hcq/MaxScale
hcq/MaxScale
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
MaxScale/query_classifier/qc_sqlite/sqlite-src-3110100/tool/lemon.c
Johan Wikman d115a54038 All changes 1.4.3...2.0.0 
b709e29 Fix URL typo in release notes
01f203c Update release notes
c49810a Update COPYRIGHT
e327526 Add BSL version number to LICENSE.TXT
07e3a4e Remove superfluous COPURIGHT.md and LICENSE.md
54c3310 Replace Dynamic Data Routing Platform with Database Proxy
305d02f Remove *.cmake wildcard from .gitignore
b0b5208 Cleanup of spaces
aeca6d0 Extend maxscaled error messages
817d74c Document where the CDC users are stored
9a569db Update license
ff8697a MXS-716: Fix table level privilege detection
2071a8c Only check replies of slaves that are in use
f8dfa42 Fix possible hangs in CDC python scripts
fa1d99e Removed "filestem option" from example
009b549 Removed "filestem option" from example
8d515c2 Add example Kafka producer script for Python
64e976b Fix sporadic SSL authentication failures
5a655dc MXS-814: Check service/monitor permissions on all servers
2a7f596 Add note about galeramon priority to Galera tutorials
b90b5a6 Fixed SHOW SLAVE STATUS in binlog router
e22fe39 Changed couln size for SHOW SLAVE STATUS
ae97b18 Fix avrorouter build failure with older sqlite libraries
56ef8b7 Replace GPL license with BSL license in scripts and tests
552836f Initialize all fields when MySQL users are loaded from cache
bf42947 Update all licensing related files
b29db9d Remove optimize_wildcard parameter from use
5170844 Make readwritesplit diagnosting output more clear
262ffb1 Fix crash when a config parameter has no section
33ac9e6 Add note about LEAST_BEHIND_MASTER and server weights
e13e860 Fix a memory leak when backend authentication fails
75d00c2 MXS-801: Set the default value of strip_db_esc to true
bd5f2db MXS-800: Add a log message about the working directory
4b1dd8c Update MySQL Monitor documentation on detect_replication_lag
559bc99 Fix installation of license file
b057587 Change LICENSE to LICENSE.TXT
223fa43 Remove null characters from log messages
36fd05b Fix fatal signal handler log message
053dc8a Fix typos in documentation
371dc87 Fix Galera text in Master-Slave tutorial
30b6265 Disable adding of new objects at runtime
db92311 Update the documentation on configuration reloading
0923d40 Update Connector-C version
c4738b5 Add define for avro-conversion.ini
196e6ac Update license from GPL to BSL.
e612366 Correctly calculate the number of bytes read in dcb_read
93a2a03 Update rotate documentation in admin tutorial
c5eb854 MXS-585: Fix authentication handling regression
6330070 Fix schemarouter memory leak
aa5827e Fix CDC authentication memory leak
a5af4ad Fix avro memory leaks
627d73f Fix Avro scripts
0ff7556 Add build instructions to avrorouter documentation
734a1c8 Fix doxygen mainpage
e51ce09 Add licence text to avro scripts
4d27c14 Update Avro documentation and fix installation directories
a58a330 Fix readconnroute error message about router_options
22b138c MXS-772: Fix postinstall script
a9960b7 Fix function declaration in mysql_backend.c
cbe1704 Add missing newline
09d76ee Fix avro documentation default values
1d3f8f3 Added refresh users on START SLAVE
880db34 Make router configuration errors fatal
3bad5ca Update documentation and add logging to avrorouter
10f3384 Disable SSLv3
ca8d902 Fix rwsplit error reporting when master is lost
e816d65 Fix MaxScale Tutorial
deca3e1 Update MaxScale man page
f1735b7 Update release notes
9238714 qc: Change type of DEALLOCATE PREPARE
0b77c3b dbfwfilter: Do not require a trailing new line
1152ca9 Remove copyright message
a038a85 Remove debug assertion on ERANGE error in galeramon
12ab235 Fix comparison error for connections limit.
5de1a8f qc_sqlite: Correct string recognition
b63d754 Fix links in documentation contents
05d457e CDC protocol link fix
50676ef Fix monitor code formatting
218ba09 Remove MaxScale-and-SSL.md
0d6845b Add images to Avro documentation and tutorial
8dd2c9b Update MaxScale-2.0.0-Release-Notes.md
6d4b593 Change avrorouter default transaction grouping
4c629de Add notes about monitor changes to upgrading and release notes
267d0dc Update Binlogrouter.md
c624781 Update Replication-Proxy-Binlog-Router-Tutorial.md
f3261bc CDC users
1368797 Format authenticator and module headers
ab01749 Format filters
8b05d32 Format core and include files
f3974e5 Add GPL LICENSE to qc_mysqlembedded
bfec36a astyle rabbitmq_consumer/consumer.c
54b960a Check that the Avro directory is writable
3d4cd2e Fix cdc_users using the wrong path for service users cache
1e738dd Add CDC client program documentation
f6809fd Remove superfluous rabbitmw_consumer/LICENSE
6b5e667 Update license text in files
9bfcb46 Change CDC protocol documentation formatting
607f25c  REQUEST-DATA formatting
8175ab4 CDC protocol update
d5ca272 CDC protocol update
6c91764 Only check wsrep_local_index if node is joined
f12e2c2 Do not use SSL for monitors and services
6d2cd99 Fix TestAdminUsers
f4ae50d Apply astyle to server/core/test/*.c
7cc2824 Update build instructions
cf8e2b5 Update release notes
03c7a6c Remove wrong function prototypes
5a11eed Revert "Remove duplicate functions"
80ed488 Remove duplicate functions
bb0de8d Add info on SSL and throttling to release notes for 2.0.
0934aee Update MaxAdmin reference guide
2a3fe9b Update source URL in release notes
e575cf0 Merge branch 'MXS-177-develop' into develop
cc8c88d Change header for BSL
ecde266 Change header for BSL
890b208 Log a message when a script is executed
9c365df Added information on server side SSL to config guide.
aa3e002 Remove obsolete heading
79dd73a Make dprintAllSessions use dprintSession
1fc0db9 Align output of "show services"
1b9d301 Make monitorShowAll use monitorShow
983615e Adjust output of 'show modules'
436badd qc_sqlite: The module is now beta
a7cbbe5 Update Upgrade document
71ac13f Remove obsolete user/password from example
eb20ff8 Fix and clean up Avrorouter diagnostics code
31d4052 Change MaxScale to MariaDB MaxScale
e6e4858 Fix `source` parameter not working with `router_options`
d8de99a Update module version numbers
eb81add Merge remote-tracking branch 'origin/develop' into MXS-177-develop
daba563 Merge remote-tracking branch 'origin/MXS-651-develop-merge' into develop
678f417 Changes in response to reviews.
410fb81 Changes in response to reviews.
60135e5 Add initial release notes about Avrorouter
7400ecc qc_sqlite: Remove uninitialized read
536962c Update version number
018f044 Fix debug assertion in client command processing
51f0804 Prevent 'show monitor' from crashing with failed monitor
559347e Fix "Too many connections" message; add comments.
01d3929 Add printf format checking to dcb_printf
fbd49a6 dbfwfilter: Require complete parsing only when needed
1885863 Add information to release notes about readwritesplit changes
73b56a2 Update MaxScale section in release notes.
0a2f56f MaxAdmin: Remove debug information from 'show users'
3cf3279 MaxAdmin: Report SSL information as well
29c2b66 Always use SSL if server configured with SSL
7d6b335 dprintAllServers should use dprintServer
02a5246 qc_sqlite: Correctly detect parsing context
469419b compare: Add strict mode
8c5b3d3 compare: Allow the comparison of a single statement
4691514 Add Updgrade to 2.0 document
38b3ecb Expand the checks done before a monitor is stopped
8e2cfb9 Add backend name to authentication error message
9600a07 Fix MaxInfo crash
91c58b0 Removed log message for duplicate entry while adding an user
40392fe Fixed log message priority
0ec35b8 maxadmin: Allow the last user to be removed
5a0ebed maxadmin: Change name of user file
87aa8f1 maxadmin: Always allow root to connect
bf37751 Fix COM_QUIT packet detection
7c93ee4 Update avrorouter documentation and tutorial
95ce463 Fix wrong directory in avrorouter log message
cfe54c7 Update ChangeLog
d69562c Fix LOAD DATA LOCAL INFILE data size tracking
24e7cd6 MXS-584: added support for SET @@session.autocommit
d6f6f76 Fixes, correct too many connections message
efeb924 Update release notes for 2.0.0
8f71a87 qc_sqlite: Adjust error messages
b967d60 Remove copy of enum enum_server_command
822b7e3 Update package license
b58301a Update MaxScale License for overlooked files
c09ee47 Update MaxScale License
49f46fa Tidy up. Comment out config items not yet supported.
f5c3470 Updated and simplified the Building from Source document
98b98e2 Add note about master failure modes to documentation
e036f2c Update Limitations document
62219a5 Merge remote-tracking branch 'origin/drain-writeq' into develop
5caf667 Invoke DCB_REASON_DRAINED more frequently.
77b107b qc_sqlite: Add support for LOAD DATA INFILE
8e70f26 compare: Optionally print out the parse result
ad750e6 Merge remote-tracking branch 'origin/MXS-651-develop-merge' into develop
ef85779 Merge remote-tracking branch 'origin/develop' into MXS-651-develop-merge
ea9fdda MXS-477: Add LONGBLOB support for readconnroute
eae6d42 qc_sqlite: Remove superfluous columnname definition
8fe2b21 Add binlog source to avrorouter
b25cc37 qc_sqlite: Add missing destructors
8a749e7 qc_sqlite: Reduce number of keywords
5f4bb8b compare: Output query immediately
2456e52 dbfwfilter: Reject queries that cannot be parsed
5f1fbbd qc_sqlite: Extend SET grammar
b8d8418 dbfwfilter: Remove 'allow' from firewall filter rule
0bd2a44 MXS-741 When no events are read from binlog file, ...
a07c491 Remove duplicated function (merge error, probably)
b237008 Save conflict resolution, missed last time.
a0c0b40 Merge remote-tracking branch 'origin/develop' into MXS-651-develop
385d47d Change SSL logic, fix large read problem.
b93b5e0 Remove false debug assertion
b953b1f Turn off SSL read ahead.
e0d46a5 Fix error messages and remove commented code
49b4655 MXS-739: Fix invalid JSON in Maxinfo
0c30692 qc_sqlite: Handle GROUP_CONCAT arguments
54e48a1 qc_sqlite: Consider \ as an escape character in strings
713a5d6 qc_sqlite: Add test cases
20d1b51 qc_sqlite: Handle qualified names in CREATE VIEW
1019313 qc_sqlite: Make QUERY_TYPE_WRITE default for SHOW
059c14e qc_sqlite: Accept qualified function names in SELECT
db34989 qc_sqlite: Accept qualified function names
b93e2f1 qc_sqlite: Add limited support for GRAND and REVOKE
678672d qc_sqlite: Cleanup copying of database and table names
9b744b9 qc_sqlite: Update table and database names at the same time
db75e61 qc: Support getting the qualified table names
1f867f4 qc: Add join.test
9c7e02a qc_sqlite: Accept "...from NATURAL straight_join..."
93d1c31 qc_sqlite: Both " and ' can enclose a string literal
8055b21 qc_sqlite: Set more information based upon tokens
37e3663 qc_sqlite: Do not blindly add affected fields
50f1360 qc: Correctly collect affected fields
71c234e qc_sqlite: Recognize CREATE TABLE ... UNION
01803f1 qc_sqlite: Recognize {DEALLOCATE|DROP} PREPARE ...
6ecd4b3 qc_sqlite: Parse index hints
0bdab01 qc: Compare sets of tables
b908c8f Fix double freeing of internal DCBs
8903556 qc_sqlite: Recognize LEFT, INSERT and REPLACE
266e6c0 qc: Log all problems by default (compare program)
7b54cac qc_sqlite: Fix logging bug
9566e9f qc_sqlite: Plug a leak
b0a860d qc: Run compare a specified number of times
050d698 qc_sqlite: Simplified argument handling
97c56b8 qc: Allow arguments to be passed to the query classifier
09a46e0 qc_sqlite: Add argument log_unrecognized_statements
fd98153 qc: Allow arguments to be provided to the query classifier
313aa7e Fix Problems SSL assertion; non SSL connect to SSL
1d721e6 Fix DEB packaging errors
96bdc39 Fix RPM packaging failures on CentOS 7
6ba900d qc_sqlite: Recognize more SHOW commands
2869d0b qc_sqlite: Exclude support for sqlite's PRAGMA
0be68a3 qc_sqlite: Enhance SELECT syntax
28f3e1a Merge branch 'develop' into MXS-729
e18bd41 qc: Expose the result of the parsing
5896085 Add BUILD_AVRO to the CMake cache
daeb896 Remove changes to blr_master.c memory handling
d523821 Add comments
4eb9a66 Empty admin users file is now handled
52b46c6 qc: Update create.test
db09711 qc_sqlite: Ignore case when looking for test language keywords
f042a1d qc_sqlite: Extend CREATE TABLE syntax
177d2de qc_sqlite: Extend CREATE TABLE syntax
d3ca8e6 qc_sqlite: Add some support for HANDLER
86c6a96 qc_sqlite: Recognize RENAME TABLE
471594f qc_sqlite: Accept more table options at CREATE TABLE
3da6cde qc_sqlite: Remove unused keywords
bd89662 Fix crash on corrupted passwd file
b5d1764 MXS-733: Always print session states
043e2db Remove unused CMake variables
5604fe2 Restore missing line, fixes logic error.
66d15a5 Added log message warning for old users found
5be9fca Changes in response to review by Johan
899e0e2 Removed password parameter from admin_user_add and admin_remove_user
a2d9302 Merge branch 'develop' into MXS-729
bcaf82f Code review update
e61c716 Nagios plugin update with Maxadmin using UNIX socket only
d7150a2 qc_sqlite: Extend column syntax
3b78df0 qc_sqlite: Accept VALUE in addition to VALUES
85a705b qc_sqlite: Accept CHARSET in addition to CHARACTER SET
db9cec8 qc_sqlite: Accept qualified column  names in CREATE TABLE
a9cabb0 qc_sqlite: Extend SELECT syntax
f5e9878 qc_sqlite: Add set type
675cb93 qc_sqlite: Allow BINARY to turn into an identifier
b04a760 qc_sqlite: Accept DROP TABLES
1075d9c qc_sqlite: Allow qualified name with LIKE in CREATE
420ac56 qc_sqlite: Extend EXPLAIN grammar
727d626 Add missing error message to readwritesplit
f4fd09e Change templates and testing configurations to use sockets
1ef2e06 Add configurable default admin user
a723731 Remove wrong file
7c3b02b Maxadmin/maxscaled UNIX socket update
eed78d4 qc_sqlite: Pick out more information from select when CREATEing
267f091 qc_sqlite: Recognise DROP TEMPORARY TABLE
54fc29f qc_sqlite: Accept $ as a valid character in identifiers
afa2ec9 qc_sqlite: Allow keywords to be used in qualified name
db0427d MXS-729 code review update
a3b3000 Merge branch 'develop' into MXS-729
e73d66c qc_sqlite: Identify qualified identifiers
5bacade Trailing space fix
3bc9be3 MXS-729 socket=default support in maxscale.cnf
1a5c23c Code review update for MXS-729
d6665c7 qc_sqlite: Extend CREATE TABLE grammar
91725ce qc_sqlite: Dequote table and database names
cd7a022 qc: Add create test
1aa4e6b qc: Update test files
762b0c2 qc_mysqlembedded: Do not return "*" as table name
cd9968f qc_sqlite: Update delete.test
f16703d qc_sqlite: Add support for CALL
e3ca9b4 qc_mysqlembedded: Do not return an array of empty strings
5878a22 qc_sqlite: Support selects in DELETE
1cf0444 qc_sqlite: Fix bug in DELETE grammar
0bf39a1 qc_sqlite: Add support for CHECK TABLE
4a8feca qc_sqlite: Add helper for catenating SrcLists
ab299b3 qc_sqlite: Extend DELETE syntax
5778856 qc_sqlite: Extract database name as well
99901f1 qc_sqlite: Extend DELETE syntax
63396f8 qc_sqlite: Match "autocommit" caseinsensitively
e804dd3 qc_sqlite: Add support for LOCK/UNLOCK
c23e442 qc_sqlite: Extend DELETE syntax
5460e31 qc: Add delete test
ab392ad qc_sqlite: Free unused data
598c6f0 qc: Measure time of parsing
2fa3844 qc_sqlite: Put all changes being {%|#}ifdefs
1b43992 qc_sqlite: Modified update.test
1676ea4 qc_sqlite: LEFT|RIGHT are not required with JOIN
224ebd3 qc_sqlite: Extend UPDATE grammar
dbecca9 qc_sqlite: Extend UPDATE grammar
b6ca3b3 MaxAdmin security modification MXS-729
8fb47dd Remove copying of MariaDB embedded library files
22e1257 Normalize whitespace when canonicalizing queries
269cff2 MXS-697: Fix dbfwfilter logging for matched queries
6344f6f Ignore Apple .DS_Store files.
d606977 Improve comments in response to code review.
619aa13 Add configuration check flag to MaxScale
27c860b Drain write queue improvements.
33d4154 Read only one configuration file
d104c19 Format more core files
83fdead Format part of core source code
311d5de Format gateway.c and config.c with Astyle
8cbb48e Don't build maxavro library if BUILD_AVRO is not defined
32bb77a Merge branch 'MXS-483' into develop
db72c5d Format CDC/Avro related files
3c26e27 qc_sqlite: Use SrcList instead of Expr
f96ad6a Merge branch 'develop' into MXS-729
0728734 Fix query canonical form tests
e68262d Merge remote-tracking branch 'gpl-maxscale/master' into develop
65460dc Fix missing symbols from MySQLAuth
791c821 MaxAdmin listens on UNIX socket only and maxadmin can connect
89afed6 MXS-66: All configuration errors are fatal errors
d613053 Add more details to galeramon documentation
22f4f57 qc: Add support for multi UPDATE
0dba25a Added default port to blr_make_registration
9d8248c qc_sqlit: Plug leaks and access errors
057551a qc_sqlite: Fix to small an allocation
1f73820 qc_sqlite: Free memory allocated during parsing
93fefb9 qc: Enable compare to run the same test repeatedly
e52c578 qc_sqlite: Handle last_insert_id()
929e02a qc_sqlite: Extend UPDATE grammar
de3b9f7 qc_sqlite: Defines provided when running cmake and make
4d5c3b2 qc_sqlite: Add support for multiple-table DELETE FROM
36a4296 qc_mysqlembedded: Handle SQLCOM_DELETE_MULTI
41f613a Fix DCB and SESSION removal from free object pools
00f2ddd Move some common code used in only one protocol into protocol.
6fbd0b0 Format Go source with gofmt
abfbbcb Fix build failures and internal test suite
31de74a Merge branch 'develop' into MXS-483
20d461d Remove uniqueness constrain on oneshot tasks
6c09288 Add missing error message to converter task
0c2c389 Merge branch 'develop' into MXS-483
fa0accc Set freed memory to NULL after authentication failure
63f24e4 Install cdc_schema.go
5123c21 Fix ALTER TABLE parsing
004acc2 Merge branch 'develop' into MXS-483
f69a671 Remove array foreach macro use
a159cd9 qc_sqlite: Add support for SHOW DATABASES
31a2118 Make qc_mysqlembedded optional
27ef30e Changed the default query classifier
359010d Add -h flag as the alias for --host
bebc086 Fix minor bugs
c7ca253 qc_sqlite: Recognize START [TRANSACTION]
240f8bf qc_sqlite: Collect info from nested SELECTs
93ea393 qc_sqlite: Pass along the relative position of a token
cc960af qc_sqlite: Fix incorrect assigment
22a6fef Fix `gtid` avro index table
4c38bef qc_sqlite: STATUS is not a registered word
cace998 qc_sqlite: Include all fields of UPDATE
997b19c qc: Add update tests
7601b3f qc_sqlite: Parse "INSERT INTO t VALUES (), ();" correctly
ca426f1 qc_sqlite: Handle CREATE TRIGGER
f54f963 qc_sqlite: Allow INSERT without INTO
e4a1b6d Remove foreign keys from Avro index
e4501a2 Merge branch 'develop' into MXS-483
82b9585 Fix MMMon never assigning master status
a45a709 qc_mysqlembedded: Find the leaf name
2f3ca8f qc_mysqlembedded: Recognize SQLCOM_REPLACE
cc7ad83 qc_mysqlembedded: Pick up fields for INSERT SELECT as well
0e6b39e qc: Cleanup of select.test
9113f4f qc_sqlite: Pickup more fields from INSERT
4d58f98 Dummy query classifier
dfe824f Document `query_classifier` option
4aa329b MXS-718: Collect fields of INSERT
53818f2 Modify packet number for SSL backend connection
346f973 qc_sqlite: Accept qualified column names
8a83616 Fix in-memory SQLite table structure
6f2c884 Further backend SSL development
4444e92 qc_sqlite: Extend INSERT grammar
2aebcab qc_sqlite: Add support for TRUNCATE
1a6742e qc_sqlite: Accept DEFAULT as value in INSERT
07dec05 qc_sqlite: Crude classification made based on seen keywords
a90a579 Add missing function documentation
72bd0cf qc_sqlite: Change CREATE TABLE grammar
6e04bc8 qc: Add INSERT tests
3666bda qc_sqlite: Add SELECT test
d27e173 Add server/mysql-test/t/select.test to query_classifier
562d004 qc_sqlite: Cleanup error logging.
819cacb Merge branch 'develop' into MXS-483
0d3a789 Add warnings and comments to Avro row event processing
2fab570 Added support for SET autocommit=1
1aa83cf Code review fix
c999f0a Addition of SELECT USER()
8c723da Clean up avro_client.c and avro_file.c
eb21ee8 Clean up avro.c
946a284 Added Avro schema to table metadata processing
72f90be qc_sqlite: Add support for CREATE {FUNCTION|PROCEDURE} ...
4a4ab49 qc: Update line number also when skipping a block
ffddb2a qc_sqlite: Allow queries using INTERVAL
b8b03bd qc_sqlite: Add support for SELECT * FROM tbl2 = tbl1;
77a261a qc_sqlite: Add support for GROUP BY ... WITH ROLLUP
0ead41e cdc_schema now generates lowercase JSON
66e327a Classifier has to be specified explicitly
9074b91 Updated Avrorouter documentation
cf06c7a qc_sqlite: Some comments added.
f579eff Added simple Go based Avro schema generator
f448e90 MXS-419: Added ulimit calls to init scripts
b4ad257 Added FindAvro.cmake
56cc9b9 Added the last transaction script to installations
2d52da2 Added temporary avro-alpha package name
6ada071 Fixed cdc_users script
61f0206 Renaming and minor fixes to CDC Python scripts
9d77c32 Moved GTID table tracking to an in-memory database
8ae7cb0 MXS-704: Fixed `which` usage in post-install scripts
195e118 Readwritesplit sessions aren't created if master is down
2be91da Added affected tables to avro diagnostics
b185320 QUERY-LAST-TRANSACTION now returns proper table names
90860b5 Log stale master message only once
4859c60 Table name to GTID mapping
f77bd23 First steps to backend SSL, not yet working.
68b5bf0 qc_sqlite: Don't treat TRUE and FALSE as identifiers
fca8e59 qc_sqlite: Collect database names as well
6b0e04d qc_sqlite: Add support for SHOW CREATE VIEW
77f4b34 qc_mysqlembedded: Report more, rather than less
a73e033 qc_sqlite: Extend builtin functions
9d9650e qc_sqlite: SQL_BUFFER_RESULT must decay to an id
83fe99d qc_sqlite: Support INSERT IGNORE
9d1c9ca Added avrorouter limitations and tutorial
8dd094d qc_sqlite: Recognize builtin functions
2edc3d6 Moved write operations of the maxavro library to a different file
1364e54 Added more comments to the Avro RBR handling code
f711588 Added warnign about unsupported field types
df0d250 Added SQLite3 based indexing to avrorouter
0c55706 Added GTID event flag check in AVRO processing
bfe28dd qc_sqlite: Accept SET GLOBAL|SESSION ...
a8d2068 qc_mysqlembedded: Exlude code that won't compile on 5.5.42
16ea0b3 qc_sqlite: Add support for DROP FUNCTION
1c0f1fc qc: Report stats after comparison
02345b2 qc_sqlite: Recognize builtin readonly functions
c7a5e75 qc_sqlite: Recognize :=
0aa849d qc: Make compare undestand the delimiter command
fb0a877 qc_mysqlembedded: Examine Item::SUBSELECT_ITEMs
045cf8d qc: Add missing mtl commands
e5c6f45 qc_sqlite: Relax qc_get_type comparison
ac3b2df qc_sqlite: Add support for SHOW STATUS
73a34fb qc_sqlite: Add initial support for FLUSH
4ffbe79 qc_sqlite: Extend CREATE TABLE syntax
009af81 qc_sqlite: Add support for SHOW WARNINGS
001de97 qc: Ignore mysqltest constructs
128307d Merge branch 'release-1.4.3' into gpl-master
5e8a06a SET NAMES XXX added
3ca12ba MXS-685: MMMon clears server state before setting it
dc4d2b0 Further steps to connection limit, non-working.
ef70257 MXS-636: Master failures are no longer fatal errors
99f4c64 Updated QUERY-LAST-TRANSACTION format
d1ff157 Changed QUERY-LAST-TRANSACTION format to JSON
8b2f1ac Fixed formatting of the avrorouter
61543df Added QUERY-LAST-TRANSACTION command
c10d10b qc_sqlite: Add support for SHOW CREATE TABLE
106a38f qc_sqlite: Add support for DROP INDEX
2a85421 qc_sqlite: Extend what can be stated about a table
794cd1c qc_sqlite: Add support for MATCH ... AGAINST
dd7b747 qc_sqlite: Accept FULLTEXT and SPATIAL in CREATE TABLE
a13d6ce qc_sqlite: Add support for PREPARE and EXECUTE
0c5d29f qc_sqlite: Add support for ANALYZE
a6cd32b qc_sqlite: Extend SET syntax
5d47704 qc_sqlite: Pick out fields from UPDATE t SET i = ...
