for the named abstract syntax and all associated
-- concrete syntaxes
grammar2canonical opts absname gr =
Grammar (abstract2canonical absname gr)
(map snd (concretes2canonical opts absname gr))
-- | Generate Canonical code for the named abstract syntax
abstract2canonical absname gr =
Abstract (modId absname) (convFlags gr absname) cats funs
where
cats = [CatDef (gId c) (convCtx ctx) | ((_,c),AbsCat ctx) <- adefs]
funs = [FunDef (gId f) (convType ty) |
((_,f),AbsFun (Just (L _ ty)) ma mdef _) <- adefs]
adefs = allOrigInfos gr absname
convCtx = maybe [] (map convHypo . unLoc)
convHypo (bt,name,t) =
case typeForm t of
([],(_,cat),[]) -> gId cat -- !!
convType t =
case typeForm t of
(hyps,(_,cat),args) -> Type bs (TypeApp (gId cat) as)
where
bs = map convHypo' hyps
as = map convType args
convHypo' (bt,name,t) = TypeBinding (gId name) (convType t)
-- | Generate Canonical code for the all concrete syntaxes associated with
-- the named abstract syntax in given the grammar.
concretes2canonical opts absname gr =
[(cncname,concrete2canonical gr cenv absname cnc cncmod)
| let cenv = resourceValues opts gr,
cnc<-allConcretes gr absname,
let cncname = "canonical/"++render cnc ++ ".gf" :: FilePath
Ok cncmod = lookupModule gr cnc
]
-- | Generate Canonical GF for the given concrete module.
concrete2canonical gr cenv absname cnc modinfo =
Concrete (modId cnc) (modId absname) (convFlags gr cnc)
(neededParamTypes S.empty (params defs))
[lincat|(_,Left lincat)<-defs]
[lin|(_,Right lin)<-defs]
where
defs = concatMap (toCanonical gr absname cenv) .
M.toList $
jments modinfo
params = S.toList . S.unions . map fst
neededParamTypes have [] = []
neededParamTypes have (q:qs) =
if q `S.member` have
then neededParamTypes have qs
else let ((got,need),def) = paramType gr q
in def++neededParamTypes (S.union got have) (S.toList need++qs)
toCanonical gr absname cenv (name,jment) =
case jment of
CncCat (Just (L loc typ)) _ _ pprn _ ->
[(pts,Left (LincatDef (gId name) (convType ntyp)))]
where
pts = paramTypes gr ntyp
ntyp = nf loc typ
CncFun (Just r@(cat,ctx,lincat)) (Just (L loc def)) pprn _ ->
[(tts,Right (LinDef (gId name) (map gId args) (convert gr e')))]
where
tts = tableTypes gr [e']
e' = unAbs (length params) $
nf loc (mkAbs params (mkApp def (map Vr args)))
params = [(b,x)|(b,x,_)<-ctx]
args = map snd params
AnyInd _ m -> case lookupOrigInfo gr (m,name) of
Ok (m,jment) -> toCanonical gr absname cenv (name,jment)
_ -> []
_ -> []
where
nf loc = normalForm cenv (L loc name)
-- aId n = prefixIdent "A." (gId n)
unAbs 0 t = t
unAbs n (Abs _ _ t) = unAbs (n-1) t
unAbs _ t = t
tableTypes gr ts = S.unions (map tabtys ts)
where
tabtys t =
case t of
V t cc -> S.union (paramTypes gr t) (tableTypes gr cc)
T (TTyped t) cs -> S.union (paramTypes gr t) (tableTypes gr (map snd cs))
_ -> collectOp tabtys t
paramTypes gr t =
case t of
RecType fs -> S.unions (map (paramTypes gr.snd) fs)
Table t1 t2 -> S.union (paramTypes gr t1) (paramTypes gr t2)
App tf ta -> S.union (paramTypes gr tf) (paramTypes gr ta)
Sort _ -> S.empty
EInt _ -> S.empty
Q q -> lookup q
QC q -> lookup q
FV ts -> S.unions (map (paramTypes gr) ts)
_ -> ignore
where
lookup q = case lookupOrigInfo gr q of
Ok (_,ResOper _ (Just (L _ t))) ->
S.insert q (paramTypes gr t)
Ok (_,ResParam {}) -> S.singleton q
_ -> ignore
ignore = trace ("Ignore: "++show t) S.empty
convert gr = convert' gr []
convert' gr vs = ppT
where
ppT0 = convert' gr vs
ppTv vs' = convert' gr vs'
ppT t =
case t of
-- Abs b x t -> ...
-- V ty ts -> VTableValue (convType ty) (map ppT ts)
V ty ts -> TableValue (convType ty) [TableRow (ppP p) (ppT t)|(p,t)<-zip ps ts]
where
Ok pts = allParamValues gr ty
Ok ps = mapM term2patt pts
T (TTyped ty) cs -> TableValue (convType ty) (map ppCase cs)
S t p -> selection (ppT t) (ppT p)
C t1 t2 -> concatValue (ppT t1) (ppT t2)
App f a -> ap (ppT f) (ppT a)
R r -> RecordValue (fields r)
P t l -> projection (ppT t) (lblId l)
Vr x -> VarValue (gId x)
Cn x -> VarValue (gId x) -- hmm
Con c -> ParamConstant (Param (gId c) [])
Sort k -> VarValue (gId k)
EInt n -> LiteralValue (IntConstant n)
Q (m,n) -> if m==cPredef then ppPredef n else VarValue ((gQId m n))
QC (m,n) -> ParamConstant (Param ((gQId m n)) [])
K s -> LiteralValue (StrConstant s)
Empty -> LiteralValue (StrConstant "")
FV ts -> VariantValue (map ppT ts)
Alts t' vs -> alts vs (ppT t')
_ -> error $ "convert' "++show t
ppCase (p,t) = TableRow (ppP p) (ppTv (patVars p++vs) t)
ppPredef n =
case predef n of
Ok BIND -> p "BIND"
Ok SOFT_BIND -> p "SOFT_BIND"
Ok SOFT_SPACE -> p "SOFT_SPACE"
Ok CAPIT -> p "CAPIT"
Ok ALL_CAPIT -> p "ALL_CAPIT"
_ -> VarValue (gQId cPredef n) -- hmm
where
p = PredefValue . PredefId
ppP p =
case p of
PC c ps -> ParamPattern (Param (gId c) (map ppP ps))
PP (m,c) ps -> ParamPattern (Param ((gQId m c)) (map ppP ps))
PR r -> RecordPattern (fields r) {-
PW -> WildPattern
PV x -> VarP x
PString s -> Lit (show s) -- !!
PInt i -> Lit (show i)
PFloat x -> Lit (show x)
PT _ p -> ppP p
PAs x p -> AsP x (ppP p) -}
where
fields = map field . filter (not.isLockLabel.fst)
field (l,p) = RecordRow (lblId l) (ppP p)
-- patToParam p = case ppP p of ParamPattern pv -> pv
-- token s = single (c "TK" `Ap` lit s)
alts vs = PreValue (map alt vs)
where
alt (t,p) = (pre p,ppT0 t)
pre (K s) = [s]
pre Empty = [""] -- Empty == K ""
pre (Strs ts) = concatMap pre ts
pre (EPatt p) = pat p
pre t = error $ "pre "++show t
pat (PString s) = [s]
pat (PAlt p1 p2) = pat p1++pat p2
pat (PSeq p1 p2) = [s1++s2 | s1<-pat p1, s2<-pat p2]
pat p = error $ "pat "++show p
fields = map field . filter (not.isLockLabel.fst)
field (l,(_,t)) = RecordRow (lblId l) (ppT t)
--c = Const
--c = VarValue . VarValueId
--lit s = c (show s) -- hmm
ap f a = case f of
ParamConstant (Param p ps) ->
ParamConstant (Param p (ps++[a]))
_ -> error $ "convert' ap: "++render (ppA f <+> ppA a)
concatValue v1 v2 =
case (v1,v2) of
(LiteralValue (StrConstant ""),_) -> v2
(_,LiteralValue (StrConstant "")) -> v1
_ -> ConcatValue v1 v2
-- | Smart constructor for projections
projection r l = maybe (Projection r l) id (proj r l)
proj r l =
case r of
RecordValue r -> case [v|RecordRow l' v<-r,l'==l] of
[v] -> Just v
_ -> Nothing
_ -> Nothing
-- | Smart constructor for selections
selection t v =
-- Note: impossible cases can become possible after grammar transformation
case t of
TableValue tt r ->
case nub [rv|TableRow _ rv<-keep] of
[rv] -> rv
_ -> Selection (TableValue tt r') v
where
-- Don't introduce wildcard patterns, true to the canonical format,
-- annotate (or eliminate) rhs in impossible rows
r' = map trunc r
trunc r@(TableRow p e) = if mightMatchRow v r
then r
else TableRow p (impossible e)
{-
-- Creates smaller tables, but introduces wildcard patterns
r' = if null discard
then r
else keep++[TableRow WildPattern impossible]
-}
(keep,discard) = partition (mightMatchRow v) r
_ -> Selection t v
impossible = CommentedValue "impossible"
mightMatchRow v (TableRow p _) =
case p of
WildPattern -> True
_ -> mightMatch v p
mightMatch v p =
case v of
ConcatValue _ _ -> False
ParamConstant (Param c1 pvs) ->
case p of
ParamPattern (Param c2 pps) -> c1==c2 && length pvs==length pps &&
and [mightMatch v p|(v,p)<-zip pvs pps]
_ -> False
RecordValue rv ->
case p of
RecordPattern rp ->
and [maybe False (flip mightMatch p) (proj v l) | RecordRow l p<-rp]
_ -> False
_ -> True
patVars p =
case p of
PV x -> [x]
PAs x p -> x:patVars p
_ -> collectPattOp patVars p
convType = ppT
where
ppT t =
case t of
Table ti tv -> TableType (ppT ti) (ppT tv)
RecType rt -> RecordType (convFields rt)
-- App tf ta -> TAp (ppT tf) (ppT ta)
-- FV [] -> tcon0 (identS "({-empty variant-})")
Sort k -> convSort k
-- EInt n -> tcon0 (identS ("({-"++show n++"-})")) -- type level numeric literal
FV (t:ts) -> ppT t -- !!
QC (m,n) -> ParamType (ParamTypeId ((gQId m n)))
Q (m,n) -> ParamType (ParamTypeId ((gQId m n)))
_ -> error $ "Missing case in convType for: "++show t
convFields = map convField . filter (not.isLockLabel.fst)
convField (l,r) = RecordRow (lblId l) (ppT r)
convSort k = case showIdent k of
"Float" -> FloatType
"Int" -> IntType
"Str" -> StrType
_ -> error ("convSort "++show k)
toParamType t = case convType t of
ParamType pt -> pt
_ -> error ("toParamType "++show t)
toParamId t = case toParamType t of
ParamTypeId p -> p
paramType gr q@(_,n) =
case lookupOrigInfo gr q of
Ok (m,ResParam (Just (L _ ps)) _)
{- - | m/=cPredef && m/=moduleNameS "Prelude"-} ->
((S.singleton (m,n),argTypes ps),
[ParamDef name (map (param m) ps)]
)
where name = (gQId m n)
Ok (m,ResOper _ (Just (L _ t)))
| m==cPredef && n==cInts ->
((S.empty,S.empty),[]) {-
((S.singleton (m,n),S.empty),
[Type (ConAp ((gQId m n)) [identS "n"]) (TId (identS "Int"))])-}
| otherwise ->
((S.singleton (m,n),paramTypes gr t),
[ParamAliasDef ((gQId m n)) (convType t)])
_ -> ((S.empty,S.empty),[])
where
param m (n,ctx,_) = Param ((gQId m n)) [toParamId t|(_,_,t)<-ctx]
argTypes = S.unions . map argTypes1
argTypes1 (n,ctx,_) = S.unions [paramTypes gr t|(_,_,t)<-ctx]
lblId = LabelId . render -- hmm
modId (MN m) = ModId (showIdent m)
class FromIdent i where gId :: Ident -> i
instance FromIdent VarId where
gId i = if isWildIdent i then Anonymous else VarId (showIdent i)
instance FromIdent C.FunId where gId = C.FunId . showIdent
instance FromIdent CatId where gId = CatId . showIdent
instance FromIdent ParamId where gId = ParamId . unqual
instance FromIdent VarValueId where gId = VarValueId . unqual
class FromIdent i => QualIdent i where gQId :: ModuleName -> Ident -> i
instance QualIdent ParamId where gQId m n = ParamId (qual m n)
instance QualIdent VarValueId where gQId m n = VarValueId (qual m n)
qual m n = Qual (modId m) (showIdent n)
unqual n = Unqual (showIdent n)
convFlags gr mn =
Flags [(n,convLit v) |
(n,v)<-err (const []) (optionsPGF.mflags) (lookupModule gr mn)]
where
convLit l =
case l of
LStr s -> Str s
LInt i -> C.Int i
LFlt d -> Flt d

411
src/compiler/GF/Compile/GrammarToPGF.hs
View File

@@ -1,23 +1,17 @@
{-# LANGUAGE BangPatterns, FlexibleContexts #-}
module GF.Compile.GrammarToPGF (mkCanon2pgf) where
{-# LANGUAGE ImplicitParams, BangPatterns, FlexibleContexts, MagicHash #-}
module GF.Compile.GrammarToPGF (grammar2PGF) where
--import GF.Compile.Export
import GF.Compile.GeneratePMCFG
import GF.Compile.GenerateBC
import GF.Compile.OptimizePGF
import PGF(CId,mkCId,utf8CId)
import PGF.Internal(fidInt,fidFloat,fidString,fidVar)
import PGF.Internal(updateProductionIndices)
--import qualified PGF.Macros as CM
import qualified PGF.Internal as C
import qualified PGF.Internal as D
import PGF2 hiding (mkType)
import PGF2.Internal
import GF.Grammar.Predef
--import GF.Grammar.Printer
import GF.Grammar.Grammar
import GF.Grammar.Grammar hiding (Production)
import qualified GF.Grammar.Lookup as Look
import qualified GF.Grammar as A
import qualified GF.Grammar.Macros as GM
--import GF.Compile.GeneratePMCFG
import GF.Infra.Ident
import GF.Infra.Option
@@ -25,108 +19,141 @@ import GF.Infra.UseIO (IOE)
import GF.Data.Operations
import Data.List
import Data.Char
import qualified Data.Set as Set
import qualified Data.Map as Map
import qualified Data.IntMap as IntMap
import Data.Array.IArray
import Data.Maybe(fromMaybe)
mkCanon2pgf :: Options -> SourceGrammar -> ModuleName -> IOE D.PGF
mkCanon2pgf opts gr am = do
(an,abs) <- mkAbstr am
cncs <- mapM mkConcr (allConcretes gr am)
return $ updateProductionIndices (D.PGF Map.empty an abs (Map.fromList cncs))
import GHC.Prim
import GHC.Base(getTag)
grammar2PGF :: Options -> SourceGrammar -> ModuleName -> Map.Map PGF2.Fun Double -> IO PGF
grammar2PGF opts gr am probs = do
cnc_infos <- getConcreteInfos gr am
return $
build (let gflags = if flag optSplitPGF opts
then [("split", LStr "true")]
else []
(an,abs) = mkAbstr am probs
cncs = map (mkConcr opts abs) cnc_infos
in newPGF gflags an abs cncs)
where
cenv = resourceValues opts gr
aflags = err (const noOptions) mflags (lookupModule gr am)
mkAbstr am = return (mi2i am, D.Abstr flags funs cats)
mkAbstr :: (?builder :: Builder s) => ModuleName -> Map.Map PGF2.Fun Double -> (AbsName, B s AbstrInfo)
mkAbstr am probs = (mi2i am, newAbstr flags cats funs)
where
aflags = err (const noOptions) mflags (lookupModule gr am)
adefs =
[((cPredefAbs,c), AbsCat (Just (L NoLoc []))) | c <- [cFloat,cInt,cString]] ++
Look.allOrigInfos gr am
flags = Map.fromList [(mkCId f,x) | (f,x) <- optionsPGF aflags]
flags = optionsPGF aflags
funs = Map.fromList [(i2i f, (mkType [] ty, arity, mkDef gr arity mdef, 0)) |
toLogProb = realToFrac . negate . log
cats = [(c', snd (mkContext [] cont), toLogProb (fromMaybe 0 (Map.lookup c' probs))) |
((m,c),AbsCat (Just (L _ cont))) <- adefs, let c' = i2i c]
funs = [(f', mkType [] ty, arity, bcode, toLogProb (fromMaybe 0 (Map.lookup f' funs_probs))) |
((m,f),AbsFun (Just (L _ ty)) ma mdef _) <- adefs,
let arity = mkArity ma mdef ty]
let arity = mkArity ma mdef ty,
let bcode = mkDef gr arity mdef,
let f' = i2i f]
funs_probs = (Map.fromList . concat . Map.elems . fmap pad . Map.fromListWith (++))
[(i2i cat,[(i2i f,Map.lookup f' probs)]) | ((m,f),AbsFun (Just (L _ ty)) _ _ _) <- adefs,
let (_,(_,cat),_) = GM.typeForm ty,
let f' = i2i f]
where
pad :: [(a,Maybe Double)] -> [(a,Double)]
pad pfs = [(f,fromMaybe deflt mb_p) | (f,mb_p) <- pfs]
where
deflt = case length [f | (f,Nothing) <- pfs] of
0 -> 0
n -> max 0 ((1 - sum [d | (f,Just d) <- pfs]) / fromIntegral n)
cats = Map.fromList [(i2i c, (snd (mkContext [] cont),catfuns c, 0)) |
((m,c),AbsCat (Just (L _ cont))) <- adefs]
mkConcr opts abs (cm,ex_seqs,cdefs) =
let cflags = err (const noOptions) mflags (lookupModule gr cm)
ciCmp | flag optCaseSensitive cflags = compare
| otherwise = compareCaseInsensitive
catfuns cat =
[(0,i2i f) | ((m,f),AbsFun (Just (L _ ty)) _ _ (Just True)) <- adefs, snd (GM.valCat ty) == cat]
mkConcr cm = do
let cflags = err (const noOptions) mflags (lookupModule gr cm)
(ex_seqs,cdefs) <- addMissingPMCFGs
Map.empty
([((cPredefAbs,c), CncCat (Just (L NoLoc GM.defLinType)) Nothing Nothing Nothing Nothing) | c <- [cInt,cFloat,cString]] ++
Look.allOrigInfos gr cm)
let flags = Map.fromList [(mkCId f,x) | (f,x) <- optionsPGF cflags]
flags = optionsPGF aflags
seqs = (mkSetArray . Set.fromList . concat) $
(Map.keys ex_seqs : [maybe [] elems (mseqs mi) | (m,mi) <- allExtends gr cm])
ex_seqs_arr = mkMapArray ex_seqs :: Array SeqId Sequence
(elems (ex_seqs :: Array SeqId [Symbol]) : [maybe [] elems (mseqs mi) | (m,mi) <- allExtends gr cm])
!(!fid_cnt1,!cnccats) = genCncCats gr am cm cdefs
cnccat_ranges = Map.fromList (map (\(cid,s,e,_) -> (cid,(s,e))) cnccats)
!(!fid_cnt2,!productions,!lindefs,!linrefs,!cncfuns)
= genCncFuns gr am cm ex_seqs_arr seqs cdefs fid_cnt1 cnccats
= genCncFuns gr am cm ex_seqs ciCmp seqs cdefs fid_cnt1 cnccat_ranges
printnames = genPrintNames cdefs
return (mi2i cm, D.Concr flags
printnames
cncfuns
lindefs
linrefs
seqs
productions
IntMap.empty
Map.empty
cnccats
IntMap.empty
fid_cnt2)
startCat = (fromMaybe "S" (flag optStartCat aflags))
(lindefs',linrefs',productions',cncfuns',sequences',cnccats') =
(if flag optOptimizePGF opts then optimizePGF startCat else id)
(lindefs,linrefs,productions,cncfuns,elems seqs,cnccats)
in (mi2i cm, newConcr abs
flags
printnames
lindefs'
linrefs'
productions'
cncfuns'
sequences'
cnccats'
fid_cnt2)
getConcreteInfos gr am = mapM flatten (allConcretes gr am)
where
flatten cm = do
(seqs,infos) <- addMissingPMCFGs cm Map.empty
(lit_infos ++ Look.allOrigInfos gr cm)
return (cm,mkMapArray seqs :: Array SeqId [Symbol],infos)
lit_infos = [((cPredefAbs,c), CncCat (Just (L NoLoc GM.defLinType)) Nothing Nothing Nothing Nothing) | c <- [cInt,cFloat,cString]]
-- if some module was compiled with -no-pmcfg, then
-- we have to create the PMCFG code just before linking
addMissingPMCFGs seqs [] = return (seqs,[])
addMissingPMCFGs seqs (((m,id), info):is) = do
(seqs,info) <- addPMCFG opts gr cenv Nothing am cm seqs id info
(seqs,is ) <- addMissingPMCFGs seqs is
return (seqs, ((m,id), info) : is)
addMissingPMCFGs cm seqs [] = return (seqs,[])
addMissingPMCFGs cm seqs (((m,id), info):is) = do
(seqs,info) <- addPMCFG opts gr cenv Nothing am cm seqs id info
(seqs,infos) <- addMissingPMCFGs cm seqs is
return (seqs, ((m,id), info) : infos)
i2i :: Ident -> CId
i2i = utf8CId . ident2utf8
i2i :: Ident -> String
i2i = showIdent
mi2i :: ModuleName -> CId
mi2i :: ModuleName -> String
mi2i (MN i) = i2i i
mkType :: [Ident] -> A.Type -> C.Type
mkType :: (?builder :: Builder s) => [Ident] -> A.Type -> B s PGF2.Type
mkType scope t =
case GM.typeForm t of
(hyps,(_,cat),args) -> let (scope',hyps') = mkContext scope hyps
in C.DTyp hyps' (i2i cat) (map (mkExp scope') args)
in dTyp hyps' (i2i cat) (map (mkExp scope') args)
mkExp :: [Ident] -> A.Term -> C.Expr
mkExp scope t =
mkExp :: (?builder :: Builder s) => [Ident] -> A.Term -> B s Expr
mkExp scope t =
case t of
Q (_,c) -> C.EFun (i2i c)
QC (_,c) -> C.EFun (i2i c)
Q (_,c) -> eFun (i2i c)
QC (_,c) -> eFun (i2i c)
Vr x -> case lookup x (zip scope [0..]) of
Just i -> C.EVar i
Nothing -> C.EMeta 0
Abs b x t-> C.EAbs b (i2i x) (mkExp (x:scope) t)
App t1 t2-> C.EApp (mkExp scope t1) (mkExp scope t2)
EInt i -> C.ELit (C.LInt (fromIntegral i))
EFloat f -> C.ELit (C.LFlt f)
K s -> C.ELit (C.LStr s)
Meta i -> C.EMeta i
_ -> C.EMeta 0
Just i -> eVar i
Nothing -> eMeta 0
Abs b x t-> eAbs b (i2i x) (mkExp (x:scope) t)
App t1 t2-> eApp (mkExp scope t1) (mkExp scope t2)
EInt i -> eLit (LInt (fromIntegral i))
EFloat f -> eLit (LFlt f)
K s -> eLit (LStr s)
Meta i -> eMeta i
_ -> eMeta 0
{-
mkPatt scope p =
case p of
A.PP (_,c) ps->let (scope',ps') = mapAccumL mkPatt scope ps
@@ -141,66 +168,64 @@ mkPatt scope p =
A.PImplArg p-> let (scope',p') = mkPatt scope p
in (scope',C.PImplArg p')
A.PTilde t -> ( scope,C.PTilde (mkExp scope t))
mkContext :: [Ident] -> A.Context -> ([Ident],[C.Hypo])
-}
mkContext :: (?builder :: Builder s) => [Ident] -> A.Context -> ([Ident],[B s PGF2.Hypo])
mkContext scope hyps = mapAccumL (\scope (bt,x,ty) -> let ty' = mkType scope ty
in if x == identW
then ( scope,(bt,i2i x,ty'))
else (x:scope,(bt,i2i x,ty'))) scope hyps
then ( scope,hypo bt (i2i x) ty')
else (x:scope,hypo bt (i2i x) ty')) scope hyps
mkDef gr arity (Just eqs) = Just ([C.Equ ps' (mkExp scope' e) | L _ (ps,e) <- eqs, let (scope',ps') = mapAccumL mkPatt [] ps]
,generateByteCode gr arity eqs
)
mkDef gr arity Nothing = Nothing
mkDef gr arity (Just eqs) = generateByteCode gr arity eqs
mkDef gr arity Nothing = []
mkArity (Just a) _ ty = a -- known arity, i.e. defined function
mkArity Nothing (Just _) ty = 0 -- defined function with no arity - must be an axiom
mkArity Nothing _ ty = let (ctxt, _, _) = GM.typeForm ty -- constructor
in length ctxt
genCncCats gr am cm cdefs =
let (index,cats) = mkCncCats 0 cdefs
in (index, Map.fromList cats)
genCncCats gr am cm cdefs = mkCncCats 0 cdefs
where
mkCncCats index [] = (index,[])
mkCncCats index (((m,id),CncCat (Just (L _ lincat)) _ _ _ _):cdefs)
| id == cInt =
let cc = pgfCncCat gr lincat fidInt
let cc = pgfCncCat gr (i2i id) lincat fidInt
(index',cats) = mkCncCats index cdefs
in (index', (i2i id,cc) : cats)
in (index', cc : cats)
| id == cFloat =
let cc = pgfCncCat gr lincat fidFloat
let cc = pgfCncCat gr (i2i id) lincat fidFloat
(index',cats) = mkCncCats index cdefs
in (index', (i2i id,cc) : cats)
in (index', cc : cats)
| id == cString =
let cc = pgfCncCat gr lincat fidString
let cc = pgfCncCat gr (i2i id) lincat fidString
(index',cats) = mkCncCats index cdefs
in (index', (i2i id,cc) : cats)
in (index', cc : cats)
| otherwise =
let cc@(C.CncCat _s e _) = pgfCncCat gr lincat index
(index',cats) = mkCncCats (e+1) cdefs
in (index', (i2i id,cc) : cats)
mkCncCats index (_ :cdefs) = mkCncCats index cdefs
let cc@(_, _s, e, _) = pgfCncCat gr (i2i id) lincat index
(index',cats) = mkCncCats (e+1) cdefs
in (index', cc : cats)
mkCncCats index (_ :cdefs) = mkCncCats index cdefs
genCncFuns :: Grammar
-> ModuleName
-> ModuleName
-> Array SeqId Sequence
-> Array SeqId Sequence
-> Array SeqId [Symbol]
-> ([Symbol] -> [Symbol] -> Ordering)
-> Array SeqId [Symbol]
-> [(QIdent, Info)]
-> FId
-> Map.Map CId D.CncCat
-> Map.Map PGF2.Cat (Int,Int)
-> (FId,
IntMap.IntMap (Set.Set D.Production),
IntMap.IntMap [FunId],
IntMap.IntMap [FunId],
Array FunId D.CncFun)
genCncFuns gr am cm ex_seqs seqs cdefs fid_cnt cnccats =
[(FId, [Production])],
[(FId, [FunId])],
[(FId, [FunId])],
[(PGF2.Fun,[SeqId])])
genCncFuns gr am cm ex_seqs ciCmp seqs cdefs fid_cnt cnccat_ranges =
let (fid_cnt1,funs_cnt1,funs1,lindefs,linrefs) = mkCncCats cdefs fid_cnt 0 [] IntMap.empty IntMap.empty
(fid_cnt2,funs_cnt2,funs2,prods) = mkCncFuns cdefs fid_cnt1 funs_cnt1 funs1 lindefs Map.empty IntMap.empty
in (fid_cnt2,prods,lindefs,linrefs,array (0,funs_cnt2-1) funs2)
(fid_cnt2,funs_cnt2,funs2,prods0) = mkCncFuns cdefs fid_cnt1 funs_cnt1 funs1 lindefs Map.empty IntMap.empty
prods = [(fid,Set.toList prodSet) | (fid,prodSet) <- IntMap.toList prods0]
in (fid_cnt2,prods,IntMap.toList lindefs,IntMap.toList linrefs,reverse funs2)
where
mkCncCats [] fid_cnt funs_cnt funs lindefs linrefs =
mkCncCats [] fid_cnt funs_cnt funs lindefs linrefs =
(fid_cnt,funs_cnt,funs,lindefs,linrefs)
mkCncCats (((m,id),CncCat _ _ _ _ (Just (PMCFG prods0 funs0))):cdefs) fid_cnt funs_cnt funs lindefs linrefs =
let !funs_cnt' = let (s_funid, e_funid) = bounds funs0
@@ -209,17 +234,16 @@ genCncFuns gr am cm ex_seqs seqs cdefs fid_cnt cnccats =
linrefs' = foldl' (toLinRef (am,id) funs_cnt) linrefs prods0
funs' = foldl' (toCncFun funs_cnt (m,mkLinDefId id)) funs (assocs funs0)
in mkCncCats cdefs fid_cnt funs_cnt' funs' lindefs' linrefs'
mkCncCats (_ :cdefs) fid_cnt funs_cnt funs lindefs linrefs =
mkCncCats (_ :cdefs) fid_cnt funs_cnt funs lindefs linrefs =
mkCncCats cdefs fid_cnt funs_cnt funs lindefs linrefs
mkCncFuns [] fid_cnt funs_cnt funs lindefs crc prods =
(fid_cnt,funs_cnt,funs,prods)
mkCncFuns (((m,id),CncFun _ _ _ (Just (PMCFG prods0 funs0))):cdefs) fid_cnt funs_cnt funs lindefs crc prods =
let ---Ok ty_C = fmap GM.typeForm (Look.lookupFunType gr am id)
ty_C = err error (\x -> x) $ fmap GM.typeForm (Look.lookupFunType gr am id)
let ty_C = err error (\x -> x) $ fmap GM.typeForm (Look.lookupFunType gr am id)
!funs_cnt' = let (s_funid, e_funid) = bounds funs0
in funs_cnt+(e_funid-s_funid+1)
!(fid_cnt',crc',prods')
!(fid_cnt',crc',prods')
= foldl' (toProd lindefs ty_C funs_cnt)
(fid_cnt,crc,prods) prods0
funs' = foldl' (toCncFun funs_cnt (m,id)) funs (assocs funs0)
@@ -227,23 +251,23 @@ genCncFuns gr am cm ex_seqs seqs cdefs fid_cnt cnccats =
mkCncFuns (_ :cdefs) fid_cnt funs_cnt funs lindefs crc prods =
mkCncFuns cdefs fid_cnt funs_cnt funs lindefs crc prods
toProd lindefs (ctxt_C,res_C,_) offs st (Production fid0 funid0 args0) =
let !((fid_cnt,crc,prods),args) = mapAccumL mkArg st (zip ctxt_C args0)
set0 = Set.fromList (map (C.PApply (offs+funid0)) (sequence args))
toProd lindefs (ctxt_C,res_C,_) offs st (A.Production fid0 funid0 args0) =
let !((fid_cnt,crc,prods),args) = mapAccumL mkArg st (zip ctxt_C args0)
set0 = Set.fromList (map (PApply (offs+funid0)) (sequence args))
fid = mkFId res_C fid0
!prods' = case IntMap.lookup fid prods of
Just set -> IntMap.insert fid (Set.union set0 set) prods
Nothing -> IntMap.insert fid set0 prods
in (fid_cnt,crc,prods')
where
mkArg st@(fid_cnt,crc,prods) ((_,_,ty),fid0s ) =
mkArg st@(fid_cnt,crc,prods) ((_,_,ty),fid0s) =
case fid0s of
[fid0] -> (st,map (flip C.PArg (mkFId arg_C fid0)) ctxt)
[fid0] -> (st,map (flip PArg (mkFId arg_C fid0)) ctxt)
fid0s -> case Map.lookup fids crc of
Just fid -> (st,map (flip C.PArg fid) ctxt)
Just fid -> (st,map (flip PArg fid) ctxt)
Nothing -> let !crc' = Map.insert fids fid_cnt crc
!prods' = IntMap.insert fid_cnt (Set.fromList (map C.PCoerce fids)) prods
in ((fid_cnt+1,crc',prods'),map (flip C.PArg fid_cnt) ctxt)
!prods' = IntMap.insert fid_cnt (Set.fromList (map PCoerce fids)) prods
in ((fid_cnt+1,crc',prods'),map (flip PArg fid_cnt) ctxt)
where
(hargs_C,arg_C) = GM.catSkeleton ty
ctxt = mapM (mkCtxt lindefs) hargs_C
@@ -251,14 +275,14 @@ genCncFuns gr am cm ex_seqs seqs cdefs fid_cnt cnccats =
mkLinDefId id = prefixIdent "lindef " id
toLinDef res offs lindefs (Production fid0 funid0 args) =
toLinDef res offs lindefs (A.Production fid0 funid0 args) =
if args == [[fidVar]]
then IntMap.insertWith (++) fid [offs+funid0] lindefs
else lindefs
where
fid = mkFId res fid0
toLinRef res offs linrefs (Production fid0 funid0 [fargs]) =
toLinRef res offs linrefs (A.Production fid0 funid0 [fargs]) =
if fid0 == fidVar
then foldr (\fid -> IntMap.insertWith (++) fid [offs+funid0]) linrefs fids
else linrefs
@@ -266,25 +290,25 @@ genCncFuns gr am cm ex_seqs seqs cdefs fid_cnt cnccats =
fids = map (mkFId res) fargs
mkFId (_,cat) fid0 =
case Map.lookup (i2i cat) cnccats of
Just (C.CncCat s e _) -> s+fid0
Nothing -> error ("GrammarToPGF.mkFId: missing category "++showIdent cat)
case Map.lookup (i2i cat) cnccat_ranges of
Just (s,e) -> s+fid0
Nothing -> error ("GrammarToPGF.mkFId: missing category "++showIdent cat)
mkCtxt lindefs (_,cat) =
case Map.lookup (i2i cat) cnccats of
Just (C.CncCat s e _) -> [(C.fidVar,fid) | fid <- [s..e], Just _ <- [IntMap.lookup fid lindefs]]
Nothing -> error "GrammarToPGF.mkCtxt failed"
case Map.lookup (i2i cat) cnccat_ranges of
Just (s,e) -> [(fid,fid) | fid <- [s..e], Just _ <- [IntMap.lookup fid lindefs]]
Nothing -> error "GrammarToPGF.mkCtxt failed"
toCncFun offs (m,id) funs (funid0,lins0) =
let mseqs = case lookupModule gr m of
Ok (ModInfo{mseqs=Just mseqs}) -> mseqs
_ -> ex_seqs
in (offs+funid0,C.CncFun (i2i id) (amap (newIndex mseqs) lins0)):funs
in (i2i id, map (newIndex mseqs) (elems lins0)):funs
where
newIndex mseqs i = binSearch (mseqs ! i) seqs (bounds seqs)
binSearch v arr (i,j)
| i <= j = case compare v (arr ! k) of
| i <= j = case ciCmp v (arr ! k) of
LT -> binSearch v arr (i,k-1)
EQ -> k
GT -> binSearch v arr (k+1,j)
@@ -292,8 +316,9 @@ genCncFuns gr am cm ex_seqs seqs cdefs fid_cnt cnccats =
where
k = (i+j) `div` 2
genPrintNames cdefs =
Map.fromAscList [(i2i id, name) | ((m,id),info) <- cdefs, name <- prn info]
[(i2i id, name) | ((m,id),info) <- cdefs, name <- prn info]
where
prn (CncFun _ _ (Just (L _ tr)) _) = [flatten tr]
prn (CncCat _ _ _ (Just (L _ tr)) _) = [flatten tr]
@@ -303,6 +328,120 @@ genPrintNames cdefs =
flatten (Alts x _) = flatten x
flatten (C x y) = flatten x +++ flatten y
--mkArray lst = listArray (0,length lst-1) lst
mkArray lst = listArray (0,length lst-1) lst
mkMapArray map = array (0,Map.size map-1) [(v,k) | (k,v) <- Map.toList map]
mkSetArray set = listArray (0,Set.size set-1) [v | v <- Set.toList set]
mkSetArray set = listArray (0,Set.size set-1) (Set.toList set)
-- The following is a version of Data.List.sortBy which together
-- with the sorting also eliminates duplicate values
sortNubBy cmp = mergeAll . sequences
where
sequences (a:b:xs) =
case cmp a b of
GT -> descending b [a] xs
EQ -> sequences (b:xs)
LT -> ascending b (a:) xs
sequences xs = [xs]
descending a as [] = [a:as]
descending a as (b:bs) =
case cmp a b of
GT -> descending b (a:as) bs
EQ -> descending a as bs
LT -> (a:as) : sequences (b:bs)
ascending a as [] = let !x = as [a]
in [x]
ascending a as (b:bs) =
case cmp a b of
GT -> let !x = as [a]
in x : sequences (b:bs)
EQ -> ascending a as bs
LT -> ascending b (\ys -> as (a:ys)) bs
mergeAll [x] = x
mergeAll xs = mergeAll (mergePairs xs)
mergePairs (a:b:xs) = let !x = merge a b
in x : mergePairs xs
mergePairs xs = xs
merge as@(a:as') bs@(b:bs') =
case cmp a b of
GT -> b:merge as bs'
EQ -> a:merge as' bs'
LT -> a:merge as' bs
merge [] bs = bs
merge as [] = as
-- The following function does case-insensitive comparison of sequences.
-- This is used to allow case-insensitive parsing, while
-- the linearizer still has access to the original cases.
compareCaseInsensitive [] [] = EQ
compareCaseInsensitive [] _ = LT
compareCaseInsensitive _ [] = GT
compareCaseInsensitive (x:xs) (y:ys) =
case compareSym x y of
EQ -> compareCaseInsensitive xs ys
x -> x
where
compareSym s1 s2 =
case s1 of
SymCat d1 r1
-> case s2 of
SymCat d2 r2
-> case compare d1 d2 of
EQ -> r1 `compare` r2
x -> x
_ -> LT
SymLit d1 r1
-> case s2 of
SymCat {} -> GT
SymLit d2 r2
-> case compare d1 d2 of
EQ -> r1 `compare` r2
x -> x
_ -> LT
SymVar d1 r1
-> if tagToEnum# (getTag s2 ># 2#)
then LT
else case s2 of
SymVar d2 r2
-> case compare d1 d2 of
EQ -> r1 `compare` r2
x -> x
_ -> GT
SymKS t1
-> if tagToEnum# (getTag s2 ># 3#)
then LT
else case s2 of
SymKS t2 -> t1 `compareToken` t2
_ -> GT
SymKP a1 b1
-> if tagToEnum# (getTag s2 ># 4#)
then LT
else case s2 of
SymKP a2 b2
-> case compare a1 a2 of
EQ -> b1 `compare` b2
x -> x
_ -> GT
_ -> let t1 = getTag s1
t2 = getTag s2
in if tagToEnum# (t1 <# t2)
then LT
else if tagToEnum# (t1 ==# t2)
then EQ
else GT
compareToken [] [] = EQ
compareToken [] _ = LT
compareToken _ [] = GT
compareToken (x:xs) (y:ys)
| x == y = compareToken xs ys
| otherwise = case compare (toLower x) (toLower y) of
EQ -> case compareToken xs ys of
EQ -> compare x y
x -> x
x -> x