0e05735 qc: Understand --error in server test files
8535975 qc_sqlite: Extend CREATE VIEW syntax
b35e638 qc: Igore read type bit if write bit is on
818a814 qc_sqlite: Add support for SHOW VARIABLES
1aa877b qc_sqlite: Add initial support for DO
e92913a qc_sqlite: Add support for CREATE VIEW
d53a46d qc_sqlite: Recognize bit field literals b'1010'
1fb7977 Added GTID event timestmap into struct gtid_pos
8f95b10 Added new fields in AVRO diagnostics
cb4db54 Added tests with large SQL packets to modutil tests
e4dbd6b MXS-621: More fixes to log messages at startup
4f1e9ee qc: compare tester can now read server MySQL tests
cd8154b qc_sqlite: Allow CHARACTER SET to be specified for column
6f8d053 Added MariaDB 10.1 check for new flags in GTID event
71c471b qc_mysqlembedded: Fix type bits setting
26b00a7 qc_sqlite: Extend ALTER grammar
ea6057c qc_sqlite: Handle also pInto when dupping a struct select
2271559 qc_sqlite: Add support for SHOW TABLE STATUS
9caaf27 qc_sqlite: Add support for CREATE ... LIKE oldtable
cd19932 Merge tag '1.4.2' into master
9e9e4d8 Merge branch 'develop' of https://github.com/mariadb-corporation/maxscale-bsl into develop
267cb60 qc_mysqlembedded: Look into parenthesized comma expressions
77c6ca9 qc_sqlite: Recognize token "<=>"
5ca9a9f qc_sqlite: Allow comma expressions in where clause
b08e910 qc_sqlite: Add SELECT options
d11e581 qc_sqlite: Some recursion cleanup
d53d063 Add but don't invoke connection queue functionality.
6818104 Fix logic error in connections limiter
3c61605 qc_sqlite: Find more affected fields
9af8dfd Allow the classifiers to be specified on the command line
5d4a134 Activate call to protocol for max connections error message.
16638e7 Fix another mistake
234f9e6 Fix mistake
843a6fc Fix mistake.
2c6e9ad Fix errors in config.c; enable call to protocol on connection limit.
fd27849 Introduce configuration items for Maximum and Queued Service connections
60d198d Implement very simple connection limit.
84d8f0f Merge remote-tracking branch 'origin/develop' into MXS-177
8a58e63 Merge remote-tracking branch 'origin/develop' into develop
08487cd Add assertion to enforce number of free DCBs not being negative.
f73af2f Added MariaDB 10.1 check for new flags in GTID event
23898ec Fix wrong sprintf specifier, trailing white space.
ea6cfa3 readwritesplit: Cleaned up routeQuery
3858df0 Cleaned up select_connect_backend_servers
c38ee13 Added more buffer tests
48816df Added more modutils tests
537eac2 Added tests for modutil_get_complete_packets
22a6095 MXS-669: modutil_get_complete_packets no longer makes the buffer contiguous
51af97e qc_sqlite: Add support for CREATE INDEX
e50c573 qc_sqlite: Dig out fields for IN
f58c6df qc_sqlite: Dequote table name
319422b qc_sqlite: Accept ENUM as type for a column
5d6a45c qc_sqlite: Allow UNSIGNED to fallback to an id
16a5f20 qc_sqlite: Extend CREATE TABLE syntax
d6268da qc_sqlite: Accept RIGHT and FULL OUTER joins
2207415 qc_sqlite: Allow STRAIGHT_JOIN in SELECT
6fee546 qc_sqlite: Pick upp more table names
9de5f84 Remove trailing white space.
758f84d Improve comments and messages in dcb.c and session.c re recycle memory.
1c2de21 Merge remote-tracking branch 'origin/develop' into dcb-optimise
6614944 DCB code tidying. Fix missing spinlock release; remove redundant variables
ecd5e5c Remove extra code introduced by merge.
877127a Merge commit '3c0d3e5ab6ddde59da764ec904b517759074a31e' into develop
4275bbe Updated the Connector-C version to 2.2.3
c71042b Some tentative list management code; provide for counting service clients.
ad0c8a6 qc_sqlite: Allow empty insert statement
72e75e5 qc_sqlite: Add support for SELECT ... INTO
cc553fa qc_sqlite: MAXSCALE define can now be used everywhere
3305c6e qc_sqlite: Handle CASE in SELECT
702f62e qc_sqlite: Extend CREATE TABLE grammar
941c212 qc_sqlite: Add support for SHOW [INDEX|INDEXES|KEYS]
6a79136 qc_sqlite: Extend grammar for SHOW TABLES and SHOW COLUMNS
f175d2d qc_sqlite: Add SHOW COLUMNS support
6e47951 qc_sqlite: Add support for SHOW TABLES
bcfa0e7 qc_mysqlembedded: Return the actual name and not as-name
3e19f2e Fixed qlafilter build failure
810b24e MXS-675: Standardized qlafilter output
be92173 qc_sqlite: Exclude alias names from affected fields
9479280 qc_sqlite: Add support for explain EXTENDED
13b0e10 qc_sqlite: Add support for DELETE
a6ccfea qc_mysqlembedded: Look at all conditional items
b428041 qc_sqlite: Extend SELECT options
83f829f query_classifier: Correctly calculate the length of a GWBUF
2ddb24c query_classifier: Ensure that -- comments are handled
fa7a746 qc_sqlite: Allow STRAIGHT_JOIN in SELECTS
6f47819 FindLibUUID update
5ed897b Added FindLibUUID cmake file
16e02bb Added FindLibUUID cmake file
aff63e0 MXS-680: qc_mysqlembedded does not look into functions
8a0eeb4 query_classifier: Improve output of compare
6f08185 Query classifier can now convert enums to strings
124e2b9 MXS-679: Correctly collect fields of WHERE
353c97c transaction_safety default is off
896e37b qc_sqlite: Invert stop logic and be more verbose
7a44d4d qc_sqlite: Extend what is accepted in CREATE TABLE
4dbf499 qc_sqlite: Accept FIRST in ALTER TABLE
3f655c0 qc_sqlite: Update table and affected fields for INSERT
8e1e275 qc_sqlite: Make AS optional in CREATE statement
5f2084b qc_sqlite: Add support for ENGINE when creating a table
242f183 qc_sqlite: CREATE paramters handled in the correct place
8ed2e25 qc_sqlite: Trace only when needed
63d4531 qc_sqlite: Update affected fields also from functions
118cdc3 qc_sqlite: Allow multiple index names in USE|IGNORE INDEX
912da76 qc_sqlite: Add initial support for ...IGNORE INDEX...
0aa7de6 qc_sqlite: Log detailed message on error
3e3bf1a qc_sqlite: Extend create syntax.
c4a4572 qc_sqlite: Exclude quoted values
1621f49 Removed MYSQL_EMBEDDED_LIBRARIES
d3e324c UUID generation now comes from libuuid
e8fe678 qc_sqlite: Enable confitional compilation
a9522ba qc_sqlite: Handle X.Y selects
9bc9770 qc_sqlite: Use same stream when outputting padding
366257a qc_sqlite: Add support for UNSIGNED and ZEROFILL
d4d90ff qc_sqlite: Add support for DROP VIEW
d0519bd qc_sqlite: Extend DROP TABLE syntax
c1e4894 qc_sqlite: Add flag to compare for stopping at first error
9fd6344 MXS-674: Maxinfo generates invalid JSON
3c0d3e5 Fix stupid errors.
9d32b2d Include read queue in buffer provided by dcb_read; changes to match.
b690797 Fix double spinlock release in random_jkiss.
6a4328f Fix problems of memory not being freed in some error cases.
2112e56 Change DCB and Session handling to recycle memory; fix bug in random_jkiss.
3912f72 MXS-631, MXS-632: Cleaned up default value CMake files
383ccb8 Fixed build failure on MariaDB 5.5
a60bca5 Merge branch '1.2.1-binlog_router_trx' into develop
3c2a062 Fix to crashes in embedded library with MariaDB 10.0
d3fe938 MXS-662: Service protocol check no longer ignores bind address
c3da49b qc_sqlite: Update affected fields from everywhere
7a0fab8 qc_sqlite: Allow verbosity of compare test to be controlled
81d6822 qc_sqlite: Cleanup handling of select columns
13e5c59 qc_sqlite: Introduce custom allocation functions
026f27d qc_sqlite: Add support for "USE database"
99079df qc_sqlite: Ignore duplicates when comparing affected fields
ca45cd6 qc_sqlite: Add initial support for qc_get_database_names
75970b6 qc_sqlite: Add support for DROP TABLE.
b97e45d qc_sqlite: Move get_affected_fields() to other helpers
cb0fa96 qc_sqlite: Collect table names of INSERT
3a7c513 qc_mysqlembedded: Only look for created name if CREATE
308b0a4 qc_sqlite: Add support for gc_get_created_table_name.
0dc4af2 qc_sqlite: Add qc_has_clause() handling to update
e9f2d1d qc_sqlite: Update now also provides table names
c3192e4 qc_sqlite: Add initial support for get_table_names
c51eafd qc_sqlite: Add support for qc_has_clause
f318fb2 qc_mysqlembedded: Work around embedded lib bug
4ba2e11 qc_sqlite: Add initial support for qc_get_affected_fields
080dea5 qc_sqlite: Support is_read_query
3f94df1 Fixed compare.cc build failure
868a712 Updated freeing of buffer chains in readwritesplit
9bf7fca Formatted readwritesplit source code
de4da2b Add assertion to spinlock release to detect release of already released spinlock.
d30955a qc_sqlite: Handle the default case of affected fields.
5d02b3f qc_sqlite: Set operation when creating table
94a334d Add test for comparing qc-output
aa6f5d6 Allow a specific query classifier to be loaded explicitly
c799d37 Test both qc_mysqlembedded and qc_sqlite
f8d9aa1 qc_sqlite: Enable "set @user_var=@@system_var"
f190bdc qc_sqlite: Recognize /*!-comments
b694b55 Fixed binary Avro format streaming
c95fa86 qc_sqlite: Report correctly the type of set autocommit
9cb236c qc_sqlite: Add test case
77b4e62 Ensure classify test checks all types
962039e Change return type of qc_get_type
ae00df8 qc_sqlite: Add initial support for the SET statement.
88253c5 qc_sqlite: Rename functions
fa48043 Rework of MySQL backend protocol clean up to fix fault.
3851064 qc_sqlite: Correct recognition of system variables (@@xyz).
9d86f7f qc_sqlite: Detect user and system variables.
a683297 qc_sqlite: Recognize and accept system variables (@@xyz).
a4f64dd qc_sqlite: Add initial support for CREATE [TEMPORARY] TABLE
f834b4f MXS-661: Only COM_QUERY packets are parsed
30077c1 CMake policies set only for correct versions
a166f34 Suppress warning about unknown CMake target
1412730 Added more variables to launchable monitor scripts
358c194 MXS-656: Galera nodes with index 0 can be master again
842aec5 qc_sqlite: Add support for BEGIN, COMMIT, ROLLBACK
b9cad6d Add initial support for UPDATE.
95741cb Add initial support for insert.
3796158 Re-install sqlite whenever parse.y has changed
5bcd8cf Ensure that the query is the one passed
cf05533 Add support for obtaining the type of a query
400d8b4 Always log the outcome
45cf632 Fixed resource leaks and minor bugs
fa9e970 Printout the query when there is a mismatch.
263cb07 All classify to be used with any query classifier
ea381b9 Further cleanup of classify.c
23f6f30 Merge pull request #107 from godmodelabs/typo-dpkg
8c2a64e Fixed classify build failure
0c3070b Fixed binlog to Avro conversion bugs
b827ba9 MXS-653: Silence maxpasswd
30d981c MXS-654: Add test for checking maxpasswd
984039b Rearrange classify.c
837e46d Add log initialization
1cc7a6e Reformat query_classifier/test/classify.c
065a4e5 Merge branch 'develop' into develop-MXS-544-b-merge
ca27f13 Fixed binlog build failure
fb81be2 fixed typo dpgk <-> dpkg
1e88d5d Added python based CDC user creation script
040bbdd MXS-633: Monitor permission checks moved to modules
cde7595 Master-Slave clusters are now robust by default
158c776 Cleaned up core test suite
94c6e66 Fixed bugs resulting from merge
a491e11 Merge remote-tracking branch 'origin/MXS-544-b' into develop-MXS-544-b-merge
30f9f25 Cleaned up avro.c
6286f64 Merge branch 'release-1.4.1' into develop
00206ac MXS-194: Added support for more query types to dbfwfilter
267832b Fixed diagnostic output
a64b694 Fixed bugs in avrorouter
8faaba1 Fixed a bug in GTID seeking
a5fafb7 Fixed typos in avrorouter documentation
8080379 Added avrorouter documentation
fa07d8a Fixed dbfwfilter rule parser build failure
744ce0d Constraints are ignored in DDL statement processing
50808c6 Cleaned up avrorouter
47f6032 Merge branch '1.2.1-binlog_router_trx_lint' into develop
caa0956 Added missing dependencies to maxscale-core
92df61a Remove parallel make from travis coverity builds
fa2b2b4 Added more error logging to Avro record reading
9a98e8b Support for GTID requests and data bursts
c2a787b Small diagnostic fix
c4cee7e Added format output requested by client
50483c7 Cleaning up of Avro code
d485379 Added support for binary Avro protocol
c22cdbb Converted Avro GTID from string to integer representation
5795ca9 Added coverity notification email to .travis.yml
a06e44d Added coverity_scan to Travis
6b94384 Fixed memory leak in avro_schema.c
a11096c Support for db.table request for Avrorouter
4e5cbbf Fixed bugs in Avro record reading
a99e427 Fixed minor bugs in avrorouter
01db8ae Fixed errors with CREATE TABLE statements
f5f3d7a Diagnostic routine update
209324f Added missing include for log_manager.h
e62f764 Added sending of schemas and file rotation
8c8fcbb Added missing log_manager.h include
b13942d Changed printf calls in maxavro library to MXS_ERROR
1168962 More lint inspired changes, mainly in blr_master.c and blr_slave.c
ced8f2f Fixed directory checks in avrorouter
a8ae6be Minor fix to string processing
fbd2d95 Fixed typo in dbfwfilter's CMakeLists.txt
29c3cf4 Merge pull request #106 from mariadb-corporation/willfong-patch-1
854d4e9 Add password column name to example
2f956df Moved server state change logging to a common function
007121f Fixed truncated string values
782892b Fix lint errors and warnings for blr_file.c
4f99fc5 Added Avro testing script
2820980 Small fix to help clear lint problems in blr.c
3afeda4 Fixed errors and warnings located by lint
ecfff82 Fix most lint problems in blr.c
223689c Added ALTER TABLE support
80bc935 Fix final lint problems with mysql_common protocol functions.
e068310 Added preliminary alter table parsing
8c723f1 Lint monitor modules
fdb5620 Fix lint issues in authenticators.
84f0e04 Added function documentation and renamed files
365d9f5 Tidy up, mainly for lint
2ff3005 Added update rows event processing and event types to avro records
2ae0371 Fixed failing regex and improved data streaming
f19206a Renamed avrorouter header
aa7174b Moved relpacement and storage of ddl statements to a separate function
0c10be8 Improved client notification and added Avro block size managemet
91405a7 Cleaned up instance creation
dd97485 Removed useless vars
af64e9e Added CDC authentication with a db file
b73a118 Streamline and lint MySQL backend protocol.
65034ce Merge branch 'release-1.4.0' into develop
28f7e4e Added callback for AVRO client async data transmission
628c27a Added MAXAVRO_FILE struct to AVRO_CLIENT
32b3645 Fixed slavelag build failure
7b15542 Added default authentication method for CDC protocol
5f8e20f Renamed maxavro types and formatted files that use them
882cf84 Added more function documentation to maxavro library
9532f0b Fixed CDC protocol build failure
35a1d3a Added support for offsets in client requests
94577ac Fixed, formatted and refactored CDC protocol
da9bcad Use the maxavro library to read data from Avro files
3ececee Added low level error checking to maxavro library
01b0b8b Tidy and lint mysql_client.c
943f0a7 Added handling of Avro boolean data types to maxavro library
4c781f7 Cleaned up maxavro library and avrorouter
6b2e85d Renamed functions more consistently and cleaned up code
e07158a Moved query event handling to its own function
df7d4c0 Added avro_ prefix to rbr.c
fcbfceb Added seeking to a position in an Avro file
068243a CDC auth decoding
3584d54 Add checks to simplify downstream logic.
9b2c323 Removed useless fprintf
bd5cd52 Added missing authfunc setup
e4aff59 Added record value processing
5cc8615 Added value length functions
7921ecc Merge branch 'MXS-615' into MXS-483
4b09cca Added Travis status to readme.md
cca3a48 Simplify interface to max admin authentication.
4739838 Authenticator API update
233505f Maxavrocheck now accepts multiple files
3fdd137 Improved the Avro file handling
a6ba913 Merge from MXS-615
417d742 Added maxavrocheck
014f9cf Remove obsolete second parameter from authenticate function in authenticators.
ece7ece MaxAdmin authentication converted to a module. Fix quirk in SSL setup.
7c8b37e Moved contents of avro_schema.h into mxs_avro.h
d6660cf Improvements to type handling
71ed0cf Protocol API to have entry point for obtaining default authenticator name.
9d35de2 Fixed transaction tracking
5be02a2 Avrorouter internal state is now stored in the Avro file directory
9293464 Added new info to avro diagnostics
06e0e93 Protocol modules can still handle the authentication outside authenticator modules
6d7108b Added JSON output when Requesting an avro file
6188211 Added new CDC protocol state
c8af27f CDC authentication uses its own authenticator
6590f94 Factor out qc_get_qtype_str
b7880f1 Fix qc_sqlite CMakeLists.txt
bd4ff43 Fixed connector-c being updated and built after every make invokation
0d9e57b Fixed non-MariaDB connectors being used in builds
3d3b779 FIX BUG IN CLIENT DCB SHUTDOWN THAT CAN CAUSE CRASHES
e45ba33 Fixed Connector-C .cmake files
c130189 Fixed connector-c being updated and built after every make invokation
7f3cdf3 Fixed errors on binlog rotation
9d3c83a Remove qc_sqlite
15e8ba5 CDC protocol is now compliant with new protocol structure
4460869 Merge branch 'release-1.4.0' into MXS-483
ea40812 Cleaned up the binlog processing loop
cb646ca Add minimal select recognition to qc_sqlite
ac1a9c5 Fixed binlogrouter test
85dd227 Re-route sqlite's sqlite3Select.
7a2e6f3 Update CMakeLists.txt for qc_sqlite
7a751c3 Added timestamps to records and fixed minor bugs
f73bdde Avrorouter state storage to disk
fcf0488 Fixed Connector-C .cmake files
48b8e4e Merge branch 'MXS-615' into MXS-615-binlog-merge
7c8e19f Add missing dependencies for qc_sqlite
bb9b667 Improvements to type handling and binlog position tracking
dc66b74 Client UUID added
f12fce4 AVRO registration is now handled by avro router
575b809 Add skeleton sqlite-based query classifier.
d09d5fc Build sqlite
146d1f9 Fixed BLOB type handling and refined error messages
6e9e521 Added client user to diagnostics
4538bb8 Merge pull request #104 from rasmushoj/develop
7e18d95 Avro router diagnostics routine update
01e3f75 reverted changes in CMakeLists.txt
52f7c78 reverted changes in postinst.in
eaed577 Added sqlite 3110100
a58cdda Travis configuration for MaxScale. ...
38b452d MIGRATE FREE CLIENT DATA TO AUTH MODULE; BUG FIXES; TIDY UP
6e64506 Fixed minor bugs
aff2411 Enabled CDC protocol
f669100 Fixed NULL Avro value being assigned to a field which cannot be NULL
8f6b16a Added row event processing to avrorouter
2939fe0 Updated Avro schema management to use actual column names
9e3b0cb Removed use of RBR related functions in binlogrouter
d674903 Formatted avro files
fe028d1 DEVELOPMENT OF AUTHENTICATION AS MODULE - WILL NOT WORK YET
977aded Added authenticator modules to the build
a2b384f MOVE MYSQL AUTH CODE INTO AUTHENTICATOR MODULES DIRECTORY
a5d7484 PRELIMINARY CHANGES TO CREATE AUTHENTICATORS AS MODULES
66cf802 Merge remote-tracking branch 'origin/develop' into MXS-615
bca0a7d MINOR CHANGES TO SATISFY LINT
5a9e397 Added Avrorouter binlog file walking
fbc737f Fixed binlogrouter test
3c7c9d7 Added avrorouter main event handling loop
07ad81b Moved common binlogrouter code to a separate file
8c605ed Fixed avrorouter build failures
aa1ba05 Moved binlog definitions to a separate header and fixed build failures
eee7c55 Added create table statement detection
e52b27e Added AVRO_INSTANCE and AVRO_CLIENT
0830caa Change test for client DCB to use role being DCB_ROLE_CLIENT_HANDLER. ...
997bbca Change protocols to continue looping if an accept fails; ...
522e42d Make use of dcb_accept and dcb_listen in httpd and telnetd protocols.
4e692b0 Generalise dcb_listen to tailor log messages to different protocols. ...
52c431d Remove support for passing default port number when handling ...
afe5abc Fix bug in creation of SSL listener structure; fix bugs in ...
0bd6c77 Merge remote-tracking branch 'origin/MXS-544' into MXS-544-a ...
7598597 Add dcb_listen function to make a given DCB into a listener, ...
a275d89 Maxbinlogcheck avro version can detect proper end of file
9bb55a5 Moved row event and table map event handling to a separate file
b7d9e09 Add/improve comments, fix mistake with premature return.
c598770 First attempt at extracting general code into dcb_accept, ...
f20f28f Testing with maxbinlogcheck
b3c60b7 Added mysql_binlog files
0ff9971 Added MariaDB/MySQL binary data processing functions
124560c Merge branch '1.2.1-binlog_router_trx' into MXS-483
4deccff New router fro cdc client
2c11434 Fixed test compiler errors
c1f7d24 Obliged to merge remote-tracking branch 'origin/develop' ...
1775599 Merge remote-tracking branch 'origin/MXS-544' into Test-dev-544-merge
c5317da Small modifications in comments
11c0666 Code cleanup
64a5e9a Merge branch 'release-1.3.0' into MXS-483
2c11e89 First Implementation of CDC
2016-08-11 12:44:07 +03:00

5180 lines
154 KiB
C
Raw Blame History

/*
** This file contains all sources (including headers) to the LEMON
** LALR(1) parser generator. The sources have been combined into a
** single file to make it easy to include LEMON in the source tree
** and Makefile of another program.
**
** The author of this program disclaims copyright.
*/
#include <stdio.h>
#include <stdarg.h>
#include <string.h>
#include <ctype.h>
#include <stdlib.h>
#include <assert.h>
#define ISSPACE(X) isspace((unsigned char)(X))
#define ISDIGIT(X) isdigit((unsigned char)(X))
#define ISALNUM(X) isalnum((unsigned char)(X))
#define ISALPHA(X) isalpha((unsigned char)(X))
#define ISUPPER(X) isupper((unsigned char)(X))
#define ISLOWER(X) islower((unsigned char)(X))
#ifndef __WIN32__
# if defined(_WIN32) || defined(WIN32)
# define __WIN32__
# endif
#endif
#ifdef __WIN32__
#ifdef __cplusplus
extern "C" {
#endif
extern int access(const char *path, int mode);
#ifdef __cplusplus
}
#endif
#else
#include <unistd.h>
#endif
/* #define PRIVATE static */
#define PRIVATE
#ifdef TEST
#define MAXRHS 5 /* Set low to exercise exception code */
#else
#define MAXRHS 1000
#endif
static int showPrecedenceConflict = 0;
static char *msort(char*,char**,int(*)(const char*,const char*));
/*
** Compilers are getting increasingly pedantic about type conversions
** as C evolves ever closer to Ada.... To work around the latest problems
** we have to define the following variant of strlen().
*/
#define lemonStrlen(X) ((int)strlen(X))
/*
** Compilers are starting to complain about the use of sprintf() and strcpy(),
** saying they are unsafe. So we define our own versions of those routines too.
**
** There are three routines here: lemon_sprintf(), lemon_vsprintf(), and
** lemon_addtext(). The first two are replacements for sprintf() and vsprintf().
** The third is a helper routine for vsnprintf() that adds texts to the end of a
** buffer, making sure the buffer is always zero-terminated.
**
** The string formatter is a minimal subset of stdlib sprintf() supporting only
** a few simply conversions:
**
** %d
** %s
** %.*s
**
*/
static void lemon_addtext(
char *zBuf, /* The buffer to which text is added */
int *pnUsed, /* Slots of the buffer used so far */
const char *zIn, /* Text to add */
int nIn, /* Bytes of text to add. -1 to use strlen() */
int iWidth /* Field width. Negative to left justify */
){
if( nIn<0 ) for(nIn=0; zIn[nIn]; nIn++){}
while( iWidth>nIn ){ zBuf[(*pnUsed)++] = ' '; iWidth--; }
if( nIn==0 ) return;
memcpy(&zBuf[*pnUsed], zIn, nIn);
*pnUsed += nIn;
while( (-iWidth)>nIn ){ zBuf[(*pnUsed)++] = ' '; iWidth++; }
zBuf[*pnUsed] = 0;
}
static int lemon_vsprintf(char *str, const char *zFormat, va_list ap){
int i, j, k, c;
int nUsed = 0;
const char *z;
char zTemp[50];
str[0] = 0;
for(i=j=0; (c = zFormat[i])!=0; i++){
if( c=='%' ){
int iWidth = 0;
lemon_addtext(str, &nUsed, &zFormat[j], i-j, 0);
c = zFormat[++i];
if( ISDIGIT(c) || (c=='-' && ISDIGIT(zFormat[i+1])) ){
if( c=='-' ) i++;
while( ISDIGIT(zFormat[i]) ) iWidth = iWidth*10 + zFormat[i++] - '0';
if( c=='-' ) iWidth = -iWidth;
c = zFormat[i];
}
if( c=='d' ){
int v = va_arg(ap, int);
if( v<0 ){
lemon_addtext(str, &nUsed, "-", 1, iWidth);
v = -v;
}else if( v==0 ){
lemon_addtext(str, &nUsed, "0", 1, iWidth);
}
k = 0;
while( v>0 ){
k++;
zTemp[sizeof(zTemp)-k] = (v%10) + '0';
v /= 10;
}
lemon_addtext(str, &nUsed, &zTemp[sizeof(zTemp)-k], k, iWidth);
}else if( c=='s' ){
z = va_arg(ap, const char*);
lemon_addtext(str, &nUsed, z, -1, iWidth);
}else if( c=='.' && memcmp(&zFormat[i], ".*s", 3)==0 ){
i += 2;
k = va_arg(ap, int);
z = va_arg(ap, const char*);
lemon_addtext(str, &nUsed, z, k, iWidth);
}else if( c=='%' ){
lemon_addtext(str, &nUsed, "%", 1, 0);
}else{
fprintf(stderr, "illegal format\n");
exit(1);
}
j = i+1;
}
}
lemon_addtext(str, &nUsed, &zFormat[j], i-j, 0);
return nUsed;
}
static int lemon_sprintf(char *str, const char *format, ...){
va_list ap;
int rc;
va_start(ap, format);
rc = lemon_vsprintf(str, format, ap);
va_end(ap);
return rc;
}
static void lemon_strcpy(char *dest, const char *src){
while( (*(dest++) = *(src++))!=0 ){}
}
static void lemon_strcat(char *dest, const char *src){
while( *dest ) dest++;
lemon_strcpy(dest, src);
}
/* a few forward declarations... */
struct rule;
struct lemon;
struct action;
static struct action *Action_new(void);
static struct action *Action_sort(struct action *);
/********** From the file "build.h" ************************************/
void FindRulePrecedences();
void FindFirstSets();
void FindStates();
void FindLinks();
void FindFollowSets();
void FindActions();
/********* From the file "configlist.h" *********************************/
void Configlist_init(void);
struct config *Configlist_add(struct rule *, int);
struct config *Configlist_addbasis(struct rule *, int);
void Configlist_closure(struct lemon *);
void Configlist_sort(void);
void Configlist_sortbasis(void);
struct config *Configlist_return(void);
struct config *Configlist_basis(void);
void Configlist_eat(struct config *);
void Configlist_reset(void);
/********* From the file "error.h" ***************************************/
void ErrorMsg(const char *, int,const char *, ...);
/****** From the file "option.h" ******************************************/
enum option_type { OPT_FLAG=1, OPT_INT, OPT_DBL, OPT_STR,
OPT_FFLAG, OPT_FINT, OPT_FDBL, OPT_FSTR};
struct s_options {
enum option_type type;
const char *label;
char *arg;
const char *message;
};
int OptInit(char**,struct s_options*,FILE*);
int OptNArgs(void);
char *OptArg(int);
void OptErr(int);
void OptPrint(void);
/******** From the file "parse.h" *****************************************/
void Parse(struct lemon *lemp);
/********* From the file "plink.h" ***************************************/
struct plink *Plink_new(void);
void Plink_add(struct plink **, struct config *);
void Plink_copy(struct plink **, struct plink *);
void Plink_delete(struct plink *);
/********** From the file "report.h" *************************************/
void Reprint(struct lemon *);
void ReportOutput(struct lemon *);
void ReportTable(struct lemon *, int);
void ReportHeader(struct lemon *);
void CompressTables(struct lemon *);
void ResortStates(struct lemon *);
/********** From the file "set.h" ****************************************/
void SetSize(int); /* All sets will be of size N */
char *SetNew(void); /* A new set for element 0..N */
void SetFree(char*); /* Deallocate a set */
int SetAdd(char*,int); /* Add element to a set */
int SetUnion(char *,char *); /* A <- A U B, thru element N */
#define SetFind(X,Y) (X[Y]) /* True if Y is in set X */
/********** From the file "struct.h" *************************************/
/*
** Principal data structures for the LEMON parser generator.
*/
typedef enum {LEMON_FALSE=0, LEMON_TRUE} Boolean;
/* Symbols (terminals and nonterminals) of the grammar are stored
** in the following: */
enum symbol_type {
TERMINAL,
NONTERMINAL,
MULTITERMINAL
};
enum e_assoc {
LEFT,
RIGHT,
NONE,
UNK
};
struct symbol {
const char *name; /* Name of the symbol */
int index; /* Index number for this symbol */
enum symbol_type type; /* Symbols are all either TERMINALS or NTs */
struct rule *rule; /* Linked list of rules of this (if an NT) */
struct symbol *fallback; /* fallback token in case this token doesn't parse */
int prec; /* Precedence if defined (-1 otherwise) */
enum e_assoc assoc; /* Associativity if precedence is defined */
char *firstset; /* First-set for all rules of this symbol */
Boolean lambda; /* True if NT and can generate an empty string */
int useCnt; /* Number of times used */
char *destructor; /* Code which executes whenever this symbol is
** popped from the stack during error processing */
int destLineno; /* Line number for start of destructor */
char *datatype; /* The data type of information held by this
** object. Only used if type==NONTERMINAL */
int dtnum; /* The data type number. In the parser, the value
** stack is a union. The .yy%d element of this
** union is the correct data type for this object */
/* The following fields are used by MULTITERMINALs only */
int nsubsym; /* Number of constituent symbols in the MULTI */
struct symbol **subsym; /* Array of constituent symbols */
};
/* Each production rule in the grammar is stored in the following
** structure. */
struct rule {
struct symbol *lhs; /* Left-hand side of the rule */
const char *lhsalias; /* Alias for the LHS (NULL if none) */
int lhsStart; /* True if left-hand side is the start symbol */
int ruleline; /* Line number for the rule */
int nrhs; /* Number of RHS symbols */
struct symbol **rhs; /* The RHS symbols */
const char **rhsalias; /* An alias for each RHS symbol (NULL if none) */
int line; /* Line number at which code begins */
const char *code; /* The code executed when this rule is reduced */
struct symbol *precsym; /* Precedence symbol for this rule */
int index; /* An index number for this rule */
Boolean canReduce; /* True if this rule is ever reduced */
struct rule *nextlhs; /* Next rule with the same LHS */
struct rule *next; /* Next rule in the global list */
};
/* A configuration is a production rule of the grammar together with
** a mark (dot) showing how much of that rule has been processed so far.
** Configurations also contain a follow-set which is a list of terminal
** symbols which are allowed to immediately follow the end of the rule.
** Every configuration is recorded as an instance of the following: */
enum cfgstatus {
COMPLETE,
INCOMPLETE
};
struct config {
struct rule *rp; /* The rule upon which the configuration is based */
int dot; /* The parse point */
char *fws; /* Follow-set for this configuration only */
struct plink *fplp; /* Follow-set forward propagation links */
struct plink *bplp; /* Follow-set backwards propagation links */
struct state *stp; /* Pointer to state which contains this */
enum cfgstatus status; /* used during followset and shift computations */
struct config *next; /* Next configuration in the state */
struct config *bp; /* The next basis configuration */
};
enum e_action {
SHIFT,
ACCEPT,
REDUCE,
ERROR,
SSCONFLICT, /* A shift/shift conflict */
SRCONFLICT, /* Was a reduce, but part of a conflict */
RRCONFLICT, /* Was a reduce, but part of a conflict */
SH_RESOLVED, /* Was a shift. Precedence resolved conflict */
RD_RESOLVED, /* Was reduce. Precedence resolved conflict */
NOT_USED, /* Deleted by compression */
SHIFTREDUCE /* Shift first, then reduce */
};
/* Every shift or reduce operation is stored as one of the following */
struct action {
struct symbol *sp; /* The look-ahead symbol */
enum e_action type;
union {
struct state *stp; /* The new state, if a shift */
struct rule *rp; /* The rule, if a reduce */
} x;
struct action *next; /* Next action for this state */
struct action *collide; /* Next action with the same hash */
};
/* Each state of the generated parser's finite state machine
** is encoded as an instance of the following structure. */
struct state {
struct config *bp; /* The basis configurations for this state */
struct config *cfp; /* All configurations in this set */
int statenum; /* Sequential number for this state */
struct action *ap; /* Array of actions for this state */
int nTknAct, nNtAct; /* Number of actions on terminals and nonterminals */
int iTknOfst, iNtOfst; /* yy_action[] offset for terminals and nonterms */
int iDfltReduce; /* Default action is to REDUCE by this rule */
struct rule *pDfltReduce;/* The default REDUCE rule. */
int autoReduce; /* True if this is an auto-reduce state */
};
#define NO_OFFSET (-2147483647)
/* A followset propagation link indicates that the contents of one
** configuration followset should be propagated to another whenever
** the first changes. */
struct plink {
struct config *cfp; /* The configuration to which linked */
struct plink *next; /* The next propagate link */
};
/* The state vector for the entire parser generator is recorded as
** follows. (LEMON uses no global variables and makes little use of
** static variables. Fields in the following structure can be thought
** of as begin global variables in the program.) */
struct lemon {
struct state **sorted; /* Table of states sorted by state number */
struct rule *rule; /* List of all rules */
int nstate; /* Number of states */
int nxstate; /* nstate with tail degenerate states removed */
int nrule; /* Number of rules */
int nsymbol; /* Number of terminal and nonterminal symbols */
int nterminal; /* Number of terminal symbols */
struct symbol **symbols; /* Sorted array of pointers to symbols */
int errorcnt; /* Number of errors */
struct symbol *errsym; /* The error symbol */
struct symbol *wildcard; /* Token that matches anything */
char *name; /* Name of the generated parser */
char *arg; /* Declaration of the 3th argument to parser */
char *tokentype; /* Type of terminal symbols in the parser stack */
char *vartype; /* The default type of non-terminal symbols */
char *start; /* Name of the start symbol for the grammar */
char *stacksize; /* Size of the parser stack */
char *include; /* Code to put at the start of the C file */
char *error; /* Code to execute when an error is seen */
char *overflow; /* Code to execute on a stack overflow */
char *failure; /* Code to execute on parser failure */
char *accept; /* Code to execute when the parser excepts */
char *extracode; /* Code appended to the generated file */
char *tokendest; /* Code to execute to destroy token data */
char *vardest; /* Code for the default non-terminal destructor */
char *filename; /* Name of the input file */
char *outname; /* Name of the current output file */
char *tokenprefix; /* A prefix added to token names in the .h file */
int nconflict; /* Number of parsing conflicts */
int nactiontab; /* Number of entries in the yy_action[] table */
int tablesize; /* Total table size of all tables in bytes */
int basisflag; /* Print only basis configurations */
int has_fallback; /* True if any %fallback is seen in the grammar */
int nolinenosflag; /* True if #line statements should not be printed */
char *argv0; /* Name of the program */
};
#define MemoryCheck(X) if((X)==0){ \
extern void memory_error(); \
memory_error(); \
}
/**************** From the file "table.h" *********************************/
/*
** All code in this file has been automatically generated
** from a specification in the file
** "table.q"
** by the associative array code building program "aagen".
** Do not edit this file! Instead, edit the specification
** file, then rerun aagen.
*/
/*
** Code for processing tables in the LEMON parser generator.
*/
/* Routines for handling a strings */
const char *Strsafe(const char *);
void Strsafe_init(void);
int Strsafe_insert(const char *);
const char *Strsafe_find(const char *);
/* Routines for handling symbols of the grammar */
struct symbol *Symbol_new(const char *);
int Symbolcmpp(const void *, const void *);
void Symbol_init(void);
int Symbol_insert(struct symbol *, const char *);
struct symbol *Symbol_find(const char *);
struct symbol *Symbol_Nth(int);
int Symbol_count(void);
struct symbol **Symbol_arrayof(void);
/* Routines to manage the state table */
int Configcmp(const char *, const char *);
struct state *State_new(void);
void State_init(void);
int State_insert(struct state *, struct config *);
struct state *State_find(struct config *);
struct state **State_arrayof(/* */);
/* Routines used for efficiency in Configlist_add */
void Configtable_init(void);
int Configtable_insert(struct config *);
struct config *Configtable_find(struct config *);
void Configtable_clear(int(*)(struct config *));
/****************** From the file "action.c" *******************************/
/*
** Routines processing parser actions in the LEMON parser generator.
*/
/* Allocate a new parser action */
static struct action *Action_new(void){
static struct action *freelist = 0;
struct action *newaction;
if( freelist==0 ){
int i;
int amt = 100;
freelist = (struct action *)calloc(amt, sizeof(struct action));
if( freelist==0 ){
fprintf(stderr,"Unable to allocate memory for a new parser action.");
exit(1);
}
for(i=0; i<amt-1; i++) freelist[i].next = &freelist[i+1];
freelist[amt-1].next = 0;
}
newaction = freelist;
freelist = freelist->next;
return newaction;
}
/* Compare two actions for sorting purposes. Return negative, zero, or
** positive if the first action is less than, equal to, or greater than
** the first
*/
static int actioncmp(
struct action *ap1,
struct action *ap2
){
int rc;
rc = ap1->sp->index - ap2->sp->index;
if( rc==0 ){
rc = (int)ap1->type - (int)ap2->type;
}
if( rc==0 && (ap1->type==REDUCE || ap1->type==SHIFTREDUCE) ){
rc = ap1->x.rp->index - ap2->x.rp->index;
}
if( rc==0 ){
rc = (int) (ap2 - ap1);
}
return rc;
}
/* Sort parser actions */
static struct action *Action_sort(
struct action *ap
){
ap = (struct action *)msort((char *)ap,(char **)&ap->next,
(int(*)(const char*,const char*))actioncmp);
return ap;
}
void Action_add(
struct action **app,
enum e_action type,
struct symbol *sp,
char *arg
){
struct action *newaction;
newaction = Action_new();
newaction->next = *app;
*app = newaction;
newaction->type = type;
newaction->sp = sp;
if( type==SHIFT ){
newaction->x.stp = (struct state *)arg;
}else{
newaction->x.rp = (struct rule *)arg;
}
}
/********************** New code to implement the "acttab" module ***********/
/*
** This module implements routines use to construct the yy_action[] table.
*/
/*
** The state of the yy_action table under construction is an instance of
** the following structure.
**
** The yy_action table maps the pair (state_number, lookahead) into an
** action_number. The table is an array of integers pairs. The state_number
** determines an initial offset into the yy_action array. The lookahead
** value is then added to this initial offset to get an index X into the
** yy_action array. If the aAction[X].lookahead equals the value of the
** of the lookahead input, then the value of the action_number output is
** aAction[X].action. If the lookaheads do not match then the
** default action for the state_number is returned.
**
** All actions associated with a single state_number are first entered
** into aLookahead[] using multiple calls to acttab_action(). Then the
** actions for that single state_number are placed into the aAction[]
** array with a single call to acttab_insert(). The acttab_insert() call
** also resets the aLookahead[] array in preparation for the next
** state number.
*/
struct lookahead_action {
int lookahead; /* Value of the lookahead token */
int action; /* Action to take on the given lookahead */
};
typedef struct acttab acttab;
struct acttab {
int nAction; /* Number of used slots in aAction[] */
int nActionAlloc; /* Slots allocated for aAction[] */
struct lookahead_action
*aAction, /* The yy_action[] table under construction */
*aLookahead; /* A single new transaction set */
int mnLookahead; /* Minimum aLookahead[].lookahead */
int mnAction; /* Action associated with mnLookahead */
int mxLookahead; /* Maximum aLookahead[].lookahead */
int nLookahead; /* Used slots in aLookahead[] */
int nLookaheadAlloc; /* Slots allocated in aLookahead[] */
};
/* Return the number of entries in the yy_action table */
#define acttab_size(X) ((X)->nAction)
/* The value for the N-th entry in yy_action */
#define acttab_yyaction(X,N) ((X)->aAction[N].action)
/* The value for the N-th entry in yy_lookahead */
#define acttab_yylookahead(X,N) ((X)->aAction[N].lookahead)
/* Free all memory associated with the given acttab */
void acttab_free(acttab *p){
free( p->aAction );
free( p->aLookahead );
free( p );
}
/* Allocate a new acttab structure */
acttab *acttab_alloc(void){
acttab *p = (acttab *) calloc( 1, sizeof(*p) );
if( p==0 ){
fprintf(stderr,"Unable to allocate memory for a new acttab.");
exit(1);
}
memset(p, 0, sizeof(*p));
return p;
}
/* Add a new action to the current transaction set.
**
** This routine is called once for each lookahead for a particular
** state.
*/
void acttab_action(acttab *p, int lookahead, int action){
if( p->nLookahead>=p->nLookaheadAlloc ){
p->nLookaheadAlloc += 25;
p->aLookahead = (struct lookahead_action *) realloc( p->aLookahead,
sizeof(p->aLookahead[0])*p->nLookaheadAlloc );
if( p->aLookahead==0 ){
fprintf(stderr,"malloc failed\n");
exit(1);
}
}
if( p->nLookahead==0 ){
p->mxLookahead = lookahead;
p->mnLookahead = lookahead;
p->mnAction = action;
}else{
if( p->mxLookahead<lookahead ) p->mxLookahead = lookahead;
if( p->mnLookahead>lookahead ){
p->mnLookahead = lookahead;
p->mnAction = action;
}
}
p->aLookahead[p->nLookahead].lookahead = lookahead;
p->aLookahead[p->nLookahead].action = action;
p->nLookahead++;
}
/*
** Add the transaction set built up with prior calls to acttab_action()
** into the current action table. Then reset the transaction set back
** to an empty set in preparation for a new round of acttab_action() calls.
**
** Return the offset into the action table of the new transaction.
*/
int acttab_insert(acttab *p){
int i, j, k, n;
assert( p->nLookahead>0 );
/* Make sure we have enough space to hold the expanded action table
** in the worst case. The worst case occurs if the transaction set
** must be appended to the current action table
*/
n = p->mxLookahead + 1;
if( p->nAction + n >= p->nActionAlloc ){
int oldAlloc = p->nActionAlloc;
p->nActionAlloc = p->nAction + n + p->nActionAlloc + 20;
p->aAction = (struct lookahead_action *) realloc( p->aAction,
sizeof(p->aAction[0])*p->nActionAlloc);
if( p->aAction==0 ){
fprintf(stderr,"malloc failed\n");
exit(1);
}
for(i=oldAlloc; i<p->nActionAlloc; i++){
p->aAction[i].lookahead = -1;
p->aAction[i].action = -1;
}
}
/* Scan the existing action table looking for an offset that is a
** duplicate of the current transaction set. Fall out of the loop
** if and when the duplicate is found.
**
** i is the index in p->aAction[] where p->mnLookahead is inserted.
*/
for(i=p->nAction-1; i>=0; i--){
if( p->aAction[i].lookahead==p->mnLookahead ){
/* All lookaheads and actions in the aLookahead[] transaction
** must match against the candidate aAction[i] entry. */
if( p->aAction[i].action!=p->mnAction ) continue;
for(j=0; j<p->nLookahead; j++){
k = p->aLookahead[j].lookahead - p->mnLookahead + i;
if( k<0 || k>=p->nAction ) break;
if( p->aLookahead[j].lookahead!=p->aAction[k].lookahead ) break;
if( p->aLookahead[j].action!=p->aAction[k].action ) break;
}
if( j<p->nLookahead ) continue;
/* No possible lookahead value that is not in the aLookahead[]
** transaction is allowed to match aAction[i] */
n = 0;
for(j=0; j<p->nAction; j++){
if( p->aAction[j].lookahead<0 ) continue;
if( p->aAction[j].lookahead==j+p->mnLookahead-i ) n++;
}
if( n==p->nLookahead ){
break; /* An exact match is found at offset i */
}
}
}
/* If no existing offsets exactly match the current transaction, find an
** an empty offset in the aAction[] table in which we can add the
** aLookahead[] transaction.
*/
if( i<0 ){
/* Look for holes in the aAction[] table that fit the current
** aLookahead[] transaction. Leave i set to the offset of the hole.
** If no holes are found, i is left at p->nAction, which means the
** transaction will be appended. */
for(i=0; i<p->nActionAlloc - p->mxLookahead; i++){
if( p->aAction[i].lookahead<0 ){
for(j=0; j<p->nLookahead; j++){
k = p->aLookahead[j].lookahead - p->mnLookahead + i;
if( k<0 ) break;
if( p->aAction[k].lookahead>=0 ) break;
}
if( j<p->nLookahead ) continue;
for(j=0; j<p->nAction; j++){
if( p->aAction[j].lookahead==j+p->mnLookahead-i ) break;
}
if( j==p->nAction ){
break; /* Fits in empty slots */
}
}
}
}
/* Insert transaction set at index i. */
for(j=0; j<p->nLookahead; j++){
k = p->aLookahead[j].lookahead - p->mnLookahead + i;
p->aAction[k] = p->aLookahead[j];
if( k>=p->nAction ) p->nAction = k+1;
}
p->nLookahead = 0;
/* Return the offset that is added to the lookahead in order to get the
** index into yy_action of the action */
return i - p->mnLookahead;
}
/********************** From the file "build.c" *****************************/
/*
** Routines to construction the finite state machine for the LEMON
** parser generator.
*/
/* Find a precedence symbol of every rule in the grammar.
**
** Those rules which have a precedence symbol coded in the input
** grammar using the "[symbol]" construct will already have the
** rp->precsym field filled. Other rules take as their precedence
** symbol the first RHS symbol with a defined precedence. If there
** are not RHS symbols with a defined precedence, the precedence
** symbol field is left blank.
*/
void FindRulePrecedences(struct lemon *xp)
{
struct rule *rp;
for(rp=xp->rule; rp; rp=rp->next){
if( rp->precsym==0 ){
int i, j;
for(i=0; i<rp->nrhs && rp->precsym==0; i++){
struct symbol *sp = rp->rhs[i];
if( sp->type==MULTITERMINAL ){
for(j=0; j<sp->nsubsym; j++){
if( sp->subsym[j]->prec>=0 ){
rp->precsym = sp->subsym[j];
break;
}
}
}else if( sp->prec>=0 ){
rp->precsym = rp->rhs[i];
}
}
}
}
return;
}
/* Find all nonterminals which will generate the empty string.