11
src/compiler/GF/Compile/Optimize.hs
View File

@@ -21,23 +21,16 @@ import GF.Grammar.Printer
import GF.Grammar.Macros
import GF.Grammar.Lookup
import GF.Grammar.Predef
--import GF.Compile.Refresh
--import GF.Compile.Compute.Concrete
import GF.Compile.Compute.ConcreteNew(GlobalEnv,normalForm,resourceValues)
--import GF.Compile.CheckGrammar
--import GF.Compile.Update
import GF.Data.Operations
--import GF.Infra.CheckM
import GF.Infra.Option
import Control.Monad
--import Data.List
import qualified Data.Set as Set
import qualified Data.Map as Map
import GF.Text.Pretty
import Debug.Trace
-- | partial evaluation of concrete syntax. AR 6\/2001 -- 16\/5\/2003 -- 5\/2\/2005.
optimizeModule :: Options -> SourceGrammar -> SourceModule -> Err SourceModule
@@ -54,7 +47,7 @@ optimizeModule opts sgr m@(name,mi)
updateEvalInfo mi (i,info) = do
info <- evalInfo oopts resenv sgr (name,mi) i info
return (mi{jments=updateTree (i,info) (jments mi)})
return (mi{jments=Map.insert i info (jments mi)})
evalInfo :: Options -> GlobalEnv -> SourceGrammar -> SourceModule -> Ident -> Info -> Err Info
evalInfo opts resenv sgr m c info = do

189
src/compiler/GF/Compile/OptimizePGF.hs Normal file
View File

@@ -0,0 +1,189 @@
{-# LANGUAGE BangPatterns #-}
module GF.Compile.OptimizePGF(optimizePGF) where
import PGF2(Cat,Fun)
import PGF2.Internal
import Data.Array.ST
import Data.Array.Unboxed
import qualified Data.Map as Map
import qualified Data.Set as Set
import qualified Data.IntSet as IntSet
import qualified Data.IntMap as IntMap
import qualified Data.List as List
import Control.Monad.ST
type ConcrData = ([(FId,[FunId])], -- ^ Lindefs
[(FId,[FunId])], -- ^ Linrefs
[(FId,[Production])], -- ^ Productions
[(Fun,[SeqId])], -- ^ Concrete functions (must be sorted by Fun)
[[Symbol]], -- ^ Sequences (must be sorted)
[(Cat,FId,FId,[String])]) -- ^ Concrete categories
optimizePGF :: Cat -> ConcrData -> ConcrData
optimizePGF startCat = topDownFilter startCat . bottomUpFilter
catString = "String"
catInt = "Int"
catFloat = "Float"
catVar = "__gfVar"
topDownFilter :: Cat -> ConcrData -> ConcrData
topDownFilter startCat (lindefs,linrefs,prods,cncfuns,sequences,cnccats) =
let env0 = (Map.empty,Map.empty)
(env1,lindefs') = List.mapAccumL (\env (fid,funids) -> let (env',funids') = List.mapAccumL (optimizeFun fid [PArg [] fidVar]) env funids in (env',(fid,funids')))
env0
lindefs
(env2,linrefs') = List.mapAccumL (\env (fid,funids) -> let (env',funids') = List.mapAccumL (optimizeFun fidVar [PArg [] fid]) env funids in (env',(fid,funids')))
env1
linrefs
(env3,prods') = List.mapAccumL (\env (fid,set) -> let (env',set') = List.mapAccumL (optimizeProd fid) env set in (env',(fid,set')))
env2
prods
cnccats' = map filterCatLabels cnccats
(sequences',cncfuns') = env3
in (lindefs',linrefs',prods',mkSetArray cncfuns',mkSetArray sequences',cnccats')
where
cncfuns_array = listArray (0,length cncfuns-1) cncfuns :: Array FunId (Fun, [SeqId])
sequences_array = listArray (0,length sequences-1) sequences :: Array SeqId [Symbol]
prods_map = IntMap.fromList prods
fid2catMap = IntMap.fromList ((fidVar,catVar) : [(fid,cat) | (cat,start,end,lbls) <- cnccats,
fid <- [start..end]])
fid2cat fid =
case IntMap.lookup fid fid2catMap of
Just cat -> cat
Nothing -> case [fid | Just set <- [IntMap.lookup fid prods_map], PCoerce fid <- set] of
(fid:_) -> fid2cat fid
_ -> error "unknown forest id"
starts =
[(startCat,lbl) | (cat,_,_,lbls) <- cnccats, cat==startCat, lbl <- [0..length lbls-1]]
allRelations =
Map.unionsWith Set.union
[rel fid prod | (fid,set) <- prods, prod <- set]
where
rel fid (PApply funid args) = Map.fromList [((fid2cat fid,lbl),deps args seqid) | (lbl,seqid) <- zip [0..] lin]
where
(_,lin) = cncfuns_array ! funid
rel fid _ = Map.empty
deps args seqid = Set.fromList [let PArg _ fid = args !! r in (fid2cat fid,d) | SymCat r d <- seq]
where
seq = sequences_array ! seqid
-- here we create a mapping from a category to an array of indices.
-- An element of the array is equal to -1 if the corresponding index
-- is not going to be used in the optimized grammar, or the new index
-- if it will be used
closure :: Map.Map Cat [Int]
closure = runST $ do
set <- initSet
addLitCat catString set
addLitCat catInt set
addLitCat catFloat set
addLitCat catVar set
closureSet set starts
doneSet set
where
initSet :: ST s (Map.Map Cat (STUArray s Int Int))
initSet =
fmap Map.fromList $ sequence
[fmap ((,) cat) (newArray (0,length lbls-1) (-1))
| (cat,_,_,lbls) <- cnccats]
addLitCat cat set =
case Map.lookup cat set of
Just indices -> writeArray indices 0 0
Nothing -> return ()
closureSet set [] = return ()
closureSet set (x@(cat,index):xs) =
case Map.lookup cat set of
Just indices -> do v <- readArray indices index
writeArray indices index 0
if v < 0
then case Map.lookup x allRelations of
Just ys -> closureSet set (Set.toList ys++xs)
Nothing -> closureSet set xs
else closureSet set xs
Nothing -> error "unknown cat"
doneSet :: Map.Map Cat (STUArray s Int Int) -> ST s (Map.Map Cat [Int])
doneSet set =
fmap Map.fromAscList $ mapM done (Map.toAscList set)
where
done (cat,indices) = do
indices <- fmap (reindex 0) (getElems indices)
return (cat,indices)
reindex k [] = []
reindex k (v:vs)
| v < 0 = v : reindex k vs
| otherwise = k : reindex (k+1) vs
optimizeProd res env (PApply funid args) =
let (env',funid') = optimizeFun res args env funid
in (env', PApply funid' args)
optimizeProd res env prod = (env,prod)
optimizeFun res args (seqs,funs) funid =
let (seqs',lin') = List.mapAccumL addUnique seqs [map updateSymbol (sequences_array ! seqid) |
(idx,seqid) <- zip (indicesOf res) lin, idx >= 0]
(funs',funid') = addUnique funs (fun, lin')
in ((seqs',funs'), funid')
where
(fun,lin) = cncfuns_array ! funid
indicesOf fid
| fid < 0 = [0]
| otherwise =
case Map.lookup (fid2cat fid) closure of
Just indices -> indices
Nothing -> error "unknown category"
addUnique seqs seq =
case Map.lookup seq seqs of
Just seqid -> (seqs,seqid)
Nothing -> let seqid = Map.size seqs
in (Map.insert seq seqid seqs, seqid)
updateSymbol (SymCat r d) = let PArg _ fid = args !! r in SymCat r (indicesOf fid !! d)
updateSymbol s = s
filterCatLabels (cat,start,end,lbls) =
case Map.lookup cat closure of
Just indices -> let lbls' = [lbl | (idx,lbl) <- zip indices lbls, idx >= 0]
in (cat,start,end,lbls')
Nothing -> error ("unknown category")
mkSetArray map = sortSnd (Map.toList map)
where
sortSnd = List.map fst . List.sortBy (\(_,i) (_,j) -> compare i j)
bottomUpFilter :: ConcrData -> ConcrData
bottomUpFilter (lindefs,linrefs,prods,cncfuns,sequences,cnccats) =
(lindefs,linrefs,filterProductions IntMap.empty IntSet.empty prods,cncfuns,sequences,cnccats)
filterProductions prods0 hoc0 prods
| prods0 == prods1 = IntMap.toList prods0
| otherwise = filterProductions prods1 hoc1 prods
where
(prods1,hoc1) = foldl foldProdSet (IntMap.empty,IntSet.empty) prods
foldProdSet (!prods,!hoc) (fid,set)
| null set1 = (prods,hoc)
| otherwise = (IntMap.insert fid set1 prods,hoc1)
where
set1 = filter filterRule set
hoc1 = foldl accumHOC hoc set1
filterRule (PApply funid args) = all (\(PArg _ fid) -> isLive fid) args
filterRule (PCoerce fid) = isLive fid
filterRule _ = True
isLive fid = isPredefFId fid || IntMap.member fid prods0 || IntSet.member fid hoc0
accumHOC hoc (PApply funid args) = List.foldl' (\hoc (PArg hypos _) -> List.foldl' (\hoc fid -> IntSet.insert fid hoc) hoc (map snd hypos)) hoc args
accumHOC hoc _ = hoc

32
src/compiler/GF/Compile/PGFtoHaskell.hs
View File

@@ -16,13 +16,14 @@
module GF.Compile.PGFtoHaskell (grammar2haskell) where
import PGF(showCId)
import PGF.Internal
import PGF2
import PGF2.Internal
import GF.Data.Operations
import GF.Infra.Option
import Data.List --(isPrefixOf, find, intersperse)
import Data.List
import Data.Maybe(mapMaybe)
import qualified Data.Map as Map
type Prefix = String -> String
@@ -39,7 +40,7 @@ grammar2haskell opts name gr = foldr (++++) [] $
lexical cat = haskellOption opts HaskellLexical && isLexicalCat opts cat
gId | haskellOption opts HaskellNoPrefix = id
| otherwise = ("G"++)
pragmas | gadt = ["{-# OPTIONS_GHC -fglasgow-exts #-}","{-# LANGUAGE GADTs #-}"]
pragmas | gadt = ["{-# OPTIONS_GHC -fglasgow-exts #-}"]
| otherwise = []
types | gadt = datatypesGADT gId lexical gr'
| otherwise = datatypes gId lexical gr'
@@ -241,7 +242,7 @@ fInstance gId lexical m (cat,rules) =
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] ++++
(if lexical cat then " Just (i,[]) -> " ++ lexicalConstructor cat +++ "(showCId i)" else "") ++++
(if lexical cat then " Just (i,[]) -> " ++ lexicalConstructor cat +++ "i" else "") ++++
" _ -> error (\"no" +++ cat ++ " \" ++ show t)"
where
isList = isListCat (cat,rules)
@@ -262,18 +263,21 @@ fInstance gId lexical m (cat,rules) =
--type HSkeleton = [(OIdent, [(OIdent, [OIdent])])]
hSkeleton :: PGF -> (String,HSkeleton)
hSkeleton gr =
(showCId (absname gr),
(abstractName 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)]
[(c, [(f, cs) | (f, cs,_) <- fs]) |
fs@((_, _,c):_) <- fns]
in fs ++ [(c, []) | c <- cts, notElem c (["Int", "Float", "String"] ++ map fst fs)]
)
where
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
jty (f,(ty,_,_,_)) = (f,catSkeleton ty)
cts = categories gr
fns = groupBy valtypg (sortBy valtyps (mapMaybe jty (functions gr)))
valtyps (_,_,x) (_,_,y) = compare x y
valtypg (_,_,x) (_,_,y) = x == y
jty f = case functionType gr f of
Just ty -> let (hypos,valcat,_) = unType ty
in Just (f,[argcat | (_,_,ty) <- hypos, let (_,argcat,_) = unType ty],valcat)
Nothing -> Nothing
{-
updateSkeleton :: OIdent -> HSkeleton -> (OIdent, [OIdent]) -> HSkeleton
updateSkeleton cat skel rule =

105
src/compiler/GF/Compile/PGFtoJS.hs
View File

@@ -1,105 +0,0 @@
module GF.Compile.PGFtoJS (pgf2js) where
import PGF(showCId)
import PGF.Internal as M
import qualified GF.JavaScript.AbsJS as JS
import qualified GF.JavaScript.PrintJS as JS
--import GF.Data.ErrM
--import GF.Infra.Option
--import Control.Monad (mplus)
--import Data.Array.Unboxed (UArray)
import qualified Data.Array.IArray as Array
--import Data.Maybe (fromMaybe)
import Data.Map (Map)
import qualified Data.Set as Set
import qualified Data.Map as Map
import qualified Data.IntMap as IntMap
pgf2js :: PGF -> String
pgf2js pgf =
JS.printTree $ JS.Program [JS.ElStmt $ JS.SDeclOrExpr $ JS.Decl [JS.DInit (JS.Ident n) grammar]]
where
n = showCId $ absname pgf
as = abstract pgf
cs = Map.assocs (concretes pgf)
start = showCId $ M.lookStartCat pgf
grammar = new "GFGrammar" [js_abstract, js_concrete]
js_abstract = abstract2js start as
js_concrete = JS.EObj $ map concrete2js cs
abstract2js :: String -> Abstr -> JS.Expr
abstract2js start ds = new "GFAbstract" [JS.EStr start, JS.EObj $ map absdef2js (Map.assocs (funs ds))]
absdef2js :: (CId,(Type,Int,Maybe ([Equation],[[M.Instr]]),Double)) -> JS.Property
absdef2js (f,(typ,_,_,_)) =
let (args,cat) = M.catSkeleton typ in
JS.Prop (JS.IdentPropName (JS.Ident (showCId f))) (new "Type" [JS.EArray [JS.EStr (showCId x) | x <- args], JS.EStr (showCId cat)])
lit2js (LStr s) = JS.EStr s
lit2js (LInt n) = JS.EInt n
lit2js (LFlt d) = JS.EDbl d
concrete2js :: (CId,Concr) -> JS.Property
concrete2js (c,cnc) =
JS.Prop l (new "GFConcrete" [mapToJSObj (lit2js) $ cflags cnc,
JS.EObj $ [JS.Prop (JS.IntPropName cat) (JS.EArray (map frule2js (Set.toList set))) | (cat,set) <- IntMap.toList (productions cnc)],
JS.EArray $ (map ffun2js (Array.elems (cncfuns cnc))),
JS.EArray $ (map seq2js (Array.elems (sequences cnc))),
JS.EObj $ map cats (Map.assocs (cnccats cnc)),
JS.EInt (totalCats cnc)])
where
l = JS.IdentPropName (JS.Ident (showCId c))
{-
litslins = [JS.Prop (JS.StringPropName "Int") (JS.EFun [children] [JS.SReturn $ new "Arr" [JS.EIndex (JS.EVar children) (JS.EInt 0)]]),
JS.Prop (JS.StringPropName "Float") (JS.EFun [children] [JS.SReturn $ new "Arr" [JS.EIndex (JS.EVar children) (JS.EInt 0)]]),
JS.Prop (JS.StringPropName "String") (JS.EFun [children] [JS.SReturn $ new "Arr" [JS.EIndex (JS.EVar children) (JS.EInt 0)]])]
-}
cats (c,CncCat start end _) = JS.Prop (JS.IdentPropName (JS.Ident (showCId c))) (JS.EObj [JS.Prop (JS.IdentPropName (JS.Ident "s")) (JS.EInt start)
,JS.Prop (JS.IdentPropName (JS.Ident "e")) (JS.EInt end)])
{-
mkStr :: String -> JS.Expr
mkStr s = new "Str" [JS.EStr s]
mkSeq :: [JS.Expr] -> JS.Expr
mkSeq [x] = x
mkSeq xs = new "Seq" xs
argIdent :: Integer -> JS.Ident
argIdent n = JS.Ident ("x" ++ show n)
-}
children :: JS.Ident
children = JS.Ident "cs"
frule2js :: Production -> JS.Expr
frule2js (PApply funid args) = new "Apply" [JS.EInt funid, JS.EArray (map farg2js args)]
frule2js (PCoerce arg) = new "Coerce" [JS.EInt arg]
farg2js (PArg hypos fid) = new "PArg" (map (JS.EInt . snd) hypos ++ [JS.EInt fid])
ffun2js (CncFun f lins) = new "CncFun" [JS.EStr (showCId f), JS.EArray (map JS.EInt (Array.elems lins))]
seq2js :: Array.Array DotPos Symbol -> JS.Expr
seq2js seq = JS.EArray [sym2js s | s <- Array.elems seq]
sym2js :: Symbol -> JS.Expr
sym2js (SymCat n l) = new "SymCat" [JS.EInt n, JS.EInt l]
sym2js (SymLit n l) = new "SymLit" [JS.EInt n, JS.EInt l]
sym2js (SymVar n l) = new "SymVar" [JS.EInt n, JS.EInt l]
sym2js (SymKS t) = new "SymKS" [JS.EStr t]
sym2js (SymKP ts alts) = new "SymKP" [JS.EArray (map sym2js ts), JS.EArray (map alt2js alts)]
sym2js SymBIND = new "SymKS" [JS.EStr "&+"]
sym2js SymSOFT_BIND = new "SymKS" [JS.EStr "&+"]
sym2js SymSOFT_SPACE = new "SymKS" [JS.EStr "&+"]
sym2js SymCAPIT = new "SymKS" [JS.EStr "&|"]
sym2js SymALL_CAPIT = new "SymKS" [JS.EStr "&|"]
sym2js SymNE = new "SymNE" []
alt2js (ps,ts) = new "Alt" [JS.EArray (map sym2js ps), JS.EArray (map JS.EStr ts)]
new :: String -> [JS.Expr] -> JS.Expr
new f xs = JS.ENew (JS.Ident f) xs
mapToJSObj :: (a -> JS.Expr) -> Map CId a -> JS.Expr
mapToJSObj f m = JS.EObj [ JS.Prop (JS.IdentPropName (JS.Ident (showCId k))) (f v) | (k,v) <- Map.toList m ]