** Then go back and compute the first sets of every nonterminal.
** The first set is the set of all terminal symbols which can begin
** a string generated by that nonterminal.
*/
void FindFirstSets(struct lemon *lemp)
{
int i, j;
struct rule *rp;
int progress;
for(i=0; i<lemp->nsymbol; i++){
lemp->symbols[i]->lambda = LEMON_FALSE;
}
for(i=lemp->nterminal; i<lemp->nsymbol; i++){
lemp->symbols[i]->firstset = SetNew();
}
/* First compute all lambdas */
do{
progress = 0;
for(rp=lemp->rule; rp; rp=rp->next){
if( rp->lhs->lambda ) continue;
for(i=0; i<rp->nrhs; i++){
struct symbol *sp = rp->rhs[i];
assert( sp->type==NONTERMINAL || sp->lambda==LEMON_FALSE );
if( sp->lambda==LEMON_FALSE ) break;
}
if( i==rp->nrhs ){
rp->lhs->lambda = LEMON_TRUE;
progress = 1;
}
}
}while( progress );
/* Now compute all first sets */
do{
struct symbol *s1, *s2;
progress = 0;
for(rp=lemp->rule; rp; rp=rp->next){
s1 = rp->lhs;
for(i=0; i<rp->nrhs; i++){
s2 = rp->rhs[i];
if( s2->type==TERMINAL ){
progress += SetAdd(s1->firstset,s2->index);
break;
}else if( s2->type==MULTITERMINAL ){
for(j=0; j<s2->nsubsym; j++){
progress += SetAdd(s1->firstset,s2->subsym[j]->index);
}
break;
}else if( s1==s2 ){
if( s1->lambda==LEMON_FALSE ) break;
}else{
progress += SetUnion(s1->firstset,s2->firstset);
if( s2->lambda==LEMON_FALSE ) break;
}
}
}
}while( progress );
return;
}
/* Compute all LR(0) states for the grammar. Links
** are added to between some states so that the LR(1) follow sets
** can be computed later.
*/
PRIVATE struct state *getstate(struct lemon *); /* forward reference */
void FindStates(struct lemon *lemp)
{
struct symbol *sp;
struct rule *rp;
Configlist_init();
/* Find the start symbol */
if( lemp->start ){
sp = Symbol_find(lemp->start);
if( sp==0 ){
ErrorMsg(lemp->filename,0,
"The specified start symbol \"%s\" is not \
in a nonterminal of the grammar. \"%s\" will be used as the start \
symbol instead.",lemp->start,lemp->rule->lhs->name);
lemp->errorcnt++;
sp = lemp->rule->lhs;
}
}else{
sp = lemp->rule->lhs;
}
/* Make sure the start symbol doesn't occur on the right-hand side of
** any rule. Report an error if it does. (YACC would generate a new
** start symbol in this case.) */
for(rp=lemp->rule; rp; rp=rp->next){
int i;
for(i=0; i<rp->nrhs; i++){
if( rp->rhs[i]==sp ){ /* FIX ME: Deal with multiterminals */
ErrorMsg(lemp->filename,0,
"The start symbol \"%s\" occurs on the \
right-hand side of a rule. This will result in a parser which \
does not work properly.",sp->name);
lemp->errorcnt++;
}
}
}
/* The basis configuration set for the first state
** is all rules which have the start symbol as their
** left-hand side */
for(rp=sp->rule; rp; rp=rp->nextlhs){
struct config *newcfp;
rp->lhsStart = 1;
newcfp = Configlist_addbasis(rp,0);
SetAdd(newcfp->fws,0);
}
/* Compute the first state. All other states will be
** computed automatically during the computation of the first one.
** The returned pointer to the first state is not used. */
(void)getstate(lemp);
return;
}
/* Return a pointer to a state which is described by the configuration
** list which has been built from calls to Configlist_add.
*/
PRIVATE void buildshifts(struct lemon *, struct state *); /* Forwd ref */
PRIVATE struct state *getstate(struct lemon *lemp)
{
struct config *cfp, *bp;
struct state *stp;
/* Extract the sorted basis of the new state. The basis was constructed
** by prior calls to "Configlist_addbasis()". */
Configlist_sortbasis();
bp = Configlist_basis();
/* Get a state with the same basis */
stp = State_find(bp);
if( stp ){
/* A state with the same basis already exists! Copy all the follow-set
** propagation links from the state under construction into the
** preexisting state, then return a pointer to the preexisting state */
struct config *x, *y;
for(x=bp, y=stp->bp; x && y; x=x->bp, y=y->bp){
Plink_copy(&y->bplp,x->bplp);
Plink_delete(x->fplp);
x->fplp = x->bplp = 0;
}
cfp = Configlist_return();
Configlist_eat(cfp);
}else{
/* This really is a new state. Construct all the details */
Configlist_closure(lemp); /* Compute the configuration closure */
Configlist_sort(); /* Sort the configuration closure */
cfp = Configlist_return(); /* Get a pointer to the config list */
stp = State_new(); /* A new state structure */
MemoryCheck(stp);
stp->bp = bp; /* Remember the configuration basis */
stp->cfp = cfp; /* Remember the configuration closure */
stp->statenum = lemp->nstate++; /* Every state gets a sequence number */
stp->ap = 0; /* No actions, yet. */
State_insert(stp,stp->bp); /* Add to the state table */
buildshifts(lemp,stp); /* Recursively compute successor states */
}
return stp;
}
/*
** Return true if two symbols are the same.
*/
int same_symbol(struct symbol *a, struct symbol *b)
{
int i;
if( a==b ) return 1;
if( a->type!=MULTITERMINAL ) return 0;
if( b->type!=MULTITERMINAL ) return 0;
if( a->nsubsym!=b->nsubsym ) return 0;
for(i=0; i<a->nsubsym; i++){
if( a->subsym[i]!=b->subsym[i] ) return 0;
}
return 1;
}
/* Construct all successor states to the given state. A "successor"
** state is any state which can be reached by a shift action.
*/
PRIVATE void buildshifts(struct lemon *lemp, struct state *stp)
{
struct config *cfp; /* For looping thru the config closure of "stp" */
struct config *bcfp; /* For the inner loop on config closure of "stp" */
struct config *newcfg; /* */
struct symbol *sp; /* Symbol following the dot in configuration "cfp" */
struct symbol *bsp; /* Symbol following the dot in configuration "bcfp" */
struct state *newstp; /* A pointer to a successor state */
/* Each configuration becomes complete after it contibutes to a successor
** state. Initially, all configurations are incomplete */
for(cfp=stp->cfp; cfp; cfp=cfp->next) cfp->status = INCOMPLETE;
/* Loop through all configurations of the state "stp" */
for(cfp=stp->cfp; cfp; cfp=cfp->next){
if( cfp->status==COMPLETE ) continue; /* Already used by inner loop */
if( cfp->dot>=cfp->rp->nrhs ) continue; /* Can't shift this config */
Configlist_reset(); /* Reset the new config set */
sp = cfp->rp->rhs[cfp->dot]; /* Symbol after the dot */
/* For every configuration in the state "stp" which has the symbol "sp"
** following its dot, add the same configuration to the basis set under
** construction but with the dot shifted one symbol to the right. */
for(bcfp=cfp; bcfp; bcfp=bcfp->next){
if( bcfp->status==COMPLETE ) continue; /* Already used */
if( bcfp->dot>=bcfp->rp->nrhs ) continue; /* Can't shift this one */
bsp = bcfp->rp->rhs[bcfp->dot]; /* Get symbol after dot */
if( !same_symbol(bsp,sp) ) continue; /* Must be same as for "cfp" */
bcfp->status = COMPLETE; /* Mark this config as used */
newcfg = Configlist_addbasis(bcfp->rp,bcfp->dot+1);
Plink_add(&newcfg->bplp,bcfp);
}
/* Get a pointer to the state described by the basis configuration set
** constructed in the preceding loop */
newstp = getstate(lemp);
/* The state "newstp" is reached from the state "stp" by a shift action
** on the symbol "sp" */
if( sp->type==MULTITERMINAL ){
int i;
for(i=0; i<sp->nsubsym; i++){
Action_add(&stp->ap,SHIFT,sp->subsym[i],(char*)newstp);
}
}else{
Action_add(&stp->ap,SHIFT,sp,(char *)newstp);
}
}
}
/*
** Construct the propagation links
*/
void FindLinks(struct lemon *lemp)
{
int i;
struct config *cfp, *other;
struct state *stp;
struct plink *plp;
/* Housekeeping detail:
** Add to every propagate link a pointer back to the state to
** which the link is attached. */
for(i=0; i<lemp->nstate; i++){
stp = lemp->sorted[i];
for(cfp=stp->cfp; cfp; cfp=cfp->next){
cfp->stp = stp;
}
}
/* Convert all backlinks into forward links. Only the forward
** links are used in the follow-set computation. */
for(i=0; i<lemp->nstate; i++){
stp = lemp->sorted[i];
for(cfp=stp->cfp; cfp; cfp=cfp->next){
for(plp=cfp->bplp; plp; plp=plp->next){
other = plp->cfp;
Plink_add(&other->fplp,cfp);
}
}
}
}
/* Compute all followsets.
**
** A followset is the set of all symbols which can come immediately
** after a configuration.
*/
void FindFollowSets(struct lemon *lemp)
{
int i;
struct config *cfp;
struct plink *plp;
int progress;
int change;
for(i=0; i<lemp->nstate; i++){
for(cfp=lemp->sorted[i]->cfp; cfp; cfp=cfp->next){
cfp->status = INCOMPLETE;
}
}
do{
progress = 0;
for(i=0; i<lemp->nstate; i++){
for(cfp=lemp->sorted[i]->cfp; cfp; cfp=cfp->next){
if( cfp->status==COMPLETE ) continue;
for(plp=cfp->fplp; plp; plp=plp->next){
change = SetUnion(plp->cfp->fws,cfp->fws);
if( change ){
plp->cfp->status = INCOMPLETE;
progress = 1;
}
}
cfp->status = COMPLETE;
}
}
}while( progress );
}
static int resolve_conflict(struct action *,struct action *);
/* Compute the reduce actions, and resolve conflicts.
*/
void FindActions(struct lemon *lemp)
{
int i,j;
struct config *cfp;
struct state *stp;
struct symbol *sp;
struct rule *rp;
/* Add all of the reduce actions
** A reduce action is added for each element of the followset of
** a configuration which has its dot at the extreme right.
*/
for(i=0; i<lemp->nstate; i++){ /* Loop over all states */
stp = lemp->sorted[i];
for(cfp=stp->cfp; cfp; cfp=cfp->next){ /* Loop over all configurations */
if( cfp->rp->nrhs==cfp->dot ){ /* Is dot at extreme right? */
for(j=0; j<lemp->nterminal; j++){
if( SetFind(cfp->fws,j) ){
/* Add a reduce action to the state "stp" which will reduce by the
** rule "cfp->rp" if the lookahead symbol is "lemp->symbols[j]" */
Action_add(&stp->ap,REDUCE,lemp->symbols[j],(char *)cfp->rp);
}
}
}
}
}
/* Add the accepting token */
if( lemp->start ){
sp = Symbol_find(lemp->start);
if( sp==0 ) sp = lemp->rule->lhs;
}else{
sp = lemp->rule->lhs;
}
/* Add to the first state (which is always the starting state of the
** finite state machine) an action to ACCEPT if the lookahead is the
** start nonterminal. */
Action_add(&lemp->sorted[0]->ap,ACCEPT,sp,0);
/* Resolve conflicts */
for(i=0; i<lemp->nstate; i++){
struct action *ap, *nap;
stp = lemp->sorted[i];
/* assert( stp->ap ); */
stp->ap = Action_sort(stp->ap);
for(ap=stp->ap; ap && ap->next; ap=ap->next){
for(nap=ap->next; nap && nap->sp==ap->sp; nap=nap->next){
/* The two actions "ap" and "nap" have the same lookahead.
** Figure out which one should be used */
lemp->nconflict += resolve_conflict(ap,nap);
}
}
}
/* Report an error for each rule that can never be reduced. */
for(rp=lemp->rule; rp; rp=rp->next) rp->canReduce = LEMON_FALSE;
for(i=0; i<lemp->nstate; i++){
struct action *ap;
for(ap=lemp->sorted[i]->ap; ap; ap=ap->next){
if( ap->type==REDUCE ) ap->x.rp->canReduce = LEMON_TRUE;
}
}
for(rp=lemp->rule; rp; rp=rp->next){
if( rp->canReduce ) continue;
ErrorMsg(lemp->filename,rp->ruleline,"This rule can not be reduced.\n");
lemp->errorcnt++;
}
}
/* Resolve a conflict between the two given actions. If the
** conflict can't be resolved, return non-zero.
**
** NO LONGER TRUE:
** To resolve a conflict, first look to see if either action
** is on an error rule. In that case, take the action which
** is not associated with the error rule. If neither or both
** actions are associated with an error rule, then try to
** use precedence to resolve the conflict.
**
** If either action is a SHIFT, then it must be apx. This
** function won't work if apx->type==REDUCE and apy->type==SHIFT.
*/
static int resolve_conflict(
struct action *apx,
struct action *apy
){
struct symbol *spx, *spy;
int errcnt = 0;
assert( apx->sp==apy->sp ); /* Otherwise there would be no conflict */
if( apx->type==SHIFT && apy->type==SHIFT ){
apy->type = SSCONFLICT;
errcnt++;
}
if( apx->type==SHIFT && apy->type==REDUCE ){
spx = apx->sp;
spy = apy->x.rp->precsym;
if( spy==0 || spx->prec<0 || spy->prec<0 ){
/* Not enough precedence information. */
apy->type = SRCONFLICT;
errcnt++;
}else if( spx->prec>spy->prec ){ /* higher precedence wins */
apy->type = RD_RESOLVED;
}else if( spx->prec<spy->prec ){
apx->type = SH_RESOLVED;
}else if( spx->prec==spy->prec && spx->assoc==RIGHT ){ /* Use operator */
apy->type = RD_RESOLVED; /* associativity */
}else if( spx->prec==spy->prec && spx->assoc==LEFT ){ /* to break tie */
apx->type = SH_RESOLVED;
}else{
assert( spx->prec==spy->prec && spx->assoc==NONE );
apx->type = ERROR;
}
}else if( apx->type==REDUCE && apy->type==REDUCE ){
spx = apx->x.rp->precsym;
spy = apy->x.rp->precsym;
if( spx==0 || spy==0 || spx->prec<0 ||
spy->prec<0 || spx->prec==spy->prec ){
apy->type = RRCONFLICT;
errcnt++;
}else if( spx->prec>spy->prec ){
apy->type = RD_RESOLVED;
}else if( spx->prec<spy->prec ){
apx->type = RD_RESOLVED;
}
}else{
assert(
apx->type==SH_RESOLVED ||
apx->type==RD_RESOLVED ||
apx->type==SSCONFLICT ||
apx->type==SRCONFLICT ||
apx->type==RRCONFLICT ||
apy->type==SH_RESOLVED ||
apy->type==RD_RESOLVED ||
apy->type==SSCONFLICT ||
apy->type==SRCONFLICT ||
apy->type==RRCONFLICT
);
/* The REDUCE/SHIFT case cannot happen because SHIFTs come before
** REDUCEs on the list. If we reach this point it must be because
** the parser conflict had already been resolved. */
}
return errcnt;
}
/********************* From the file "configlist.c" *************************/
/*
** Routines to processing a configuration list and building a state
** in the LEMON parser generator.
*/
static struct config *freelist = 0; /* List of free configurations */
static struct config *current = 0; /* Top of list of configurations */
static struct config **currentend = 0; /* Last on list of configs */
static struct config *basis = 0; /* Top of list of basis configs */
static struct config **basisend = 0; /* End of list of basis configs */
/* Return a pointer to a new configuration */
PRIVATE struct config *newconfig(){
struct config *newcfg;
if( freelist==0 ){
int i;
int amt = 3;
freelist = (struct config *)calloc( amt, sizeof(struct config) );
if( freelist==0 ){
fprintf(stderr,"Unable to allocate memory for a new configuration.");
exit(1);
}
for(i=0; i<amt-1; i++) freelist[i].next = &freelist[i+1];
freelist[amt-1].next = 0;
}
newcfg = freelist;
freelist = freelist->next;
return newcfg;
}
/* The configuration "old" is no longer used */
PRIVATE void deleteconfig(struct config *old)
{
old->next = freelist;
freelist = old;
}
/* Initialized the configuration list builder */
void Configlist_init(){
current = 0;
currentend = &current;
basis = 0;
basisend = &basis;
Configtable_init();
return;
}
/* Initialized the configuration list builder */
void Configlist_reset(){
current = 0;
currentend = &current;
basis = 0;
basisend = &basis;
Configtable_clear(0);
return;
}
/* Add another configuration to the configuration list */
struct config *Configlist_add(
struct rule *rp, /* The rule */
int dot /* Index into the RHS of the rule where the dot goes */
){
struct config *cfp, model;
assert( currentend!=0 );
model.rp = rp;
model.dot = dot;
cfp = Configtable_find(&model);
if( cfp==0 ){
cfp = newconfig();
cfp->rp = rp;
cfp->dot = dot;
cfp->fws = SetNew();
cfp->stp = 0;
cfp->fplp = cfp->bplp = 0;
cfp->next = 0;
cfp->bp = 0;
*currentend = cfp;
currentend = &cfp->next;
Configtable_insert(cfp);
}
return cfp;
}
/* Add a basis configuration to the configuration list */
struct config *Configlist_addbasis(struct rule *rp, int dot)
{
struct config *cfp, model;
assert( basisend!=0 );
assert( currentend!=0 );
model.rp = rp;
model.dot = dot;
cfp = Configtable_find(&model);
if( cfp==0 ){
cfp = newconfig();
cfp->rp = rp;
cfp->dot = dot;
cfp->fws = SetNew();
cfp->stp = 0;
cfp->fplp = cfp->bplp = 0;
cfp->next = 0;
cfp->bp = 0;
*currentend = cfp;
currentend = &cfp->next;
*basisend = cfp;
basisend = &cfp->bp;
Configtable_insert(cfp);
}
return cfp;
}
/* Compute the closure of the configuration list */
void Configlist_closure(struct lemon *lemp)
{
struct config *cfp, *newcfp;
struct rule *rp, *newrp;
struct symbol *sp, *xsp;
int i, dot;
assert( currentend!=0 );
for(cfp=current; cfp; cfp=cfp->next){
rp = cfp->rp;
dot = cfp->dot;
if( dot>=rp->nrhs ) continue;
sp = rp->rhs[dot];
if( sp->type==NONTERMINAL ){
if( sp->rule==0 && sp!=lemp->errsym ){
ErrorMsg(lemp->filename,rp->line,"Nonterminal \"%s\" has no rules.",
sp->name);
lemp->errorcnt++;
}
for(newrp=sp->rule; newrp; newrp=newrp->nextlhs){
newcfp = Configlist_add(newrp,0);
for(i=dot+1; i<rp->nrhs; i++){
xsp = rp->rhs[i];
if( xsp->type==TERMINAL ){
SetAdd(newcfp->fws,xsp->index);
break;
}else if( xsp->type==MULTITERMINAL ){
int k;
for(k=0; k<xsp->nsubsym; k++){
SetAdd(newcfp->fws, xsp->subsym[k]->index);
}
break;
}else{
SetUnion(newcfp->fws,xsp->firstset);
if( xsp->lambda==LEMON_FALSE ) break;
}
}
if( i==rp->nrhs ) Plink_add(&cfp->fplp,newcfp);
}
}
}
return;
}
/* Sort the configuration list */
void Configlist_sort(){
current = (struct config*)msort((char*)current,(char**)&(current->next),
Configcmp);
currentend = 0;
return;
}
/* Sort the basis configuration list */
void Configlist_sortbasis(){
basis = (struct config*)msort((char*)current,(char**)&(current->bp),
Configcmp);
basisend = 0;
return;
}
/* Return a pointer to the head of the configuration list and
** reset the list */
struct config *Configlist_return(){
struct config *old;
old = current;
current = 0;
currentend = 0;
return old;
}
/* Return a pointer to the head of the configuration list and
** reset the list */
struct config *Configlist_basis(){
struct config *old;
old = basis;
basis = 0;
basisend = 0;
return old;
}
/* Free all elements of the given configuration list */
void Configlist_eat(struct config *cfp)
{
struct config *nextcfp;
for(; cfp; cfp=nextcfp){
nextcfp = cfp->next;
assert( cfp->fplp==0 );
assert( cfp->bplp==0 );
if( cfp->fws ) SetFree(cfp->fws);
deleteconfig(cfp);
}
return;
}
/***************** From the file "error.c" *********************************/
/*
** Code for printing error message.
*/
void ErrorMsg(const char *filename, int lineno, const char *format, ...){
va_list ap;
fprintf(stderr, "%s:%d: ", filename, lineno);
va_start(ap, format);
vfprintf(stderr,format,ap);
va_end(ap);
fprintf(stderr, "\n");
}
/**************** From the file "main.c" ************************************/
/*
** Main program file for the LEMON parser generator.
*/
/* Report an out-of-memory condition and abort. This function
** is used mostly by the "MemoryCheck" macro in struct.h
*/
void memory_error(){
fprintf(stderr,"Out of memory. Aborting...\n");
exit(1);
}
static int nDefine = 0; /* Number of -D options on the command line */
static char **azDefine = 0; /* Name of the -D macros */
/* This routine is called with the argument to each -D command-line option.
** Add the macro defined to the azDefine array.
*/
static void handle_D_option(char *z){
char **paz;
nDefine++;
azDefine = (char **) realloc(azDefine, sizeof(azDefine[0])*nDefine);
if( azDefine==0 ){
fprintf(stderr,"out of memory\n");
exit(1);
}
paz = &azDefine[nDefine-1];
*paz = (char *) malloc( lemonStrlen(z)+1 );
if( *paz==0 ){
fprintf(stderr,"out of memory\n");
exit(1);
}
lemon_strcpy(*paz, z);
for(z=*paz; *z && *z!='='; z++){}
*z = 0;
}
static char *user_templatename = NULL;
static void handle_T_option(char *z){
user_templatename = (char *) malloc( lemonStrlen(z)+1 );
if( user_templatename==0 ){
memory_error();
}
lemon_strcpy(user_templatename, z);
}
/* forward reference */
static const char *minimum_size_type(int lwr, int upr, int *pnByte);
/* Print a single line of the "Parser Stats" output
*/
static void stats_line(const char *zLabel, int iValue){
int nLabel = lemonStrlen(zLabel);
printf(" %s%.*s %5d\n", zLabel,
35-nLabel, "................................",
iValue);
}
/* The main program. Parse the command line and do it... */
int main(int argc, char **argv)
{
static int version = 0;
static int rpflag = 0;
static int basisflag = 0;
static int compress = 0;
static int quiet = 0;
static int statistics = 0;
static int mhflag = 0;
static int nolinenosflag = 0;
static int noResort = 0;
static struct s_options options[] = {
{OPT_FLAG, "b", (char*)&basisflag, "Print only the basis in report."},
{OPT_FLAG, "c", (char*)&compress, "Don't compress the action table."},
{OPT_FSTR, "D", (char*)handle_D_option, "Define an %ifdef macro."},
{OPT_FSTR, "f", 0, "Ignored. (Placeholder for -f compiler options.)"},
{OPT_FLAG, "g", (char*)&rpflag, "Print grammar without actions."},
{OPT_FSTR, "I", 0, "Ignored. (Placeholder for '-I' compiler options.)"},
{OPT_FLAG, "m", (char*)&mhflag, "Output a makeheaders compatible file."},
{OPT_FLAG, "l", (char*)&nolinenosflag, "Do not print #line statements."},
{OPT_FSTR, "O", 0, "Ignored. (Placeholder for '-O' compiler options.)"},
{OPT_FLAG, "p", (char*)&showPrecedenceConflict,
"Show conflicts resolved by precedence rules"},
{OPT_FLAG, "q", (char*)&quiet, "(Quiet) Don't print the report file."},
{OPT_FLAG, "r", (char*)&noResort, "Do not sort or renumber states"},
{OPT_FLAG, "s", (char*)&statistics,
"Print parser stats to standard output."},
{OPT_FLAG, "x", (char*)&version, "Print the version number."},
{OPT_FSTR, "T", (char*)handle_T_option, "Specify a template file."},
{OPT_FSTR, "W", 0, "Ignored. (Placeholder for '-W' compiler options.)"},
{OPT_FLAG,0,0,0}
};
int i;
int exitcode;
struct lemon lem;
OptInit(argv,options,stderr);
if( version ){
printf("Lemon version 1.0\n");
exit(0);
}
if( OptNArgs()!=1 ){
fprintf(stderr,"Exactly one filename argument is required.\n");
exit(1);
}
memset(&lem, 0, sizeof(lem));
lem.errorcnt = 0;
/* Initialize the machine */
Strsafe_init();
Symbol_init();
State_init();
lem.argv0 = argv[0];
lem.filename = OptArg(0);
lem.basisflag = basisflag;
lem.nolinenosflag = nolinenosflag;
Symbol_new("$");
lem.errsym = Symbol_new("error");
lem.errsym->useCnt = 0;
/* Parse the input file */
Parse(&lem);
if( lem.errorcnt ) exit(lem.errorcnt);
if( lem.nrule==0 ){
fprintf(stderr,"Empty grammar.\n");
exit(1);
}
/* Count and index the symbols of the grammar */
Symbol_new("{default}");
lem.nsymbol = Symbol_count();
lem.symbols = Symbol_arrayof();
for(i=0; i<lem.nsymbol; i++) lem.symbols[i]->index = i;
qsort(lem.symbols,lem.nsymbol,sizeof(struct symbol*), Symbolcmpp);
for(i=0; i<lem.nsymbol; i++) lem.symbols[i]->index = i;
while( lem.symbols[i-1]->type==MULTITERMINAL ){ i--; }
assert( strcmp(lem.symbols[i-1]->name,"{default}")==0 );
lem.nsymbol = i - 1;
for(i=1; ISUPPER(lem.symbols[i]->name[0]); i++);
lem.nterminal = i;
/* Generate a reprint of the grammar, if requested on the command line */
if( rpflag ){
Reprint(&lem);
}else{
/* Initialize the size for all follow and first sets */
SetSize(lem.nterminal+1);
/* Find the precedence for every production rule (that has one) */
FindRulePrecedences(&lem);
/* Compute the lambda-nonterminals and the first-sets for every
** nonterminal */
FindFirstSets(&lem);
/* Compute all LR(0) states. Also record follow-set propagation
** links so that the follow-set can be computed later */
lem.nstate = 0;
FindStates(&lem);
lem.sorted = State_arrayof();
/* Tie up loose ends on the propagation links */
FindLinks(&lem);
/* Compute the follow set of every reducible configuration */
FindFollowSets(&lem);
/* Compute the action tables */
FindActions(&lem);
/* Compress the action tables */
if( compress==0 ) CompressTables(&lem);
/* Reorder and renumber the states so that states with fewer choices
** occur at the end. This is an optimization that helps make the
** generated parser tables smaller. */
if( noResort==0 ) ResortStates(&lem);
/* Generate a report of the parser generated. (the "y.output" file) */
if( !quiet ) ReportOutput(&lem);
/* Generate the source code for the parser */
ReportTable(&lem, mhflag);
/* Produce a header file for use by the scanner. (This step is
** omitted if the "-m" option is used because makeheaders will
** generate the file for us.) */
if( !mhflag ) ReportHeader(&lem);
}
if( statistics ){
printf("Parser statistics:\n");
stats_line("terminal symbols", lem.nterminal);
stats_line("non-terminal symbols", lem.nsymbol - lem.nterminal);
stats_line("total symbols", lem.nsymbol);
stats_line("rules", lem.nrule);
stats_line("states", lem.nxstate);
stats_line("conflicts", lem.nconflict);
stats_line("action table entries", lem.nactiontab);
stats_line("total table size (bytes)", lem.tablesize);
}
if( lem.nconflict > 0 ){
fprintf(stderr,"%d parsing conflicts.\n",lem.nconflict);
}
/* return 0 on success, 1 on failure. */
exitcode = ((lem.errorcnt > 0) || (lem.nconflict > 0)) ? 1 : 0;
exit(exitcode);
return (exitcode);
}
/******************** From the file "msort.c" *******************************/
/*
** A generic merge-sort program.
**
** USAGE:
** Let "ptr" be a pointer to some structure which is at the head of
** a null-terminated list. Then to sort the list call:
**
** ptr = msort(ptr,&(ptr->next),cmpfnc);
**
** In the above, "cmpfnc" is a pointer to a function which compares
** two instances of the structure and returns an integer, as in
** strcmp. The second argument is a pointer to the pointer to the
** second element of the linked list. This address is used to compute
** the offset to the "next" field within the structure. The offset to
** the "next" field must be constant for all structures in the list.
**
** The function returns a new pointer which is the head of the list
** after sorting.
**
** ALGORITHM:
** Merge-sort.
*/
/*
** Return a pointer to the next structure in the linked list.
*/
#define NEXT(A) (*(char**)(((char*)A)+offset))