110
src/compiler/GF/Compile/PGFtoJSON.hs Normal file
View File

@@ -0,0 +1,110 @@
module GF.Compile.PGFtoJSON (pgf2json) where
import PGF2
import PGF2.Internal
import Text.JSON
import qualified Data.Map as Map
pgf2json :: PGF -> String
pgf2json pgf =
encode $ makeObj
[ ("abstract", abstract2json pgf)
, ("concretes", makeObj $ map concrete2json
(Map.toList (languages pgf)))
]
abstract2json :: PGF -> JSValue
abstract2json pgf =
makeObj
[ ("name", showJSON (abstractName pgf))
, ("startcat", showJSON (showType [] (startCat pgf)))
, ("funs", makeObj $ map (absdef2json pgf) (functions pgf))
]
absdef2json :: PGF -> Fun -> (String,JSValue)
absdef2json pgf f = (f,sig)
where
Just (hypos,cat,_) = fmap unType (functionType pgf f)
sig = makeObj
[ ("args", showJSON $ map (\(_,_,ty) -> showType [] ty) hypos)
, ("cat", showJSON cat)
]
lit2json :: Literal -> JSValue
lit2json (LStr s) = showJSON s
lit2json (LInt n) = showJSON n
lit2json (LFlt d) = showJSON d
concrete2json :: (ConcName,Concr) -> (String,JSValue)
concrete2json (c,cnc) = (c,obj)
where
obj = makeObj
[ ("flags", makeObj [(k, lit2json v) | (k,v) <- concrFlags cnc])
, ("productions", makeObj [(show fid, showJSON (map frule2json (concrProductions cnc fid))) | (_,start,end,_) <- concrCategories cnc, fid <- [start..end]])
, ("functions", showJSON [ffun2json funid (concrFunction cnc funid) | funid <- [0..concrTotalFuns cnc-1]])
, ("sequences", showJSON [seq2json seqid (concrSequence cnc seqid) | seqid <- [0..concrTotalSeqs cnc-1]])
, ("categories", makeObj $ map cat2json (concrCategories cnc))
, ("totalfids", showJSON (concrTotalCats cnc))
]
cat2json :: (Cat,FId,FId,[String]) -> (String,JSValue)
cat2json (cat,start,end,_) = (cat, ixs)
where
ixs = makeObj
[ ("start", showJSON start)
, ("end", showJSON end)
]
frule2json :: Production -> JSValue
frule2json (PApply fid args) =
makeObj
[ ("type", showJSON "Apply")
, ("fid", showJSON fid)
, ("args", showJSON (map farg2json args))
]
frule2json (PCoerce arg) =
makeObj
[ ("type", showJSON "Coerce")
, ("arg", showJSON arg)
]
farg2json :: PArg -> JSValue
farg2json (PArg hypos fid) =
makeObj
[ ("type", showJSON "PArg")
, ("hypos", JSArray $ map (showJSON . snd) hypos)
, ("fid", showJSON fid)
]
ffun2json :: FunId -> (Fun,[SeqId]) -> JSValue
ffun2json funid (fun,seqids) =
makeObj
[ ("name", showJSON fun)
, ("lins", showJSON seqids)
]
seq2json :: SeqId -> [Symbol] -> JSValue
seq2json seqid seq = showJSON [sym2json sym | sym <- seq]
sym2json :: Symbol -> JSValue
sym2json (SymCat n l) = new "SymCat" [showJSON n, showJSON l]
sym2json (SymLit n l) = new "SymLit" [showJSON n, showJSON l]
sym2json (SymVar n l) = new "SymVar" [showJSON n, showJSON l]
sym2json (SymKS t) = new "SymKS" [showJSON t]
sym2json (SymKP ts alts) = new "SymKP" [JSArray (map sym2json ts), JSArray (map alt2json alts)]
sym2json SymBIND = new "SymKS" [showJSON "&+"]
sym2json SymSOFT_BIND = new "SymKS" [showJSON "&+"]
sym2json SymSOFT_SPACE = new "SymKS" [showJSON "&+"]
sym2json SymCAPIT = new "SymKS" [showJSON "&|"]
sym2json SymALL_CAPIT = new "SymKS" [showJSON "&|"]
sym2json SymNE = new "SymNE" []
alt2json :: ([Symbol],[String]) -> JSValue
alt2json (ps,ts) = new "Alt" [showJSON (map sym2json ps), showJSON ts]
new :: String -> [JSValue] -> JSValue
new f xs =
makeObj
[ ("type", showJSON f)
, ("args", showJSON xs)
]

5
src/compiler/GF/Compile/PGFtoJava.hs
View File

@@ -1,6 +1,6 @@
module GF.Compile.PGFtoJava (grammar2java) where
import PGF
import PGF2
import Data.Maybe(maybe)
import Data.List(intercalate)
import GF.Infra.Option
@@ -24,9 +24,8 @@ javaPreamble name =
]
javaMethod gr fun =
" public static Expr "++name++"("++arg_decls++") { return new Expr("++show name++args++"); }"
" public static Expr "++fun++"("++arg_decls++") { return new Expr("++show fun++args++"); }"
where
name = showCId fun
arity = maybe 0 getArrity (functionType gr fun)
vars = ['e':show i | i <- [1..arity]]

262
src/compiler/GF/Compile/PGFtoProlog.hs
View File

@@ -1,262 +0,0 @@
----------------------------------------------------------------------
-- |
-- Module : PGFtoProlog
-- Maintainer : Peter Ljunglöf
--
-- exports a GF grammar into a Prolog module
-----------------------------------------------------------------------------
module GF.Compile.PGFtoProlog (grammar2prolog) where
import PGF(mkCId,wildCId,showCId)
import PGF.Internal
--import PGF.Macros
import GF.Data.Operations
import qualified Data.Array.IArray as Array
import qualified Data.Set as Set
import qualified Data.Map as Map
import qualified Data.IntMap as IntMap
import Data.Char (isAlphaNum, isAscii, isAsciiLower, isAsciiUpper, ord)
import Data.List (isPrefixOf, mapAccumL)
grammar2prolog :: PGF -> String
grammar2prolog pgf
= ("%% This file was automatically generated by GF" +++++
":- style_check(-singleton)." +++++
plFacts wildCId "abstract" 1 "(?AbstractName)"
[[plp name]] ++++
plFacts wildCId "concrete" 2 "(?AbstractName, ?ConcreteName)"
[[plp name, plp cncname] |
cncname <- Map.keys (concretes pgf)] ++++
plFacts wildCId "flag" 2 "(?Flag, ?Value): global flags"
[[plp f, plp v] |
(f, v) <- Map.assocs (gflags pgf)] ++++
plAbstract name (abstract pgf) ++++
unlines (map plConcrete (Map.assocs (concretes pgf)))
)
where name = absname pgf
----------------------------------------------------------------------
-- abstract syntax
plAbstract :: CId -> Abstr -> String
plAbstract name abs
= (plHeader "Abstract syntax" ++++
plFacts name "flag" 2 "(?Flag, ?Value): flags for abstract syntax"
[[plp f, plp v] |
(f, v) <- Map.assocs (aflags abs)] ++++
plFacts name "cat" 2 "(?Type, ?[X:Type,...])"
[[plType cat args, plHypos hypos'] |
(cat, (hypos,_,_)) <- Map.assocs (cats abs),
let ((_, subst), hypos') = mapAccumL alphaConvertHypo emptyEnv hypos,
let args = reverse [EFun x | (_,x) <- subst]] ++++
plFacts name "fun" 3 "(?Fun, ?Type, ?[X:Type,...])"
[[plp fun, plType cat args, plHypos hypos] |
(fun, (typ, _, _, _)) <- Map.assocs (funs abs),
let (_, DTyp hypos cat args) = alphaConvert emptyEnv typ] ++++
plFacts name "def" 2 "(?Fun, ?Expr)"
[[plp fun, plp expr] |
(fun, (_, _, Just (eqs,_), _)) <- Map.assocs (funs abs),
let (_, expr) = alphaConvert emptyEnv eqs]
)
where plType cat args = plTerm (plp cat) (map plp args)
plHypos hypos = plList [plOper ":" (plp x) (plp ty) | (_, x, ty) <- hypos]
----------------------------------------------------------------------
-- concrete syntax
plConcrete :: (CId, Concr) -> String
plConcrete (name, cnc)
= (plHeader ("Concrete syntax: " ++ plp name) ++++
plFacts name "flag" 2 "(?Flag, ?Value): flags for concrete syntax"
[[plp f, plp v] |
(f, v) <- Map.assocs (cflags cnc)] ++++
plFacts name "printname" 2 "(?AbsFun/AbsCat, ?Atom)"
[[plp f, plp n] |
(f, n) <- Map.assocs (printnames cnc)] ++++
plFacts name "lindef" 2 "(?CncCat, ?CncFun)"
[[plCat cat, plFun fun] |
(cat, funs) <- IntMap.assocs (lindefs cnc),
fun <- funs] ++++
plFacts name "prod" 3 "(?CncCat, ?CncFun, ?[CncCat])"
[[plCat cat, fun, plTerm "c" (map plCat args)] |
(cat, set) <- IntMap.toList (productions cnc),
(fun, args) <- map plProduction (Set.toList set)] ++++
plFacts name "cncfun" 3 "(?CncFun, ?[Seq,...], ?AbsFun)"
[[plFun fun, plTerm "s" (map plSeq (Array.elems lins)), plp absfun] |
(fun, CncFun absfun lins) <- Array.assocs (cncfuns cnc)] ++++
plFacts name "seq" 2 "(?Seq, ?[Term])"
[[plSeq seq, plp (Array.elems symbols)] |
(seq, symbols) <- Array.assocs (sequences cnc)] ++++
plFacts name "cnccat" 2 "(?AbsCat, ?[CnCCat])"
[[plp cat, plList (map plCat [start..end])] |
(cat, CncCat start end _) <- Map.assocs (cnccats cnc)]
)
where plProduction (PCoerce arg) = ("-", [arg])
plProduction (PApply funid args) = (plFun funid, [fid | PArg hypos fid <- args])
----------------------------------------------------------------------
-- prolog-printing pgf datatypes
instance PLPrint Type where
plp (DTyp hypos cat args)
| null hypos = result
| otherwise = plOper " -> " plHypos result
where result = plTerm (plp cat) (map plp args)
plHypos = plList [plOper ":" (plp x) (plp ty) | (_,x,ty) <- hypos]
instance PLPrint Expr where
plp (EFun x) = plp x
plp (EAbs _ x e)= plOper "^" (plp x) (plp e)
plp (EApp e e') = plOper " * " (plp e) (plp e')
plp (ELit lit) = plp lit
plp (EMeta n) = "Meta_" ++ show n
instance PLPrint Patt where
plp (PVar x) = plp x
plp (PApp f ps) = plOper " * " (plp f) (plp ps)
plp (PLit lit) = plp lit
instance PLPrint Equation where
plp (Equ patterns result) = plOper ":" (plp patterns) (plp result)
instance PLPrint CId where
plp cid | isLogicalVariable str || cid == wildCId = plVar str
| otherwise = plAtom str
where str = showCId cid
instance PLPrint Literal where
plp (LStr s) = plp s
plp (LInt n) = plp (show n)
plp (LFlt f) = plp (show f)
instance PLPrint Symbol where
plp (SymCat n l) = plOper ":" (show n) (show l)
plp (SymLit n l) = plTerm "lit" [show n, show l]
plp (SymVar n l) = plTerm "var" [show n, show l]
plp (SymKS t) = plAtom t
plp (SymKP ts alts) = plTerm "pre" [plList (map plp ts), plList (map plAlt alts)]
where plAlt (ps,ts) = plOper "/" (plList (map plp ps)) (plList (map plAtom ts))
class PLPrint a where
plp :: a -> String
plps :: [a] -> String
plps = plList . map plp
instance PLPrint Char where
plp c = plAtom [c]
plps s = plAtom s
instance PLPrint a => PLPrint [a] where
plp = plps
----------------------------------------------------------------------
-- other prolog-printing functions
plCat :: Int -> String
plCat n = plAtom ('c' : show n)
plFun :: Int -> String
plFun n = plAtom ('f' : show n)
plSeq :: Int -> String
plSeq n = plAtom ('s' : show n)
plHeader :: String -> String
plHeader hdr = "%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%\n%% " ++ hdr ++ "\n"
plFacts :: CId -> String -> Int -> String -> [[String]] -> String
plFacts mod pred arity comment facts = "%% " ++ pred ++ comment ++++ clauses
where clauses = (if facts == [] then ":- dynamic " ++ pred ++ "/" ++ show arity ++ ".\n"
else unlines [mod' ++ plTerm pred args ++ "." | args <- facts])
mod' = if mod == wildCId then "" else plp mod ++ ": "
plTerm :: String -> [String] -> String
plTerm fun args = plAtom fun ++ prParenth (prTList ", " args)
plList :: [String] -> String
plList xs = prBracket (prTList "," xs)
plOper :: String -> String -> String -> String
plOper op a b = prParenth (a ++ op ++ b)
plVar :: String -> String
plVar = varPrefix . concatMap changeNonAlphaNum
where varPrefix var@(c:_) | isAsciiUpper c || c=='_' = var
| otherwise = "_" ++ var
changeNonAlphaNum c | isAlphaNumUnderscore c = [c]
| otherwise = "_" ++ show (ord c) ++ "_"
plAtom :: String -> String
plAtom "" = "''"
plAtom atom@(c:cs) | isAsciiLower c && all isAlphaNumUnderscore cs
|| c == '\'' && cs /= "" && last cs == '\'' = atom
| otherwise = "'" ++ changeQuote atom ++ "'"
where changeQuote ('\'':cs) = '\\' : '\'' : changeQuote cs
changeQuote ('\\':cs) = '\\' : '\\' : changeQuote cs
changeQuote (c:cs) = c : changeQuote cs
changeQuote "" = ""
isAlphaNumUnderscore :: Char -> Bool
isAlphaNumUnderscore c = (isAscii c && isAlphaNum c) || c == '_'
----------------------------------------------------------------------
-- prolog variables
createLogicalVariable :: Int -> CId
createLogicalVariable n = mkCId (logicalVariablePrefix ++ show n)
isLogicalVariable :: String -> Bool
isLogicalVariable = isPrefixOf logicalVariablePrefix
logicalVariablePrefix :: String
logicalVariablePrefix = "X"
----------------------------------------------------------------------
-- alpha convert variables to (unique) logical variables
-- * this is needed if we want to translate variables to Prolog variables
-- * used for abstract syntax, not concrete
-- * not (yet?) used for variables bound in pattern equations
type ConvertEnv = (Int, [(CId,CId)])
emptyEnv :: ConvertEnv
emptyEnv = (0, [])
class AlphaConvert a where
alphaConvert :: ConvertEnv -> a -> (ConvertEnv, a)
instance AlphaConvert a => AlphaConvert [a] where
alphaConvert env [] = (env, [])
alphaConvert env (a:as) = (env'', a':as')
where (env', a') = alphaConvert env a
(env'', as') = alphaConvert env' as
instance AlphaConvert Type where
alphaConvert env@(_,subst) (DTyp hypos cat args)
= ((ctr,subst), DTyp hypos' cat args')
where (env', hypos') = mapAccumL alphaConvertHypo env hypos
((ctr,_), args') = alphaConvert env' args
alphaConvertHypo env (b,x,typ) = ((ctr+1,(x,x'):subst), (b,x',typ'))
where ((ctr,subst), typ') = alphaConvert env typ
x' = createLogicalVariable ctr
instance AlphaConvert Expr where
alphaConvert (ctr,subst) (EAbs b x e) = ((ctr',subst), EAbs b x' e')
where ((ctr',_), e') = alphaConvert (ctr+1,(x,x'):subst) e
x' = createLogicalVariable ctr
alphaConvert env (EApp e1 e2) = (env'', EApp e1' e2')
where (env', e1') = alphaConvert env e1
(env'', e2') = alphaConvert env' e2
alphaConvert env expr@(EFun i) = (env, maybe expr EFun (lookup i (snd env)))
alphaConvert env expr = (env, expr)
-- pattern variables are not alpha converted
-- (but they probably should be...)
instance AlphaConvert Equation where
alphaConvert env@(_,subst) (Equ patterns result)
= ((ctr,subst), Equ patterns result')
where ((ctr,_), result') = alphaConvert env result

122
src/compiler/GF/Compile/PGFtoPython.hs
View File

@@ -1,122 +0,0 @@
----------------------------------------------------------------------
-- |
-- Module : PGFtoPython
-- Maintainer : Peter Ljunglöf
--
-- exports a GF grammar into a Python module
-----------------------------------------------------------------------------
{-# LANGUAGE FlexibleContexts #-}
module GF.Compile.PGFtoPython (pgf2python) where
import PGF(showCId)
import PGF.Internal as M
import GF.Data.Operations
import qualified Data.Array.IArray as Array
import qualified Data.Set as Set
import qualified Data.Map as Map
import qualified Data.IntMap as IntMap
--import Data.List (intersperse)
pgf2python :: PGF -> String
pgf2python pgf = ("# -*- coding: utf-8 -*-" ++++
"# This file was automatically generated by GF" +++++
showCId name +++ "=" +++
pyDict 1 pyStr id [
("flags", pyDict 2 pyCId pyLiteral (Map.assocs (gflags pgf))),
("abstract", pyDict 2 pyStr id [
("name", pyCId name),
("start", pyCId start),
("flags", pyDict 3 pyCId pyLiteral (Map.assocs (aflags abs))),
("funs", pyDict 3 pyCId pyAbsdef (Map.assocs (funs abs)))
]),
("concretes", pyDict 2 pyCId pyConcrete (Map.assocs cncs))
] ++ "\n")
where
name = absname pgf
start = M.lookStartCat pgf
abs = abstract pgf
cncs = concretes pgf
pyAbsdef :: (Type, Int, Maybe ([Equation], [[M.Instr]]), Double) -> String
pyAbsdef (typ, _, _, _) = pyTuple 0 id [pyCId cat, pyList 0 pyCId args]
where (args, cat) = M.catSkeleton typ
pyLiteral :: Literal -> String
pyLiteral (LStr s) = pyStr s
pyLiteral (LInt n) = show n
pyLiteral (LFlt d) = show d
pyConcrete :: Concr -> String
pyConcrete cnc = pyDict 3 pyStr id [
("flags", pyDict 0 pyCId pyLiteral (Map.assocs (cflags cnc))),
("printnames", pyDict 4 pyCId pyStr (Map.assocs (printnames cnc))),
("lindefs", pyDict 4 pyCat (pyList 0 pyFun) (IntMap.assocs (lindefs cnc))),
("productions", pyDict 4 pyCat pyProds (IntMap.assocs (productions cnc))),
("cncfuns", pyDict 4 pyFun pyCncFun (Array.assocs (cncfuns cnc))),
("sequences", pyDict 4 pySeq pySymbols (Array.assocs (sequences cnc))),
("cnccats", pyDict 4 pyCId pyCncCat (Map.assocs (cnccats cnc))),
("size", show (totalCats cnc))
]
where pyProds prods = pyList 5 pyProduction (Set.toList prods)
pyCncCat (CncCat start end _) = pyList 0 pyCat [start..end]
pyCncFun (CncFun f lins) = pyTuple 0 id [pyList 0 pySeq (Array.elems lins), pyCId f]
pySymbols syms = pyList 0 pySymbol (Array.elems syms)
pyProduction :: Production -> String
pyProduction (PCoerce arg) = pyTuple 0 id [pyStr "", pyList 0 pyCat [arg]]
pyProduction (PApply funid args) = pyTuple 0 id [pyFun funid, pyList 0 pyPArg args]
where pyPArg (PArg [] fid) = pyCat fid
pyPArg (PArg hypos fid) = pyTuple 0 pyCat (fid : map snd hypos)
pySymbol :: Symbol -> String
pySymbol (SymCat n l) = pyTuple 0 show [n, l]
pySymbol (SymLit n l) = pyDict 0 pyStr id [("lit", pyTuple 0 show [n, l])]
pySymbol (SymVar n l) = pyDict 0 pyStr id [("var", pyTuple 0 show [n, l])]
pySymbol (SymKS t) = pyStr t
pySymbol (SymKP ts alts) = pyDict 0 pyStr id [("pre", pyList 0 pySymbol ts), ("alts", pyList 0 alt2py alts)]
where alt2py (ps,ts) = pyTuple 0 (pyList 0 pyStr) [map pySymbol ps, ts]
pySymbol SymBIND = pyStr "&+"
pySymbol SymSOFT_BIND = pyStr "&+"
pySymbol SymSOFT_SPACE = pyStr "&+"
pySymbol SymCAPIT = pyStr "&|"
pySymbol SymALL_CAPIT = pyStr "&|"
pySymbol SymNE = pyDict 0 pyStr id [("nonExist", pyTuple 0 id [])]
----------------------------------------------------------------------
-- python helpers
pyDict :: Int -> (k -> String) -> (v -> String) -> [(k, v)] -> String
pyDict n pk pv [] = "{}"
pyDict n pk pv kvlist = prCurly (pyIndent n ++ prTList ("," ++ pyIndent n) (map pyKV kvlist) ++ pyIndent n)
where pyKV (k, v) = pk k ++ ":" ++ pv v
pyList :: Int -> (v -> String) -> [v] -> String
pyList n pv [] = "[]"
pyList n pv xs = prBracket (pyIndent n ++ prTList ("," ++ pyIndent n) (map pv xs) ++ pyIndent n)
pyTuple :: Int -> (v -> String) -> [v] -> String
pyTuple n pv [] = "()"
pyTuple n pv [x] = prParenth (pyIndent n ++ pv x ++ "," ++ pyIndent n)
pyTuple n pv xs = prParenth (pyIndent n ++ prTList ("," ++ pyIndent n) (map pv xs) ++ pyIndent n)
pyCat :: Int -> String
pyCat n = pyStr ('C' : show n)
pyFun :: Int -> String
pyFun n = pyStr ('F' : show n)
pySeq :: Int -> String
pySeq n = pyStr ('S' : show n)
pyStr :: String -> String
pyStr s = 'u' : prQuotedString s
pyCId :: CId -> String
pyCId = pyStr . showCId
pyIndent :: Int -> String
pyIndent n | n > 0 = "\n" ++ replicate n ' '
| otherwise = ""