/*
** Inputs:
** a: A sorted, null-terminated linked list. (May be null).
** b: A sorted, null-terminated linked list. (May be null).
** cmp: A pointer to the comparison function.
** offset: Offset in the structure to the "next" field.
**
** Return Value:
** A pointer to the head of a sorted list containing the elements
** of both a and b.
**
** Side effects:
** The "next" pointers for elements in the lists a and b are
** changed.
*/
static char *merge(
char *a,
char *b,
int (*cmp)(const char*,const char*),
int offset
){
char *ptr, *head;
if( a==0 ){
head = b;
}else if( b==0 ){
head = a;
}else{
if( (*cmp)(a,b)<=0 ){
ptr = a;
a = NEXT(a);
}else{
ptr = b;
b = NEXT(b);
}
head = ptr;
while( a && b ){
if( (*cmp)(a,b)<=0 ){
NEXT(ptr) = a;
ptr = a;
a = NEXT(a);
}else{
NEXT(ptr) = b;
ptr = b;
b = NEXT(b);
}
}
if( a ) NEXT(ptr) = a;
else NEXT(ptr) = b;
}
return head;
}
/*
** Inputs:
** list: Pointer to a singly-linked list of structures.
** next: Pointer to pointer to the second element of the list.
** cmp: A comparison function.
**
** Return Value:
** A pointer to the head of a sorted list containing the elements
** orginally in list.
**
** Side effects:
** The "next" pointers for elements in list are changed.
*/
#define LISTSIZE 30
static char *msort(
char *list,
char **next,
int (*cmp)(const char*,const char*)
){
unsigned long offset;
char *ep;
char *set[LISTSIZE];
int i;
offset = (unsigned long)((char*)next - (char*)list);
for(i=0; i<LISTSIZE; i++) set[i] = 0;
while( list ){
ep = list;
list = NEXT(list);
NEXT(ep) = 0;
for(i=0; i<LISTSIZE-1 && set[i]!=0; i++){
ep = merge(ep,set[i],cmp,offset);
set[i] = 0;
}
set[i] = ep;
}
ep = 0;
for(i=0; i<LISTSIZE; i++) if( set[i] ) ep = merge(set[i],ep,cmp,offset);
return ep;
}
/************************ From the file "option.c" **************************/
static char **argv;
static struct s_options *op;
static FILE *errstream;
#define ISOPT(X) ((X)[0]=='-'||(X)[0]=='+'||strchr((X),'=')!=0)
/*
** Print the command line with a carrot pointing to the k-th character
** of the n-th field.
*/
static void errline(int n, int k, FILE *err)
{
int spcnt, i;
if( argv[0] ) fprintf(err,"%s",argv[0]);
spcnt = lemonStrlen(argv[0]) + 1;
for(i=1; i<n && argv[i]; i++){
fprintf(err," %s",argv[i]);
spcnt += lemonStrlen(argv[i])+1;
}
spcnt += k;
for(; argv[i]; i++) fprintf(err," %s",argv[i]);
if( spcnt<20 ){
fprintf(err,"\n%*s^-- here\n",spcnt,"");
}else{
fprintf(err,"\n%*shere --^\n",spcnt-7,"");
}
}
/*
** Return the index of the N-th non-switch argument. Return -1
** if N is out of range.
*/
static int argindex(int n)
{
int i;
int dashdash = 0;
if( argv!=0 && *argv!=0 ){
for(i=1; argv[i]; i++){
if( dashdash || !ISOPT(argv[i]) ){
if( n==0 ) return i;
n--;
}
if( strcmp(argv[i],"--")==0 ) dashdash = 1;
}
}
return -1;
}
static char emsg[] = "Command line syntax error: ";
/*
** Process a flag command line argument.
*/
static int handleflags(int i, FILE *err)
{
int v;
int errcnt = 0;
int j;
for(j=0; op[j].label; j++){
if( strncmp(&argv[i][1],op[j].label,lemonStrlen(op[j].label))==0 ) break;
}
v = argv[i][0]=='-' ? 1 : 0;
if( op[j].label==0 ){
if( err ){
fprintf(err,"%sundefined option.\n",emsg);
errline(i,1,err);
}
errcnt++;
}else if( op[j].arg==0 ){
/* Ignore this option */
}else if( op[j].type==OPT_FLAG ){
*((int*)op[j].arg) = v;
}else if( op[j].type==OPT_FFLAG ){
(*(void(*)(int))(op[j].arg))(v);
}else if( op[j].type==OPT_FSTR ){
(*(void(*)(char *))(op[j].arg))(&argv[i][2]);
}else{
if( err ){
fprintf(err,"%smissing argument on switch.\n",emsg);
errline(i,1,err);
}
errcnt++;
}
return errcnt;
}
/*
** Process a command line switch which has an argument.
*/
static int handleswitch(int i, FILE *err)
{
int lv = 0;
double dv = 0.0;
char *sv = 0, *end;
char *cp;
int j;
int errcnt = 0;
cp = strchr(argv[i],'=');
assert( cp!=0 );
*cp = 0;
for(j=0; op[j].label; j++){
if( strcmp(argv[i],op[j].label)==0 ) break;
}
*cp = '=';
if( op[j].label==0 ){
if( err ){
fprintf(err,"%sundefined option.\n",emsg);
errline(i,0,err);
}
errcnt++;
}else{
cp++;
switch( op[j].type ){
case OPT_FLAG:
case OPT_FFLAG:
if( err ){
fprintf(err,"%soption requires an argument.\n",emsg);
errline(i,0,err);
}
errcnt++;
break;
case OPT_DBL:
case OPT_FDBL:
dv = strtod(cp,&end);
if( *end ){
if( err ){
fprintf(err,
"%sillegal character in floating-point argument.\n",emsg);
errline(i,(int)((char*)end-(char*)argv[i]),err);
}
errcnt++;
}
break;
case OPT_INT:
case OPT_FINT:
lv = strtol(cp,&end,0);
if( *end ){
if( err ){
fprintf(err,"%sillegal character in integer argument.\n",emsg);
errline(i,(int)((char*)end-(char*)argv[i]),err);
}
errcnt++;
}
break;
case OPT_STR:
case OPT_FSTR:
sv = cp;
break;
}
switch( op[j].type ){
case OPT_FLAG:
case OPT_FFLAG:
break;
case OPT_DBL:
*(double*)(op[j].arg) = dv;
break;
case OPT_FDBL:
(*(void(*)(double))(op[j].arg))(dv);
break;
case OPT_INT:
*(int*)(op[j].arg) = lv;
break;
case OPT_FINT:
(*(void(*)(int))(op[j].arg))((int)lv);
break;
case OPT_STR:
*(char**)(op[j].arg) = sv;
break;
case OPT_FSTR:
(*(void(*)(char *))(op[j].arg))(sv);
break;
}
}
return errcnt;
}
int OptInit(char **a, struct s_options *o, FILE *err)
{
int errcnt = 0;
argv = a;
op = o;
errstream = err;
if( argv && *argv && op ){
int i;
for(i=1; argv[i]; i++){
if( argv[i][0]=='+' || argv[i][0]=='-' ){
errcnt += handleflags(i,err);
}else if( strchr(argv[i],'=') ){
errcnt += handleswitch(i,err);
}
}
}
if( errcnt>0 ){
fprintf(err,"Valid command line options for \"%s\" are:\n",*a);
OptPrint();
exit(1);
}
return 0;
}
int OptNArgs(){
int cnt = 0;
int dashdash = 0;
int i;
if( argv!=0 && argv[0]!=0 ){
for(i=1; argv[i]; i++){
if( dashdash || !ISOPT(argv[i]) ) cnt++;
if( strcmp(argv[i],"--")==0 ) dashdash = 1;
}
}
return cnt;
}
char *OptArg(int n)
{
int i;
i = argindex(n);
return i>=0 ? argv[i] : 0;
}
void OptErr(int n)
{
int i;
i = argindex(n);
if( i>=0 ) errline(i,0,errstream);
}
void OptPrint(){
int i;
int max, len;
max = 0;
for(i=0; op[i].label; i++){
len = lemonStrlen(op[i].label) + 1;
switch( op[i].type ){
case OPT_FLAG:
case OPT_FFLAG:
break;
case OPT_INT:
case OPT_FINT:
len += 9; /* length of "<integer>" */
break;
case OPT_DBL:
case OPT_FDBL:
len += 6; /* length of "<real>" */
break;
case OPT_STR:
case OPT_FSTR:
len += 8; /* length of "<string>" */
break;
}
if( len>max ) max = len;
}
for(i=0; op[i].label; i++){
switch( op[i].type ){
case OPT_FLAG:
case OPT_FFLAG:
fprintf(errstream," -%-*s %s\n",max,op[i].label,op[i].message);
break;
case OPT_INT:
case OPT_FINT:
fprintf(errstream," -%s<integer>%*s %s\n",op[i].label,
(int)(max-lemonStrlen(op[i].label)-9),"",op[i].message);
break;
case OPT_DBL:
case OPT_FDBL:
fprintf(errstream," -%s<real>%*s %s\n",op[i].label,
(int)(max-lemonStrlen(op[i].label)-6),"",op[i].message);
break;
case OPT_STR:
case OPT_FSTR:
fprintf(errstream," -%s<string>%*s %s\n",op[i].label,
(int)(max-lemonStrlen(op[i].label)-8),"",op[i].message);
break;
}
}
}
/*********************** From the file "parse.c" ****************************/
/*
** Input file parser for the LEMON parser generator.
*/
/* The state of the parser */
enum e_state {
INITIALIZE,
WAITING_FOR_DECL_OR_RULE,
WAITING_FOR_DECL_KEYWORD,
WAITING_FOR_DECL_ARG,
WAITING_FOR_PRECEDENCE_SYMBOL,
WAITING_FOR_ARROW,
IN_RHS,
LHS_ALIAS_1,
LHS_ALIAS_2,
LHS_ALIAS_3,
RHS_ALIAS_1,
RHS_ALIAS_2,
PRECEDENCE_MARK_1,
PRECEDENCE_MARK_2,
RESYNC_AFTER_RULE_ERROR,
RESYNC_AFTER_DECL_ERROR,
WAITING_FOR_DESTRUCTOR_SYMBOL,
WAITING_FOR_DATATYPE_SYMBOL,
WAITING_FOR_FALLBACK_ID,
WAITING_FOR_WILDCARD_ID,
WAITING_FOR_CLASS_ID,
WAITING_FOR_CLASS_TOKEN
};
struct pstate {
char *filename; /* Name of the input file */
int tokenlineno; /* Linenumber at which current token starts */
int errorcnt; /* Number of errors so far */
char *tokenstart; /* Text of current token */
struct lemon *gp; /* Global state vector */
enum e_state state; /* The state of the parser */
struct symbol *fallback; /* The fallback token */
struct symbol *tkclass; /* Token class symbol */
struct symbol *lhs; /* Left-hand side of current rule */
const char *lhsalias; /* Alias for the LHS */
int nrhs; /* Number of right-hand side symbols seen */
struct symbol *rhs[MAXRHS]; /* RHS symbols */
const char *alias[MAXRHS]; /* Aliases for each RHS symbol (or NULL) */
struct rule *prevrule; /* Previous rule parsed */
const char *declkeyword; /* Keyword of a declaration */
char **declargslot; /* Where the declaration argument should be put */
int insertLineMacro; /* Add #line before declaration insert */
int *decllinenoslot; /* Where to write declaration line number */
enum e_assoc declassoc; /* Assign this association to decl arguments */
int preccounter; /* Assign this precedence to decl arguments */
struct rule *firstrule; /* Pointer to first rule in the grammar */
struct rule *lastrule; /* Pointer to the most recently parsed rule */
};
/* Parse a single token */
static void parseonetoken(struct pstate *psp)
{
const char *x;
x = Strsafe(psp->tokenstart); /* Save the token permanently */
#if 0
printf("%s:%d: Token=[%s] state=%d\n",psp->filename,psp->tokenlineno,
x,psp->state);
#endif
switch( psp->state ){
case INITIALIZE:
psp->prevrule = 0;
psp->preccounter = 0;
psp->firstrule = psp->lastrule = 0;
psp->gp->nrule = 0;
/* Fall thru to next case */
case WAITING_FOR_DECL_OR_RULE:
if( x[0]=='%' ){
psp->state = WAITING_FOR_DECL_KEYWORD;
}else if( ISLOWER(x[0]) ){
psp->lhs = Symbol_new(x);
psp->nrhs = 0;
psp->lhsalias = 0;
psp->state = WAITING_FOR_ARROW;
}else if( x[0]=='{' ){
if( psp->prevrule==0 ){
ErrorMsg(psp->filename,psp->tokenlineno,
"There is no prior rule upon which to attach the code \
fragment which begins on this line.");
psp->errorcnt++;
}else if( psp->prevrule->code!=0 ){
ErrorMsg(psp->filename,psp->tokenlineno,
"Code fragment beginning on this line is not the first \
to follow the previous rule.");
psp->errorcnt++;
}else{
psp->prevrule->line = psp->tokenlineno;
psp->prevrule->code = &x[1];
}
}else if( x[0]=='[' ){
psp->state = PRECEDENCE_MARK_1;
}else{
ErrorMsg(psp->filename,psp->tokenlineno,
"Token \"%s\" should be either \"%%\" or a nonterminal name.",
x);
psp->errorcnt++;
}
break;
case PRECEDENCE_MARK_1:
if( !ISUPPER(x[0]) ){
ErrorMsg(psp->filename,psp->tokenlineno,
"The precedence symbol must be a terminal.");
psp->errorcnt++;
}else if( psp->prevrule==0 ){
ErrorMsg(psp->filename,psp->tokenlineno,
"There is no prior rule to assign precedence \"[%s]\".",x);
psp->errorcnt++;
}else if( psp->prevrule->precsym!=0 ){
ErrorMsg(psp->filename,psp->tokenlineno,
"Precedence mark on this line is not the first \
to follow the previous rule.");
psp->errorcnt++;
}else{
psp->prevrule->precsym = Symbol_new(x);
}
psp->state = PRECEDENCE_MARK_2;
break;
case PRECEDENCE_MARK_2:
if( x[0]!=']' ){
ErrorMsg(psp->filename,psp->tokenlineno,
"Missing \"]\" on precedence mark.");
psp->errorcnt++;
}
psp->state = WAITING_FOR_DECL_OR_RULE;
break;
case WAITING_FOR_ARROW:
if( x[0]==':' && x[1]==':' && x[2]=='=' ){
psp->state = IN_RHS;
}else if( x[0]=='(' ){
psp->state = LHS_ALIAS_1;
}else{
ErrorMsg(psp->filename,psp->tokenlineno,
"Expected to see a \":\" following the LHS symbol \"%s\".",
psp->lhs->name);
psp->errorcnt++;
psp->state = RESYNC_AFTER_RULE_ERROR;
}
break;
case LHS_ALIAS_1:
if( ISALPHA(x[0]) ){
psp->lhsalias = x;
psp->state = LHS_ALIAS_2;
}else{
ErrorMsg(psp->filename,psp->tokenlineno,
"\"%s\" is not a valid alias for the LHS \"%s\"\n",
x,psp->lhs->name);
psp->errorcnt++;
psp->state = RESYNC_AFTER_RULE_ERROR;
}
break;
case LHS_ALIAS_2:
if( x[0]==')' ){
psp->state = LHS_ALIAS_3;
}else{
ErrorMsg(psp->filename,psp->tokenlineno,
"Missing \")\" following LHS alias name \"%s\".",psp->lhsalias);
psp->errorcnt++;
psp->state = RESYNC_AFTER_RULE_ERROR;
}
break;
case LHS_ALIAS_3:
if( x[0]==':' && x[1]==':' && x[2]=='=' ){
psp->state = IN_RHS;
}else{
ErrorMsg(psp->filename,psp->tokenlineno,
"Missing \"->\" following: \"%s(%s)\".",
psp->lhs->name,psp->lhsalias);
psp->errorcnt++;
psp->state = RESYNC_AFTER_RULE_ERROR;
}
break;
case IN_RHS:
if( x[0]=='.' ){
struct rule *rp;
rp = (struct rule *)calloc( sizeof(struct rule) +
sizeof(struct symbol*)*psp->nrhs + sizeof(char*)*psp->nrhs, 1);
if( rp==0 ){
ErrorMsg(psp->filename,psp->tokenlineno,
"Can't allocate enough memory for this rule.");
psp->errorcnt++;
psp->prevrule = 0;
}else{
int i;
rp->ruleline = psp->tokenlineno;
rp->rhs = (struct symbol**)&rp[1];
rp->rhsalias = (const char**)&(rp->rhs[psp->nrhs]);
for(i=0; i<psp->nrhs; i++){
rp->rhs[i] = psp->rhs[i];
rp->rhsalias[i] = psp->alias[i];
}
rp->lhs = psp->lhs;
rp->lhsalias = psp->lhsalias;
rp->nrhs = psp->nrhs;
rp->code = 0;
rp->precsym = 0;
rp->index = psp->gp->nrule++;
rp->nextlhs = rp->lhs->rule;
rp->lhs->rule = rp;
rp->next = 0;
if( psp->firstrule==0 ){
psp->firstrule = psp->lastrule = rp;
}else{
psp->lastrule->next = rp;
psp->lastrule = rp;
}
psp->prevrule = rp;
}
psp->state = WAITING_FOR_DECL_OR_RULE;
}else if( ISALPHA(x[0]) ){
if( psp->nrhs>=MAXRHS ){
ErrorMsg(psp->filename,psp->tokenlineno,
"Too many symbols on RHS of rule beginning at \"%s\".",
x);
psp->errorcnt++;
psp->state = RESYNC_AFTER_RULE_ERROR;
}else{
psp->rhs[psp->nrhs] = Symbol_new(x);
psp->alias[psp->nrhs] = 0;
psp->nrhs++;
}
}else if( (x[0]=='|' || x[0]=='/') && psp->nrhs>0 ){
struct symbol *msp = psp->rhs[psp->nrhs-1];
if( msp->type!=MULTITERMINAL ){
struct symbol *origsp = msp;
msp = (struct symbol *) calloc(1,sizeof(*msp));
memset(msp, 0, sizeof(*msp));
msp->type = MULTITERMINAL;
msp->nsubsym = 1;
msp->subsym = (struct symbol **) calloc(1,sizeof(struct symbol*));
msp->subsym[0] = origsp;
msp->name = origsp->name;
psp->rhs[psp->nrhs-1] = msp;
}
msp->nsubsym++;
msp->subsym = (struct symbol **) realloc(msp->subsym,
sizeof(struct symbol*)*msp->nsubsym);
msp->subsym[msp->nsubsym-1] = Symbol_new(&x[1]);
if( ISLOWER(x[1]) || ISLOWER(msp->subsym[0]->name[0]) ){
ErrorMsg(psp->filename,psp->tokenlineno,
"Cannot form a compound containing a non-terminal");
psp->errorcnt++;
}
}else if( x[0]=='(' && psp->nrhs>0 ){
psp->state = RHS_ALIAS_1;
}else{
ErrorMsg(psp->filename,psp->tokenlineno,
"Illegal character on RHS of rule: \"%s\".",x);
psp->errorcnt++;
psp->state = RESYNC_AFTER_RULE_ERROR;
}
break;
case RHS_ALIAS_1:
if( ISALPHA(x[0]) ){
psp->alias[psp->nrhs-1] = x;
psp->state = RHS_ALIAS_2;
}else{
ErrorMsg(psp->filename,psp->tokenlineno,
"\"%s\" is not a valid alias for the RHS symbol \"%s\"\n",
x,psp->rhs[psp->nrhs-1]->name);
psp->errorcnt++;
psp->state = RESYNC_AFTER_RULE_ERROR;
}
break;
case RHS_ALIAS_2:
if( x[0]==')' ){
psp->state = IN_RHS;
}else{
ErrorMsg(psp->filename,psp->tokenlineno,
"Missing \")\" following LHS alias name \"%s\".",psp->lhsalias);
psp->errorcnt++;
psp->state = RESYNC_AFTER_RULE_ERROR;
}
break;
case WAITING_FOR_DECL_KEYWORD:
if( ISALPHA(x[0]) ){
psp->declkeyword = x;
psp->declargslot = 0;
psp->decllinenoslot = 0;
psp->insertLineMacro = 1;
psp->state = WAITING_FOR_DECL_ARG;
if( strcmp(x,"name")==0 ){
psp->declargslot = &(psp->gp->name);
psp->insertLineMacro = 0;
}else if( strcmp(x,"include")==0 ){
psp->declargslot = &(psp->gp->include);
}else if( strcmp(x,"code")==0 ){
psp->declargslot = &(psp->gp->extracode);
}else if( strcmp(x,"token_destructor")==0 ){
psp->declargslot = &psp->gp->tokendest;
}else if( strcmp(x,"default_destructor")==0 ){
psp->declargslot = &psp->gp->vardest;
}else if( strcmp(x,"token_prefix")==0 ){
psp->declargslot = &psp->gp->tokenprefix;
psp->insertLineMacro = 0;
}else if( strcmp(x,"syntax_error")==0 ){
psp->declargslot = &(psp->gp->error);
}else if( strcmp(x,"parse_accept")==0 ){
psp->declargslot = &(psp->gp->accept);
}else if( strcmp(x,"parse_failure")==0 ){
psp->declargslot = &(psp->gp->failure);
}else if( strcmp(x,"stack_overflow")==0 ){
psp->declargslot = &(psp->gp->overflow);
}else if( strcmp(x,"extra_argument")==0 ){
psp->declargslot = &(psp->gp->arg);
psp->insertLineMacro = 0;
}else if( strcmp(x,"token_type")==0 ){
psp->declargslot = &(psp->gp->tokentype);
psp->insertLineMacro = 0;
}else if( strcmp(x,"default_type")==0 ){
psp->declargslot = &(psp->gp->vartype);
psp->insertLineMacro = 0;
}else if( strcmp(x,"stack_size")==0 ){
psp->declargslot = &(psp->gp->stacksize);
psp->insertLineMacro = 0;
}else if( strcmp(x,"start_symbol")==0 ){
psp->declargslot = &(psp->gp->start);
psp->insertLineMacro = 0;
}else if( strcmp(x,"left")==0 ){
psp->preccounter++;
psp->declassoc = LEFT;
psp->state = WAITING_FOR_PRECEDENCE_SYMBOL;
}else if( strcmp(x,"right")==0 ){
psp->preccounter++;
psp->declassoc = RIGHT;
psp->state = WAITING_FOR_PRECEDENCE_SYMBOL;
}else if( strcmp(x,"nonassoc")==0 ){
psp->preccounter++;
psp->declassoc = NONE;
psp->state = WAITING_FOR_PRECEDENCE_SYMBOL;
}else if( strcmp(x,"destructor")==0 ){
psp->state = WAITING_FOR_DESTRUCTOR_SYMBOL;
}else if( strcmp(x,"type")==0 ){
psp->state = WAITING_FOR_DATATYPE_SYMBOL;
}else if( strcmp(x,"fallback")==0 ){
psp->fallback = 0;
psp->state = WAITING_FOR_FALLBACK_ID;
}else if( strcmp(x,"wildcard")==0 ){
psp->state = WAITING_FOR_WILDCARD_ID;
}else if( strcmp(x,"token_class")==0 ){
psp->state = WAITING_FOR_CLASS_ID;
}else{
ErrorMsg(psp->filename,psp->tokenlineno,
"Unknown declaration keyword: \"%%%s\".",x);
psp->errorcnt++;
psp->state = RESYNC_AFTER_DECL_ERROR;
}
}else{
ErrorMsg(psp->filename,psp->tokenlineno,
"Illegal declaration keyword: \"%s\".",x);
psp->errorcnt++;
psp->state = RESYNC_AFTER_DECL_ERROR;
}
break;
case WAITING_FOR_DESTRUCTOR_SYMBOL:
if( !ISALPHA(x[0]) ){
ErrorMsg(psp->filename,psp->tokenlineno,
"Symbol name missing after %%destructor keyword");
psp->errorcnt++;
psp->state = RESYNC_AFTER_DECL_ERROR;
}else{
struct symbol *sp = Symbol_new(x);
psp->declargslot = &sp->destructor;
psp->decllinenoslot = &sp->destLineno;
psp->insertLineMacro = 1;
psp->state = WAITING_FOR_DECL_ARG;
}
break;
case WAITING_FOR_DATATYPE_SYMBOL:
if( !ISALPHA(x[0]) ){
ErrorMsg(psp->filename,psp->tokenlineno,
"Symbol name missing after %%type keyword");
psp->errorcnt++;
psp->state = RESYNC_AFTER_DECL_ERROR;
}else{
struct symbol *sp = Symbol_find(x);
if((sp) && (sp->datatype)){
ErrorMsg(psp->filename,psp->tokenlineno,
"Symbol %%type \"%s\" already defined", x);
psp->errorcnt++;
psp->state = RESYNC_AFTER_DECL_ERROR;
}else{
if (!sp){
sp = Symbol_new(x);
}
psp->declargslot = &sp->datatype;
psp->insertLineMacro = 0;
psp->state = WAITING_FOR_DECL_ARG;
}
}
break;
case WAITING_FOR_PRECEDENCE_SYMBOL:
if( x[0]=='.' ){
psp->state = WAITING_FOR_DECL_OR_RULE;
}else if( ISUPPER(x[0]) ){
struct symbol *sp;
sp = Symbol_new(x);
if( sp->prec>=0 ){
ErrorMsg(psp->filename,psp->tokenlineno,
"Symbol \"%s\" has already be given a precedence.",x);
psp->errorcnt++;
}else{
sp->prec = psp->preccounter;
sp->assoc = psp->declassoc;
}
}else{
ErrorMsg(psp->filename,psp->tokenlineno,
"Can't assign a precedence to \"%s\".",x);
psp->errorcnt++;
}
break;
case WAITING_FOR_DECL_ARG:
if( x[0]=='{' || x[0]=='\"' || ISALNUM(x[0]) ){
const char *zOld, *zNew;
char *zBuf, *z;
int nOld, n, nLine = 0, nNew, nBack;
int addLineMacro;
char zLine[50];
zNew = x;
if( zNew[0]=='"' || zNew[0]=='{' ) zNew++;
nNew = lemonStrlen(zNew);
if( *psp->declargslot ){
zOld = *psp->declargslot;
}else{
zOld = "";
}
nOld = lemonStrlen(zOld);
n = nOld + nNew + 20;
addLineMacro = !psp->gp->nolinenosflag && psp->insertLineMacro &&
(psp->decllinenoslot==0 || psp->decllinenoslot[0]!=0);
if( addLineMacro ){
for(z=psp->filename, nBack=0; *z; z++){
if( *z=='\\' ) nBack++;
}
lemon_sprintf(zLine, "#line %d ", psp->tokenlineno);
nLine = lemonStrlen(zLine);
n += nLine + lemonStrlen(psp->filename) + nBack;
}
*psp->declargslot = (char *) realloc(*psp->declargslot, n);
zBuf = *psp->declargslot + nOld;
if( addLineMacro ){
if( nOld && zBuf[-1]!='\n' ){
*(zBuf++) = '\n';
}
memcpy(zBuf, zLine, nLine);
zBuf += nLine;
*(zBuf++) = '"';
for(z=psp->filename; *z; z++){
if( *z=='\\' ){
*(zBuf++) = '\\';
}
*(zBuf++) = *z;
}
*(zBuf++) = '"';
*(zBuf++) = '\n';
}
if( psp->decllinenoslot && psp->decllinenoslot[0]==0 ){
psp->decllinenoslot[0] = psp->tokenlineno;
}
memcpy(zBuf, zNew, nNew);
zBuf += nNew;
*zBuf = 0;
psp->state = WAITING_FOR_DECL_OR_RULE;
}else{
ErrorMsg(psp->filename,psp->tokenlineno,
"Illegal argument to %%%s: %s",psp->declkeyword,x);
psp->errorcnt++;
psp->state = RESYNC_AFTER_DECL_ERROR;
}
break;
case WAITING_FOR_FALLBACK_ID:
if( x[0]=='.' ){
psp->state = WAITING_FOR_DECL_OR_RULE;
}else if( !ISUPPER(x[0]) ){
ErrorMsg(psp->filename, psp->tokenlineno,
"%%fallback argument \"%s\" should be a token", x);
psp->errorcnt++;
}else{
struct symbol *sp = Symbol_new(x);
if( psp->fallback==0 ){
psp->fallback = sp;
}else if( sp->fallback ){
ErrorMsg(psp->filename, psp->tokenlineno,
"More than one fallback assigned to token %s", x);
psp->errorcnt++;
}else{
sp->fallback = psp->fallback;
psp->gp->has_fallback = 1;
}
}
break;
case WAITING_FOR_WILDCARD_ID:
if( x[0]=='.' ){
psp->state = WAITING_FOR_DECL_OR_RULE;
}else if( !ISUPPER(x[0]) ){
ErrorMsg(psp->filename, psp->tokenlineno,
"%%wildcard argument \"%s\" should be a token", x);
psp->errorcnt++;
}else{
struct symbol *sp = Symbol_new(x);
if( psp->gp->wildcard==0 ){
psp->gp->wildcard = sp;
}else{
ErrorMsg(psp->filename, psp->tokenlineno,
"Extra wildcard to token: %s", x);
psp->errorcnt++;
}
}
break;
case WAITING_FOR_CLASS_ID:
if( !ISLOWER(x[0]) ){
ErrorMsg(psp->filename, psp->tokenlineno,
"%%token_class must be followed by an identifier: ", x);
psp->errorcnt++;
psp->state = RESYNC_AFTER_DECL_ERROR;
}else if( Symbol_find(x) ){
ErrorMsg(psp->filename, psp->tokenlineno,
"Symbol \"%s\" already used", x);
psp->errorcnt++;
psp->state = RESYNC_AFTER_DECL_ERROR;
}else{
psp->tkclass = Symbol_new(x);
psp->tkclass->type = MULTITERMINAL;
psp->state = WAITING_FOR_CLASS_TOKEN;
}
break;
case WAITING_FOR_CLASS_TOKEN:
if( x[0]=='.' ){
psp->state = WAITING_FOR_DECL_OR_RULE;
}else if( ISUPPER(x[0]) || ((x[0]=='|' || x[0]=='/') && ISUPPER(x[1])) ){
struct symbol *msp = psp->tkclass;
msp->nsubsym++;
msp->subsym = (struct symbol **) realloc(msp->subsym,
sizeof(struct symbol*)*msp->nsubsym);
if( !ISUPPER(x[0]) ) x++;
msp->subsym[msp->nsubsym-1] = Symbol_new(x);
}else{
ErrorMsg(psp->filename, psp->tokenlineno,
"%%token_class argument \"%s\" should be a token", x);
psp->errorcnt++;
psp->state = RESYNC_AFTER_DECL_ERROR;
}
break;
case RESYNC_AFTER_RULE_ERROR:
/* if( x[0]=='.' ) psp->state = WAITING_FOR_DECL_OR_RULE;
** break; */
case RESYNC_AFTER_DECL_ERROR:
if( x[0]=='.' ) psp->state = WAITING_FOR_DECL_OR_RULE;
if( x[0]=='%' ) psp->state = WAITING_FOR_DECL_KEYWORD;
break;