80
src/compiler/GF/Compile/Rename.hs
View File

@@ -27,19 +27,20 @@ module GF.Compile.Rename (
renameModule
) where
import GF.Infra.Ident
import GF.Infra.CheckM
import GF.Grammar.Grammar
import GF.Grammar.Values
import GF.Grammar.Predef
import GF.Infra.Ident
import GF.Infra.CheckM
import GF.Grammar.Lookup
import GF.Grammar.Macros
import GF.Grammar.Printer
--import GF.Grammar.Lookup
--import GF.Grammar.Printer
import GF.Data.Operations
import Control.Monad
import Data.List (nub,(\\))
import qualified Data.Map as Map
import Data.Maybe(mapMaybe)
import GF.Text.Pretty
-- | this gives top-level access to renaming term input in the cc command
@@ -55,9 +56,9 @@ renameModule cwd gr mo@(m,mi) = do
js <- checkMapRecover (renameInfo cwd status mo) (jments mi)
return (m, mi{jments = js})
type Status = (StatusTree, [(OpenSpec, StatusTree)])
type Status = (StatusMap, [(OpenSpec, StatusMap)])
type StatusTree = BinTree Ident StatusInfo
type StatusMap = Map.Map Ident StatusInfo
type StatusInfo = Ident -> Term
@@ -73,12 +74,12 @@ renameIdentTerm' env@(act,imps) t0 =
Q (m',c) | m' == cPredef {- && isInPredefined c -} -> return t0
Q (m',c) -> do
m <- lookupErr m' qualifs
f <- lookupTree showIdent c m
f <- lookupIdent c m
return $ f c
QC (m',c) | m' == cPredef {- && isInPredefined c -} -> return t0
QC (m',c) -> do
m <- lookupErr m' qualifs
f <- lookupTree showIdent c m
f <- lookupIdent c m
return $ f c
_ -> return t0
where
@@ -93,41 +94,32 @@ renameIdentTerm' env@(act,imps) t0 =
| otherwise = checkError s
ident alt c =
case lookupTree showIdent c act of
Ok f -> return (f c)
_ -> case lookupTreeManyAll showIdent opens c of
[f] -> return (f c)
[] -> alt c ("constant not found:" <+> c $$
"given" <+> fsep (punctuate ',' (map fst qualifs)))
fs -> case nub [f c | f <- fs] of
[tr] -> return tr
{-
ts -> return $ AdHocOverload ts
-- name conflicts resolved as overloading in TypeCheck.RConcrete AR 31/1/2014
-- the old definition is below and still presupposed in TypeCheck.Concrete
-}
ts@(t:_) -> do checkWarn ("atomic term" <+> ppTerm Qualified 0 t0 $$
"conflict" <+> hsep (punctuate ',' (map (ppTerm Qualified 0) ts)) $$
"given" <+> fsep (punctuate ',' (map fst qualifs)))
return t
case Map.lookup c act of
Just f -> return (f c)
_ -> case mapMaybe (Map.lookup c) opens of
[f] -> return (f c)
[] -> alt c ("constant not found:" <+> c $$
"given" <+> fsep (punctuate ',' (map fst qualifs)))
fs -> case nub [f c | f <- fs] of
[tr] -> return tr
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
-- a warning will be generated in CheckGrammar, and the head returned
-- in next V:
-- Bad $ "conflicting imports:" +++ unwords (map prt ts)
info2status :: Maybe ModuleName -> (Ident,Info) -> StatusInfo
info2status mq (c,i) = case i of
info2status :: Maybe ModuleName -> Ident -> Info -> StatusInfo
info2status mq c i = case i of
AbsFun _ _ Nothing _ -> maybe Con (curry QC) mq
ResValue _ -> maybe Con (curry QC) mq
ResValue _ _ -> maybe Con (curry QC) mq
ResParam _ _ -> maybe Con (curry QC) mq
AnyInd True m -> maybe Con (const (curry QC m)) mq
AnyInd False m -> maybe Cn (const (curry Q m)) mq
_ -> maybe Cn (curry Q) mq
tree2status :: OpenSpec -> BinTree Ident Info -> BinTree Ident StatusInfo
tree2status :: OpenSpec -> Map.Map Ident Info -> StatusMap
tree2status o = case o of
OSimple i -> mapTree (info2status (Just i))
OQualif i j -> mapTree (info2status (Just j))
OSimple i -> Map.mapWithKey (info2status (Just i))
OQualif i j -> Map.mapWithKey (info2status (Just j))
buildStatus :: FilePath -> Grammar -> Module -> Check Status
buildStatus cwd gr mo@(m,mi) = checkInModule cwd mi NoLoc empty $ do
@@ -136,14 +128,14 @@ buildStatus cwd gr mo@(m,mi) = checkInModule cwd mi NoLoc empty $ do
ops <- mapM (\o -> lookupModule gr1 (openedModule o) >>= \mi -> return (o,mi)) (mopens mi)
let sts = map modInfo2status (exts++ops)
return (if isModCnc mi
then (emptyBinTree, reverse sts) -- the module itself does not define any names
then (Map.empty, reverse sts) -- the module itself does not define any names
else (self2status m mi,reverse sts)) -- so the empty ident is not needed
modInfo2status :: (OpenSpec,ModuleInfo) -> (OpenSpec, StatusTree)
modInfo2status :: (OpenSpec,ModuleInfo) -> (OpenSpec, StatusMap)
modInfo2status (o,mo) = (o,tree2status o (jments mo))
self2status :: ModuleName -> ModuleInfo -> StatusTree
self2status c m = mapTree (info2status (Just c)) (jments m)
self2status :: ModuleName -> ModuleInfo -> StatusMap
self2status c m = Map.mapWithKey (info2status (Just c)) (jments m)
renameInfo :: FilePath -> Status -> Module -> Ident -> Info -> Check Info
@@ -156,9 +148,9 @@ renameInfo cwd status (m,mi) i info =
ResParam (Just pp) m -> do
pp' <- renLoc (mapM (renParam status)) pp
return (ResParam (Just pp') m)
ResValue t -> do
t <- renLoc (renameTerm status []) t
return (ResValue t)
ResValue ty offset -> do
t <- renLoc (renameTerm status []) ty
return (ResValue ty offset)
CncCat mcat mdef mref mpr mpmcfg -> liftM5 CncCat (renTerm mcat) (renTerm mdef) (renTerm mref) (renTerm mpr) (return mpmcfg)
CncFun mty mtr mpr mpmcfg -> liftM3 (CncFun mty) (renTerm mtr) (renTerm mpr) (return mpmcfg)
_ -> return info
@@ -186,9 +178,9 @@ renameInfo cwd status (m,mi) i info =
return (ps',t')
renParam :: Status -> Param -> Check Param
renParam env (c,co) = do
renParam env (c,co,i) = do
co' <- renameContext env co
return (c,co')
return (c,co',i)
renameTerm :: Status -> [Ident] -> Term -> Check Term
renameTerm env vars = ren vars where

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

@@ -31,7 +31,7 @@ getLocalTags x (m,mi) =
getLocations (AbsFun mb_type _ mb_eqs _) = maybe (ltype "fun") mb_type ++
maybe (list (loc "def")) mb_eqs
getLocations (ResParam mb_params _) = maybe (loc "param") mb_params
getLocations (ResValue mb_type) = ltype "param-value" mb_type
getLocations (ResValue mb_type _) = ltype "param-value" mb_type
getLocations (ResOper mb_type mb_def) = maybe (ltype "oper-type") mb_type ++
maybe (loc "oper-def") mb_def
getLocations (ResOverload _ defs) = list (\(x,y) -> ltype "overload-type" x ++

31
src/compiler/GF/Compile/ToAPI.hs
View File

@@ -2,8 +2,7 @@ module GF.Compile.ToAPI
(stringToAPI,exprToAPI)
where
import PGF.Internal
import PGF(showCId)
import PGF2
import Data.Maybe
--import System.IO
--import Control.Monad
@@ -47,12 +46,12 @@ exprToFunc :: Expr -> APIfunc
exprToFunc expr =
case unApp expr of
Just (cid,l) ->
case Map.lookup (showCId cid) syntaxFuncs of
case Map.lookup cid syntaxFuncs of
Just sig -> mkAPI True (fst sig,expr)
_ -> case l of
[] -> BasicFunc (showCId cid)
[] -> BasicFunc cid
_ -> let es = map exprToFunc l
in AppFunc (showCId cid) es
in AppFunc cid es
_ -> BasicFunc (showExpr [] expr)
@@ -69,8 +68,8 @@ mkAPI opt (ty,expr) =
where
rephraseSentence ty expr =
case unApp expr of
Just (cid,es) -> if isPrefixOf "Use" (showCId cid) then
let newCat = drop 3 (showCId cid)
Just (cid,es) -> if isPrefixOf "Use" cid then
let newCat = drop 3 cid
afClause = mkAPI True (newCat, es !! 2)
afPol = mkAPI True ("Pol",es !! 1)
lTense = mkAPI True ("Temp", head es)
@@ -98,9 +97,9 @@ mkAPI opt (ty,expr) =
computeAPI :: (String,Expr) -> APIfunc
computeAPI (ty,expr) =
case (unApp expr) of
Just (cid,[]) -> getSimpCat (showCId cid) ty
Just (cid,[]) -> getSimpCat cid ty
Just (cid,es) ->
let p = specFunction (showCId cid) es
let p = specFunction cid es
in if isJust p then fromJust p
else case Map.lookup (show cid) syntaxFuncs of
Nothing -> exprToFunc expr
@@ -147,23 +146,23 @@ optimize expr = optimizeNP expr
optimizeNP expr =
case unApp expr of
Just (cid,es) ->
if showCId cid == "MassNP" then let afs = nounAsCN (head es)
in AppFunc "mkNP" [afs]
else if showCId cid == "DetCN" then let quants = quantAsDet (head es)
ns = nounAsCN (head $ tail es)
in AppFunc "mkNP" (quants ++ [ns])
if cid == "MassNP" then let afs = nounAsCN (head es)
in AppFunc "mkNP" [afs]
else if cid == "DetCN" then let quants = quantAsDet (head es)
ns = nounAsCN (head $ tail es)
in AppFunc "mkNP" (quants ++ [ns])
else mkAPI False ("NP",expr)
_ -> error $ "incorrect expression " ++ (showExpr [] expr)
where
nounAsCN expr =
case unApp expr of
Just (cid,es) -> if showCId cid == "UseN" then (mkAPI False) ("N",head es)
Just (cid,es) -> if cid == "UseN" then (mkAPI False) ("N",head es)
else (mkAPI False) ("CN",expr)
_ -> error $ "incorrect expression "++ (showExpr [] expr)
quantAsDet expr =
case unApp expr of
Just (cid,es) -> if showCId cid == "DetQuant" then map (mkAPI False) [("Quant", head es),("Num",head $ tail es)]
Just (cid,es) -> if cid == "DetQuant" then map (mkAPI False) [("Quant", head es),("Num",head $ tail es)]
else [mkAPI False ("Det",expr)]
_ -> error $ "incorrect expression "++ (showExpr [] expr)

8
src/compiler/GF/Compile/TypeCheck/Primitives.hs
View File

@@ -8,7 +8,7 @@ typPredefined :: Ident -> Maybe Type
typPredefined f = case Map.lookup f primitives of
Just (ResOper (Just (L _ ty)) _) -> Just ty
Just (ResParam _ _) -> Just typePType
Just (ResValue (L _ ty)) -> Just ty
Just (ResValue (L _ ty) _) -> Just ty
_ -> Nothing
primitives = Map.fromList
@@ -16,9 +16,9 @@ primitives = Map.fromList
, (cInt , ResOper (Just (noLoc typePType)) Nothing)
, (cFloat , ResOper (Just (noLoc typePType)) Nothing)
, (cInts , fun [typeInt] typePType)
, (cPBool , ResParam (Just (noLoc [(cPTrue,[]),(cPFalse,[])])) (Just [QC (cPredef,cPTrue), QC (cPredef,cPFalse)]))
, (cPTrue , ResValue (noLoc typePBool))
, (cPFalse , ResValue (noLoc typePBool))
, (cPBool , ResParam (Just (noLoc [(cPTrue,[],0),(cPFalse,[],1)])) (Just [QC (cPredef,cPTrue), QC (cPredef,cPFalse)]))
, (cPTrue , ResValue (noLoc typePBool) 0)
, (cPFalse , ResValue (noLoc typePBool) 1)
, (cError , fun [typeStr] typeError) -- non-can. of empty set
, (cLength , fun [typeTok] typeInt)
, (cDrop , fun [typeInt,typeTok] typeTok)

12
src/compiler/GF/Compile/TypeCheck/RConcrete.hs
View File

@@ -1,6 +1,5 @@
{-# 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
@@ -360,12 +359,13 @@ getOverload gr g mt ot = case appForm ot of
nest 2 (showTypes pre)
return (mkApp fun tts, val)
([],[]) -> do
checkError $ "no overload instance of" <+> ppTerm Unqualified 0 f $$
"for" $$
checkError $ "no overload instance of" <+> ppTerm Qualified 0 f $$
maybe empty (\x -> "with value type" <+> ppType x) mt $$
"for argument list" $$
nest 2 stysError $$
"among" $$
nest 2 (vcat stypsError) $$
maybe empty (\x -> "with value type" <+> ppType x) mt
"among alternatives" $$
nest 2 (vcat stypsError)
(vfs1,vfs2) -> case (noProds vfs1,noProds vfs2) of
([(val,fun)],_) -> do

31
src/compiler/GF/Compile/Update.hs
View File

@@ -29,7 +29,7 @@ import Control.Monad
import GF.Text.Pretty
-- | combine a list of definitions into a balanced binary search tree
buildAnyTree :: Monad m => ModuleName -> [(Ident,Info)] -> m (BinTree Ident Info)
buildAnyTree :: Monad m => ModuleName -> [(Ident,Info)] -> m (Map.Map Ident Info)
buildAnyTree m = go Map.empty
where
go map [] = return map
@@ -101,8 +101,8 @@ rebuildModule cwd gr mo@(i,mi@(ModInfo mt stat fs_ me mw ops_ med_ msrc_ env_ js
[] -> return mi{jments=js'}
j0s -> do
m0s <- mapM (lookupModule gr) j0s
let notInM0 c _ = all (not . isInBinTree c . jments) m0s
let js2 = filterBinTree notInM0 js'
let notInM0 c _ = all (not . Map.member c . jments) m0s
let js2 = Map.filterWithKey notInM0 js'
return mi{jments=js2}
_ -> return mi
@@ -123,8 +123,11 @@ rebuildModule cwd gr mo@(i,mi@(ModInfo mt stat fs_ me mw ops_ med_ msrc_ env_ js
--- check if me is incomplete
let fs1 = fs `addOptions` fs_ -- new flags have priority
let js0 = [(c,globalizeLoc fpath j) | (c,j) <- tree2list js, isInherited incl c]
let js1 = buildTree (tree2list js_ ++ js0)
let js0 = Map.mapMaybeWithKey (\c j -> if isInherited incl c
then Just (globalizeLoc fpath j)
else Nothing)
js
let js1 = Map.union js0 js_
let med1= nub (ext : infs ++ insts ++ med_)
return $ ModInfo mt0 stat' fs1 me Nothing ops1 med1 msrc_ env_ js1
@@ -135,14 +138,14 @@ rebuildModule cwd gr mo@(i,mi@(ModInfo mt stat fs_ me mw ops_ med_ msrc_ env_ js
-- If the extended module is incomplete, its judgements are just copied.
extendMod :: Grammar ->
Bool -> (Module,Ident -> Bool) -> ModuleName ->
BinTree Ident Info -> Check (BinTree Ident Info)
Map.Map Ident Info -> Check (Map.Map Ident Info)
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 $ updateTree (c,k) new
Ok k -> return $ Map.insert c k new
Bad _ -> do (base,j) <- case j of
AnyInd _ m -> lookupOrigInfo gr (m,c)
_ -> return (base,j)
@@ -155,15 +158,15 @@ extendMod gr isCompl ((name,mi),cond) base new = foldM try new $ Map.toList (jme
nest 4 (ppJudgement Qualified (c,j)) $$
"in module" <+> base)
Nothing-> if isCompl
then return $ updateTree (c,indirInfo name i) new
else return $ updateTree (c,i) new
then return $ Map.insert c (indirInfo name i) new
else return $ Map.insert c i new
where
i = globalizeLoc (msrc mi) i0
indirInfo :: ModuleName -> Info -> Info
indirInfo n info = AnyInd b n' where
(b,n') = case info of
ResValue _ -> (True,n)
ResValue _ _ -> (True,n)
ResParam _ _ -> (True,n)
AbsFun _ _ Nothing _ -> (True,n)
AnyInd b k -> (b,k)
@@ -174,7 +177,7 @@ globalizeLoc fpath i =
AbsCat mc -> AbsCat (fmap gl mc)
AbsFun mt ma md moper -> AbsFun (fmap gl mt) ma (fmap (fmap gl) md) moper
ResParam mt mv -> ResParam (fmap gl mt) mv
ResValue t -> ResValue (gl t)
ResValue t offset -> ResValue (gl t) offset
ResOper mt m -> ResOper (fmap gl mt) (fmap gl m)
ResOverload ms os -> ResOverload ms (map (\(x,y) -> (gl x,gl y)) os)
CncCat mc md mr mp mpmcfg-> CncCat (fmap gl mc) (fmap gl md) (fmap gl mr) (fmap gl mp) mpmcfg
@@ -196,9 +199,9 @@ unifyAnyInfo m i j = case (i,j) of
(ResParam mt1 mv1, ResParam mt2 mv2) ->
liftM2 ResParam (unifyMaybeL mt1 mt2) (unifyMaybe mv1 mv2)
(ResValue (L l1 t1), ResValue (L l2 t2))
| t1==t2 -> return (ResValue (L l1 t1))
| otherwise -> fail ""
(ResValue (L l1 t1) i1, ResValue (L l2 t2) i2)
| t1==t2 && i1 == i2 -> return (ResValue (L l1 t1) i1)
| otherwise -> fail ""
(_, ResOverload ms t) | elem m ms ->
return $ ResOverload ms t
(ResOper mt1 m1, ResOper mt2 m2) ->

232
src/compiler/GF/Compile/pgf.schema.json Normal file
View File

@@ -0,0 +1,232 @@
{
"$schema": "http://json-schema.org/draft-07/schema#",
"$id": "http://grammaticalframework.org/pgf.schema.json",
"type": "object",
"title": "PGF JSON Schema",
"required": [
"abstract",
"concretes"
],
"properties": {
"abstract": {
"type": "object",
"required": [
"name",
"startcat",
"funs"
],
"properties": {
"name": {
"type": "string"
},
"startcat": {
"type": "string"
},
"funs": {
"type": "object",
"additionalProperties": {
"type": "object",
"required": [
"args",
"cat"
],
"properties": {
"args": {
"type": "array",
"items": {
"type": "string"
}
},
"cat": {
"type": "string"
}
}
}
}
}
},
"concretes": {
"type": "object",
"additionalProperties": {
"required": [
"flags",
"productions",
"functions",
"sequences",
"categories",
"totalfids"
],
"properties": {
"flags": {
"type": "object",
"additionalProperties": {
"type": ["string", "number"]
}
},
"productions": {
"type": "object",
"additionalProperties": {
"type": "array",
"items": {
"oneOf": [
{
"$ref": "#/definitions/apply"
},
{
"$ref": "#/definitions/coerce"
}
]
}
}
},
"functions": {
"type": "array",
"items": {
"title": "CncFun",
"type": "object",
"properties": {
"name": {
"type": "string"
},
"lins": {
"type": "array",
"items": {
"type": "integer"
}
}
}
}
},
"sequences": {
"type": "array",
"items": {
"type": "array",
"items": {
"$ref": "#/definitions/sym"
}
}
},
"categories": {
"type": "object",
"additionalProperties": {
"title": "CncCat",
"type": "object",
"required": [
"start",
"end"
],
"properties": {
"start": {
"type": "integer"
},
"end": {
"type": "integer"
}
}
}
},
"totalfids": {
"type": "integer"
}
}
}
}
},
"definitions": {
"apply": {
"required": [
"type",
"fid",
"args"
],
"properties": {
"type": {
"type": "string",
"enum": ["Apply"]
},
"fid": {
"type": "integer"
},
"args": {
"type": "array",
"items": {
"$ref": "#/definitions/parg"
}
}
}
},
"coerce": {
"required": [
"type",
"arg"
],
"properties": {
"type": {
"type": "string",
"enum": ["Coerce"]
},
"arg": {
"type": "integer"
}
}
},
"parg": {
"required": [
"type",
"hypos",
"fid"
],
"properties": {
"type": {
"type": "string",
"enum": ["PArg"]
},
"hypos": {
"type": "array",
"items": {
"type": "integer"
}
},
"fid": {
"type": "integer"
}
}
},
"sym": {
"title": "Sym",
"required": [
"type",
"args"
],
"properties": {
"type": {
"type": "string",
"enum": [
"SymCat",
"SymLit",
"SymVar",
"SymKS",
"SymKP",
"SymNE"
]
},
"args": {
"type": "array",
"items": {
"anyOf": [
{
"type": "string"
},
{
"type": "integer"
},
{
"$ref": "#/definitions/sym"
}
]
}
}
}
}
}
}

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

@@ -1,6 +1,6 @@
-- | Parallel grammar compilation
module GF.CompileInParallel(parallelBatchCompile) where
import Prelude hiding (catch,(<>)) -- GHC 8.4.1 clash with Text.PrettyPrint
import Prelude hiding (catch)
import Control.Monad(join,ap,when,unless)
import Control.Applicative
import GF.Infra.Concurrency
@@ -34,11 +34,8 @@ import qualified Data.ByteString.Lazy as BS
parallelBatchCompile jobs opts rootfiles0 =
do setJobs jobs
rootfiles <- mapM canonical rootfiles0
lib_dirs1 <- getLibraryDirectory opts
lib_dirs2 <- mapM canonical lib_dirs1
let lib_dir = head lib_dirs2
when (length lib_dirs2 >1) $ ePutStrLn ("GF_LIB_PATH defines more than one directory; using the first, " ++ show lib_dir)
filepaths <- mapM (getPathFromFile [lib_dir] opts) rootfiles
lib_dir <- canonical =<< getLibraryDirectory opts
filepaths <- mapM (getPathFromFile lib_dir opts) rootfiles
let groups = groupFiles lib_dir filepaths
n = length groups
when (n>1) $ ePutStrLn "Grammar mixes present and alltenses, dividing modules into two groups"

86
src/compiler/GF/Compiler.hs
View File

@@ -1,12 +1,12 @@
module GF.Compiler (mainGFC, linkGrammars, writePGF, writeOutputs) where
module GF.Compiler (mainGFC, linkGrammars, writeGrammar, writeOutputs) where
import PGF
import PGF.Internal(concretes,optimizePGF,unionPGF)
import PGF.Internal(putSplitAbs,encodeFile,runPut)
import PGF2
import PGF2.Internal(unionPGF,writePGF,writeConcr)
import GF.Compile as S(batchCompile,link,srcAbsName)
import GF.CompileInParallel as P(parallelBatchCompile)
import GF.Compile.Export
import GF.Compile.ConcreteToHaskell(concretes2haskell)
import GF.Compile.GrammarToCanonical--(concretes2canonical)
import GF.Compile.CFGtoPGF
import GF.Compile.GetGrammar
import GF.Grammar.BNFC
@@ -17,12 +17,13 @@ import GF.Infra.UseIO
import GF.Infra.Option
import GF.Data.ErrM
import GF.System.Directory
import GF.Text.Pretty(render)
import GF.Text.Pretty(render,render80)
import Data.Maybe
import qualified Data.Map as Map
import qualified Data.Set as Set
import qualified Data.ByteString.Lazy as BSL
import GF.Grammar.CanonicalJSON (encodeJSON)
import System.FilePath
import Control.Monad(when,unless,forM_)
@@ -47,7 +48,7 @@ mainGFC opts fs = do
compileSourceFiles :: Options -> [FilePath] -> IOE ()
compileSourceFiles opts fs =
do output <- batchCompile opts fs
cncs2haskell output
exportCanonical output
unless (flag optStopAfterPhase opts == Compile) $
linkGrammars opts output
where
@@ -55,22 +56,42 @@ compileSourceFiles opts fs =
batchCompile' opts fs = do (t,cnc_gr) <- S.batchCompile opts fs
return (t,[cnc_gr])
cncs2haskell output =
when (FmtHaskell `elem` flag optOutputFormats opts &&
haskellOption opts HaskellConcrete) $
mapM_ cnc2haskell (snd output)
exportCanonical (_time, canonical) =
do when (FmtHaskell `elem` ofmts && haskellOption opts HaskellConcrete) $
mapM_ cnc2haskell canonical
when (FmtCanonicalGF `elem` ofmts) $
do createDirectoryIfMissing False "canonical"
mapM_ abs2canonical canonical
mapM_ cnc2canonical canonical
when (FmtCanonicalJson `elem` ofmts) $ mapM_ grammar2json canonical
where
ofmts = flag optOutputFormats opts
cnc2haskell (cnc,gr) =
mapM_ writeHs $ concretes2haskell opts (srcAbsName gr cnc) gr
do mapM_ writeExport $ concretes2haskell opts (srcAbsName gr cnc) gr
writeHs (path,s) = writing opts path $ writeUTF8File path s
abs2canonical (cnc,gr) =
writeExport ("canonical/"++render absname++".gf",render80 canAbs)
where
absname = srcAbsName gr cnc
canAbs = abstract2canonical absname gr
cnc2canonical (cnc,gr) =
mapM_ (writeExport.fmap render80) $
concretes2canonical opts (srcAbsName gr cnc) gr
grammar2json (cnc,gr) = encodeJSON (render absname ++ ".json") gr_canon
where absname = srcAbsName gr cnc
gr_canon = grammar2canonical opts absname gr
writeExport (path,s) = writing opts path $ writeUTF8File path s
-- | Create a @.pgf@ file (and possibly files in other formats, if specified
-- in the 'Options') from the output of 'parallelBatchCompile'.
-- If a @.pgf@ file by the same name already exists and it is newer than the
-- source grammar files (as indicated by the 'UTCTime' argument), it is not
-- recreated. Calls 'writePGF' and 'writeOutputs'.
-- recreated. Calls 'writeGrammar' and 'writeOutputs'.
linkGrammars opts (t_src,~cnc_grs@(~(cnc,gr):_)) =
do let abs = render (srcAbsName gr cnc)
pgfFile = outputPath opts (grammarName' opts abs<.>"pgf")
@@ -80,8 +101,8 @@ linkGrammars opts (t_src,~cnc_grs@(~(cnc,gr):_)) =
if t_pgf >= Just t_src
then putIfVerb opts $ pgfFile ++ " is up-to-date."
else do pgfs <- mapM (link opts) cnc_grs
let pgf = foldl1 unionPGF pgfs
writePGF opts pgf
let pgf = foldl1 (\one two -> fromMaybe two (unionPGF one two)) pgfs
writeGrammar opts pgf
writeOutputs opts pgf
compileCFFiles :: Options -> [FilePath] -> IOE ()
@@ -91,12 +112,11 @@ compileCFFiles opts fs = do
startCat <- case rules of
(Rule cat _ _ : _) -> return cat
_ -> fail "empty CFG"
let pgf = cf2pgf (last fs) (mkCFG startCat Set.empty rules)
probs <- liftIO (maybe (return Map.empty) readProbabilitiesFromFile (flag optProbsFile opts))
let pgf = cf2pgf opts (last fs) (mkCFG startCat Set.empty rules) probs
unless (flag optStopAfterPhase opts == Compile) $
do probs <- liftIO (maybe (return . defaultProbabilities) readProbabilitiesFromFile (flag optProbsFile opts) pgf)
let pgf' = setProbabilities probs $ if flag optOptimizePGF opts then optimizePGF pgf else pgf
writePGF opts pgf'
writeOutputs opts pgf'
do writeGrammar opts pgf
writeOutputs opts pgf
unionPGFFiles :: Options -> [FilePath] -> IOE ()
unionPGFFiles opts fs =
@@ -114,12 +134,11 @@ unionPGFFiles opts fs =
doIt =
do pgfs <- mapM readPGFVerbose fs
let pgf0 = foldl1 unionPGF pgfs
pgf = if flag optOptimizePGF opts then optimizePGF pgf0 else pgf0
pgfFile = outputPath opts (grammarName opts pgf <.> "pgf")
let pgf = foldl1 (\one two -> fromMaybe two (unionPGF one two)) pgfs
let pgfFile = outputPath opts (grammarName opts pgf <.> "pgf")
if pgfFile `elem` fs
then putStrLnE $ "Refusing to overwrite " ++ pgfFile
else writePGF opts pgf
else writeGrammar opts pgf
writeOutputs opts pgf
readPGFVerbose f =
@@ -136,21 +155,20 @@ writeOutputs opts pgf = do
-- | Write the result of compiling a grammar (e.g. with 'compileToPGF' or
-- 'link') to a @.pgf@ file.
-- A split PGF file is output if the @-split-pgf@ option is used.
writePGF :: Options -> PGF -> IOE ()
writePGF opts pgf =
if flag optSplitPGF opts then writeSplitPGF else writeNormalPGF
writeGrammar :: Options -> PGF -> IOE ()
writeGrammar opts pgf =
if flag optSplitPGF opts then writeSplitPGF else writeNormalPGF
where
writeNormalPGF =
do let outfile = outputPath opts (grammarName opts pgf <.> "pgf")
writing opts outfile $ encodeFile outfile pgf
writing opts outfile (writePGF outfile pgf)
writeSplitPGF =
do let outfile = outputPath opts (grammarName opts pgf <.> "pgf")
writing opts outfile $ BSL.writeFile outfile (runPut (putSplitAbs pgf))
--encodeFile_ outfile (putSplitAbs pgf)
forM_ (Map.toList (concretes pgf)) $ \cnc -> do
let outfile = outputPath opts (showCId (fst cnc) <.> "pgf_c")
writing opts outfile $ encodeFile outfile cnc
writing opts outfile $ writePGF outfile pgf
forM_ (Map.toList (languages pgf)) $ \(concrname,concr) -> do
let outfile = outputPath opts (concrname <.> "pgf_c")
writing opts outfile (writeConcr outfile concr)
writeOutput :: Options -> FilePath-> String -> IOE ()
@@ -160,7 +178,7 @@ writeOutput opts file str = writing opts path $ writeUTF8File path str
-- * Useful helper functions
grammarName :: Options -> PGF -> String
grammarName opts pgf = grammarName' opts (showCId (abstractName pgf))
grammarName opts pgf = grammarName' opts (abstractName pgf)
grammarName' opts abs = fromMaybe abs (flag optName opts)
outputJustPGF opts = null (flag optOutputFormats opts) && not (flag optSplitPGF opts)

2
src/compiler/GF/CompilerAPI.hs
View File

@@ -16,8 +16,6 @@ import GF.Compile.ReadFiles
import GF.Compile.Update
import GF.Compile.Refresh
import GF.Compile.Coding
import GF.Grammar.Grammar
import GF.Grammar.Lookup
import GF.Grammar.Printer

88
src/compiler/GF/Data/Operations.hs
View File

@@ -28,14 +28,6 @@ module GF.Data.Operations (
-- ** Monadic operations on lists and pairs
mapPairListM, mapPairsM, pairM,
-- ** Binary search trees; now with FiniteMap
BinTree, emptyBinTree, isInBinTree, --justLookupTree,
lookupTree, --lookupTreeMany,
lookupTreeManyAll, updateTree,
buildTree, filterBinTree,
mapTree, --mapMTree,
tree2list,
-- ** Printing
indent, (+++), (++-), (++++), (+++-), (+++++),
@@ -50,10 +42,6 @@ module GF.Data.Operations (
ifNull,
combinations, done, readIntArg, --singleton,
iterFix, chunks,
{-
-- ** State monad with error; from Agda 6\/11\/2001
STM(..), appSTM, stm, stmr, readSTM, updateSTM, writeSTM,
-}
) where
@@ -117,44 +105,6 @@ unifyMaybeBy f (Just p1) (Just p2)
unifyMaybeBy _ Nothing mp2 = return mp2
unifyMaybeBy _ mp1 _ = return mp1
-- binary search trees
type BinTree a b = Map a b
emptyBinTree :: BinTree a b
emptyBinTree = Map.empty
isInBinTree :: (Ord a) => a -> BinTree a b -> Bool
isInBinTree = Map.member
{-
justLookupTree :: (ErrorMonad m,Ord a) => a -> BinTree a b -> m b
justLookupTree = lookupTree (const [])
-}
lookupTree :: (ErrorMonad m,Ord a) => (a -> String) -> a -> BinTree a b -> m b
lookupTree pr x = maybeErr no . Map.lookup x
where no = "no occurrence of element" +++ pr x
lookupTreeManyAll :: Ord a => (a -> String) -> [BinTree a b] -> a -> [b]
lookupTreeManyAll pr (t:ts) x = case lookupTree pr x t of
Ok v -> v : lookupTreeManyAll pr ts x
_ -> lookupTreeManyAll pr ts x
lookupTreeManyAll pr [] x = []
updateTree :: (Ord a) => (a,b) -> BinTree a b -> BinTree a b
updateTree (a,b) = Map.insert a b
buildTree :: (Ord a) => [(a,b)] -> BinTree a b
buildTree = Map.fromList
mapTree :: ((a,b) -> c) -> BinTree a b -> BinTree a c
mapTree f = Map.mapWithKey (\k v -> f (k,v))
filterBinTree :: Ord a => (a -> b -> Bool) -> BinTree a b -> BinTree a b
filterBinTree = Map.filterWithKey
tree2list :: BinTree a b -> [(a,b)] -- inorder
tree2list = Map.toList
-- printing
indent :: Int -> String -> String
@@ -297,42 +247,6 @@ chunks sep ws = case span (/= sep) ws of
readIntArg :: String -> Int
readIntArg n = if (not (null n) && all isDigit n) then read n else 0
{-
-- state monad with error; from Agda 6/11/2001
newtype STM s a = STM (s -> Err (a,s))
appSTM :: STM s a -> s -> Err (a,s)
appSTM (STM f) s = f s
stm :: (s -> Err (a,s)) -> STM s a
stm = STM
stmr :: (s -> (a,s)) -> STM s a
stmr f = stm (\s -> return (f s))
instance Functor (STM s) where fmap = liftM
instance Applicative (STM s) where
pure = return
(<*>) = ap
instance Monad (STM s) where
return a = STM (\s -> return (a,s))
STM c >>= f = STM (\s -> do
(x,s') <- c s
let STM f' = f x
f' s')
readSTM :: STM s s
readSTM = stmr (\s -> (s,s))
updateSTM :: (s -> s) -> STM s ()
updateSTM f = stmr (\s -> ((),f s))
writeSTM :: s -> STM s ()
writeSTM s = stmr (const ((),s))
-}
-- | @return ()@
done :: Monad m => m ()
done = return ()
@@ -377,4 +291,4 @@ doUntil cond ms = case ms of
v <- a
if cond v then return v else doUntil cond as
_ -> raise "no result"
-}
-}

6
src/compiler/GF/Grammar/Analyse.hs
View File

@@ -29,7 +29,7 @@ stripInfo i = case i of
AbsCat _ -> i
AbsFun mt mi me mb -> AbsFun mt mi Nothing mb
ResParam mp mt -> ResParam mp Nothing
ResValue lt -> i ----
ResValue _ lt -> i ----
ResOper mt md -> ResOper mt Nothing
ResOverload is fs -> ResOverload is [(lty, L loc (EInt 0)) | (lty,L loc _) <- fs]
CncCat mty mte _ mtf mpmcfg -> CncCat mty Nothing Nothing Nothing Nothing
@@ -107,8 +107,8 @@ sizeInfo i = case i of
AbsFun mt mi me mb -> 1 + msize mt +
sum [sum (map (sizeTerm . patt2term) ps) + sizeTerm t | Just es <- [me], L _ (ps,t) <- es]
ResParam mp mt ->
1 + sum [1 + sum [1 + sizeTerm ty | (_,_,ty) <- co] | Just (L _ ps) <- [mp], (_,co) <- ps]
ResValue lt -> 0
1 + sum [1 + sum [1 + sizeTerm ty | (_,_,ty) <- co] | Just (L _ ps) <- [mp], (_,co,_) <- ps]
ResValue _ lt -> 0
ResOper mt md -> 1 + msize mt + msize md
ResOverload is fs -> 1 + sum [sizeTerm ty + sizeTerm tr | (L _ ty, L _ tr) <- fs]
CncCat mty _ _ _ _ -> 1 + msize mty -- ignoring lindef, linref and printname

9
src/compiler/GF/Grammar/BNFC.hs
View File

@@ -15,7 +15,6 @@
module GF.Grammar.BNFC(BNFCRule(..), BNFCSymbol, Symbol(..), CFTerm(..), bnfc2cf) where
import GF.Grammar.CFG
import PGF (Token, mkCId)
import Data.List (partition)
type IsList = Bool
@@ -64,12 +63,12 @@ transformRules sepMap (BNFCCoercions c num) = rules ++ [lastRule]
lastRule = Rule (c',[0]) ss rn
where c' = c ++ show num
ss = [Terminal "(", NonTerminal (c,[0]), Terminal ")"]
rn = CFObj (mkCId $ "coercion_" ++ c) []
rn = CFObj ("coercion_" ++ c) []
fRules c n = Rule (c',[0]) ss rn
where c' = if n == 0 then c else c ++ show n
ss = [NonTerminal (c ++ show (n+1),[0])]
rn = CFObj (mkCId $ "coercion_" ++ c') []
rn = CFObj ("coercion_" ++ c') []
transformSymb :: SepMap -> BNFCSymbol -> (String, ParamCFSymbol)
transformSymb sepMap s = case s of
@@ -94,7 +93,7 @@ createListRules' ne isSep symb c = ruleBase : ruleCons
then [NonTerminal (c,[0]) | ne]
else [NonTerminal (c,[0]) | ne] ++
[Terminal symb | symb /= "" && ne]
rn = CFObj (mkCId $ "Base" ++ c) []
rn = CFObj ("Base" ++ c) []
ruleCons
| isSep && symb /= "" && not ne = [Rule ("List" ++ c,[1]) smbs0 rn
,Rule ("List" ++ c,[1]) smbs1 rn]
@@ -107,4 +106,4 @@ createListRules' ne isSep symb c = ruleBase : ruleCons
smbs = [NonTerminal (c,[0])] ++
[Terminal symb | symb /= ""] ++
[NonTerminal ("List" ++ c,[0])]
rn = CFObj (mkCId $ "Cons" ++ c) []
rn = CFObj ("Cons" ++ c) []

60
src/compiler/GF/Grammar/Binary.hs
View File

@@ -10,9 +10,9 @@
module GF.Grammar.Binary(VersionTagged(..),decodeModuleHeader,decodeModule,encodeModule) where
import Prelude hiding (catch)
import Control.Monad
import Control.Exception(catch,ErrorCall(..),throwIO)
import PGF.Internal(Binary(..),Word8,putWord8,getWord8,encodeFile,decodeFile)
import Data.Binary
import qualified Data.Map as Map(empty)
import qualified Data.ByteString.Char8 as BS
@@ -22,11 +22,10 @@ import GF.Infra.Option
import GF.Infra.UseIO(MonadIO(..))
import GF.Grammar.Grammar
import PGF() -- Binary instances
import PGF.Internal(Literal(..))
import PGF2.Internal(Literal(..),Symbol(..))
-- Please change this every time when the GFO format is changed
gfoVersion = "GF04"
gfoVersion = "GF05"
instance Binary Ident where
put id = put (ident2utf8 id)
@@ -120,7 +119,7 @@ instance Binary Info where
put (AbsCat x) = putWord8 0 >> put x
put (AbsFun w x y z) = putWord8 1 >> put (w,x,y,z)
put (ResParam x y) = putWord8 2 >> put (x,y)
put (ResValue x) = putWord8 3 >> put x
put (ResValue x y) = putWord8 3 >> put (x,y)
put (ResOper x y) = putWord8 4 >> put (x,y)
put (ResOverload x y)= putWord8 5 >> put (x,y)
put (CncCat v w x y z)=putWord8 6 >> put (v,w,x,y,z)
@@ -131,7 +130,7 @@ instance Binary Info where
0 -> get >>= \x -> return (AbsCat x)
1 -> get >>= \(w,x,y,z) -> return (AbsFun w x y z)
2 -> get >>= \(x,y) -> return (ResParam x y)
3 -> get >>= \x -> return (ResValue x)
3 -> get >>= \(x,y) -> return (ResValue x y)
4 -> get >>= \(x,y) -> return (ResOper x y)
5 -> get >>= \(x,y) -> return (ResOverload x y)
6 -> get >>= \(v,w,x,y,z)->return (CncCat v w x y z)
@@ -298,6 +297,53 @@ instance Binary Label where
1 -> fmap LVar get
_ -> decodingError
instance Binary BindType where
put Explicit = putWord8 0
put Implicit = putWord8 1
get = do tag <- getWord8
case tag of
0 -> return Explicit
1 -> return Implicit
_ -> decodingError
instance Binary Literal where
put (LStr s) = putWord8 0 >> put s
put (LInt i) = putWord8 1 >> put i
put (LFlt d) = putWord8 2 >> put d
get = do tag <- getWord8
case tag of
0 -> liftM LStr get
1 -> liftM LInt get
2 -> liftM LFlt get
_ -> decodingError
instance Binary Symbol where
put (SymCat n l) = putWord8 0 >> put (n,l)
put (SymLit n l) = putWord8 1 >> put (n,l)
put (SymVar n l) = putWord8 2 >> put (n,l)
put (SymKS ts) = putWord8 3 >> put ts
put (SymKP d vs) = putWord8 4 >> put (d,vs)
put SymBIND = putWord8 5
put SymSOFT_BIND = putWord8 6
put SymNE = putWord8 7
put SymSOFT_SPACE = putWord8 8
put SymCAPIT = putWord8 9
put SymALL_CAPIT = putWord8 10
get = do tag <- getWord8
case tag of
0 -> liftM2 SymCat get get
1 -> liftM2 SymLit get get
2 -> liftM2 SymVar get get
3 -> liftM SymKS get
4 -> liftM2 (\d vs -> SymKP d vs) get get
5 -> return SymBIND
6 -> return SymSOFT_BIND
7 -> return SymNE
8 -> return SymSOFT_SPACE
9 -> return SymCAPIT
10-> return SymALL_CAPIT
_ -> decodingError
--putGFOVersion = mapM_ (putWord8 . fromIntegral . ord) gfoVersion
--getGFOVersion = replicateM (length gfoVersion) (fmap (chr . fromIntegral) getWord8)
--putGFOVersion = put gfoVersion

23
src/compiler/GF/Grammar/CFG.hs
View File

@@ -4,10 +4,11 @@
--
-- Context-free grammar representation and manipulation.
----------------------------------------------------------------------
module GF.Grammar.CFG where
module GF.Grammar.CFG(Cat,Token, module GF.Grammar.CFG) where
import GF.Data.Utilities
import PGF
import PGF2(Fun,Cat)
import PGF2.Internal(Token)
import GF.Data.Relation
import Data.Map (Map)
@@ -20,8 +21,6 @@ import qualified Data.Set as Set
-- * Types
--
type Cat = String
data Symbol c t = NonTerminal c | Terminal t
deriving (Eq, Ord, Show)
@@ -39,12 +38,12 @@ data Grammar c t = Grammar {
deriving (Eq, Ord, Show)
data CFTerm
= CFObj CId [CFTerm] -- ^ an abstract syntax function with arguments
= CFObj Fun [CFTerm] -- ^ an abstract syntax function with arguments
| CFAbs Int CFTerm -- ^ A lambda abstraction. The Int is the variable id.
| CFApp CFTerm CFTerm -- ^ Application
| CFRes Int -- ^ The result of the n:th (0-based) non-terminal
| CFVar Int -- ^ A lambda-bound variable
| CFMeta CId -- ^ A metavariable
| CFMeta Fun -- ^ A metavariable
deriving (Eq, Ord, Show)
type CFSymbol = Symbol Cat Token
@@ -232,7 +231,7 @@ uniqueFuns = snd . mapAccumL uniqueFun Set.empty
uniqueFun funs (Rule cat items (CFObj fun args)) = (Set.insert fun' funs,Rule cat items (CFObj fun' args))
where
fun' = head [fun'|suffix<-"":map show ([2..]::[Int]),
let fun'=mkCId (showCId fun++suffix),
let fun'=fun++suffix,
not (fun' `Set.member` funs)]
-- | Gets all rules in a CFG.
@@ -310,12 +309,12 @@ prProductions prods =
prCFTerm :: CFTerm -> String
prCFTerm = pr 0
where
pr p (CFObj f args) = paren p (showCId f ++ " (" ++ concat (intersperse "," (map (pr 0) args)) ++ ")")
pr p (CFObj f args) = paren p (f ++ " (" ++ concat (intersperse "," (map (pr 0) args)) ++ ")")
pr p (CFAbs i t) = paren p ("\\x" ++ show i ++ ". " ++ pr 0 t)
pr p (CFApp t1 t2) = paren p (pr 1 t1 ++ "(" ++ pr 0 t2 ++ ")")
pr _ (CFRes i) = "$" ++ show i
pr _ (CFVar i) = "x" ++ show i
pr _ (CFMeta c) = "?" ++ showCId c
pr _ (CFMeta c) = "?" ++ c
paren 0 x = x
paren 1 x = "(" ++ x ++ ")"
@@ -323,12 +322,12 @@ prCFTerm = pr 0
-- * CFRule Utilities
--
ruleFun :: Rule c t -> CId
ruleFun :: Rule c t -> Fun
ruleFun (Rule _ _ t) = f t
where f (CFObj n _) = n
f (CFApp _ x) = f x
f (CFAbs _ x) = f x
f _ = mkCId ""
f _ = ""
-- | Check if any of the categories used on the right-hand side
-- are in the given list of categories.
@@ -336,7 +335,7 @@ anyUsedBy :: Eq c => [c] -> Rule c t -> Bool
anyUsedBy cs (Rule _ ss _) = any (`elem` cs) (filterCats ss)
mkCFTerm :: String -> CFTerm
mkCFTerm n = CFObj (mkCId n) []
mkCFTerm n = CFObj n []
ruleIsNonRecursive :: Ord c => Set c -> Rule c t -> Bool
ruleIsNonRecursive cs = noCatsInSet cs . ruleRhs

313
src/compiler/GF/Grammar/Canonical.hs Normal file
View File

@@ -0,0 +1,313 @@
-- |
-- Module : GF.Grammar.Canonical
-- Stability : provisional
--
-- Abstract syntax for canonical GF grammars, i.e. what's left after
-- high-level constructions such as functors and opers have been eliminated
-- by partial evaluation. This is intended as a common intermediate
-- representation to simplify export to other formats.
{-# LANGUAGE DeriveTraversable #-}
module GF.Grammar.Canonical where
import Prelude hiding ((<>))
import GF.Text.Pretty
-- | A Complete grammar
data Grammar = Grammar Abstract [Concrete] deriving Show
--------------------------------------------------------------------------------
-- ** Abstract Syntax
-- | Abstract Syntax
data Abstract = Abstract ModId Flags [CatDef] [FunDef] deriving Show
abstrName (Abstract mn _ _ _) = mn
data CatDef = CatDef CatId [CatId] deriving Show
data FunDef = FunDef FunId Type deriving Show
data Type = Type [TypeBinding] TypeApp deriving Show
data TypeApp = TypeApp CatId [Type] deriving Show
data TypeBinding = TypeBinding VarId Type deriving Show
--------------------------------------------------------------------------------
-- ** Concreate syntax
-- | Concrete Syntax
data Concrete = Concrete ModId ModId Flags [ParamDef] [LincatDef] [LinDef]
deriving Show
concName (Concrete cnc _ _ _ _ _) = cnc
data ParamDef = ParamDef ParamId [ParamValueDef]
| ParamAliasDef ParamId LinType
deriving Show
data LincatDef = LincatDef CatId LinType deriving Show
data LinDef = LinDef FunId [VarId] LinValue deriving Show
-- | Linearization type, RHS of @lincat@
data LinType = FloatType
| IntType
| ParamType ParamType
| RecordType [RecordRowType]
| StrType
| TableType LinType LinType
| TupleType [LinType]
deriving (Eq,Ord,Show)
newtype ParamType = ParamTypeId ParamId deriving (Eq,Ord,Show)
-- | Linearization value, RHS of @lin@
data LinValue = ConcatValue LinValue LinValue
| LiteralValue LinLiteral
| ErrorValue String
| ParamConstant ParamValue
| PredefValue PredefId
| RecordValue [RecordRowValue]
| TableValue LinType [TableRowValue]
--- | VTableValue LinType [LinValue]
| TupleValue [LinValue]
| VariantValue [LinValue]
| VarValue VarValueId
| PreValue [([String], LinValue)] LinValue
| Projection LinValue LabelId
| Selection LinValue LinValue
| CommentedValue String LinValue
deriving (Eq,Ord,Show)
data LinLiteral = FloatConstant Float
| IntConstant Int
| StrConstant String
deriving (Eq,Ord,Show)
data LinPattern = ParamPattern ParamPattern
| RecordPattern [RecordRow LinPattern]
| TuplePattern [LinPattern]
| WildPattern
deriving (Eq,Ord,Show)
type ParamValue = Param LinValue
type ParamPattern = Param LinPattern
type ParamValueDef = Param ParamId
data Param arg = Param ParamId [arg]
deriving (Eq,Ord,Show,Functor,Foldable,Traversable)
type RecordRowType = RecordRow LinType
type RecordRowValue = RecordRow LinValue
type TableRowValue = TableRow LinValue
data RecordRow rhs = RecordRow LabelId rhs
deriving (Eq,Ord,Show,Functor,Foldable,Traversable)
data TableRow rhs = TableRow LinPattern rhs
deriving (Eq,Ord,Show,Functor,Foldable,Traversable)
-- *** Identifiers in Concrete Syntax
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
newtype ParamId = ParamId QualId deriving (Eq,Ord,Show)
--------------------------------------------------------------------------------
-- ** Used in both Abstract and Concrete Syntax
newtype ModId = ModId Id deriving (Eq,Ord,Show)
newtype CatId = CatId Id deriving (Eq,Ord,Show)
newtype FunId = FunId Id deriving (Eq,Show)
data VarId = Anonymous | VarId Id deriving Show
newtype Flags = Flags [(FlagName,FlagValue)] deriving Show
type FlagName = Id
data FlagValue = Str String | Int Int | Flt Double deriving Show
-- *** Identifiers
type Id = String
data QualId = Qual ModId Id | Unqual Id deriving (Eq,Ord,Show)
--------------------------------------------------------------------------------
-- ** Pretty printing
instance Pretty Grammar where
pp (Grammar abs cncs) = abs $+$ vcat cncs
instance Pretty Abstract where
pp (Abstract m flags cats funs) =
"abstract" <+> m <+> "=" <+> "{" $$
flags $$
"cat" <+> fsep cats $$
"fun" <+> vcat funs $$
"}"
instance Pretty CatDef where
pp (CatDef c cs) = hsep (c:cs)<>";"
instance Pretty FunDef where
pp (FunDef f ty) = f <+> ":" <+> ty <>";"
instance Pretty Type where
pp (Type bs ty) = sep (punctuate " ->" (map pp bs ++ [pp ty]))
instance PPA Type where
ppA (Type [] (TypeApp c [])) = pp c
ppA t = parens t
instance Pretty TypeBinding where
pp (TypeBinding Anonymous (Type [] tapp)) = pp tapp
pp (TypeBinding Anonymous ty) = parens ty
pp (TypeBinding (VarId x) ty) = parens (x<+>":"<+>ty)
instance Pretty TypeApp where
pp (TypeApp c targs) = c<+>hsep (map ppA targs)
instance Pretty VarId where
pp Anonymous = pp "_"
pp (VarId x) = pp x
--------------------------------------------------------------------------------
instance Pretty Concrete where
pp (Concrete cncid absid flags params lincats lins) =
"concrete" <+> cncid <+> "of" <+> absid <+> "=" <+> "{" $$
vcat params $$
section "lincat" lincats $$
section "lin" lins $$
"}"
where
section name [] = empty
section name ds = name <+> vcat (map (<> ";") ds)
instance Pretty ParamDef where
pp (ParamDef p pvs) = hang ("param"<+> p <+> "=") 4 (punctuate " |" pvs)<>";"
pp (ParamAliasDef p t) = hang ("oper"<+> p <+> "=") 4 t<>";"
instance PPA arg => Pretty (Param arg) where
pp (Param p ps) = pp p<+>sep (map ppA ps)
instance PPA arg => PPA (Param arg) where
ppA (Param p []) = pp p
ppA pv = parens pv
instance Pretty LincatDef where
pp (LincatDef c lt) = hang (c <+> "=") 4 lt
instance Pretty LinType where
pp lt = case lt of
FloatType -> pp "Float"
IntType -> pp "Int"
ParamType pt -> pp pt
RecordType rs -> block rs
StrType -> pp "Str"
TableType pt lt -> sep [pt <+> "=>",pp lt]
TupleType lts -> "<"<>punctuate "," lts<>">"
instance RhsSeparator LinType where rhsSep _ = pp ":"
instance Pretty ParamType where
pp (ParamTypeId p) = pp p
instance Pretty LinDef where
pp (LinDef f xs lv) = hang (f<+>hsep xs<+>"=") 4 lv
instance Pretty LinValue where
pp lv = case lv of
ConcatValue v1 v2 -> sep [v1 <+> "++",pp v2]
ErrorValue s -> "Predef.error"<+>doubleQuotes s
ParamConstant pv -> pp pv
Projection lv l -> ppA lv<>"."<>l
Selection tv pv -> ppA tv<>"!"<>ppA pv
VariantValue vs -> "variants"<+>block vs
CommentedValue s v -> "{-" <+> s <+> "-}" $$ v
_ -> ppA lv
instance PPA LinValue where
ppA lv = case lv of
LiteralValue l -> ppA l
ParamConstant pv -> ppA pv
PredefValue p -> ppA p
RecordValue [] -> pp "<>"
RecordValue rvs -> block rvs
PreValue alts def ->
"pre"<+>block (map alt alts++["_"<+>"=>"<+>def])
where
alt (ss,lv) = hang (hcat (punctuate "|" (map doubleQuotes ss)))
2 ("=>"<+>lv)
TableValue _ tvs -> "table"<+>block tvs
-- VTableValue t ts -> "table"<+>t<+>brackets (semiSep ts)
TupleValue lvs -> "<"<>punctuate "," lvs<>">"
VarValue v -> pp v
_ -> parens lv
instance Pretty LinLiteral where pp = ppA
instance PPA LinLiteral where
ppA l = case l of
FloatConstant f -> pp f
IntConstant n -> pp n
StrConstant s -> doubleQuotes s -- hmm
instance RhsSeparator LinValue where rhsSep _ = pp "="
instance Pretty LinPattern where
pp p =
case p of
ParamPattern pv -> pp pv
_ -> ppA p
instance PPA LinPattern where
ppA p =
case p of
ParamPattern pv -> ppA pv
RecordPattern r -> block r
TuplePattern ps -> "<"<>punctuate "," ps<>">"
WildPattern -> pp "_"
_ -> parens p
instance RhsSeparator LinPattern where rhsSep _ = pp "="
instance RhsSeparator rhs => Pretty (RecordRow rhs) where
pp (RecordRow l v) = hang (l<+>rhsSep v) 2 v
instance Pretty rhs => Pretty (TableRow rhs) where
pp (TableRow l v) = hang (l<+>"=>") 2 v
--------------------------------------------------------------------------------
instance Pretty ModId where pp (ModId s) = pp s
instance Pretty CatId where pp (CatId s) = pp s
instance Pretty FunId where pp (FunId s) = pp s
instance Pretty LabelId where pp (LabelId s) = pp s
instance Pretty PredefId where pp = ppA
instance PPA PredefId where ppA (PredefId s) = "Predef."<>s
instance Pretty ParamId where pp = ppA
instance PPA ParamId where ppA (ParamId s) = pp s
instance Pretty VarValueId where pp (VarValueId s) = pp s
instance Pretty QualId where pp = ppA
instance PPA QualId where
ppA (Qual m n) = m<>"_"<>n -- hmm
ppA (Unqual n) = pp n
instance Pretty Flags where
pp (Flags []) = empty
pp (Flags flags) = "flags" <+> vcat (map ppFlag flags)
where
ppFlag (name,value) = name <+> "=" <+> value <>";"
instance Pretty FlagValue where
pp (Str s) = pp s
pp (Int i) = pp i
pp (Flt d) = pp d
--------------------------------------------------------------------------------
-- | Pretty print atomically (i.e. wrap it in parentheses if necessary)
class Pretty a => PPA a where ppA :: a -> Doc
class Pretty rhs => RhsSeparator rhs where rhsSep :: rhs -> Doc
semiSep xs = punctuate ";" xs
block xs = braces (semiSep xs)