}
}
/* Run the preprocessor over the input file text. The global variables
** azDefine[0] through azDefine[nDefine-1] contains the names of all defined
** macros. This routine looks for "%ifdef" and "%ifndef" and "%endif" and
** comments them out. Text in between is also commented out as appropriate.
*/
static void preprocess_input(char *z){
int i, j, k, n;
int exclude = 0;
int start = 0;
int lineno = 1;
int start_lineno = 1;
for(i=0; z[i]; i++){
if( z[i]=='\n' ) lineno++;
if( z[i]!='%' || (i>0 && z[i-1]!='\n') ) continue;
if( strncmp(&z[i],"%endif",6)==0 && ISSPACE(z[i+6]) ){
if( exclude ){
exclude--;
if( exclude==0 ){
for(j=start; j<i; j++) if( z[j]!='\n' ) z[j] = ' ';
}
}
for(j=i; z[j] && z[j]!='\n'; j++) z[j] = ' ';
}else if( (strncmp(&z[i],"%ifdef",6)==0 && ISSPACE(z[i+6]))
|| (strncmp(&z[i],"%ifndef",7)==0 && ISSPACE(z[i+7])) ){
if( exclude ){
exclude++;
}else{
for(j=i+7; ISSPACE(z[j]); j++){}
for(n=0; z[j+n] && !ISSPACE(z[j+n]); n++){}
exclude = 1;
for(k=0; k<nDefine; k++){
if( strncmp(azDefine[k],&z[j],n)==0 && lemonStrlen(azDefine[k])==n ){
exclude = 0;
break;
}
}
if( z[i+3]=='n' ) exclude = !exclude;
if( exclude ){
start = i;
start_lineno = lineno;
}
}
for(j=i; z[j] && z[j]!='\n'; j++) z[j] = ' ';
}
}
if( exclude ){
fprintf(stderr,"unterminated %%ifdef starting on line %d\n", start_lineno);
exit(1);
}
}
/* In spite of its name, this function is really a scanner. It read
** in the entire input file (all at once) then tokenizes it. Each
** token is passed to the function "parseonetoken" which builds all
** the appropriate data structures in the global state vector "gp".
*/
void Parse(struct lemon *gp)
{
struct pstate ps;
FILE *fp;
char *filebuf;
unsigned int filesize;
int lineno;
int c;
char *cp, *nextcp;
int startline = 0;
memset(&ps, '\0', sizeof(ps));
ps.gp = gp;
ps.filename = gp->filename;
ps.errorcnt = 0;
ps.state = INITIALIZE;
/* Begin by reading the input file */
fp = fopen(ps.filename,"rb");
if( fp==0 ){
ErrorMsg(ps.filename,0,"Can't open this file for reading.");
gp->errorcnt++;
return;
}
fseek(fp,0,2);
filesize = ftell(fp);
rewind(fp);
filebuf = (char *)malloc( filesize+1 );
if( filesize>100000000 || filebuf==0 ){
ErrorMsg(ps.filename,0,"Input file too large.");
gp->errorcnt++;
fclose(fp);
return;
}
if( fread(filebuf,1,filesize,fp)!=filesize ){
ErrorMsg(ps.filename,0,"Can't read in all %d bytes of this file.",
filesize);
free(filebuf);
gp->errorcnt++;
fclose(fp);
return;
}
fclose(fp);
filebuf[filesize] = 0;
/* Make an initial pass through the file to handle %ifdef and %ifndef */
preprocess_input(filebuf);
/* Now scan the text of the input file */
lineno = 1;
for(cp=filebuf; (c= *cp)!=0; ){
if( c=='\n' ) lineno++; /* Keep track of the line number */
if( ISSPACE(c) ){ cp++; continue; } /* Skip all white space */
if( c=='/' && cp[1]=='/' ){ /* Skip C++ style comments */
cp+=2;
while( (c= *cp)!=0 && c!='\n' ) cp++;
continue;
}
if( c=='/' && cp[1]=='*' ){ /* Skip C style comments */
cp+=2;
while( (c= *cp)!=0 && (c!='/' || cp[-1]!='*') ){
if( c=='\n' ) lineno++;
cp++;
}
if( c ) cp++;
continue;
}
ps.tokenstart = cp; /* Mark the beginning of the token */
ps.tokenlineno = lineno; /* Linenumber on which token begins */
if( c=='\"' ){ /* String literals */
cp++;
while( (c= *cp)!=0 && c!='\"' ){
if( c=='\n' ) lineno++;
cp++;
}
if( c==0 ){
ErrorMsg(ps.filename,startline,
"String starting on this line is not terminated before the end of the file.");
ps.errorcnt++;
nextcp = cp;
}else{
nextcp = cp+1;
}
}else if( c=='{' ){ /* A block of C code */
int level;
cp++;
for(level=1; (c= *cp)!=0 && (level>1 || c!='}'); cp++){
if( c=='\n' ) lineno++;
else if( c=='{' ) level++;
else if( c=='}' ) level--;
else if( c=='/' && cp[1]=='*' ){ /* Skip comments */
int prevc;
cp = &cp[2];
prevc = 0;
while( (c= *cp)!=0 && (c!='/' || prevc!='*') ){
if( c=='\n' ) lineno++;
prevc = c;
cp++;
}
}else if( c=='/' && cp[1]=='/' ){ /* Skip C++ style comments too */
cp = &cp[2];
while( (c= *cp)!=0 && c!='\n' ) cp++;
if( c ) lineno++;
}else if( c=='\'' || c=='\"' ){ /* String a character literals */
int startchar, prevc;
startchar = c;
prevc = 0;
for(cp++; (c= *cp)!=0 && (c!=startchar || prevc=='\\'); cp++){
if( c=='\n' ) lineno++;
if( prevc=='\\' ) prevc = 0;
else prevc = c;
}
}
}
if( c==0 ){
ErrorMsg(ps.filename,ps.tokenlineno,
"C code starting on this line is not terminated before the end of the file.");
ps.errorcnt++;
nextcp = cp;
}else{
nextcp = cp+1;
}
}else if( ISALNUM(c) ){ /* Identifiers */
while( (c= *cp)!=0 && (ISALNUM(c) || c=='_') ) cp++;
nextcp = cp;
}else if( c==':' && cp[1]==':' && cp[2]=='=' ){ /* The operator "::=" */
cp += 3;
nextcp = cp;
}else if( (c=='/' || c=='|') && ISALPHA(cp[1]) ){
cp += 2;
while( (c = *cp)!=0 && (ISALNUM(c) || c=='_') ) cp++;
nextcp = cp;
}else{ /* All other (one character) operators */
cp++;
nextcp = cp;
}
c = *cp;
*cp = 0; /* Null terminate the token */
parseonetoken(&ps); /* Parse the token */
*cp = (char)c; /* Restore the buffer */
cp = nextcp;
}
free(filebuf); /* Release the buffer after parsing */
gp->rule = ps.firstrule;
gp->errorcnt = ps.errorcnt;
}
/*************************** From the file "plink.c" *********************/
/*
** Routines processing configuration follow-set propagation links
** in the LEMON parser generator.
*/
static struct plink *plink_freelist = 0;
/* Allocate a new plink */
struct plink *Plink_new(){
struct plink *newlink;
if( plink_freelist==0 ){
int i;
int amt = 100;
plink_freelist = (struct plink *)calloc( amt, sizeof(struct plink) );
if( plink_freelist==0 ){
fprintf(stderr,
"Unable to allocate memory for a new follow-set propagation link.\n");
exit(1);
}
for(i=0; i<amt-1; i++) plink_freelist[i].next = &plink_freelist[i+1];
plink_freelist[amt-1].next = 0;
}
newlink = plink_freelist;
plink_freelist = plink_freelist->next;
return newlink;
}
/* Add a plink to a plink list */
void Plink_add(struct plink **plpp, struct config *cfp)
{
struct plink *newlink;
newlink = Plink_new();
newlink->next = *plpp;
*plpp = newlink;
newlink->cfp = cfp;
}
/* Transfer every plink on the list "from" to the list "to" */
void Plink_copy(struct plink **to, struct plink *from)
{
struct plink *nextpl;
while( from ){
nextpl = from->next;
from->next = *to;
*to = from;
from = nextpl;
}
}
/* Delete every plink on the list */
void Plink_delete(struct plink *plp)
{
struct plink *nextpl;
while( plp ){
nextpl = plp->next;
plp->next = plink_freelist;
plink_freelist = plp;
plp = nextpl;
}
}
/*********************** From the file "report.c" **************************/
/*
** Procedures for generating reports and tables in the LEMON parser generator.
*/
/* Generate a filename with the given suffix. Space to hold the
** name comes from malloc() and must be freed by the calling
** function.
*/
PRIVATE char *file_makename(struct lemon *lemp, const char *suffix)
{
char *name;
char *cp;
name = (char*)malloc( lemonStrlen(lemp->filename) + lemonStrlen(suffix) + 5 );
if( name==0 ){
fprintf(stderr,"Can't allocate space for a filename.\n");
exit(1);
}
lemon_strcpy(name,lemp->filename);
cp = strrchr(name,'.');
if( cp ) *cp = 0;
lemon_strcat(name,suffix);
return name;
}
/* Open a file with a name based on the name of the input file,
** but with a different (specified) suffix, and return a pointer
** to the stream */
PRIVATE FILE *file_open(
struct lemon *lemp,
const char *suffix,
const char *mode
){
FILE *fp;
if( lemp->outname ) free(lemp->outname);
lemp->outname = file_makename(lemp, suffix);
fp = fopen(lemp->outname,mode);
if( fp==0 && *mode=='w' ){
fprintf(stderr,"Can't open file \"%s\".\n",lemp->outname);
lemp->errorcnt++;
return 0;
}
return fp;
}
/* Duplicate the input file without comments and without actions
** on rules */
void Reprint(struct lemon *lemp)
{
struct rule *rp;
struct symbol *sp;
int i, j, maxlen, len, ncolumns, skip;
printf("// Reprint of input file \"%s\".\n// Symbols:\n",lemp->filename);
maxlen = 10;
for(i=0; i<lemp->nsymbol; i++){
sp = lemp->symbols[i];
len = lemonStrlen(sp->name);
if( len>maxlen ) maxlen = len;
}
ncolumns = 76/(maxlen+5);
if( ncolumns<1 ) ncolumns = 1;
skip = (lemp->nsymbol + ncolumns - 1)/ncolumns;
for(i=0; i<skip; i++){
printf("//");
for(j=i; j<lemp->nsymbol; j+=skip){
sp = lemp->symbols[j];
assert( sp->index==j );
printf(" %3d %-*.*s",j,maxlen,maxlen,sp->name);
}
printf("\n");
}
for(rp=lemp->rule; rp; rp=rp->next){
printf("%s",rp->lhs->name);
/* if( rp->lhsalias ) printf("(%s)",rp->lhsalias); */
printf(" ::=");
for(i=0; i<rp->nrhs; i++){
sp = rp->rhs[i];
if( sp->type==MULTITERMINAL ){
printf(" %s", sp->subsym[0]->name);
for(j=1; j<sp->nsubsym; j++){
printf("|%s", sp->subsym[j]->name);
}
}else{
printf(" %s", sp->name);
}
/* if( rp->rhsalias[i] ) printf("(%s)",rp->rhsalias[i]); */
}
printf(".");
if( rp->precsym ) printf(" [%s]",rp->precsym->name);
/* if( rp->code ) printf("\n %s",rp->code); */
printf("\n");
}
}
/* Print a single rule.
*/
void RulePrint(FILE *fp, struct rule *rp, int iCursor){
struct symbol *sp;
int i, j;
fprintf(fp,"%s ::=",rp->lhs->name);
for(i=0; i<=rp->nrhs; i++){
if( i==iCursor ) fprintf(fp," *");
if( i==rp->nrhs ) break;
sp = rp->rhs[i];
if( sp->type==MULTITERMINAL ){
fprintf(fp," %s", sp->subsym[0]->name);
for(j=1; j<sp->nsubsym; j++){
fprintf(fp,"|%s",sp->subsym[j]->name);
}
}else{
fprintf(fp," %s", sp->name);
}
}
}
/* Print the rule for a configuration.
*/
void ConfigPrint(FILE *fp, struct config *cfp){
RulePrint(fp, cfp->rp, cfp->dot);
}
/* #define TEST */
#if 0
/* Print a set */
PRIVATE void SetPrint(out,set,lemp)
FILE *out;
char *set;
struct lemon *lemp;
{
int i;
char *spacer;
spacer = "";
fprintf(out,"%12s[","");
for(i=0; i<lemp->nterminal; i++){
if( SetFind(set,i) ){
fprintf(out,"%s%s",spacer,lemp->symbols[i]->name);
spacer = " ";
}
}
fprintf(out,"]\n");
}
/* Print a plink chain */
PRIVATE void PlinkPrint(out,plp,tag)
FILE *out;
struct plink *plp;
char *tag;
{
while( plp ){
fprintf(out,"%12s%s (state %2d) ","",tag,plp->cfp->stp->statenum);
ConfigPrint(out,plp->cfp);
fprintf(out,"\n");
plp = plp->next;
}
}
#endif
/* Print an action to the given file descriptor. Return FALSE if
** nothing was actually printed.
*/
int PrintAction(
struct action *ap, /* The action to print */
FILE *fp, /* Print the action here */
int indent /* Indent by this amount */
){
int result = 1;
switch( ap->type ){
case SHIFT: {
struct state *stp = ap->x.stp;
fprintf(fp,"%*s shift %-7d",indent,ap->sp->name,stp->statenum);
break;
}
case REDUCE: {
struct rule *rp = ap->x.rp;
fprintf(fp,"%*s reduce %-7d",indent,ap->sp->name,rp->index);
RulePrint(fp, rp, -1);
break;
}
case SHIFTREDUCE: {
struct rule *rp = ap->x.rp;
fprintf(fp,"%*s shift-reduce %-7d",indent,ap->sp->name,rp->index);
RulePrint(fp, rp, -1);
break;
}
case ACCEPT:
fprintf(fp,"%*s accept",indent,ap->sp->name);
break;
case ERROR:
fprintf(fp,"%*s error",indent,ap->sp->name);
break;
case SRCONFLICT:
case RRCONFLICT:
fprintf(fp,"%*s reduce %-7d ** Parsing conflict **",
indent,ap->sp->name,ap->x.rp->index);
break;
case SSCONFLICT:
fprintf(fp,"%*s shift %-7d ** Parsing conflict **",
indent,ap->sp->name,ap->x.stp->statenum);
break;
case SH_RESOLVED:
if( showPrecedenceConflict ){
fprintf(fp,"%*s shift %-7d -- dropped by precedence",
indent,ap->sp->name,ap->x.stp->statenum);
}else{
result = 0;
}
break;
case RD_RESOLVED:
if( showPrecedenceConflict ){
fprintf(fp,"%*s reduce %-7d -- dropped by precedence",
indent,ap->sp->name,ap->x.rp->index);
}else{
result = 0;
}
break;
case NOT_USED:
result = 0;
break;
}
return result;
}
/* Generate the "*.out" log file */
void ReportOutput(struct lemon *lemp)
{
int i;
struct state *stp;
struct config *cfp;
struct action *ap;
FILE *fp;
fp = file_open(lemp,".out","wb");
if( fp==0 ) return;
for(i=0; i<lemp->nxstate; i++){
stp = lemp->sorted[i];
fprintf(fp,"State %d:\n",stp->statenum);
if( lemp->basisflag ) cfp=stp->bp;
else cfp=stp->cfp;
while( cfp ){
char buf[20];
if( cfp->dot==cfp->rp->nrhs ){
lemon_sprintf(buf,"(%d)",cfp->rp->index);
fprintf(fp," %5s ",buf);
}else{
fprintf(fp," ");
}
ConfigPrint(fp,cfp);
fprintf(fp,"\n");
#if 0
SetPrint(fp,cfp->fws,lemp);
PlinkPrint(fp,cfp->fplp,"To ");
PlinkPrint(fp,cfp->bplp,"From");
#endif
if( lemp->basisflag ) cfp=cfp->bp;
else cfp=cfp->next;
}
fprintf(fp,"\n");
for(ap=stp->ap; ap; ap=ap->next){
if( PrintAction(ap,fp,30) ) fprintf(fp,"\n");
}
fprintf(fp,"\n");
}
fprintf(fp, "----------------------------------------------------\n");
fprintf(fp, "Symbols:\n");
for(i=0; i<lemp->nsymbol; i++){
int j;
struct symbol *sp;
sp = lemp->symbols[i];
fprintf(fp, " %3d: %s", i, sp->name);
if( sp->type==NONTERMINAL ){
fprintf(fp, ":");
if( sp->lambda ){
fprintf(fp, " <lambda>");
}
for(j=0; j<lemp->nterminal; j++){
if( sp->firstset && SetFind(sp->firstset, j) ){
fprintf(fp, " %s", lemp->symbols[j]->name);
}
}
}
fprintf(fp, "\n");
}
fclose(fp);
return;
}
/* Search for the file "name" which is in the same directory as
** the exacutable */
PRIVATE char *pathsearch(char *argv0, char *name, int modemask)
{
const char *pathlist;
char *pathbufptr;
char *pathbuf;
char *path,*cp;
char c;
#ifdef __WIN32__
cp = strrchr(argv0,'\\');
#else
cp = strrchr(argv0,'/');
#endif
if( cp ){
c = *cp;
*cp = 0;
path = (char *)malloc( lemonStrlen(argv0) + lemonStrlen(name) + 2 );
if( path ) lemon_sprintf(path,"%s/%s",argv0,name);
*cp = c;
}else{
pathlist = getenv("PATH");
if( pathlist==0 ) pathlist = ".:/bin:/usr/bin";
pathbuf = (char *) malloc( lemonStrlen(pathlist) + 1 );
path = (char *)malloc( lemonStrlen(pathlist)+lemonStrlen(name)+2 );
if( (pathbuf != 0) && (path!=0) ){
pathbufptr = pathbuf;
lemon_strcpy(pathbuf, pathlist);
while( *pathbuf ){
cp = strchr(pathbuf,':');
if( cp==0 ) cp = &pathbuf[lemonStrlen(pathbuf)];
c = *cp;
*cp = 0;
lemon_sprintf(path,"%s/%s",pathbuf,name);
*cp = c;
if( c==0 ) pathbuf[0] = 0;
else pathbuf = &cp[1];
if( access(path,modemask)==0 ) break;
}
free(pathbufptr);
}
}
return path;
}
/* Given an action, compute the integer value for that action
** which is to be put in the action table of the generated machine.
** Return negative if no action should be generated.
*/
PRIVATE int compute_action(struct lemon *lemp, struct action *ap)
{
int act;
switch( ap->type ){
case SHIFT: act = ap->x.stp->statenum; break;
case SHIFTREDUCE: act = ap->x.rp->index + lemp->nstate; break;
case REDUCE: act = ap->x.rp->index + lemp->nstate+lemp->nrule; break;
case ERROR: act = lemp->nstate + lemp->nrule*2; break;
case ACCEPT: act = lemp->nstate + lemp->nrule*2 + 1; break;
default: act = -1; break;
}
return act;