289
src/compiler/GF/Grammar/CanonicalJSON.hs Normal file
View File

@@ -0,0 +1,289 @@
module GF.Grammar.CanonicalJSON (
encodeJSON
) where
import Text.JSON
import Control.Applicative ((<|>))
import Data.Ratio (denominator, numerator)
import GF.Grammar.Canonical
encodeJSON :: FilePath -> Grammar -> IO ()
encodeJSON fpath g = writeFile fpath (encode g)
-- in general we encode grammars using JSON objects/records,
-- except for newtypes/coercions/direct values
-- the top-level definitions use normal record labels,
-- but recursive types/values/ids use labels staring with a "."
instance JSON Grammar where
showJSON (Grammar abs cncs) = makeObj [("abstract", showJSON abs), ("concretes", showJSON cncs)]
readJSON o = Grammar <$> o!"abstract" <*> o!"concretes"
--------------------------------------------------------------------------------
-- ** Abstract Syntax
instance JSON Abstract where
showJSON (Abstract absid flags cats funs)
= makeObj [("abs", showJSON absid),
("flags", showJSON flags),
("cats", showJSON cats),
("funs", showJSON funs)]
readJSON o = Abstract
<$> o!"abs"
<*>(o!"flags" <|> return (Flags []))
<*> o!"cats"
<*> o!"funs"
instance JSON CatDef where
-- non-dependent categories are encoded as simple strings:
showJSON (CatDef c []) = showJSON c
showJSON (CatDef c cs) = makeObj [("cat", showJSON c), ("args", showJSON cs)]
readJSON o = CatDef <$> readJSON o <*> return []
<|> CatDef <$> o!"cat" <*> o!"args"
instance JSON FunDef where
showJSON (FunDef f ty) = makeObj [("fun", showJSON f), ("type", showJSON ty)]
readJSON o = FunDef <$> o!"fun" <*> o!"type"
instance JSON Type where
showJSON (Type bs ty) = makeObj [(".args", showJSON bs), (".result", showJSON ty)]
readJSON o = Type <$> o!".args" <*> o!".result"
instance JSON TypeApp where
-- non-dependent categories are encoded as simple strings:
showJSON (TypeApp c []) = showJSON c
showJSON (TypeApp c args) = makeObj [(".cat", showJSON c), (".args", showJSON args)]
readJSON o = TypeApp <$> readJSON o <*> return []
<|> TypeApp <$> o!".cat" <*> o!".args"
instance JSON TypeBinding where
-- non-dependent categories are encoded as simple strings:
showJSON (TypeBinding Anonymous (Type [] (TypeApp c []))) = showJSON c
showJSON (TypeBinding x ty) = makeObj [(".var", showJSON x), (".type", showJSON ty)]
readJSON o = do c <- readJSON o
return (TypeBinding Anonymous (Type [] (TypeApp c [])))
<|> TypeBinding <$> o!".var" <*> o!".type"
--------------------------------------------------------------------------------
-- ** Concrete syntax
instance JSON Concrete where
showJSON (Concrete cncid absid flags params lincats lins)
= makeObj [("cnc", showJSON cncid),
("abs", showJSON absid),
("flags", showJSON flags),
("params", showJSON params),
("lincats", showJSON lincats),
("lins", showJSON lins)]
readJSON o = Concrete
<$> o!"cnc"
<*> o!"abs"
<*>(o!"flags" <|> return (Flags []))
<*> o!"params"
<*> o!"lincats"
<*> o!"lins"
instance JSON ParamDef where
showJSON (ParamDef p pvs) = makeObj [("param", showJSON p), ("values", showJSON pvs)]
showJSON (ParamAliasDef p t) = makeObj [("param", showJSON p), ("alias", showJSON t)]
readJSON o = ParamDef <$> o!"param" <*> o!"values"
<|> ParamAliasDef <$> o!"param" <*> o!"alias"
instance JSON LincatDef where
showJSON (LincatDef c lt) = makeObj [("cat", showJSON c), ("lintype", showJSON lt)]
readJSON o = LincatDef <$> o!"cat" <*> o!"lintype"
instance JSON LinDef where
showJSON (LinDef f xs lv) = makeObj [("fun", showJSON f), ("args", showJSON xs), ("lin", showJSON lv)]
readJSON o = LinDef <$> o!"fun" <*> o!"args" <*> o!"lin"
instance JSON LinType where
-- the basic types (Str, Float, Int) are encoded as strings:
showJSON (StrType) = showJSON "Str"
showJSON (FloatType) = showJSON "Float"
showJSON (IntType) = showJSON "Int"
-- parameters are also encoded as strings:
showJSON (ParamType pt) = showJSON pt
-- tables/tuples are encoded as JSON objects:
showJSON (TableType pt lt) = makeObj [(".tblarg", showJSON pt), (".tblval", showJSON lt)]
showJSON (TupleType lts) = makeObj [(".tuple", showJSON lts)]
-- records are encoded as records:
showJSON (RecordType rows) = showJSON rows
readJSON o = do "Str" <- readJSON o; return StrType
<|> do "Float" <- readJSON o; return FloatType
<|> do "Int" <- readJSON o; return IntType
<|> do ptype <- readJSON o; return (ParamType ptype)
<|> TableType <$> o!".tblarg" <*> o!".tblval"
<|> TupleType <$> o!".tuple"
<|> RecordType <$> readJSON o
instance JSON LinValue where
showJSON (LiteralValue l ) = showJSON l
-- most values are encoded as JSON objects:
showJSON (ParamConstant pv) = makeObj [(".param", showJSON pv)]
showJSON (PredefValue p ) = makeObj [(".predef", showJSON p)]
showJSON (TableValue t tvs) = makeObj [(".tblarg", showJSON t), (".tblrows", showJSON tvs)]
showJSON (TupleValue lvs) = makeObj [(".tuple", showJSON lvs)]
showJSON (VarValue v ) = makeObj [(".var", showJSON v)]
showJSON (ErrorValue s ) = makeObj [(".error", showJSON s)]
showJSON (Projection lv l ) = makeObj [(".project", showJSON lv), (".label", showJSON l)]
showJSON (Selection tv pv) = makeObj [(".select", showJSON tv), (".key", showJSON pv)]
showJSON (VariantValue vs) = makeObj [(".variants", showJSON vs)]
showJSON (PreValue pre def) = makeObj [(".pre", showJSON pre),(".default", showJSON def)]
-- records are encoded directly as JSON records:
showJSON (RecordValue rows) = showJSON rows
-- concatenation is encoded as a JSON array:
showJSON v@(ConcatValue _ _) = showJSON (flatten v [])
where flatten (ConcatValue v v') = flatten v . flatten v'
flatten v = (v :)
readJSON o = LiteralValue <$> readJSON o
<|> ParamConstant <$> o!".param"
<|> PredefValue <$> o!".predef"
<|> TableValue <$> o!".tblarg" <*> o!".tblrows"
<|> TupleValue <$> o!".tuple"
<|> VarValue <$> o!".var"
<|> ErrorValue <$> o!".error"
<|> Projection <$> o!".project" <*> o!".label"
<|> Selection <$> o!".select" <*> o!".key"
<|> VariantValue <$> o!".variants"
<|> PreValue <$> o!".pre" <*> o!".default"
<|> RecordValue <$> readJSON o
<|> do vs <- readJSON o :: Result [LinValue]
return (foldr1 ConcatValue vs)
instance JSON LinLiteral where
-- basic values (Str, Float, Int) are encoded as JSON strings/numbers:
showJSON (StrConstant s) = showJSON s
showJSON (FloatConstant f) = showJSON f
showJSON (IntConstant n) = showJSON n
readJSON = readBasicJSON StrConstant IntConstant FloatConstant
instance JSON LinPattern where
-- wildcards and patterns without arguments are encoded as strings:
showJSON (WildPattern) = showJSON "_"
showJSON (ParamPattern (Param p [])) = showJSON p
-- complex patterns are encoded as JSON objects:
showJSON (ParamPattern pv) = showJSON pv
-- and records as records:
showJSON (RecordPattern r) = showJSON r
readJSON o = do "_" <- readJSON o; return WildPattern
<|> do p <- readJSON o; return (ParamPattern (Param p []))
<|> ParamPattern <$> readJSON o
<|> RecordPattern <$> readJSON o
instance JSON arg => JSON (Param arg) where
-- parameters without arguments are encoded as strings:
showJSON (Param p []) = showJSON p
showJSON (Param p args) = makeObj [(".paramid", showJSON p), (".args", showJSON args)]
readJSON o = Param <$> readJSON o <*> return []
<|> Param <$> o!".paramid" <*> o!".args"
instance JSON a => JSON (RecordRow a) where
-- record rows and lists of record rows are both encoded as JSON records (i.e., objects)
showJSON row = showJSONs [row]
showJSONs rows = makeObj (map toRow rows)
where toRow (RecordRow (LabelId lbl) val) = (lbl, showJSON val)
readJSON obj = head <$> readJSONs obj
readJSONs obj = mapM fromRow (assocsJSObject obj)
where fromRow (lbl, jsvalue) = do value <- readJSON jsvalue
return (RecordRow (LabelId lbl) value)
instance JSON rhs => JSON (TableRow rhs) where
showJSON (TableRow l v) = makeObj [(".pattern", showJSON l), (".value", showJSON v)]
readJSON o = TableRow <$> o!".pattern" <*> o!".value"
-- *** Identifiers in Concrete Syntax
instance JSON PredefId where showJSON (PredefId s) = showJSON s ; readJSON = fmap PredefId . readJSON
instance JSON LabelId where showJSON (LabelId s) = showJSON s ; readJSON = fmap LabelId . readJSON
instance JSON VarValueId where showJSON (VarValueId s) = showJSON s ; readJSON = fmap VarValueId . readJSON
instance JSON ParamId where showJSON (ParamId s) = showJSON s ; readJSON = fmap ParamId . readJSON
instance JSON ParamType where showJSON (ParamTypeId s) = showJSON s ; readJSON = fmap ParamTypeId . readJSON
--------------------------------------------------------------------------------
-- ** Used in both Abstract and Concrete Syntax
instance JSON ModId where showJSON (ModId s) = showJSON s ; readJSON = fmap ModId . readJSON
instance JSON CatId where showJSON (CatId s) = showJSON s ; readJSON = fmap CatId . readJSON
instance JSON FunId where showJSON (FunId s) = showJSON s ; readJSON = fmap FunId . readJSON
instance JSON VarId where
-- the anonymous variable is the underscore:
showJSON Anonymous = showJSON "_"
showJSON (VarId x) = showJSON x
readJSON o = do "_" <- readJSON o; return Anonymous
<|> VarId <$> readJSON o
instance JSON QualId where
showJSON (Qual (ModId m) n) = showJSON (m++"."++n)
showJSON (Unqual n) = showJSON n
readJSON o = do qualid <- readJSON o
let (mod, id) = span (/= '.') qualid
return $ if null mod then Unqual id else Qual (ModId mod) id
instance JSON Flags where
-- flags are encoded directly as JSON records (i.e., objects):
showJSON (Flags fs) = makeObj [(f, showJSON v) | (f, v) <- fs]
readJSON obj = Flags <$> mapM fromRow (assocsJSObject obj)
where fromRow (lbl, jsvalue) = do value <- readJSON jsvalue
return (lbl, value)
instance JSON FlagValue where
-- flag values are encoded as basic JSON types:
showJSON (Str s) = showJSON s
showJSON (Int i) = showJSON i
showJSON (Flt f) = showJSON f
readJSON = readBasicJSON Str Int Flt
--------------------------------------------------------------------------------
-- ** Convenience functions
(!) :: JSON a => JSValue -> String -> Result a
obj ! key = maybe (fail $ "CanonicalJSON.(!): Could not find key: " ++ show key)
readJSON
(lookup key (assocsJSObject obj))
assocsJSObject :: JSValue -> [(String, JSValue)]
assocsJSObject (JSObject o) = fromJSObject o
assocsJSObject (JSArray _) = fail $ "CanonicalJSON.assocsJSObject: Expected a JSON object, found an Array"
assocsJSObject jsvalue = fail $ "CanonicalJSON.assocsJSObject: Expected a JSON object, found " ++ show jsvalue
readBasicJSON :: (JSON int, Integral int, JSON flt, RealFloat flt) =>
(String -> v) -> (int -> v) -> (flt -> v) -> JSValue -> Result v
readBasicJSON str int flt o
= str <$> readJSON o
<|> int_or_flt <$> readJSON o
where int_or_flt f | f == fromIntegral n = int n
| otherwise = flt f
where n = round f

3
src/compiler/GF/Grammar/EBNF.hs
View File

@@ -16,7 +16,6 @@ module GF.Grammar.EBNF (EBNF, ERule, ERHS(..), ebnf2cf) where
import GF.Data.Operations
import GF.Grammar.CFG
import PGF (mkCId)
type EBNF = [ERule]
type ERule = (ECat, ERHS)
@@ -40,7 +39,7 @@ ebnf2cf :: EBNF -> [ParamCFRule]
ebnf2cf ebnf =
[Rule cat items (mkCFF i cat) | (i,(cat,items)) <- zip [0..] (normEBNF ebnf)]
where
mkCFF i (c,_) = CFObj (mkCId ("Mk" ++ c ++ "_" ++ show i)) []
mkCFF i (c,_) = CFObj ("Mk" ++ c ++ "_" ++ show i) []
normEBNF :: EBNF -> [CFJustRule]
normEBNF erules = let

11
src/compiler/GF/Grammar/Grammar.hs
View File

@@ -64,7 +64,7 @@ module GF.Grammar.Grammar (
Location(..), L(..), unLoc, noLoc, ppLocation, ppL,
-- ** PMCFG
PMCFG(..), Production(..), FId, FunId, SeqId, LIndex, Sequence
PMCFG(..), Production(..), FId, FunId, SeqId, LIndex
) where
import GF.Infra.Ident
@@ -73,7 +73,8 @@ import GF.Infra.Location
import GF.Data.Operations
import PGF.Internal (FId, FunId, SeqId, LIndex, Sequence, BindType(..))
import PGF2(LIndex, BindType(..))
import PGF2.Internal(FId, FunId, SeqId, Symbol)
import Data.Array.IArray(Array)
import Data.Array.Unboxed(UArray)
@@ -99,7 +100,7 @@ data ModuleInfo = ModInfo {
mopens :: [OpenSpec],
mexdeps :: [ModuleName],
msrc :: FilePath,
mseqs :: Maybe (Array SeqId Sequence),
mseqs :: Maybe (Array SeqId [Symbol]),
jments :: Map.Map Ident Info
}
@@ -329,7 +330,7 @@ data Info =
-- judgements in resource
| ResParam (Maybe (L [Param])) (Maybe [Term]) -- ^ (/RES/) the second parameter is list of all possible values
| ResValue (L Type) -- ^ (/RES/) to mark parameter constructors for lookup
| ResValue (L Type) Int -- ^ (/RES/) to mark parameter constructors for lookup
| ResOper (Maybe (L Type)) (Maybe (L Term)) -- ^ (/RES/)
| ResOverload [ModuleName] [(L Type,L Term)] -- ^ (/RES/) idents: modules inherited
@@ -458,7 +459,7 @@ type Case = (Patt, Term)
--type Cases = ([Patt], Term)
type LocalDef = (Ident, (Maybe Type, Term))
type Param = (Ident, Context)
type Param = (Ident, Context, Int)
type Altern = (Term, [(Term, Term)])
type Substitution = [(Ident, Term)]

34
src/compiler/GF/Grammar/Lookup.hs
View File

@@ -23,10 +23,11 @@ module GF.Grammar.Lookup (
lookupResType,
lookupOverload,
lookupOverloadTypes,
lookupParamValues,
lookupParamValues,
allParamValues,
lookupAbsDef,
lookupLincat,
lookupParamValueIndex,
lookupAbsDef,
lookupLincat,
lookupFunType,
lookupCatContext,
allOpers, allOpersTo
@@ -51,11 +52,11 @@ lock c = lockRecType c -- return
unlock c = unlockRecord c -- return
-- to look up a constant etc in a search tree --- why here? AR 29/5/2008
lookupIdent :: ErrorMonad m => Ident -> BinTree Ident b -> m b
lookupIdent :: ErrorMonad m => Ident -> Map.Map Ident b -> m b
lookupIdent c t =
case lookupTree showIdent c t of
Ok v -> return v
Bad _ -> raise ("unknown identifier" +++ showIdent c)
case Map.lookup c t of
Just v -> return v
Nothing -> raise ("unknown identifier" +++ showIdent c)
lookupIdentInfo :: ErrorMonad m => SourceModInfo -> Ident -> m Info
lookupIdentInfo mo i = lookupIdent i (jments mo)
@@ -83,7 +84,7 @@ lookupResDefLoc gr (m,c)
AnyInd _ n -> look n c
ResParam _ _ -> return (noLoc (QC (m,c)))
ResValue _ -> return (noLoc (QC (m,c)))
ResValue _ _ -> return (noLoc (QC (m,c)))
_ -> raise $ render (c <+> "is not defined in resource" <+> m)
lookupResType :: ErrorMonad m => Grammar -> QIdent -> m Type
@@ -99,7 +100,7 @@ lookupResType gr (m,c) = do
return $ mkProd cont val' []
AnyInd _ n -> lookupResType gr (n,c)
ResParam _ _ -> return typePType
ResValue (L _ t) -> return t
ResValue (L _ t) _-> return t
_ -> raise $ render (c <+> "has no type defined in resource" <+> m)
lookupOverloadTypes :: ErrorMonad m => Grammar -> QIdent -> m [(Term,Type)]
@@ -113,8 +114,8 @@ lookupOverloadTypes gr id@(m,c) = do
CncFun (Just (cat,cont,val)) _ _ _ -> do
val' <- lock cat val
ret $ mkProd cont val' []
ResParam _ _ -> ret typePType
ResValue (L _ t) -> ret t
ResParam _ _ -> ret typePType
ResValue (L _ t) _ -> ret t
ResOverload os tysts -> do
tss <- mapM (\x -> lookupOverloadTypes gr (x,c)) os
return $ [(tr,ty) | (L _ ty,L _ tr) <- tysts] ++
@@ -148,7 +149,7 @@ lookupOrigInfo gr (m,c) = do
allOrigInfos :: Grammar -> ModuleName -> [(QIdent,Info)]
allOrigInfos gr m = fromErr [] $ do
mo <- lookupModule gr m
return [((m,c),i) | (c,_) <- tree2list (jments mo), Ok (m,i) <- [lookupOrigInfo gr (m,c)]]
return [((m,c),i) | (c,_) <- Map.toList (jments mo), Ok (m,i) <- [lookupOrigInfo gr (m,c)]]
lookupParamValues :: ErrorMonad m => Grammar -> QIdent -> m [Term]
lookupParamValues gr c = do
@@ -176,6 +177,13 @@ allParamValues cnc ptyp =
-- to normalize records and record types
sortByFst = sortBy (\ x y -> compare (fst x) (fst y))
lookupParamValueIndex :: ErrorMonad m => Grammar -> QIdent -> m Int
lookupParamValueIndex gr c = do
(_,info) <- lookupOrigInfo gr c
case info of
ResValue _ i -> return i
_ -> raise $ render (ppQIdent Qualified c <+> "has no parameter index defined")
lookupAbsDef :: ErrorMonad m => Grammar -> ModuleName -> Ident -> m (Maybe Int,Maybe [Equation])
lookupAbsDef gr m c = errIn (render ("looking up absdef of" <+> c)) $ do
info <- lookupQIdentInfo gr (m,c)
@@ -226,7 +234,7 @@ allOpers gr =
typesIn info = case info of
AbsFun (Just ltyp) _ _ _ -> [ltyp]
ResOper (Just ltyp) _ -> [ltyp]
ResValue ltyp -> [ltyp]
ResValue ltyp _ -> [ltyp]
ResOverload _ tytrs -> [ltyp | (ltyp,_) <- tytrs]
CncFun (Just (i,ctx,typ)) _ _ _ ->
[L NoLoc (mkProdSimple ctx (lock' i typ))]

17
src/compiler/GF/Grammar/Macros.hs
View File

@@ -22,14 +22,13 @@ import GF.Data.Operations
import GF.Data.Str
import GF.Infra.Ident
import GF.Grammar.Grammar
--import GF.Grammar.Values
import GF.Grammar.Predef
import GF.Grammar.Printer
import Control.Monad.Identity(Identity(..))
import qualified Data.Traversable as T(mapM)
import qualified Data.Map as Map
import Control.Monad (liftM, liftM2, liftM3)
--import Data.Char (isDigit)
import Data.List (sortBy,nub)
import Data.Monoid
import GF.Text.Pretty(render,(<+>),hsep,fsep)
@@ -48,7 +47,7 @@ typeForm t =
Q c -> ([],c,[])
QC c -> ([],c,[])
Sort c -> ([],(MN identW, c),[])
_ -> error (render ("no normal form of type" <+> ppTerm Unqualified 0 t))
_ -> error (render ("no normal form of type" <+> show t))
typeFormCnc :: Type -> (Context, Type)
typeFormCnc t =
@@ -608,20 +607,22 @@ sortRec = sortBy ordLabel where
-- | dependency check, detecting circularities and returning topo-sorted list
allDependencies :: (ModuleName -> Bool) -> BinTree Ident Info -> [(Ident,[Ident])]
allDependencies :: (ModuleName -> Bool) -> Map.Map Ident Info -> [(Ident,[Ident])]
allDependencies ism b =
[(f, nub (concatMap opty (pts i))) | (f,i) <- tree2list b]
[(f, nub (concatMap opty (pts i))) | (f,i) <- Map.toList b]
where
opersIn t = case t of
Q (n,c) | ism n -> [c]
QC (n,c) | ism n -> [c]
Cn c -> [c]
_ -> collectOp opersIn t
opty (Just (L _ ty)) = opersIn ty
opty _ = []
pts i = case i of
ResOper pty pt -> [pty,pt]
ResOverload _ tyts -> concat [[Just ty, Just tr] | (ty,tr) <- tyts]
ResParam (Just (L loc ps)) _ -> [Just (L loc t) | (_,cont) <- ps, (_,_,t) <- cont]
ResParam (Just (L loc ps)) _ -> [Just (L loc t) | (_,cont,_) <- ps, (_,_,t) <- cont]
ResValue pty _ -> [Just pty]
CncCat pty _ _ _ _ -> [pty]
CncFun _ pt _ _ -> [pt] ---- (Maybe (Ident,(Context,Type))
AbsFun pty _ ptr _ -> [pty] --- ptr is def, which can be mutual
@@ -634,7 +635,7 @@ topoSortJments (m,mi) = do
return
(\cyc -> raise (render ("circular definitions:" <+> fsep (head cyc))))
(topoTest (allDependencies (==m) (jments mi)))
return (reverse [(i,info) | i <- is, Ok info <- [lookupTree showIdent i (jments mi)]])
return (reverse [(i,info) | i <- is, Just info <- [Map.lookup i (jments mi)]])
topoSortJments2 :: ErrorMonad m => SourceModule -> m [[(Ident,Info)]]
topoSortJments2 (m,mi) = do
@@ -644,4 +645,4 @@ topoSortJments2 (m,mi) = do
<+> fsep (head cyc))))
(topoTest2 (allDependencies (==m) (jments mi)))
return
[[(i,info) | i<-is,Ok info<-[lookupTree showIdent i (jments mi)]] | is<-iss]
[[(i,info) | i<-is,Just info<-[Map.lookup i (jments mi)]] | is<-iss]

14
src/compiler/GF/Grammar/Parser.y
View File

@@ -24,7 +24,7 @@ import GF.Grammar.Lexer
import GF.Compile.Update (buildAnyTree)
import Data.List(intersperse)
import Data.Char(isAlphaNum)
import PGF(mkCId)
import qualified Data.Map as Map
}
@@ -139,7 +139,7 @@ ModHeader
: ComplMod ModType '=' ModHeaderBody { let { mstat = $1 ;
(mtype,id) = $2 ;
(extends,with,opens) = $4 }
in (id, ModInfo mtype mstat noOptions extends with opens [] "" Nothing emptyBinTree) }
in (id, ModInfo mtype mstat noOptions extends with opens [] "" Nothing Map.empty) }
ComplMod :: { ModuleStatus }
ComplMod
@@ -267,7 +267,7 @@ DataDef
ParamDef :: { [(Ident,Info)] }
ParamDef
: Posn LhsIdent '=' ListParConstr Posn { ($2, ResParam (Just (mkL $1 $5 [param | L loc param <- $4])) Nothing) :
[(f, ResValue (L loc (mkProdSimple co (Cn $2)))) | L loc (f,co) <- $4] }
[(f, ResValue (L loc (mkProdSimple co (Cn $2))) i) | L loc (f,co,i) <- $4] }
| Posn LhsIdent Posn { [($2, ResParam Nothing Nothing)] }
OperDef :: { [(Ident,Info)] }
@@ -302,7 +302,7 @@ ListDataConstr
ParConstr :: { L Param }
ParConstr
: Posn Ident ListDDecl Posn { mkL $1 $4 ($2,$3) }
: Posn Ident ListDDecl Posn { mkL $1 $4 ($2,$3,0) }
ListLinDef :: { [(Ident,Info)] }
ListLinDef
@@ -624,7 +624,7 @@ ListCFRule
CFRule :: { [BNFCRule] }
CFRule
: Ident '.' Ident '::=' ListCFSymbol ';' { [BNFCRule (showIdent $3) $5 (CFObj (mkCId (showIdent $1)) [])]
: Ident '.' Ident '::=' ListCFSymbol ';' { [BNFCRule (showIdent $3) $5 (CFObj (showIdent $1) [])]
}
| Ident '::=' ListCFRHS ';' { let { cat = showIdent $1;
mkFun cat its =
@@ -637,7 +637,7 @@ CFRule
Terminal c -> filter isAlphaNum c;
NonTerminal (t,_) -> t
}
} in map (\rhs -> BNFCRule cat rhs (CFObj (mkCId (mkFun cat rhs)) [])) $3
} in map (\rhs -> BNFCRule cat rhs (CFObj (mkFun cat rhs) [])) $3
}
| 'coercions' Ident Integer ';' { [BNFCCoercions (showIdent $2) $3]}
| 'terminator' NonEmpty Ident String ';' { [BNFCTerminator $2 (showIdent $3) $4] }
@@ -774,7 +774,7 @@ checkInfoType mt jment@(id,info) =
CncCat pty pd pr ppn _->ifConcrete mt (locPerh pty ++ locPerh pd ++ locPerh pr ++ locPerh ppn)
CncFun _ pd ppn _ -> ifConcrete mt (locPerh pd ++ locPerh ppn)
ResParam pparam _ -> ifResource mt (locPerh pparam)
ResValue ty -> ifResource mt (locL ty)
ResValue ty _ -> ifResource mt (locL ty)
ResOper pty pt -> ifOper mt pty pt
ResOverload _ xs -> ifResource mt (concat [[loc1,loc2] | (L loc1 _,L loc2 _) <- xs])
where

52
src/compiler/GF/Grammar/Printer.hs
View File

@@ -22,21 +22,17 @@ module GF.Grammar.Printer
, ppMeta
, getAbs
) where
import Prelude hiding ((<>)) -- GHC 8.4.1 clash with Text.PrettyPrint
import PGF2 as PGF2
import PGF2.Internal as PGF2
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
@@ -110,8 +106,8 @@ ppJudgement q (id, ResParam pparams _) =
(case pparams of
Just (L _ ps) -> '=' <+> ppParams q ps
_ -> empty) <+> ';'
ppJudgement q (id, ResValue pvalue) =
"-- param constructor" <+> id <+> ':' <+>
ppJudgement q (id, ResValue pvalue i) =
"-- param constructor" <+> "[index" <+> i <> "]" <+> id <+> ':' <+>
(case pvalue of
(L _ ty) -> ppTerm q 0 ty) <+> ';'
ppJudgement q (id, ResOper ptype pexp) =
@@ -209,7 +205,7 @@ ppTerm q d (S x y) = case x of
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) = "variants" <+> braces (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)))
@@ -326,7 +322,7 @@ 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)
ppParam q (id,cxt,_) = id <+> hsep (map (ppDDecl q) cxt)
ppProduction (Production fid funid args) =
ppFId fid <+> "->" <+> ppFunId funid <>
@@ -363,3 +359,39 @@ getLet (Let l e) = let (ls,e') = getLet e
in (l:ls,e')
getLet e = ([],e)
ppFunId funid = pp 'F' <> pp funid
ppSeqId seqid = pp 'S' <> pp seqid
ppFId fid
| fid == PGF2.fidString = pp "CString"
| fid == PGF2.fidInt = pp "CInt"
| fid == PGF2.fidFloat = pp "CFloat"
| fid == PGF2.fidVar = pp "CVar"
| fid == PGF2.fidStart = pp "CStart"
| otherwise = pp 'C' <> pp fid
ppMeta :: Int -> Doc
ppMeta n
| n == 0 = pp '?'
| otherwise = pp '?' <> pp n
ppLit (PGF2.LStr s) = pp (show s)
ppLit (PGF2.LInt n) = pp n
ppLit (PGF2.LFlt d) = pp d
ppSeq (seqid,seq) =
ppSeqId seqid <+> pp ":=" <+> hsep (map ppSymbol seq)
ppSymbol (PGF2.SymCat d r) = pp '<' <> pp d <> pp ',' <> pp r <> pp '>'
ppSymbol (PGF2.SymLit d r) = pp '{' <> pp d <> pp ',' <> pp r <> pp '}'
ppSymbol (PGF2.SymVar d r) = pp '<' <> pp d <> pp ',' <> pp '$' <> pp r <> pp '>'
ppSymbol (PGF2.SymKS t) = doubleQuotes (pp t)
ppSymbol PGF2.SymNE = pp "nonExist"
ppSymbol PGF2.SymBIND = pp "BIND"
ppSymbol PGF2.SymSOFT_BIND = pp "SOFT_BIND"
ppSymbol PGF2.SymSOFT_SPACE= pp "SOFT_SPACE"
ppSymbol PGF2.SymCAPIT = pp "CAPIT"
ppSymbol PGF2.SymALL_CAPIT = pp "ALL_CAPIT"
ppSymbol (PGF2.SymKP syms alts) = pp "pre" <+> braces (hsep (punctuate (pp ';') (hsep (map ppSymbol syms) : map ppAlt alts)))
ppAlt (syms,ps) = hsep (map ppSymbol syms) <+> pp '/' <+> hsep (map (doubleQuotes . pp) ps)

6
src/compiler/GF/Haskell.hs
View File

@@ -40,6 +40,9 @@ tvar = TId
tcon0 = TId
tcon c = foldl TAp (TId c)
lets [] e = e
lets ds e = Lets ds e
let1 x xe e = Lets [(x,xe)] e
single x = List [x]
@@ -113,7 +116,8 @@ instance Pretty Exp where
Op e1 op e2 -> hang (ppB e1<+>op) 2 (ppB e2)
Lets bs e -> sep ["let"<+>vcat [hang (x<+>"=") 2 xe|(x,xe)<-bs],
"in" <+>e]
LambdaCase alts -> hang "\\case" 4 (vcat [p<+>"->"<+>e|(p,e)<-alts])
LambdaCase alts ->
hang "\\case" 2 (vcat [hang (p<+>"->") 2 e|(p,e)<-alts])
_ -> ppB e
ppB e = case flatAp e of f:as -> hang (ppA f) 2 (sep (map ppA as))

6
src/compiler/GF/Infra/BuildInfo.hs
View File

@@ -14,9 +14,3 @@ buildInfo =
#ifdef SERVER_MODE
++" server"
#endif
#ifdef NEW_COMP
++" new-comp"
#endif
#ifdef C_RUNTIME
++" c-runtime"
#endif

1
src/compiler/GF/Infra/CheckM.hs
View File

@@ -18,7 +18,6 @@ module GF.Infra.CheckM
checkIn, checkInModule, checkMap, checkMapRecover,
parallelCheck, accumulateError, commitCheck,
) where
import Prelude hiding ((<>)) -- GHC 8.4.1 clash with Text.PrettyPrint
import GF.Data.Operations
--import GF.Infra.Ident

24
src/compiler/GF/Infra/Ident.hs
View File

@@ -13,17 +13,17 @@
-----------------------------------------------------------------------------
module GF.Infra.Ident (-- ** Identifiers
ModuleName(..), moduleNameS,
Ident, ident2utf8, showIdent, prefixIdent,
-- *** Normal identifiers (returned by the parser)
identS, identC, identW,
-- *** Special identifiers for internal use
identV, identA, identAV,
argIdent, isArgIdent, getArgIndex,
varStr, varX, isWildIdent, varIndex,
-- *** Raw identifiers
RawIdent, rawIdentS, rawIdentC, ident2raw, prefixRawIdent,
isPrefixOf, showRawIdent
ModuleName(..), moduleNameS,
Ident, ident2utf8, showIdent, prefixIdent,
-- *** Normal identifiers (returned by the parser)
identS, identC, identW,
-- *** Special identifiers for internal use
identV, identA, identAV,
argIdent, isArgIdent, getArgIndex,
varStr, varX, isWildIdent, varIndex,
-- *** Raw identifiers
RawIdent, rawIdentS, rawIdentC, ident2raw, prefixRawIdent,
isPrefixOf, showRawIdent
) where
import qualified Data.ByteString.UTF8 as UTF8
@@ -31,7 +31,7 @@ import qualified Data.ByteString.Char8 as BS(append,isPrefixOf)
-- Limit use of BS functions to the ones that work correctly on
-- UTF-8-encoded bytestrings!
import Data.Char(isDigit)
import PGF.Internal(Binary(..))
import Data.Binary(Binary(..))
import GF.Text.Pretty

1
src/compiler/GF/Infra/Location.hs
View File

@@ -1,6 +1,5 @@
-- | Source locations
module GF.Infra.Location where
import Prelude hiding ((<>)) -- GHC 8.4.1 clash with Text.PrettyPrint
import GF.Text.Pretty
-- ** Source locations

32
src/compiler/GF/Infra/Option.hs
View File

@@ -34,17 +34,14 @@ import Data.Maybe
import GF.Infra.Ident
import GF.Infra.GetOpt
import GF.Grammar.Predef
--import System.Console.GetOpt
import System.FilePath
--import System.IO
import PGF2.Internal(Literal(..))
import GF.Data.Operations(Err,ErrorMonad(..),liftErr)
import Data.Set (Set)
import qualified Data.Set as Set
import PGF.Internal(Literal(..))
usageHeader :: String
usageHeader = unlines
["Usage: gf [OPTIONS] [FILE [...]]",
@@ -75,7 +72,6 @@ errors = raise . unlines
data Mode = ModeVersion | ModeHelp
| ModeInteractive | ModeRun
| ModeInteractive2 | ModeRun2
| ModeCompiler
| ModeServer {-port::-}Int
deriving (Show,Eq,Ord)
@@ -87,11 +83,11 @@ data Phase = Preproc | Convert | Compile | Link
deriving (Show,Eq,Ord)
data OutputFormat = FmtPGFPretty
| FmtJavaScript
| FmtPython
| FmtCanonicalGF
| FmtCanonicalJson
| FmtJSON
| FmtHaskell
| FmtJava
| FmtProlog
| FmtBNF
| FmtEBNF
| FmtRegular
@@ -153,7 +149,7 @@ data Flags = Flags {
optLiteralCats :: Set Ident,
optGFODir :: Maybe FilePath,
optOutputDir :: Maybe FilePath,
optGFLibPath :: Maybe [FilePath],
optGFLibPath :: Maybe FilePath,
optDocumentRoot :: Maybe FilePath, -- For --server mode
optRecomp :: Recomp,
optProbsFile :: Maybe FilePath,
@@ -208,10 +204,9 @@ parseModuleOptions args = do
then return opts
else errors $ map ("Non-option among module options: " ++) nonopts
fixRelativeLibPaths curr_dir lib_dirs (Options o) = Options (fixPathFlags . o)
fixRelativeLibPaths curr_dir lib_dir (Options o) = Options (fixPathFlags . o)
where
fixPathFlags f@(Flags{optLibraryPath=path}) = f{optLibraryPath=concatMap (\dir -> [parent </> dir
| parent <- curr_dir : lib_dirs]) path}
fixPathFlags f@(Flags{optLibraryPath=path}) = f{optLibraryPath=concatMap (\dir -> [curr_dir </> dir, lib_dir </> dir]) path}
-- Showing options
@@ -307,8 +302,6 @@ optDescr =
Option ['j'] ["jobs"] (OptArg jobs "N") "Compile N modules in parallel with -batch (default 1).",
Option [] ["interactive"] (NoArg (mode ModeInteractive)) "Run in interactive mode (default).",
Option [] ["run"] (NoArg (mode ModeRun)) "Run in interactive mode, showing output only (no other messages).",
Option [] ["cshell"] (NoArg (mode ModeInteractive2)) "Start the C run-time shell.",
Option [] ["crun"] (NoArg (mode ModeRun2)) "Start the C run-time shell, showing output only (no other messages).",
Option [] ["server"] (OptArg modeServer "port") $
"Run in HTTP server mode on given port (default "++show defaultPort++").",
Option [] ["document-root"] (ReqArg gfDocuRoot "DIR")
@@ -325,7 +318,8 @@ optDescr =
Option [] ["gfo-dir"] (ReqArg gfoDir "DIR") "Directory to put .gfo files in (default = '.').",
Option ['f'] ["output-format"] (ReqArg outFmt "FMT")
(unlines ["Output format. FMT can be one of:",
"Multiple concrete: pgf (default), js, pgf_pretty, prolog, python, ...", -- gar,
"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")
@@ -422,7 +416,7 @@ optDescr =
literalCat x = set $ \o -> o { optLiteralCats = foldr Set.insert (optLiteralCats o) ((map identS . splitBy (==',')) x) }
lexicalCat x = set $ \o -> o { optLexicalCats = foldr Set.insert (optLexicalCats o) (splitBy (==',') x) }
outDir x = set $ \o -> o { optOutputDir = Just x }
gfLibPath x = set $ \o -> o { optGFLibPath = Just $ splitInModuleSearchPath x }
gfLibPath x = set $ \o -> o { optGFLibPath = Just x }
gfDocuRoot x = set $ \o -> o { optDocumentRoot = Just x }
recomp x = set $ \o -> o { optRecomp = x }
probsFile x = set $ \o -> o { optProbsFile = Just x }
@@ -468,11 +462,11 @@ outputFormats = map fst outputFormatsExpl
outputFormatsExpl :: [((String,OutputFormat),String)]
outputFormatsExpl =
[(("pgf_pretty", FmtPGFPretty),"human-readable pgf"),
(("js", FmtJavaScript),"JavaScript (whole grammar)"),
(("python", FmtPython),"Python (whole grammar)"),
(("canonical_gf", FmtCanonicalGF),"Canonical GF source files"),
(("canonical_json", FmtCanonicalJson),"Canonical JSON source files"),
(("json", FmtJSON),"JSON (whole grammar)"),
(("haskell", FmtHaskell),"Haskell (abstract syntax)"),
(("java", FmtJava),"Java (abstract syntax)"),
(("prolog", FmtProlog),"Prolog (whole grammar)"),
(("bnf", FmtBNF),"BNF (context-free grammar)"),
(("ebnf", FmtEBNF),"Extended BNF"),
(("regular", FmtRegular),"* regular grammar"),

10
src/compiler/GF/Infra/SIO.hs
View File

@@ -12,9 +12,6 @@ module GF.Infra.SIO(
newStdGen,print,putStr,putStrLn,
-- ** Specific to GF
importGrammar,importSource,
#ifdef C_RUNTIME
readPGF2,
#endif
putStrLnFlush,runInterruptibly,lazySIO,
-- * Restricted accesss to arbitrary (potentially unsafe) IO operations
-- | If the environment variable GF_RESTRICTED is defined, these
@@ -39,9 +36,6 @@ import qualified System.Random as IO(newStdGen)
import qualified GF.Infra.UseIO as IO(getLibraryDirectory)
import qualified GF.System.Signal as IO(runInterruptibly)
import qualified GF.Command.Importing as GF(importGrammar, importSource)
#ifdef C_RUNTIME
import qualified PGF2
#endif
-- * The SIO monad
@@ -123,7 +117,3 @@ lazySIO = lift1 lazyIO
importGrammar pgf opts files = lift0 $ GF.importGrammar pgf opts files
importSource opts files = lift0 $ GF.importSource opts files
#ifdef C_RUNTIME
readPGF2 = lift0 . PGF2.readPGF
#endif

37
src/compiler/GF/Infra/UseIO.hs
View File

@@ -38,7 +38,6 @@ import Control.Monad(when,liftM,foldM)
import Control.Monad.Trans(MonadIO(..))
import Control.Monad.State(StateT,lift)
import Control.Exception(evaluate)
import Data.List (nub)
--putIfVerb :: MonadIO io => Options -> String -> io ()
putIfVerb opts msg = when (verbAtLeast opts Verbose) $ putStrLnE msg
@@ -52,32 +51,28 @@ type FullPath = String
gfLibraryPath = "GF_LIB_PATH"
gfGrammarPathVar = "GF_GRAMMAR_PATH"
getLibraryDirectory :: MonadIO io => Options -> io [FilePath]
getLibraryDirectory :: MonadIO io => Options -> io FilePath
getLibraryDirectory opts =
case flag optGFLibPath opts of
Just path -> return path
Nothing -> liftM splitSearchPath $ liftIO (catch (getEnv gfLibraryPath)
(\ex -> fmap (</> "lib") getDataDir))
Nothing -> liftIO $ catch (getEnv gfLibraryPath)
(\ex -> fmap (</> "lib") getDataDir)
getGrammarPath :: MonadIO io => [FilePath] -> io [FilePath]
getGrammarPath lib_dirs = liftIO $ do
getGrammarPath :: MonadIO io => FilePath -> io [FilePath]
getGrammarPath lib_dir = liftIO $ do
catch (fmap splitSearchPath $ getEnv gfGrammarPathVar)
(\_ -> return $ concat [[lib_dir </> "alltenses", lib_dir </> "prelude"]
| lib_dir <- lib_dirs ]) -- e.g. GF_GRAMMAR_PATH
(\_ -> return [lib_dir </> "alltenses",lib_dir </> "prelude"]) -- e.g. GF_GRAMMAR_PATH
-- | extends the search path with the
-- 'gfLibraryPath' and 'gfGrammarPathVar'
-- environment variables. Returns only existing paths.
extendPathEnv :: MonadIO io => Options -> io [FilePath]
extendPathEnv opts = liftIO $ do
let opt_path = nub $ flag optLibraryPath opts -- e.g. paths given as options
lib_dirs <- getLibraryDirectory opts -- e.g. GF_LIB_PATH
grm_path <- getGrammarPath lib_dirs -- e.g. GF_GRAMMAR_PATH
let paths = opt_path ++ lib_dirs ++ grm_path
when (verbAtLeast opts Verbose) $ putStrLn ("extendPathEnv: opt_path is "++ show opt_path)
when (verbAtLeast opts Verbose) $ putStrLn ("extendPathEnv: lib_dirs is "++ show lib_dirs)
when (verbAtLeast opts Verbose) $ putStrLn ("extendPathEnv: grm_path is "++ show grm_path)
ps <- liftM (nub . concat) $ mapM allSubdirs (nub paths)
let opt_path = flag optLibraryPath opts -- e.g. paths given as options
lib_dir <- getLibraryDirectory opts -- e.g. GF_LIB_PATH
grm_path <- getGrammarPath lib_dir -- e.g. GF_GRAMMAR_PATH
let paths = opt_path ++ [lib_dir] ++ grm_path
ps <- liftM concat $ mapM allSubdirs paths
mapM canonicalizePath ps
where
allSubdirs :: FilePath -> IO [FilePath]
@@ -85,15 +80,11 @@ extendPathEnv opts = liftIO $ do
allSubdirs p = case last p of
'*' -> do let path = init p
fs <- getSubdirs path
let starpaths = [path </> f | f <- fs]
when (verbAtLeast opts Verbose) $ putStrLn ("extendPathEnv: allSubdirs: * found "++show starpaths)
return starpaths
return [path </> f | f <- fs]
_ -> do exists <- doesDirectoryExist p
if exists
then do
when (verbAtLeast opts Verbose) $ putStrLn ("extendPathEnv: allSubdirs: found path "++show p)
return [p]
else do when (verbAtLeast opts Verbose) $ putStrLn ("extendPathEnv: allSubdirs: ignore path "++ show p)
then return [p]
else do when (verbAtLeast opts Verbose) $ putStrLn ("ignore path "++p)
return []
getSubdirs :: FilePath -> IO [FilePath]

86
src/compiler/GF/Interactive.hs
View File

@@ -1,11 +1,11 @@
{-# LANGUAGE CPP, ScopedTypeVariables, FlexibleInstances #-}
-- | GF interactive mode
module GF.Interactive (mainGFI,mainRunGFI,mainServerGFI) where
import Prelude hiding (putStrLn,print)
import qualified Prelude as P(putStrLn)
import GF.Command.Interpreter(CommandEnv(..),mkCommandEnv,interpretCommandLine)
--import GF.Command.Importing(importSource,importGrammar)
import GF.Command.Commands(PGFEnv,HasPGFEnv(..),pgf,pgfEnv,pgfCommands)
import GF.Command.Commands(HasPGF(..),pgfCommands)
import GF.Command.CommonCommands(commonCommands,extend)
import GF.Command.SourceCommands
import GF.Command.CommandInfo
@@ -19,19 +19,13 @@ import GF.Infra.UseIO(ioErrorText,putStrLnE)
import GF.Infra.SIO
import GF.Infra.Option
import qualified System.Console.Haskeline as Haskeline
--import GF.Text.Coding(decodeUnicode,encodeUnicode)
--import GF.Compile.Coding(codeTerm)
import PGF
import PGF.Internal(abstract,funs,lookStartCat,emptyPGF)
import PGF2
import Data.Char
import Data.List(isPrefixOf)
import qualified Data.Map as Map
import qualified Text.ParserCombinators.ReadP as RP
--import System.IO(utf8)
--import System.CPUTime(getCPUTime)
import System.Directory({-getCurrentDirectory,-}getAppUserDataDirectory)
import Control.Exception(SomeException,fromException,evaluate,try)
import Control.Monad.State hiding (void)
@@ -280,17 +274,18 @@ importInEnv opts files =
if flag optRetainResource opts
then do src <- lift $ importSource opts files
pgf <- lift . lazySIO $ importPGF pgf0 -- duplicates some work, better to link src
modify $ \ gfenv -> gfenv {retain=True, pgfenv = (src,pgfEnv pgf)}
modify $ \ gfenv -> gfenv {retain=True, pgfenv = (src,pgf)}
else do pgf1 <- lift $ importPGF pgf0
modify $ \ gfenv->gfenv { retain=False,
pgfenv = (emptyGrammar,pgfEnv pgf1) }
pgfenv = (emptyGrammar,pgf1) }
where
importPGF pgf0 =
do let opts' = addOptions (setOptimization OptCSE False) opts
pgf1 <- importGrammar pgf0 opts' files
if (verbAtLeast opts Normal)
then putStrLnFlush $
unwords $ "\nLanguages:" : map showCId (languages pgf1)
then case pgf1 of
Just pgf -> putStrLnFlush $ unwords $ "\nLanguages:" : Map.keys (languages pgf)
Nothing -> done
else done
return pgf1
@@ -301,12 +296,12 @@ tryGetLine = do
Right l -> return l
prompt env
| retain env || abs == wildCId = "> "
| otherwise = showCId abs ++ "> "
where
abs = abstractName (multigrammar env)
| retain env = "> "
| otherwise = case multigrammar env of
Just pgf -> abstractName pgf ++ "> "
Nothing -> "> "
type CmdEnv = (Grammar,PGFEnv)
type CmdEnv = (Grammar,Maybe PGF)
data GFEnv = GFEnv {
startOpts :: Options,
@@ -318,10 +313,10 @@ data GFEnv = GFEnv {
emptyGFEnv opts = GFEnv opts False emptyCmdEnv emptyCommandEnv []
emptyCmdEnv = (emptyGrammar,pgfEnv emptyPGF)
emptyCmdEnv = (emptyGrammar,Nothing)
emptyCommandEnv = mkCommandEnv allCommands
multigrammar = pgf . snd . pgfenv
multigrammar = snd . pgfenv
allCommands =
extend pgfCommands (helpCommand allCommands:moreCommands)
@@ -329,24 +324,35 @@ allCommands =
`Map.union` commonCommands
instance HasGrammar ShellM where getGrammar = gets (fst . pgfenv)
instance HasPGFEnv ShellM where getPGFEnv = gets (snd . pgfenv)
instance HasPGF ShellM where getPGF = gets (snd . pgfenv)
wordCompletion gfenv (left,right) = do
case wc_type (reverse left) of
CmplCmd pref
-> ret (length pref) [Haskeline.simpleCompletion name | name <- Map.keys (commands cmdEnv), isPrefixOf pref name]
CmplStr (Just (Command _ opts _)) s0
-> do mb_state0 <- try (evaluate (initState pgf (optLang opts) (optType opts)))
case mb_state0 of
Right state0 -> let (rprefix,rs) = break isSpace (reverse s0)
s = reverse rs
prefix = reverse rprefix
ws = words s
in case loop state0 ws of
Nothing -> ret 0 []
Just state -> let compls = getCompletions state prefix
in ret (length prefix) (map (\x -> Haskeline.simpleCompletion x) (Map.keys compls))
Left (_ :: SomeException) -> ret 0 []
-> case multigrammar gfenv of
Just pgf -> let langs = languages pgf
optLang opts = case valStrOpts "lang" "" opts of
"" -> case Map.minView langs of
Nothing -> Nothing
Just (concr,_) -> Just concr
lang -> mplus (Map.lookup lang langs)
(Map.lookup (abstractName pgf ++ lang) langs)
optType opts = let readOpt str = case readType str of
Just ty -> case checkType pgf ty of
Left _ -> Nothing
Right ty -> Just ty
Nothing -> Nothing
in maybeStrOpts "cat" (Just (startCat pgf)) readOpt opts
(rprefix,rs) = break isSpace (reverse s0)
s = reverse rs
prefix = reverse rprefix
in case (optLang opts, optType opts) of
(Just lang,Just cat) -> let compls = [t | (t,_,_,_) <- complete lang cat s prefix]
in ret (length prefix) (map Haskeline.simpleCompletion compls)
_ -> ret 0 []
Nothing -> ret 0 []
CmplOpt (Just (Command n _ _)) pref
-> case Map.lookup n (commands cmdEnv) of
Just inf -> do let flg_compls = [Haskeline.Completion ('-':flg++"=") ('-':flg) False | (flg,_) <- flags inf, isPrefixOf pref flg]
@@ -357,23 +363,15 @@ wordCompletion gfenv (left,right) = do
CmplIdent (Just (Command "i" _ _)) _ -- HACK: file name completion for command i
-> Haskeline.completeFilename (left,right)
CmplIdent _ pref
-> do mb_abs <- try (evaluate (abstract pgf))
case mb_abs of
Right abs -> ret (length pref) [Haskeline.simpleCompletion name | cid <- Map.keys (funs abs), let name = showCId cid, isPrefixOf pref name]
Left (_ :: SomeException) -> ret (length pref) []
-> case multigrammar gfenv of
Just pgf -> ret (length pref) [Haskeline.simpleCompletion name | name <- functions pgf, isPrefixOf pref name]
Nothing -> ret (length pref) []
_ -> ret 0 []
where
pgf = multigrammar gfenv
cmdEnv = commandenv gfenv
optLang opts = valCIdOpts "lang" (head (languages pgf)) opts
optType opts =
let str = valStrOpts "cat" (showCId $ lookStartCat pgf) opts
in case readType str of
Just ty -> ty
Nothing -> error ("Can't parse '"++str++"' as type")
loop ps [] = Just ps
loop ps (t:ts) = case nextState ps (simpleParseInput t) of
loop ps (t:ts) = case error "nextState ps (simpleParseInput t)" of
Left es -> Nothing
Right ps -> loop ps ts