}
#define LINESIZE 1000
/* The next cluster of routines are for reading the template file
** and writing the results to the generated parser */
/* The first function transfers data from "in" to "out" until
** a line is seen which begins with "%%". The line number is
** tracked.
**
** if name!=0, then any word that begin with "Parse" is changed to
** begin with *name instead.
*/
PRIVATE void tplt_xfer(char *name, FILE *in, FILE *out, int *lineno)
{
int i, iStart;
char line[LINESIZE];
while( fgets(line,LINESIZE,in) && (line[0]!='%' || line[1]!='%') ){
(*lineno)++;
iStart = 0;
if( name ){
for(i=0; line[i]; i++){
if( line[i]=='P' && strncmp(&line[i],"Parse",5)==0
&& (i==0 || !ISALPHA(line[i-1]))
){
if( i>iStart ) fprintf(out,"%.*s",i-iStart,&line[iStart]);
fprintf(out,"%s",name);
i += 4;
iStart = i+1;
}
}
}
fprintf(out,"%s",&line[iStart]);
}
}
/* The next function finds the template file and opens it, returning
** a pointer to the opened file. */
PRIVATE FILE *tplt_open(struct lemon *lemp)
{
static char templatename[] = "lempar.c";
char buf[1000];
FILE *in;
char *tpltname;
char *cp;
/* first, see if user specified a template filename on the command line. */
if (user_templatename != 0) {
if( access(user_templatename,004)==-1 ){
fprintf(stderr,"Can't find the parser driver template file \"%s\".\n",
user_templatename);
lemp->errorcnt++;
return 0;
}
in = fopen(user_templatename,"rb");
if( in==0 ){
fprintf(stderr,"Can't open the template file \"%s\".\n",
user_templatename);
lemp->errorcnt++;
return 0;
}
return in;
}
cp = strrchr(lemp->filename,'.');
if( cp ){
lemon_sprintf(buf,"%.*s.lt",(int)(cp-lemp->filename),lemp->filename);
}else{
lemon_sprintf(buf,"%s.lt",lemp->filename);
}
if( access(buf,004)==0 ){
tpltname = buf;
}else if( access(templatename,004)==0 ){
tpltname = templatename;
}else{
tpltname = pathsearch(lemp->argv0,templatename,0);
}
if( tpltname==0 ){
fprintf(stderr,"Can't find the parser driver template file \"%s\".\n",
templatename);
lemp->errorcnt++;
return 0;
}
in = fopen(tpltname,"rb");
if( in==0 ){
fprintf(stderr,"Can't open the template file \"%s\".\n",templatename);
lemp->errorcnt++;
return 0;
}
return in;
}
/* Print a #line directive line to the output file. */
PRIVATE void tplt_linedir(FILE *out, int lineno, char *filename)
{
fprintf(out,"#line %d \"",lineno);
while( *filename ){
if( *filename == '\\' ) putc('\\',out);
putc(*filename,out);
filename++;
}
fprintf(out,"\"\n");
}
/* Print a string to the file and keep the linenumber up to date */
PRIVATE void tplt_print(FILE *out, struct lemon *lemp, char *str, int *lineno)
{
if( str==0 ) return;
while( *str ){
putc(*str,out);
if( *str=='\n' ) (*lineno)++;
str++;
}
if( str[-1]!='\n' ){
putc('\n',out);
(*lineno)++;
}
if (!lemp->nolinenosflag) {
(*lineno)++; tplt_linedir(out,*lineno,lemp->outname);
}
return;
}
/*
** The following routine emits code for the destructor for the
** symbol sp
*/
void emit_destructor_code(
FILE *out,
struct symbol *sp,
struct lemon *lemp,
int *lineno
){
char *cp = 0;
if( sp->type==TERMINAL ){
cp = lemp->tokendest;
if( cp==0 ) return;
fprintf(out,"{\n"); (*lineno)++;
}else if( sp->destructor ){
cp = sp->destructor;
fprintf(out,"{\n"); (*lineno)++;
if( !lemp->nolinenosflag ){
(*lineno)++;
tplt_linedir(out,sp->destLineno,lemp->filename);
}
}else if( lemp->vardest ){
cp = lemp->vardest;
if( cp==0 ) return;
fprintf(out,"{\n"); (*lineno)++;
}else{
assert( 0 ); /* Cannot happen */
}
for(; *cp; cp++){
if( *cp=='$' && cp[1]=='$' ){
fprintf(out,"(yypminor->yy%d)",sp->dtnum);
cp++;
continue;
}
if( *cp=='\n' ) (*lineno)++;
fputc(*cp,out);
}
fprintf(out,"\n"); (*lineno)++;
if (!lemp->nolinenosflag) {
(*lineno)++; tplt_linedir(out,*lineno,lemp->outname);
}
fprintf(out,"}\n"); (*lineno)++;
return;
}
/*
** Return TRUE (non-zero) if the given symbol has a destructor.
*/
int has_destructor(struct symbol *sp, struct lemon *lemp)
{
int ret;
if( sp->type==TERMINAL ){
ret = lemp->tokendest!=0;
}else{
ret = lemp->vardest!=0 || sp->destructor!=0;
}
return ret;
}
/*
** Append text to a dynamically allocated string. If zText is 0 then
** reset the string to be empty again. Always return the complete text
** of the string (which is overwritten with each call).
**
** n bytes of zText are stored. If n==0 then all of zText up to the first
** \000 terminator is stored. zText can contain up to two instances of
** %d. The values of p1 and p2 are written into the first and second
** %d.
**
** If n==-1, then the previous character is overwritten.
*/
PRIVATE char *append_str(const char *zText, int n, int p1, int p2){
static char empty[1] = { 0 };
static char *z = 0;
static int alloced = 0;
static int used = 0;
int c;
char zInt[40];
if( zText==0 ){
used = 0;
return z;
}
if( n<=0 ){
if( n<0 ){
used += n;
assert( used>=0 );
}
n = lemonStrlen(zText);
}
if( (int) (n+sizeof(zInt)*2+used) >= alloced ){
alloced = n + sizeof(zInt)*2 + used + 200;
z = (char *) realloc(z, alloced);
}
if( z==0 ) return empty;
while( n-- > 0 ){
c = *(zText++);
if( c=='%' && n>0 && zText[0]=='d' ){
lemon_sprintf(zInt, "%d", p1);
p1 = p2;
lemon_strcpy(&z[used], zInt);
used += lemonStrlen(&z[used]);
zText++;
n--;
}else{
z[used++] = (char)c;
}
}
z[used] = 0;
return z;
}
/*
** zCode is a string that is the action associated with a rule. Expand
** the symbols in this string so that the refer to elements of the parser
** stack.
*/
PRIVATE void translate_code(struct lemon *lemp, struct rule *rp){
char *cp, *xp;
int i;
char lhsused = 0; /* True if the LHS element has been used */
char used[MAXRHS]; /* True for each RHS element which is used */
for(i=0; i<rp->nrhs; i++) used[i] = 0;
lhsused = 0;
if( rp->code==0 ){
static char newlinestr[2] = { '\n', '\0' };
rp->code = newlinestr;
rp->line = rp->ruleline;
}
append_str(0,0,0,0);
/* This const cast is wrong but harmless, if we're careful. */
for(cp=(char *)rp->code; *cp; cp++){
if( ISALPHA(*cp) && (cp==rp->code || (!ISALNUM(cp[-1]) && cp[-1]!='_')) ){
char saved;
for(xp= &cp[1]; ISALNUM(*xp) || *xp=='_'; xp++);
saved = *xp;
*xp = 0;
if( rp->lhsalias && strcmp(cp,rp->lhsalias)==0 ){
append_str("yygotominor.yy%d",0,rp->lhs->dtnum,0);
cp = xp;
lhsused = 1;
}else{
for(i=0; i<rp->nrhs; i++){
if( rp->rhsalias[i] && strcmp(cp,rp->rhsalias[i])==0 ){
if( cp!=rp->code && cp[-1]=='@' ){
/* If the argument is of the form @X then substituted
** the token number of X, not the value of X */
append_str("yymsp[%d].major",-1,i-rp->nrhs+1,0);
}else{
struct symbol *sp = rp->rhs[i];
int dtnum;
if( sp->type==MULTITERMINAL ){
dtnum = sp->subsym[0]->dtnum;
}else{
dtnum = sp->dtnum;
}
append_str("yymsp[%d].minor.yy%d",0,i-rp->nrhs+1, dtnum);
}
cp = xp;
used[i] = 1;
break;
}
}
}
*xp = saved;
}
append_str(cp, 1, 0, 0);
} /* End loop */
/* Check to make sure the LHS has been used */
if( rp->lhsalias && !lhsused ){
ErrorMsg(lemp->filename,rp->ruleline,
"Label \"%s\" for \"%s(%s)\" is never used.",
rp->lhsalias,rp->lhs->name,rp->lhsalias);
lemp->errorcnt++;
}
/* Generate destructor code for RHS symbols which are not used in the
** reduce code */
for(i=0; i<rp->nrhs; i++){
if( rp->rhsalias[i] && !used[i] ){
ErrorMsg(lemp->filename,rp->ruleline,
"Label %s for \"%s(%s)\" is never used.",
rp->rhsalias[i],rp->rhs[i]->name,rp->rhsalias[i]);
lemp->errorcnt++;
}else if( rp->rhsalias[i]==0 ){
if( has_destructor(rp->rhs[i],lemp) ){
append_str(" yy_destructor(yypParser,%d,&yymsp[%d].minor);\n", 0,
rp->rhs[i]->index,i-rp->nrhs+1);
}else{
/* No destructor defined for this term */
}
}
}
if( rp->code ){
cp = append_str(0,0,0,0);
rp->code = Strsafe(cp?cp:"");
}
}
/*
** Generate code which executes when the rule "rp" is reduced. Write
** the code to "out". Make sure lineno stays up-to-date.
*/
PRIVATE void emit_code(
FILE *out,
struct rule *rp,
struct lemon *lemp,
int *lineno
){
const char *cp;
/* Generate code to do the reduce action */
if( rp->code ){
if( !lemp->nolinenosflag ){
(*lineno)++;
tplt_linedir(out,rp->line,lemp->filename);
}
fprintf(out,"{%s",rp->code);
for(cp=rp->code; *cp; cp++){
if( *cp=='\n' ) (*lineno)++;
} /* End loop */
fprintf(out,"}\n"); (*lineno)++;
if( !lemp->nolinenosflag ){
(*lineno)++;
tplt_linedir(out,*lineno,lemp->outname);
}
} /* End if( rp->code ) */
return;
}
/*
** Print the definition of the union used for the parser's data stack.
** This union contains fields for every possible data type for tokens
** and nonterminals. In the process of computing and printing this
** union, also set the ".dtnum" field of every terminal and nonterminal
** symbol.
*/
void print_stack_union(
FILE *out, /* The output stream */
struct lemon *lemp, /* The main info structure for this parser */
int *plineno, /* Pointer to the line number */
int mhflag /* True if generating makeheaders output */
){
int lineno = *plineno; /* The line number of the output */
char **types; /* A hash table of datatypes */
int arraysize; /* Size of the "types" array */
int maxdtlength; /* Maximum length of any ".datatype" field. */
char *stddt; /* Standardized name for a datatype */
int i,j; /* Loop counters */
unsigned hash; /* For hashing the name of a type */
const char *name; /* Name of the parser */
/* Allocate and initialize types[] and allocate stddt[] */
arraysize = lemp->nsymbol * 2;
types = (char**)calloc( arraysize, sizeof(char*) );
if( types==0 ){
fprintf(stderr,"Out of memory.\n");
exit(1);
}
for(i=0; i<arraysize; i++) types[i] = 0;
maxdtlength = 0;
if( lemp->vartype ){
maxdtlength = lemonStrlen(lemp->vartype);
}
for(i=0; i<lemp->nsymbol; i++){
int len;
struct symbol *sp = lemp->symbols[i];
if( sp->datatype==0 ) continue;
len = lemonStrlen(sp->datatype);
if( len>maxdtlength ) maxdtlength = len;
}
stddt = (char*)malloc( maxdtlength*2 + 1 );
if( stddt==0 ){
fprintf(stderr,"Out of memory.\n");
exit(1);
}
/* Build a hash table of datatypes. The ".dtnum" field of each symbol
** is filled in with the hash index plus 1. A ".dtnum" value of 0 is
** used for terminal symbols. If there is no %default_type defined then
** 0 is also used as the .dtnum value for nonterminals which do not specify
** a datatype using the %type directive.
*/
for(i=0; i<lemp->nsymbol; i++){
struct symbol *sp = lemp->symbols[i];
char *cp;
if( sp==lemp->errsym ){
sp->dtnum = arraysize+1;
continue;
}
if( sp->type!=NONTERMINAL || (sp->datatype==0 && lemp->vartype==0) ){
sp->dtnum = 0;
continue;
}
cp = sp->datatype;
if( cp==0 ) cp = lemp->vartype;
j = 0;
while( ISSPACE(*cp) ) cp++;
while( *cp ) stddt[j++] = *cp++;
while( j>0 && ISSPACE(stddt[j-1]) ) j--;
stddt[j] = 0;
if( lemp->tokentype && strcmp(stddt, lemp->tokentype)==0 ){
sp->dtnum = 0;
continue;
}
hash = 0;
for(j=0; stddt[j]; j++){
hash = hash*53 + stddt[j];
}
hash = (hash & 0x7fffffff)%arraysize;
while( types[hash] ){
if( strcmp(types[hash],stddt)==0 ){
sp->dtnum = hash + 1;
break;
}
hash++;
if( hash>=(unsigned)arraysize ) hash = 0;
}
if( types[hash]==0 ){
sp->dtnum = hash + 1;
types[hash] = (char*)malloc( lemonStrlen(stddt)+1 );
if( types[hash]==0 ){
fprintf(stderr,"Out of memory.\n");
exit(1);
}
lemon_strcpy(types[hash],stddt);
}
}
/* Print out the definition of YYTOKENTYPE and YYMINORTYPE */
name = lemp->name ? lemp->name : "Parse";
lineno = *plineno;
if( mhflag ){ fprintf(out,"#if INTERFACE\n"); lineno++; }
fprintf(out,"#define %sTOKENTYPE %s\n",name,
lemp->tokentype?lemp->tokentype:"void*"); lineno++;
if( mhflag ){ fprintf(out,"#endif\n"); lineno++; }
fprintf(out,"typedef union {\n"); lineno++;
fprintf(out," int yyinit;\n"); lineno++;
fprintf(out," %sTOKENTYPE yy0;\n",name); lineno++;
for(i=0; i<arraysize; i++){
if( types[i]==0 ) continue;
fprintf(out," %s yy%d;\n",types[i],i+1); lineno++;
free(types[i]);
}
if( lemp->errsym->useCnt ){
fprintf(out," int yy%d;\n",lemp->errsym->dtnum); lineno++;
}
free(stddt);
free(types);
fprintf(out,"} YYMINORTYPE;\n"); lineno++;
*plineno = lineno;
}
/*
** Return the name of a C datatype able to represent values between
** lwr and upr, inclusive. If pnByte!=NULL then also write the sizeof
** for that type (1, 2, or 4) into *pnByte.
*/
static const char *minimum_size_type(int lwr, int upr, int *pnByte){
const char *zType = "int";
int nByte = 4;
if( lwr>=0 ){
if( upr<=255 ){
zType = "unsigned char";
nByte = 1;
}else if( upr<65535 ){
zType = "unsigned short int";
nByte = 2;
}else{
zType = "unsigned int";
nByte = 4;
}
}else if( lwr>=-127 && upr<=127 ){
zType = "signed char";
nByte = 1;
}else if( lwr>=-32767 && upr<32767 ){
zType = "short";
nByte = 2;
}
if( pnByte ) *pnByte = nByte;
return zType;
}
/*
** Each state contains a set of token transaction and a set of
** nonterminal transactions. Each of these sets makes an instance
** of the following structure. An array of these structures is used
** to order the creation of entries in the yy_action[] table.
*/
struct axset {
struct state *stp; /* A pointer to a state */
int isTkn; /* True to use tokens. False for non-terminals */
int nAction; /* Number of actions */
int iOrder; /* Original order of action sets */
};
/*
** Compare to axset structures for sorting purposes
*/
static int axset_compare(const void *a, const void *b){
struct axset *p1 = (struct axset*)a;
struct axset *p2 = (struct axset*)b;
int c;
c = p2->nAction - p1->nAction;
if( c==0 ){
c = p1->iOrder - p2->iOrder;
}
assert( c!=0 || p1==p2 );
return c;
}
/*
** Write text on "out" that describes the rule "rp".
*/
static void writeRuleText(FILE *out, struct rule *rp){
int j;
fprintf(out,"%s ::=", rp->lhs->name);
for(j=0; j<rp->nrhs; j++){
struct symbol *sp = rp->rhs[j];
if( sp->type!=MULTITERMINAL ){
fprintf(out," %s", sp->name);
}else{
int k;
fprintf(out," %s", sp->subsym[0]->name);
for(k=1; k<sp->nsubsym; k++){
fprintf(out,"|%s",sp->subsym[k]->name);
}
}
}
}
/* Generate C source code for the parser */
void ReportTable(
struct lemon *lemp,
int mhflag /* Output in makeheaders format if true */
){
FILE *out, *in;
char line[LINESIZE];
int lineno;
struct state *stp;
struct action *ap;
struct rule *rp;
struct acttab *pActtab;
int i, j, n, sz;
int szActionType; /* sizeof(YYACTIONTYPE) */
int szCodeType; /* sizeof(YYCODETYPE) */
const char *name;
int mnTknOfst, mxTknOfst;
int mnNtOfst, mxNtOfst;
struct axset *ax;
in = tplt_open(lemp);
if( in==0 ) return;
out = file_open(lemp,".c","wb");
if( out==0 ){
fclose(in);
return;
}
lineno = 1;
tplt_xfer(lemp->name,in,out,&lineno);
/* Generate the include code, if any */
tplt_print(out,lemp,lemp->include,&lineno);
if( mhflag ){
char *incName = file_makename(lemp, ".h");
fprintf(out,"#include \"%s\"\n", incName); lineno++;
free(incName);
}
tplt_xfer(lemp->name,in,out,&lineno);
/* Generate #defines for all tokens */
if( mhflag ){
const char *prefix;
fprintf(out,"#if INTERFACE\n"); lineno++;
if( lemp->tokenprefix ) prefix = lemp->tokenprefix;
else prefix = "";
for(i=1; i<lemp->nterminal; i++){
fprintf(out,"#define %s%-30s %2d\n",prefix,lemp->symbols[i]->name,i);
lineno++;
}
fprintf(out,"#endif\n"); lineno++;
}
tplt_xfer(lemp->name,in,out,&lineno);
/* Generate the defines */
fprintf(out,"#define YYCODETYPE %s\n",
minimum_size_type(0, lemp->nsymbol+1, &szCodeType)); lineno++;
fprintf(out,"#define YYNOCODE %d\n",lemp->nsymbol+1); lineno++;
fprintf(out,"#define YYACTIONTYPE %s\n",
minimum_size_type(0,lemp->nstate+lemp->nrule*2+5,&szActionType)); lineno++;
if( lemp->wildcard ){
fprintf(out,"#define YYWILDCARD %d\n",
lemp->wildcard->index); lineno++;
}
print_stack_union(out,lemp,&lineno,mhflag);
fprintf(out, "#ifndef YYSTACKDEPTH\n"); lineno++;
if( lemp->stacksize ){
fprintf(out,"#define YYSTACKDEPTH %s\n",lemp->stacksize); lineno++;
}else{
fprintf(out,"#define YYSTACKDEPTH 100\n"); lineno++;
}
fprintf(out, "#endif\n"); lineno++;
if( mhflag ){
fprintf(out,"#if INTERFACE\n"); lineno++;
}
name = lemp->name ? lemp->name : "Parse";
if( lemp->arg && lemp->arg[0] ){
i = lemonStrlen(lemp->arg);
while( i>=1 && ISSPACE(lemp->arg[i-1]) ) i--;
while( i>=1 && (ISALNUM(lemp->arg[i-1]) || lemp->arg[i-1]=='_') ) i--;
fprintf(out,"#define %sARG_SDECL %s;\n",name,lemp->arg); lineno++;
fprintf(out,"#define %sARG_PDECL ,%s\n",name,lemp->arg); lineno++;
fprintf(out,"#define %sARG_FETCH %s = yypParser->%s\n",
name,lemp->arg,&lemp->arg[i]); lineno++;
fprintf(out,"#define %sARG_STORE yypParser->%s = %s\n",
name,&lemp->arg[i],&lemp->arg[i]); lineno++;
}else{
fprintf(out,"#define %sARG_SDECL\n",name); lineno++;
fprintf(out,"#define %sARG_PDECL\n",name); lineno++;
fprintf(out,"#define %sARG_FETCH\n",name); lineno++;
fprintf(out,"#define %sARG_STORE\n",name); lineno++;
}
if( mhflag ){
fprintf(out,"#endif\n"); lineno++;
}
if( lemp->errsym->useCnt ){
fprintf(out,"#define YYERRORSYMBOL %d\n",lemp->errsym->index); lineno++;
fprintf(out,"#define YYERRSYMDT yy%d\n",lemp->errsym->dtnum); lineno++;
}
if( lemp->has_fallback ){
fprintf(out,"#define YYFALLBACK 1\n"); lineno++;
}
/* Compute the action table, but do not output it yet. The action
** table must be computed before generating the YYNSTATE macro because
** we need to know how many states can be eliminated.
*/
ax = (struct axset *) calloc(lemp->nxstate*2, sizeof(ax[0]));
if( ax==0 ){
fprintf(stderr,"malloc failed\n");
exit(1);
}
for(i=0; i<lemp->nxstate; i++){
stp = lemp->sorted[i];
ax[i*2].stp = stp;
ax[i*2].isTkn = 1;
ax[i*2].nAction = stp->nTknAct;
ax[i*2+1].stp = stp;
ax[i*2+1].isTkn = 0;
ax[i*2+1].nAction = stp->nNtAct;
}
mxTknOfst = mnTknOfst = 0;
mxNtOfst = mnNtOfst = 0;
/* In an effort to minimize the action table size, use the heuristic
** of placing the largest action sets first */
for(i=0; i<lemp->nxstate*2; i++) ax[i].iOrder = i;
qsort(ax, lemp->nxstate*2, sizeof(ax[0]), axset_compare);
pActtab = acttab_alloc();
for(i=0; i<lemp->nxstate*2 && ax[i].nAction>0; i++){
stp = ax[i].stp;
if( ax[i].isTkn ){
for(ap=stp->ap; ap; ap=ap->next){
int action;
if( ap->sp->index>=lemp->nterminal ) continue;
action = compute_action(lemp, ap);
if( action<0 ) continue;
acttab_action(pActtab, ap->sp->index, action);
}
stp->iTknOfst = acttab_insert(pActtab);
if( stp->iTknOfst<mnTknOfst ) mnTknOfst = stp->iTknOfst;
if( stp->iTknOfst>mxTknOfst ) mxTknOfst = stp->iTknOfst;
}else{
for(ap=stp->ap; ap; ap=ap->next){
int action;
if( ap->sp->index<lemp->nterminal ) continue;
if( ap->sp->index==lemp->nsymbol ) continue;
action = compute_action(lemp, ap);
if( action<0 ) continue;
acttab_action(pActtab, ap->sp->index, action);
}
stp->iNtOfst = acttab_insert(pActtab);
if( stp->iNtOfst<mnNtOfst ) mnNtOfst = stp->iNtOfst;
if( stp->iNtOfst>mxNtOfst ) mxNtOfst = stp->iNtOfst;
}
#if 0 /* Uncomment for a trace of how the yy_action[] table fills out */
{ int jj, nn;
for(jj=nn=0; jj<pActtab->nAction; jj++){
if( pActtab->aAction[jj].action<0 ) nn++;
}
printf("%4d: State %3d %s n: %2d size: %5d freespace: %d\n",
i, stp->statenum, ax[i].isTkn ? "Token" : "Var ",
ax[i].nAction, pActtab->nAction, nn);
}
#endif
}
free(ax);
/* Finish rendering the constants now that the action table has
** been computed */
fprintf(out,"#define YYNSTATE %d\n",lemp->nxstate); lineno++;
fprintf(out,"#define YYNRULE %d\n",lemp->nrule); lineno++;
fprintf(out,"#define YY_MAX_SHIFT %d\n",lemp->nxstate-1); lineno++;
fprintf(out,"#define YY_MIN_SHIFTREDUCE %d\n",lemp->nstate); lineno++;
i = lemp->nstate + lemp->nrule;
fprintf(out,"#define YY_MAX_SHIFTREDUCE %d\n", i-1); lineno++;
fprintf(out,"#define YY_MIN_REDUCE %d\n", i); lineno++;
i = lemp->nstate + lemp->nrule*2;
fprintf(out,"#define YY_MAX_REDUCE %d\n", i-1); lineno++;
fprintf(out,"#define YY_ERROR_ACTION %d\n", i); lineno++;
fprintf(out,"#define YY_ACCEPT_ACTION %d\n", i+1); lineno++;
fprintf(out,"#define YY_NO_ACTION %d\n", i+2); lineno++;
tplt_xfer(lemp->name,in,out,&lineno);
/* Now output the action table and its associates:
**
** yy_action[] A single table containing all actions.
** yy_lookahead[] A table containing the lookahead for each entry in
** yy_action. Used to detect hash collisions.
** yy_shift_ofst[] For each state, the offset into yy_action for
** shifting terminals.
** yy_reduce_ofst[] For each state, the offset into yy_action for
** shifting non-terminals after a reduce.
** yy_default[] Default action for each state.
*/
/* Output the yy_action table */
lemp->nactiontab = n = acttab_size(pActtab);
lemp->tablesize += n*szActionType;
fprintf(out,"#define YY_ACTTAB_COUNT (%d)\n", n); lineno++;
fprintf(out,"static const YYACTIONTYPE yy_action[] = {\n"); lineno++;
for(i=j=0; i<n; i++){
int action = acttab_yyaction(pActtab, i);
if( action<0 ) action = lemp->nstate + lemp->nrule + 2;
if( j==0 ) fprintf(out," /* %5d */ ", i);
fprintf(out, " %4d,", action);
if( j==9 || i==n-1 ){
fprintf(out, "\n"); lineno++;
j = 0;
}else{
j++;
}
}
fprintf(out, "};\n"); lineno++;
/* Output the yy_lookahead table */
lemp->tablesize += n*szCodeType;
fprintf(out,"static const YYCODETYPE yy_lookahead[] = {\n"); lineno++;
for(i=j=0; i<n; i++){
int la = acttab_yylookahead(pActtab, i);
if( la<0 ) la = lemp->nsymbol;
if( j==0 ) fprintf(out," /* %5d */ ", i);
fprintf(out, " %4d,", la);
if( j==9 || i==n-1 ){
fprintf(out, "\n"); lineno++;
j = 0;
}else{
j++;
}
}
fprintf(out, "};\n"); lineno++;
/* Output the yy_shift_ofst[] table */
fprintf(out, "#define YY_SHIFT_USE_DFLT (%d)\n", mnTknOfst-1); lineno++;
n = lemp->nxstate;
while( n>0 && lemp->sorted[n-1]->iTknOfst==NO_OFFSET ) n--;
fprintf(out, "#define YY_SHIFT_COUNT (%d)\n", n-1); lineno++;
fprintf(out, "#define YY_SHIFT_MIN (%d)\n", mnTknOfst); lineno++;
fprintf(out, "#define YY_SHIFT_MAX (%d)\n", mxTknOfst); lineno++;
fprintf(out, "static const %s yy_shift_ofst[] = {\n",
minimum_size_type(mnTknOfst-1, mxTknOfst, &sz)); lineno++;
lemp->tablesize += n*sz;
for(i=j=0; i<n; i++){
int ofst;
stp = lemp->sorted[i];
ofst = stp->iTknOfst;
if( ofst==NO_OFFSET ) ofst = mnTknOfst - 1;
if( j==0 ) fprintf(out," /* %5d */ ", i);
fprintf(out, " %4d,", ofst);
if( j==9 || i==n-1 ){
fprintf(out, "\n"); lineno++;
j = 0;
}else{
j++;
}
}
fprintf(out, "};\n"); lineno++;
/* Output the yy_reduce_ofst[] table */
fprintf(out, "#define YY_REDUCE_USE_DFLT (%d)\n", mnNtOfst-1); lineno++;
n = lemp->nxstate;
while( n>0 && lemp->sorted[n-1]->iNtOfst==NO_OFFSET ) n--;
fprintf(out, "#define YY_REDUCE_COUNT (%d)\n", n-1); lineno++;
fprintf(out, "#define YY_REDUCE_MIN (%d)\n", mnNtOfst); lineno++;
fprintf(out, "#define YY_REDUCE_MAX (%d)\n", mxNtOfst); lineno++;
fprintf(out, "static const %s yy_reduce_ofst[] = {\n",
minimum_size_type(mnNtOfst-1, mxNtOfst, &sz)); lineno++;
lemp->tablesize += n*sz;
for(i=j=0; i<n; i++){
int ofst;
stp = lemp->sorted[i];
ofst = stp->iNtOfst;
if( ofst==NO_OFFSET ) ofst = mnNtOfst - 1;
if( j==0 ) fprintf(out," /* %5d */ ", i);
fprintf(out, " %4d,", ofst);
if( j==9 || i==n-1 ){
fprintf(out, "\n"); lineno++;
j = 0;
}else{
j++;
}
}
fprintf(out, "};\n"); lineno++;
/* Output the default action table */
fprintf(out, "static const YYACTIONTYPE yy_default[] = {\n"); lineno++;
n = lemp->nxstate;
lemp->tablesize += n*szActionType;
for(i=j=0; i<n; i++){
stp = lemp->sorted[i];
if( j==0 ) fprintf(out," /* %5d */ ", i);
fprintf(out, " %4d,", stp->iDfltReduce+lemp->nstate+lemp->nrule);
if( j==9 || i==n-1 ){
fprintf(out, "\n"); lineno++;
j = 0;
}else{
j++;
}
}
fprintf(out, "};\n"); lineno++;
tplt_xfer(lemp->name,in,out,&lineno);
/* Generate the table of fallback tokens.