445
src/compiler/GF/Interactive2.hs
View File

@@ -1,445 +0,0 @@
{-# LANGUAGE CPP, ScopedTypeVariables, TypeSynonymInstances, FlexibleInstances, FlexibleContexts #-}
-- | GF interactive mode (with the C run-time system)
module GF.Interactive2 (mainGFI,mainRunGFI{-,mainServerGFI-}) where
import Prelude hiding (putStrLn,print)
import qualified Prelude as P(putStrLn)
import GF.Command.Interpreter(CommandEnv(..),commands,mkCommandEnv,interpretCommandLine)
import GF.Command.Commands2(PGFEnv,HasPGFEnv(..),pgf,concs,pgfEnv,emptyPGFEnv,pgfCommands)
import GF.Command.CommonCommands
import GF.Command.CommandInfo
import GF.Command.Help(helpCommand)
import GF.Command.Abstract
import GF.Command.Parse(readCommandLine,pCommand)
import GF.Data.Operations (Err(..),done)
import GF.Data.Utilities(whenM,repeatM)
import GF.Infra.UseIO(ioErrorText,putStrLnE)
import GF.Infra.SIO
import GF.Infra.Option
import qualified System.Console.Haskeline as Haskeline
--import GF.Text.Coding(decodeUnicode,encodeUnicode)
--import GF.Compile.Coding(codeTerm)
import qualified PGF2 as C
import qualified PGF as H
import Data.Char
import Data.List(isPrefixOf)
import qualified Data.Map as Map
import qualified Text.ParserCombinators.ReadP as RP
--import System.IO(utf8)
--import System.CPUTime(getCPUTime)
import System.Directory({-getCurrentDirectory,-}getAppUserDataDirectory)
import System.FilePath(takeExtensions)
import Control.Exception(SomeException,fromException,try)
--import Control.Monad
import Control.Monad.State hiding (void)
import qualified GF.System.Signal as IO(runInterruptibly)
{-
#ifdef SERVER_MODE
import GF.Server(server)
#endif
-}
import GF.Command.Messages(welcome)
-- | Run the GF Shell in quiet mode (@gf -run@).
mainRunGFI :: Options -> [FilePath] -> IO ()
mainRunGFI opts files = shell (beQuiet opts) files
beQuiet = addOptions (modifyFlags (\f -> f{optVerbosity=Quiet}))
-- | Run the interactive GF Shell
mainGFI :: Options -> [FilePath] -> IO ()
mainGFI opts files = do
P.putStrLn welcome
P.putStrLn "This shell uses the C run-time system. See help for available commands."
shell opts files
shell opts files = flip evalStateT (emptyGFEnv opts) $
do mapStateT runSIO $ importInEnv opts files
loop
{-
#ifdef SERVER_MODE
-- | Run the GF Server (@gf -server@).
-- The 'Int' argument is the port number for the HTTP service.
mainServerGFI opts0 port files =
server jobs port root (execute1 opts)
=<< runSIO (importInEnv (emptyGFEnv opts) opts files)
where
root = flag optDocumentRoot opts
opts = beQuiet opts0
jobs = join (flag optJobs opts)
#else
mainServerGFI opts port files =
error "GF has not been compiled with server mode support"
#endif
-}
-- | Read end execute commands until it is time to quit
loop :: StateT GFEnv IO ()
loop = repeatM readAndExecute1
-- | Read and execute one command, returning 'True' to continue execution,
-- | 'False' when it is time to quit
readAndExecute1 :: StateT GFEnv IO Bool
readAndExecute1 = mapStateT runSIO . execute1 =<< readCommand
-- | Read a command
readCommand :: StateT GFEnv IO String
readCommand =
do opts <- gets startOpts
case flag optMode opts of
ModeRun -> lift tryGetLine
_ -> lift . fetchCommand =<< get
timeIt act =
do t1 <- liftSIO $ getCPUTime
a <- act
t2 <- liftSIO $ getCPUTime
return (t2-t1,a)
-- | 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
| not (verbAtLeast opts Normal) = act
| otherwise = do (dt,r) <- timeIt act
liftSIO $ putStrLnFlush $ show (dt `div` 1000000000) ++ " msec"
return r
type ShellM = StateT GFEnv SIO
-- | Execute a given command line, returning 'True' to continue execution,
-- | 'False' when it is time to quit
execute1 :: String -> ShellM Bool
execute1 s0 =
do modify $ \ gfenv0 -> gfenv0 {history = s0 : history gfenv0}
execute1' s0
-- | Execute a given command line, without adding it to the history
execute1' s0 =
do opts <- gets startOpts
interruptible $ optionallyShowCPUTime opts $
case pwords s0 of
-- cc, sd, so, ss and dg are now in GF.Commands.SourceCommands
-- special commands
"q" :_ -> quit
"!" :ws -> system_command ws
"eh":ws -> execute_history ws
"i" :ws -> do import_ ws; continue
-- other special commands, working on GFEnv
"dc":ws -> define_command ws
"dt":ws -> define_tree ws
-- ordinary commands
_ -> do env <- gets commandenv
interpretCommandLine env s0
continue
where
continue,stop :: ShellM Bool
continue = return True
stop = return False
interruptible :: ShellM Bool -> ShellM Bool
interruptible act =
do gfenv <- get
mapStateT (
either (\e -> printException e >> return (True,gfenv)) return
<=< runInterruptibly) act
-- Special commands:
quit = do opts <- gets startOpts
when (verbAtLeast opts Normal) $ putStrLnE "See you."
stop
system_command ws = do lift $ restrictedSystem $ unwords ws ; continue
{-"eh":w:_ -> do
cs <- readFile w >>= return . map words . lines
gfenv' <- foldM (flip (process False benv)) gfenv cs
loopNewCPU gfenv' -}
execute_history [w] =
do execute . lines =<< lift (restricted (readFile w))
continue
where
execute :: [String] -> ShellM ()
execute [] = done
execute (line:lines) = whenM (execute1' line) (execute lines)
execute_history _ =
do putStrLnE "eh command not parsed"
continue
define_command (f:ws) =
case readCommandLine (unwords ws) of
Just comm ->
do modify $
\ gfenv ->
let env = commandenv gfenv
in gfenv {
commandenv = env {
commandmacros = Map.insert f comm (commandmacros env)
}
}
continue
_ -> dc_not_parsed
define_command _ = dc_not_parsed
dc_not_parsed = putStrLnE "command definition not parsed" >> continue
define_tree (f:ws) =
case H.readExpr (unwords ws) of
Just exp ->
do modify $
\ gfenv ->
let env = commandenv gfenv
in gfenv { commandenv = env {
expmacros = Map.insert f exp (expmacros env) } }
continue
_ -> dt_not_parsed
define_tree _ = dt_not_parsed
dt_not_parsed = putStrLnE "value definition not parsed" >> continue
pwords s = case words s of
w:ws -> getCommandOp w :ws
ws -> ws
import_ args =
do case parseOptions args of
Ok (opts',files) -> do
opts <- gets startOpts
curr_dir <- lift getCurrentDirectory
lib_dir <- lift $ getLibraryDirectory (addOptions opts opts')
importInEnv (addOptions opts (fixRelativeLibPaths curr_dir lib_dir opts')) files
Bad err ->
do putStrLnE $ "Command parse error: " ++ err
-- | Commands that work on 'GFEnv'
moreCommands = [
("e", emptyCommandInfo {
longname = "empty",
synopsis = "empty the environment (except the command history)",
exec = \ _ _ ->
do modify $ \ gfenv -> (emptyGFEnv (startOpts gfenv))
{ history=history gfenv }
return void
}),
("ph", emptyCommandInfo {
longname = "print_history",
synopsis = "print command history",
explanation = unlines [
"Prints the commands issued during the GF session.",
"The result is readable by the eh command.",
"The result can be used as a script when starting GF."
],
examples = [
mkEx "ph | wf -file=foo.gfs -- save the history into a file"
],
exec = \ _ _ ->
fmap (fromString . unlines . reverse . drop 1 . history) get
}),
("r", emptyCommandInfo {
longname = "reload",
synopsis = "repeat the latest import command",
exec = \ _ _ ->
do gfenv0 <- get
let imports = [(s,ws) | s <- history gfenv0, ("i":ws) <- [pwords s]]
case imports of
(s,ws):_ -> do
putStrLnE $ "repeating latest import: " ++ s
import_ ws
_ -> do
putStrLnE $ "no import in history"
return void
})
]
printException e = maybe (print e) (putStrLn . ioErrorText) (fromException e)
fetchCommand :: GFEnv -> IO String
fetchCommand gfenv = do
path <- getAppUserDataDirectory "gf_history"
let settings =
Haskeline.Settings {
Haskeline.complete = wordCompletion gfenv,
Haskeline.historyFile = Just path,
Haskeline.autoAddHistory = True
}
res <- IO.runInterruptibly $ Haskeline.runInputT settings (Haskeline.getInputLine (prompt gfenv))
case res of
Left _ -> return ""
Right Nothing -> return "q"
Right (Just s) -> return s
importInEnv :: Options -> [FilePath] -> ShellM ()
importInEnv opts files =
case files of
_ | flag optRetainResource opts ->
putStrLnE "Flag -retain is not supported in this shell"
[file] | takeExtensions file == ".pgf" -> importPGF file
[] -> done
_ -> do putStrLnE "Can only import one .pgf file"
where
importPGF file =
do gfenv <- get
case multigrammar gfenv of
Just _ -> putStrLnE "Discarding previous grammar"
_ -> done
pgf1 <- lift $ readPGF2 file
let gfenv' = gfenv { pgfenv = pgfEnv pgf1 }
when (verbAtLeast opts Normal) $
let langs = Map.keys . concretes $ gfenv'
in putStrLnE . unwords $ "\nLanguages:":langs
put gfenv'
tryGetLine = do
res <- try getLine
case res of
Left (e :: SomeException) -> return "q"
Right l -> return l
prompt env = abs ++ "> "
where
abs = maybe "" C.abstractName (multigrammar env)
data GFEnv = GFEnv {
startOpts :: Options,
--grammar :: (), -- gfo grammar -retain
--retain :: (), -- grammar was imported with -retain flag
pgfenv :: PGFEnv,
commandenv :: CommandEnv ShellM,
history :: [String]
}
emptyGFEnv opts = GFEnv opts {-() ()-} emptyPGFEnv emptyCommandEnv []
emptyCommandEnv = mkCommandEnv allCommands
multigrammar = pgf . pgfenv
concretes = concs . pgfenv
allCommands =
extend pgfCommands (helpCommand allCommands:moreCommands)
`Map.union` commonCommands
instance HasPGFEnv ShellM where getPGFEnv = gets pgfenv
-- ** Completion
wordCompletion gfenv (left,right) = do
case wc_type (reverse left) of
CmplCmd pref
-> ret (length pref) [Haskeline.simpleCompletion name | name <- Map.keys (commands cmdEnv), isPrefixOf pref name]
{-
CmplStr (Just (Command _ opts _)) s0
-> do mb_state0 <- try (evaluate (H.initState pgf (optLang opts) (optType opts)))
case mb_state0 of
Right state0 -> let (rprefix,rs) = break isSpace (reverse s0)
s = reverse rs
prefix = reverse rprefix
ws = words s
in case loop state0 ws of
Nothing -> ret 0 []
Just state -> let compls = H.getCompletions state prefix
in ret (length prefix) (map (\x -> Haskeline.simpleCompletion x) (Map.keys compls))
Left (_ :: SomeException) -> ret 0 []
-}
CmplOpt (Just (Command n _ _)) pref
-> case Map.lookup n (commands cmdEnv) of
Just inf -> do let flg_compls = [Haskeline.Completion ('-':flg++"=") ('-':flg) False | (flg,_) <- flags inf, isPrefixOf pref flg]
opt_compls = [Haskeline.Completion ('-':opt) ('-':opt) True | (opt,_) <- options inf, isPrefixOf pref opt]
ret (length pref+1)
(flg_compls++opt_compls)
Nothing -> ret (length pref) []
CmplIdent (Just (Command "i" _ _)) _ -- HACK: file name completion for command i
-> Haskeline.completeFilename (left,right)
CmplIdent _ pref
-> case mb_pgf of
Just pgf -> ret (length pref)
[Haskeline.simpleCompletion name
| name <- C.functions pgf,
isPrefixOf pref name]
_ -> ret (length pref) []
_ -> ret 0 []
where
mb_pgf = multigrammar gfenv
cmdEnv = commandenv gfenv
{-
optLang opts = valStrOpts "lang" (head $ Map.keys (concretes cmdEnv)) opts
optType opts =
let str = valStrOpts "cat" (H.showCId $ H.lookStartCat pgf) opts
in case H.readType str of
Just ty -> ty
Nothing -> error ("Can't parse '"++str++"' as type")
loop ps [] = Just ps
loop ps (t:ts) = case H.nextState ps (H.simpleParseInput t) of
Left es -> Nothing
Right ps -> loop ps ts
-}
ret len xs = return (drop len left,xs)
data CompletionType
= CmplCmd Ident
| CmplStr (Maybe Command) String
| CmplOpt (Maybe Command) Ident
| CmplIdent (Maybe Command) Ident
deriving Show
wc_type :: String -> CompletionType
wc_type = cmd_name
where
cmd_name cs =
let cs1 = dropWhile isSpace cs
in go cs1 cs1
where
go x [] = CmplCmd x
go x (c:cs)
| isIdent c = go x cs
| otherwise = cmd x cs
cmd x [] = ret CmplIdent x "" 0
cmd _ ('|':cs) = cmd_name cs
cmd _ (';':cs) = cmd_name cs
cmd x ('"':cs) = str x cs cs
cmd x ('-':cs) = option x cs cs
cmd x (c :cs)
| isIdent c = ident x (c:cs) cs
| otherwise = cmd x cs
option x y [] = ret CmplOpt x y 1
option x y ('=':cs) = optValue x y cs
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
ident x y [] = ret CmplIdent x y 0
ident x y (c:cs)
| isIdent c = ident x y cs
| otherwise = cmd x cs
str x y [] = ret CmplStr x y 1
str x y ('\"':cs) = cmd x cs
str x y ('\\':c:cs) = str x y cs
str x y (c:cs) = str x y cs
ret f x y d = f cmd y
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
_ -> Nothing
isIdent c = c == '_' || c == '\'' || isAlphaNum c

21
src/compiler/GF/Main.hs
View File

@@ -2,10 +2,7 @@
{-# LANGUAGE CPP #-}
module GF.Main where
import GF.Compiler
import qualified GF.Interactive as GFI1
#ifdef C_RUNTIME
import qualified GF.Interactive2 as GFI2
#endif
import GF.Interactive
import GF.Data.ErrM
import GF.Infra.Option
import GF.Infra.UseIO
@@ -47,17 +44,7 @@ mainOpts opts files =
case flag optMode opts of
ModeVersion -> putStrLn $ "Grammatical Framework (GF) version " ++ showVersion version ++ "\n" ++ buildInfo
ModeHelp -> putStrLn helpMessage
ModeServer port -> GFI1.mainServerGFI opts port files
ModeServer port -> mainServerGFI opts port files
ModeCompiler -> mainGFC opts files
ModeInteractive -> GFI1.mainGFI opts files
ModeRun -> GFI1.mainRunGFI opts files
#ifdef C_RUNTIME
ModeInteractive2 -> GFI2.mainGFI opts files
ModeRun2 -> GFI2.mainRunGFI opts files
#else
ModeInteractive2 -> noCruntime
ModeRun2 -> noCruntime
where
noCruntime = do ePutStrLn "GF configured without C run-time support"
exitFailure
#endif
ModeInteractive -> mainGFI opts files
ModeRun -> mainRunGFI opts files

22
src/compiler/GF/Quiz.hs
View File

@@ -18,13 +18,8 @@ module GF.Quiz (
morphologyList
) where
import PGF
--import PGF.Linearize
import PGF2
import GF.Data.Operations
--import GF.Infra.UseIO
--import GF.Infra.Option
--import PGF.Probabilistic
import System.Random
import Data.List (nub)
@@ -38,7 +33,7 @@ mkQuiz msg tts = do
teachDialogue qas msg
translationList ::
Maybe Expr -> PGF -> Language -> Language -> Type -> Int -> IO [(String,[String])]
Maybe Expr -> PGF -> Concr -> Concr -> Type -> Int -> IO [(String,[String])]
translationList mex pgf ig og typ number = do
gen <- newStdGen
let ts = take number $ case mex of
@@ -46,19 +41,22 @@ translationList mex pgf ig og typ number = do
Nothing -> generateRandom gen pgf typ
return $ map mkOne $ ts
where
mkOne t = (norml (linearize pgf ig t),
mkOne t = (norml (linearize ig t),
map norml (concatMap lins (homonyms t)))
homonyms = parse pgf ig typ . linearize pgf ig
lins = nub . concatMap (map snd) . tabularLinearizes pgf og
homonyms t =
case (parse ig typ . linearize ig) t of
ParseOk res -> map fst res
_ -> []
lins = nub . concatMap (map snd) . tabularLinearizeAll og
morphologyList ::
Maybe Expr -> PGF -> Language -> Type -> Int -> IO [(String,[String])]
Maybe Expr -> PGF -> Concr -> Type -> Int -> IO [(String,[String])]
morphologyList mex pgf ig typ number = do
gen <- newStdGen
let ts = take (max 1 number) $ case mex of
Just ex -> generateRandomFrom gen pgf ex
Nothing -> generateRandom gen pgf typ
let ss = map (tabularLinearizes pgf ig) ts
let ss = map (tabularLinearizeAll ig) ts
let size = length (head (head ss))
let forms = take number $ randomRs (0,size-1) gen
return [(snd (head pws0) +++ fst (pws0 !! i), ws) |

25
src/compiler/GF/Server.hs
View File

@@ -3,7 +3,6 @@
module GF.Server(server) where
import Data.List(partition,stripPrefix,isInfixOf)
import qualified Data.Map as M
import Control.Applicative -- for GHC<7.10
import Control.Monad(when)
import Control.Monad.State(StateT(..),get,gets,put)
import Control.Monad.Error(ErrorT(..),Error(..))
@@ -34,7 +33,7 @@ import Network.Shed.Httpd(initServer,Request(..),Response(..),noCache)
--import qualified Network.FastCGI as FCGI -- from hackage direct-fastcgi
import Network.CGI(handleErrors,liftIO)
import CGIUtils(handleCGIErrors)--,outputJSONP,stderrToFile
import Text.JSON(JSValue(..),Result(..),valFromObj,encode,decode,showJSON,makeObj)
import Text.JSON(encode,showJSON,makeObj)
--import System.IO.Silently(hCapture)
import System.Process(readProcessWithExitCode)
import System.Exit(ExitCode(..))
@@ -43,7 +42,6 @@ import GF.Infra.UseIO(readBinaryFile,writeBinaryFile,ePutStrLn)
import GF.Infra.SIO(captureSIO)
import GF.Data.Utilities(apSnd,mapSnd)
import qualified PGFService as PS
import qualified ExampleService as ES
import Data.Version(showVersion)
import Paths_gf(getDataDir,version)
import GF.Infra.BuildInfo (buildInfo)
@@ -171,7 +169,6 @@ handle logLn documentroot state0 cache execute1 stateVar
(_ ,_ ,".pgf") -> do --debug $ "PGF service: "++path
wrapCGI $ PS.cgiMain' cache path
(dir,"grammars.cgi",_ ) -> grammarList dir (decoded qs)
(dir ,"exb.fcgi" ,_ ) -> wrapCGI $ ES.cgiMain' root dir (PS.pgfCache cache)
_ -> serveStaticFile rpath path
where path = translatePath rpath
_ -> return $ resp400 upath
@@ -180,7 +177,7 @@ handle logLn documentroot state0 cache execute1 stateVar
translatePath rpath = root</>rpath -- hmm, check for ".."
versionInfo (c1,c2) =
versionInfo c =
html200 . unlines $
"<!DOCTYPE html>":
"<meta name = \"viewport\" content = \"width = device-width\">":
@@ -188,8 +185,7 @@ handle logLn documentroot state0 cache execute1 stateVar
"":
("<h2>"++hdr++"</h2>"):
(zipWith (++) ("<p>":repeat "<br>") buildinfo)++
sh "Haskell run-time system" c1++
sh "C run-time system" c2
sh "Run-time system" c
where
hdr:buildinfo = lines gf_version
rel = makeRelative documentroot
@@ -284,17 +280,13 @@ handle logLn documentroot state0 cache execute1 stateVar
skip_empty = filter (not.null.snd)
jsonList = jsonList' return
jsonListLong ext = jsonList' (mapM (addTime ext)) ext
jsonListLong = jsonList' (mapM addTime)
jsonList' details ext = fmap (json200) (details =<< ls_ext "." ext)
addTime ext path =
addTime path =
do t <- getModificationTime path
if ext==".json"
then addComment (time t) <$> liftIO (try $ getComment path)
else return . makeObj $ time t
return $ makeObj ["path".=path,"time".=format t]
where
addComment t = makeObj . either (const t) (\c->t++["comment".=c])
time t = ["path".=path,"time".=format t]
format = formatTime defaultTimeLocale rfc822DateFormat
rm path | takeExtension path `elem` ok_to_delete =
@@ -336,11 +328,6 @@ handle logLn documentroot state0 cache execute1 stateVar
do paths <- getDirectoryContents dir
return [path | path<-paths, takeExtension path==ext]
getComment path =
do Ok (JSObject obj) <- decode <$> readFile path
Ok cmnt <- return (valFromObj "comment" obj)
return (cmnt::String)
-- * Dynamic content
jsonresult cwd dir cmd (ecode,stdout,stderr) files =

1
src/compiler/GF/Speech/CFGToFA.hs
View File

@@ -14,7 +14,6 @@ import qualified Data.Map as Map
import Data.Set (Set)
import qualified Data.Set as Set
import PGF.Internal
import GF.Data.Utilities
import GF.Grammar.CFG
--import GF.Speech.PGFToCFG

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

@@ -7,15 +7,12 @@
-----------------------------------------------------------------------------
module GF.Speech.GSL (gslPrinter) where
import Prelude hiding ((<>)) -- GHC 8.4.1 clash with Text.PrettyPrint
--import GF.Data.Utilities
import GF.Grammar.CFG
import GF.Speech.SRG
import GF.Speech.RegExp
import GF.Infra.Option
--import GF.Infra.Ident
import PGF
import PGF2
import Data.Char (toUpper,toLower)
import Data.List (partition)
@@ -24,7 +21,7 @@ import GF.Text.Pretty
width :: Int
width = 75
gslPrinter :: Options -> PGF -> CId -> String
gslPrinter :: Options -> PGF -> Concr -> String
gslPrinter opts pgf cnc = renderStyle st $ prGSL $ makeNonLeftRecursiveSRG opts pgf cnc
where st = style { lineLength = width }

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

@@ -11,7 +11,6 @@
-----------------------------------------------------------------------------
module GF.Speech.JSGF (jsgfPrinter) where
import Prelude hiding ((<>)) -- GHC 8.4.1 clash with Text.PrettyPrint
--import GF.Data.Utilities
import GF.Infra.Option
@@ -19,7 +18,7 @@ import GF.Grammar.CFG
import GF.Speech.RegExp
import GF.Speech.SISR
import GF.Speech.SRG
import PGF
import PGF2
import Data.Char
import Data.List
@@ -31,8 +30,8 @@ width :: Int
width = 75
jsgfPrinter :: Options
-> PGF
-> CId -> String
-> PGF
-> Concr -> String
jsgfPrinter opts pgf cnc = renderStyle st $ prJSGF sisr $ makeNonLeftRecursiveSRG opts pgf cnc
where st = style { lineLength = width }
sisr = flag optSISR opts

69
src/compiler/GF/Speech/PGFToCFG.hs
View File

@@ -6,60 +6,54 @@
----------------------------------------------------------------------
module GF.Speech.PGFToCFG (bnfPrinter, pgfToCFG) where
import PGF(showCId)
import PGF.Internal as PGF
--import GF.Infra.Ident
import PGF2
import PGF2.Internal
import GF.Grammar.CFG hiding (Symbol)
import Data.Array.IArray as Array
--import Data.List
import Data.Map (Map)
import qualified Data.Map as Map
import qualified Data.IntMap as IntMap
--import Data.Maybe
import Data.Set (Set)
import qualified Data.Set as Set
bnfPrinter :: PGF -> CId -> String
bnfPrinter :: PGF -> Concr -> String
bnfPrinter = toBNF id
toBNF :: (CFG -> CFG) -> PGF -> CId -> String
toBNF :: (CFG -> CFG) -> PGF -> Concr -> String
toBNF f pgf cnc = prCFG $ f $ pgfToCFG pgf cnc
type Profile = [Int]
pgfToCFG :: PGF
-> CId -- ^ Concrete syntax name
-> CFG
pgfToCFG pgf lang = mkCFG (showCId (lookStartCat pgf)) extCats (startRules ++ concatMap ruleToCFRule rules)
pgfToCFG :: PGF -> Concr -> CFG
pgfToCFG pgf cnc = mkCFG start_cat extCats (startRules ++ concatMap ruleToCFRule rules)
where
cnc = lookConcr pgf lang
(_,start_cat,_) = unType (startCat pgf)
rules :: [(FId,Production)]
rules = [(fcat,prod) | (fcat,set) <- IntMap.toList (PGF.productions cnc)
, prod <- Set.toList set]
rules = [(fcat,prod) | fcat <- [0..concrTotalCats cnc],
prod <- concrProductions cnc fcat]
fcatCats :: Map FId Cat
fcatCats = Map.fromList [(fc, showCId c ++ "_" ++ show i)
| (c,CncCat s e lbls) <- Map.toList (cnccats cnc),
(fc,i) <- zip (range (s,e)) [1..]]
fcatCats = Map.fromList [(fc, c ++ "_" ++ show i)
| (c,s,e,lbls) <- concrCategories cnc,
(fc,i) <- zip [s..e] [1..]]
fcatCat :: FId -> Cat
fcatCat c = Map.findWithDefault ("Unknown_" ++ show c) c fcatCats
fcatToCat :: FId -> LIndex -> Cat
fcatToCat :: FId -> Int -> Cat
fcatToCat c l = fcatCat c ++ row
where row = if catLinArity c == 1 then "" else "_" ++ show l
-- gets the number of fields in the lincat for the given category
catLinArity :: FId -> Int
catLinArity c = maximum (1:[rangeSize (bounds rhs) | (CncFun _ rhs, _) <- topdownRules c])
catLinArity c = maximum (1:[length rhs | ((_,rhs), _) <- topdownRules c])
topdownRules cat = f cat []
where
f cat rules = maybe rules (Set.foldr g rules) (IntMap.lookup cat (productions cnc))
f cat rules = foldr g rules (concrProductions cnc cat)
g (PApply funid args) rules = (cncfuns cnc ! funid,args) : rules
g (PApply funid args) rules = (concrFunction cnc funid,args) : rules
g (PCoerce cat) rules = f cat rules
@@ -67,26 +61,26 @@ 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),
fc <- range (s,e), not (isPredefFId fc),
startRules = [Rule c [NonTerminal (fcatToCat fc r)] (CFRes 0)
| (c,s,e,lbls) <- concrCategories cnc,
fc <- [s..e], not (isPredefFId fc),
r <- [0..catLinArity fc-1]]
ruleToCFRule :: (FId,Production) -> [CFRule]
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
| (l,seqid) <- zip [0..] rhs
, let row = concrSequence cnc seqid
, not (containsLiterals row)]
where
CncFun f rhs = cncfuns cnc ! funid
(f, rhs) = concrFunction cnc funid
mkRhs :: Array DotPos Symbol -> [CFSymbol]
mkRhs = concatMap symbolToCFSymbol . Array.elems
mkRhs :: [Symbol] -> [CFSymbol]
mkRhs = concatMap symbolToCFSymbol
containsLiterals :: Array DotPos Symbol -> Bool
containsLiterals row = not (null ([n | SymLit n _ <- Array.elems row] ++
[n | SymVar n _ <- Array.elems row]))
containsLiterals :: [Symbol] -> Bool
containsLiterals row = not (null ([n | SymLit n _ <- row] ++
[n | SymVar n _ <- row]))
symbolToCFSymbol :: Symbol -> [CFSymbol]
symbolToCFSymbol (SymCat n l) = [let PArg _ fid = args!!n in NonTerminal (fcatToCat fid l)]
@@ -102,10 +96,10 @@ pgfToCFG pgf lang = mkCFG (showCId (lookStartCat pgf)) extCats (startRules ++ co
symbolToCFSymbol SymALL_CAPIT = [Terminal "&|"]
symbolToCFSymbol SymNE = []
fixProfile :: Array DotPos Symbol -> Int -> Profile
fixProfile :: [Symbol] -> Int -> Profile
fixProfile row i = [k | (k,j) <- nts, j == i]
where
nts = zip [0..] [j | nt <- Array.elems row, j <- getPos nt]
nts = zip [0..] [j | nt <- row, j <- getPos nt]
getPos (SymCat j _) = [j]
getPos (SymLit j _) = [j]
@@ -113,9 +107,10 @@ pgfToCFG pgf lang = mkCFG (showCId (lookStartCat pgf)) extCats (startRules ++ co
profilesToTerm :: [Profile] -> CFTerm
profilesToTerm ps = CFObj f (zipWith profileToTerm argTypes ps)
where (argTypes,_) = catSkeleton $ lookType (abstract pgf) f
where Just (hypos,_,_) = fmap unType (functionType pgf f)
argTypes = [cat | (_,_,ty) <- hypos, let (_,cat,_) = unType ty]
profileToTerm :: CId -> Profile -> CFTerm
profileToTerm :: Fun -> Profile -> CFTerm
profileToTerm t [] = CFMeta t
profileToTerm _ xs = CFRes (last xs) -- FIXME: unify
ruleToCFRule (c,PCoerce c') =

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

@@ -11,12 +11,12 @@ import GF.Grammar.CFG
import GF.Speech.CFGToFA
import GF.Speech.PGFToCFG
import GF.Speech.RegExp
import PGF
import PGF2
regexpPrinter :: PGF -> CId -> String
regexpPrinter :: PGF -> Concr -> String
regexpPrinter pgf cnc = (++"\n") $ prRE id $ dfa2re $ cfgToFA $ pgfToCFG pgf cnc
multiRegexpPrinter :: PGF -> CId -> String
multiRegexpPrinter :: PGF -> Concr -> String
multiRegexpPrinter pgf cnc = prREs $ mfa2res $ cfgToMFA $ pgfToCFG pgf cnc
prREs :: [(String,RE CFSymbol)] -> String

8
src/compiler/GF/Speech/SISR.hs
View File

@@ -10,13 +10,9 @@ module GF.Speech.SISR (SISRFormat(..), SISRTag, prSISR,
import Data.List
--import GF.Data.Utilities
--import GF.Infra.Ident
import GF.Infra.Option (SISRFormat(..))
import GF.Grammar.CFG
import GF.Speech.SRG (SRGNT)
import PGF(showCId)
import qualified GF.JavaScript.AbsJS as JS
import qualified GF.JavaScript.PrintJS as JS
@@ -50,12 +46,12 @@ catSISR t (c,i) fmt
profileFinalSISR :: CFTerm -> SISRFormat -> SISRTag
profileFinalSISR term fmt = [JS.DExpr $ fmtOut fmt `ass` f term]
where
f (CFObj n ts) = tree (showCId n) (map f ts)
f (CFObj n ts) = tree n (map f ts)
f (CFAbs v x) = JS.EFun [var v] [JS.SReturn (f x)]
f (CFApp x y) = JS.ECall (f x) [f y]
f (CFRes i) = JS.EIndex (JS.EVar args) (JS.EInt (fromIntegral i))
f (CFVar v) = JS.EVar (var v)
f (CFMeta typ) = obj [("name",JS.EStr "?"), ("type",JS.EStr (showCId typ))]
f (CFMeta typ) = obj [("name",JS.EStr "?"), ("type",JS.EStr typ)]
fmtOut SISR_WD20030401 = JS.EVar (JS.Ident "$")
fmtOut SISR_1_0 = JS.EVar (JS.Ident "out")

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