*/
if( lemp->has_fallback ){
int mx = lemp->nterminal - 1;
while( mx>0 && lemp->symbols[mx]->fallback==0 ){ mx--; }
lemp->tablesize += (mx+1)*szCodeType;
for(i=0; i<=mx; i++){
struct symbol *p = lemp->symbols[i];
if( p->fallback==0 ){
fprintf(out, " 0, /* %10s => nothing */\n", p->name);
}else{
fprintf(out, " %3d, /* %10s => %s */\n", p->fallback->index,
p->name, p->fallback->name);
}
lineno++;
}
}
tplt_xfer(lemp->name, in, out, &lineno);
/* Generate a table containing the symbolic name of every symbol
*/
for(i=0; i<lemp->nsymbol; i++){
lemon_sprintf(line,"\"%s\",",lemp->symbols[i]->name);
fprintf(out," %-15s",line);
if( (i&3)==3 ){ fprintf(out,"\n"); lineno++; }
}
if( (i&3)!=0 ){ fprintf(out,"\n"); lineno++; }
tplt_xfer(lemp->name,in,out,&lineno);
/* Generate a table containing a text string that describes every
** rule in the rule set of the grammar. This information is used
** when tracing REDUCE actions.
*/
for(i=0, rp=lemp->rule; rp; rp=rp->next, i++){
assert( rp->index==i );
fprintf(out," /* %3d */ \"", i);
writeRuleText(out, rp);
fprintf(out,"\",\n"); lineno++;
}
tplt_xfer(lemp->name,in,out,&lineno);
/* Generate code which executes every time a symbol is popped from
** the stack while processing errors or while destroying the parser.
** (In other words, generate the %destructor actions)
*/
if( lemp->tokendest ){
int once = 1;
for(i=0; i<lemp->nsymbol; i++){
struct symbol *sp = lemp->symbols[i];
if( sp==0 || sp->type!=TERMINAL ) continue;
if( once ){
fprintf(out, " /* TERMINAL Destructor */\n"); lineno++;
once = 0;
}
fprintf(out," case %d: /* %s */\n", sp->index, sp->name); lineno++;
}
for(i=0; i<lemp->nsymbol && lemp->symbols[i]->type!=TERMINAL; i++);
if( i<lemp->nsymbol ){
emit_destructor_code(out,lemp->symbols[i],lemp,&lineno);
fprintf(out," break;\n"); lineno++;
}
}
if( lemp->vardest ){
struct symbol *dflt_sp = 0;
int once = 1;
for(i=0; i<lemp->nsymbol; i++){
struct symbol *sp = lemp->symbols[i];
if( sp==0 || sp->type==TERMINAL ||
sp->index<=0 || sp->destructor!=0 ) continue;
if( once ){
fprintf(out, " /* Default NON-TERMINAL Destructor */\n"); lineno++;
once = 0;
}
fprintf(out," case %d: /* %s */\n", sp->index, sp->name); lineno++;
dflt_sp = sp;
}
if( dflt_sp!=0 ){
emit_destructor_code(out,dflt_sp,lemp,&lineno);
}
fprintf(out," break;\n"); lineno++;
}
for(i=0; i<lemp->nsymbol; i++){
struct symbol *sp = lemp->symbols[i];
if( sp==0 || sp->type==TERMINAL || sp->destructor==0 ) continue;
fprintf(out," case %d: /* %s */\n", sp->index, sp->name); lineno++;
/* Combine duplicate destructors into a single case */
for(j=i+1; j<lemp->nsymbol; j++){
struct symbol *sp2 = lemp->symbols[j];
if( sp2 && sp2->type!=TERMINAL && sp2->destructor
&& sp2->dtnum==sp->dtnum
&& strcmp(sp->destructor,sp2->destructor)==0 ){
fprintf(out," case %d: /* %s */\n",
sp2->index, sp2->name); lineno++;
sp2->destructor = 0;
}
}
emit_destructor_code(out,lemp->symbols[i],lemp,&lineno);
fprintf(out," break;\n"); lineno++;
}
tplt_xfer(lemp->name,in,out,&lineno);
/* Generate code which executes whenever the parser stack overflows */
tplt_print(out,lemp,lemp->overflow,&lineno);
tplt_xfer(lemp->name,in,out,&lineno);
/* Generate the table of rule information
**
** Note: This code depends on the fact that rules are number
** sequentually beginning with 0.
*/
for(rp=lemp->rule; rp; rp=rp->next){
fprintf(out," { %d, %d },\n",rp->lhs->index,rp->nrhs); lineno++;
}
tplt_xfer(lemp->name,in,out,&lineno);
/* Generate code which execution during each REDUCE action */
for(rp=lemp->rule; rp; rp=rp->next){
translate_code(lemp, rp);
}
/* First output rules other than the default: rule */
for(rp=lemp->rule; rp; rp=rp->next){
struct rule *rp2; /* Other rules with the same action */
if( rp->code==0 ) continue;
if( rp->code[0]=='\n' && rp->code[1]==0 ) continue; /* Will be default: */
fprintf(out," case %d: /* ", rp->index);
writeRuleText(out, rp);
fprintf(out, " */\n"); lineno++;
for(rp2=rp->next; rp2; rp2=rp2->next){
if( rp2->code==rp->code ){
fprintf(out," case %d: /* ", rp2->index);
writeRuleText(out, rp2);
fprintf(out," */ yytestcase(yyruleno==%d);\n", rp2->index); lineno++;
rp2->code = 0;
}
}
emit_code(out,rp,lemp,&lineno);
fprintf(out," break;\n"); lineno++;
rp->code = 0;
}
/* Finally, output the default: rule. We choose as the default: all
** empty actions. */
fprintf(out," default:\n"); lineno++;
for(rp=lemp->rule; rp; rp=rp->next){
if( rp->code==0 ) continue;
assert( rp->code[0]=='\n' && rp->code[1]==0 );
fprintf(out," /* (%d) ", rp->index);
writeRuleText(out, rp);
fprintf(out, " */ yytestcase(yyruleno==%d);\n", rp->index); lineno++;
}
fprintf(out," break;\n"); lineno++;
tplt_xfer(lemp->name,in,out,&lineno);
/* Generate code which executes if a parse fails */
tplt_print(out,lemp,lemp->failure,&lineno);
tplt_xfer(lemp->name,in,out,&lineno);
/* Generate code which executes when a syntax error occurs */
tplt_print(out,lemp,lemp->error,&lineno);
tplt_xfer(lemp->name,in,out,&lineno);
/* Generate code which executes when the parser accepts its input */
tplt_print(out,lemp,lemp->accept,&lineno);
tplt_xfer(lemp->name,in,out,&lineno);
/* Append any addition code the user desires */
tplt_print(out,lemp,lemp->extracode,&lineno);
fclose(in);
fclose(out);
return;
}
/* Generate a header file for the parser */
void ReportHeader(struct lemon *lemp)
{
FILE *out, *in;
const char *prefix;
char line[LINESIZE];
char pattern[LINESIZE];
int i;
if( lemp->tokenprefix ) prefix = lemp->tokenprefix;
else prefix = "";
in = file_open(lemp,".h","rb");
if( in ){
int nextChar;
for(i=1; i<lemp->nterminal && fgets(line,LINESIZE,in); i++){
lemon_sprintf(pattern,"#define %s%-30s %3d\n",
prefix,lemp->symbols[i]->name,i);
if( strcmp(line,pattern) ) break;
}
nextChar = fgetc(in);
fclose(in);
if( i==lemp->nterminal && nextChar==EOF ){
/* No change in the file. Don't rewrite it. */
return;
}
}
out = file_open(lemp,".h","wb");
if( out ){
for(i=1; i<lemp->nterminal; i++){
fprintf(out,"#define %s%-30s %3d\n",prefix,lemp->symbols[i]->name,i);
}
fclose(out);
}
return;
}
/* Reduce the size of the action tables, if possible, by making use
** of defaults.
**
** In this version, we take the most frequent REDUCE action and make
** it the default. Except, there is no default if the wildcard token
** is a possible look-ahead.
*/
void CompressTables(struct lemon *lemp)
{
struct state *stp;
struct action *ap, *ap2;
struct rule *rp, *rp2, *rbest;
int nbest, n;
int i;
int usesWildcard;
for(i=0; i<lemp->nstate; i++){
stp = lemp->sorted[i];
nbest = 0;
rbest = 0;
usesWildcard = 0;
for(ap=stp->ap; ap; ap=ap->next){
if( ap->type==SHIFT && ap->sp==lemp->wildcard ){
usesWildcard = 1;
}
if( ap->type!=REDUCE ) continue;
rp = ap->x.rp;
if( rp->lhsStart ) continue;
if( rp==rbest ) continue;
n = 1;
for(ap2=ap->next; ap2; ap2=ap2->next){
if( ap2->type!=REDUCE ) continue;
rp2 = ap2->x.rp;
if( rp2==rbest ) continue;
if( rp2==rp ) n++;
}
if( n>nbest ){
nbest = n;
rbest = rp;
}
}
/* Do not make a default if the number of rules to default
** is not at least 1 or if the wildcard token is a possible
** lookahead.
*/
if( nbest<1 || usesWildcard ) continue;
/* Combine matching REDUCE actions into a single default */
for(ap=stp->ap; ap; ap=ap->next){
if( ap->type==REDUCE && ap->x.rp==rbest ) break;
}
assert( ap );
ap->sp = Symbol_new("{default}");
for(ap=ap->next; ap; ap=ap->next){
if( ap->type==REDUCE && ap->x.rp==rbest ) ap->type = NOT_USED;
}
stp->ap = Action_sort(stp->ap);
for(ap=stp->ap; ap; ap=ap->next){
if( ap->type==SHIFT ) break;
if( ap->type==REDUCE && ap->x.rp!=rbest ) break;
}
if( ap==0 ){
stp->autoReduce = 1;
stp->pDfltReduce = rbest;
}
}
/* Make a second pass over all states and actions. Convert
** every action that is a SHIFT to an autoReduce state into
** a SHIFTREDUCE action.
*/
for(i=0; i<lemp->nstate; i++){
stp = lemp->sorted[i];
for(ap=stp->ap; ap; ap=ap->next){
struct state *pNextState;
if( ap->type!=SHIFT ) continue;
pNextState = ap->x.stp;
if( pNextState->autoReduce && pNextState->pDfltReduce!=0 ){
ap->type = SHIFTREDUCE;
ap->x.rp = pNextState->pDfltReduce;
}
}
}
}
/*
** Compare two states for sorting purposes. The smaller state is the
** one with the most non-terminal actions. If they have the same number
** of non-terminal actions, then the smaller is the one with the most
** token actions.
*/
static int stateResortCompare(const void *a, const void *b){
const struct state *pA = *(const struct state**)a;
const struct state *pB = *(const struct state**)b;
int n;
n = pB->nNtAct - pA->nNtAct;
if( n==0 ){
n = pB->nTknAct - pA->nTknAct;
if( n==0 ){
n = pB->statenum - pA->statenum;
}
}
assert( n!=0 );
return n;
}
/*
** Renumber and resort states so that states with fewer choices
** occur at the end. Except, keep state 0 as the first state.
*/
void ResortStates(struct lemon *lemp)
{
int i;
struct state *stp;
struct action *ap;
for(i=0; i<lemp->nstate; i++){
stp = lemp->sorted[i];
stp->nTknAct = stp->nNtAct = 0;
stp->iDfltReduce = lemp->nrule; /* Init dflt action to "syntax error" */
stp->iTknOfst = NO_OFFSET;
stp->iNtOfst = NO_OFFSET;
for(ap=stp->ap; ap; ap=ap->next){
int iAction = compute_action(lemp,ap);
if( iAction>=0 ){
if( ap->sp->index<lemp->nterminal ){
stp->nTknAct++;
}else if( ap->sp->index<lemp->nsymbol ){
stp->nNtAct++;
}else{
assert( stp->autoReduce==0 || stp->pDfltReduce==ap->x.rp );
stp->iDfltReduce = iAction - lemp->nstate - lemp->nrule;
}
}
}
}
qsort(&lemp->sorted[1], lemp->nstate-1, sizeof(lemp->sorted[0]),
stateResortCompare);
for(i=0; i<lemp->nstate; i++){
lemp->sorted[i]->statenum = i;
}
lemp->nxstate = lemp->nstate;
while( lemp->nxstate>1 && lemp->sorted[lemp->nxstate-1]->autoReduce ){
lemp->nxstate--;
}
}
/***************** From the file "set.c" ************************************/
/*
** Set manipulation routines for the LEMON parser generator.
*/
static int size = 0;
/* Set the set size */
void SetSize(int n)
{
size = n+1;
}
/* Allocate a new set */
char *SetNew(){
char *s;
s = (char*)calloc( size, 1);
if( s==0 ){
extern void memory_error();
memory_error();
}
return s;
}
/* Deallocate a set */
void SetFree(char *s)
{
free(s);
}
/* Add a new element to the set. Return TRUE if the element was added
** and FALSE if it was already there. */
int SetAdd(char *s, int e)
{
int rv;
assert( e>=0 && e<size );
rv = s[e];
s[e] = 1;
return !rv;
}
/* Add every element of s2 to s1. Return TRUE if s1 changes. */
int SetUnion(char *s1, char *s2)
{
int i, progress;
progress = 0;
for(i=0; i<size; i++){
if( s2[i]==0 ) continue;
if( s1[i]==0 ){
progress = 1;
s1[i] = 1;
}
}
return progress;
}
/********************** From the file "table.c" ****************************/
/*
** All code in this file has been automatically generated
** from a specification in the file
** "table.q"
** by the associative array code building program "aagen".
** Do not edit this file! Instead, edit the specification
** file, then rerun aagen.
*/
/*
** Code for processing tables in the LEMON parser generator.
*/
PRIVATE unsigned strhash(const char *x)
{
unsigned h = 0;
while( *x ) h = h*13 + *(x++);
return h;
}
/* Works like strdup, sort of. Save a string in malloced memory, but
** keep strings in a table so that the same string is not in more
** than one place.
*/
const char *Strsafe(const char *y)
{
const char *z;
char *cpy;
if( y==0 ) return 0;
z = Strsafe_find(y);
if( z==0 && (cpy=(char *)malloc( lemonStrlen(y)+1 ))!=0 ){
lemon_strcpy(cpy,y);
z = cpy;
Strsafe_insert(z);
}
MemoryCheck(z);
return z;
}
/* There is one instance of the following structure for each
** associative array of type "x1".
*/
struct s_x1 {
int size; /* The number of available slots. */
/* Must be a power of 2 greater than or */
/* equal to 1 */
int count; /* Number of currently slots filled */
struct s_x1node *tbl; /* The data stored here */
struct s_x1node **ht; /* Hash table for lookups */
};
/* There is one instance of this structure for every data element
** in an associative array of type "x1".
*/
typedef struct s_x1node {
const char *data; /* The data */
struct s_x1node *next; /* Next entry with the same hash */
struct s_x1node **from; /* Previous link */
} x1node;
/* There is only one instance of the array, which is the following */
static struct s_x1 *x1a;
/* Allocate a new associative array */
void Strsafe_init(){
if( x1a ) return;
x1a = (struct s_x1*)malloc( sizeof(struct s_x1) );
if( x1a ){
x1a->size = 1024;
x1a->count = 0;
x1a->tbl = (x1node*)calloc(1024, sizeof(x1node) + sizeof(x1node*));
if( x1a->tbl==0 ){
free(x1a);
x1a = 0;
}else{
int i;
x1a->ht = (x1node**)&(x1a->tbl[1024]);
for(i=0; i<1024; i++) x1a->ht[i] = 0;
}
}
}
/* Insert a new record into the array. Return TRUE if successful.
** Prior data with the same key is NOT overwritten */
int Strsafe_insert(const char *data)
{
x1node *np;
unsigned h;
unsigned ph;
if( x1a==0 ) return 0;
ph = strhash(data);
h = ph & (x1a->size-1);
np = x1a->ht[h];
while( np ){
if( strcmp(np->data,data)==0 ){
/* An existing entry with the same key is found. */
/* Fail because overwrite is not allows. */
return 0;
}
np = np->next;
}
if( x1a->count>=x1a->size ){
/* Need to make the hash table bigger */
int i,arrSize;
struct s_x1 array;
array.size = arrSize = x1a->size*2;
array.count = x1a->count;
array.tbl = (x1node*)calloc(arrSize, sizeof(x1node) + sizeof(x1node*));
if( array.tbl==0 ) return 0; /* Fail due to malloc failure */
array.ht = (x1node**)&(array.tbl[arrSize]);
for(i=0; i<arrSize; i++) array.ht[i] = 0;
for(i=0; i<x1a->count; i++){
x1node *oldnp, *newnp;
oldnp = &(x1a->tbl[i]);
h = strhash(oldnp->data) & (arrSize-1);
newnp = &(array.tbl[i]);
if( array.ht[h] ) array.ht[h]->from = &(newnp->next);
newnp->next = array.ht[h];
newnp->data = oldnp->data;
newnp->from = &(array.ht[h]);
array.ht[h] = newnp;
}
free(x1a->tbl);
*x1a = array;
}
/* Insert the new data */
h = ph & (x1a->size-1);
np = &(x1a->tbl[x1a->count++]);
np->data = data;
if( x1a->ht[h] ) x1a->ht[h]->from = &(np->next);
np->next = x1a->ht[h];
x1a->ht[h] = np;
np->from = &(x1a->ht[h]);
return 1;
}
/* Return a pointer to data assigned to the given key. Return NULL
** if no such key. */
const char *Strsafe_find(const char *key)
{
unsigned h;
x1node *np;
if( x1a==0 ) return 0;
h = strhash(key) & (x1a->size-1);
np = x1a->ht[h];
while( np ){
if( strcmp(np->data,key)==0 ) break;
np = np->next;
}
return np ? np->data : 0;
}
/* Return a pointer to the (terminal or nonterminal) symbol "x".
** Create a new symbol if this is the first time "x" has been seen.
*/
struct symbol *Symbol_new(const char *x)
{
struct symbol *sp;
sp = Symbol_find(x);
if( sp==0 ){
sp = (struct symbol *)calloc(1, sizeof(struct symbol) );
MemoryCheck(sp);
sp->name = Strsafe(x);
sp->type = ISUPPER(*x) ? TERMINAL : NONTERMINAL;
sp->rule = 0;
sp->fallback = 0;
sp->prec = -1;
sp->assoc = UNK;
sp->firstset = 0;
sp->lambda = LEMON_FALSE;
sp->destructor = 0;
sp->destLineno = 0;
sp->datatype = 0;
sp->useCnt = 0;
Symbol_insert(sp,sp->name);
}
sp->useCnt++;
return sp;
}
/* Compare two symbols for sorting purposes. Return negative,
** zero, or positive if a is less then, equal to, or greater
** than b.
**
** Symbols that begin with upper case letters (terminals or tokens)
** must sort before symbols that begin with lower case letters
** (non-terminals). And MULTITERMINAL symbols (created using the
** %token_class directive) must sort at the very end. Other than
** that, the order does not matter.
**
** We find experimentally that leaving the symbols in their original
** order (the order they appeared in the grammar file) gives the
** smallest parser tables in SQLite.
*/
int Symbolcmpp(const void *_a, const void *_b)
{
const struct symbol *a = *(const struct symbol **) _a;
const struct symbol *b = *(const struct symbol **) _b;
int i1 = a->type==MULTITERMINAL ? 3 : a->name[0]>'Z' ? 2 : 1;
int i2 = b->type==MULTITERMINAL ? 3 : b->name[0]>'Z' ? 2 : 1;
return i1==i2 ? a->index - b->index : i1 - i2;
}
/* There is one instance of the following structure for each
** associative array of type "x2".
*/
struct s_x2 {
int size; /* The number of available slots. */
/* Must be a power of 2 greater than or */
/* equal to 1 */
int count; /* Number of currently slots filled */
struct s_x2node *tbl; /* The data stored here */
struct s_x2node **ht; /* Hash table for lookups */
};
/* There is one instance of this structure for every data element
** in an associative array of type "x2".
*/
typedef struct s_x2node {
struct symbol *data; /* The data */
const char *key; /* The key */
struct s_x2node *next; /* Next entry with the same hash */
struct s_x2node **from; /* Previous link */
} x2node;
/* There is only one instance of the array, which is the following */
static struct s_x2 *x2a;
/* Allocate a new associative array */
void Symbol_init(){
if( x2a ) return;
x2a = (struct s_x2*)malloc( sizeof(struct s_x2) );
if( x2a ){
x2a->size = 128;
x2a->count = 0;
x2a->tbl = (x2node*)calloc(128, sizeof(x2node) + sizeof(x2node*));
if( x2a->tbl==0 ){
free(x2a);
x2a = 0;
}else{
int i;
x2a->ht = (x2node**)&(x2a->tbl[128]);
for(i=0; i<128; i++) x2a->ht[i] = 0;
}
}
}
/* Insert a new record into the array. Return TRUE if successful.
** Prior data with the same key is NOT overwritten */
int Symbol_insert(struct symbol *data, const char *key)
{
x2node *np;
unsigned h;
unsigned ph;
if( x2a==0 ) return 0;
ph = strhash(key);
h = ph & (x2a->size-1);
np = x2a->ht[h];
while( np ){
if( strcmp(np->key,key)==0 ){
/* An existing entry with the same key is found. */
/* Fail because overwrite is not allows. */
return 0;
}
np = np->next;
}
if( x2a->count>=x2a->size ){
/* Need to make the hash table bigger */
int i,arrSize;
struct s_x2 array;
array.size = arrSize = x2a->size*2;
array.count = x2a->count;
array.tbl = (x2node*)calloc(arrSize, sizeof(x2node) + sizeof(x2node*));
if( array.tbl==0 ) return 0; /* Fail due to malloc failure */
array.ht = (x2node**)&(array.tbl[arrSize]);
for(i=0; i<arrSize; i++) array.ht[i] = 0;
for(i=0; i<x2a->count; i++){
x2node *oldnp, *newnp;
oldnp = &(x2a->tbl[i]);
h = strhash(oldnp->key) & (arrSize-1);
newnp = &(array.tbl[i]);
if( array.ht[h] ) array.ht[h]->from = &(newnp->next);
newnp->next = array.ht[h];
newnp->key = oldnp->key;
newnp->data = oldnp->data;
newnp->from = &(array.ht[h]);
array.ht[h] = newnp;
}
free(x2a->tbl);
*x2a = array;
}
/* Insert the new data */
h = ph & (x2a->size-1);
np = &(x2a->tbl[x2a->count++]);
np->key = key;
np->data = data;
if( x2a->ht[h] ) x2a->ht[h]->from = &(np->next);
np->next = x2a->ht[h];
x2a->ht[h] = np;
np->from = &(x2a->ht[h]);
return 1;
}
/* Return a pointer to data assigned to the given key. Return NULL
** if no such key. */
struct symbol *Symbol_find(const char *key)
{
unsigned h;
x2node *np;
if( x2a==0 ) return 0;
h = strhash(key) & (x2a->size-1);
np = x2a->ht[h];
while( np ){
if( strcmp(np->key,key)==0 ) break;
np = np->next;
}
return np ? np->data : 0;
}
/* Return the n-th data. Return NULL if n is out of range. */
struct symbol *Symbol_Nth(int n)
{
struct symbol *data;
if( x2a && n>0 && n<=x2a->count ){
data = x2a->tbl[n-1].data;
}else{
data = 0;
}
return data;
}
/* Return the size of the array */
int Symbol_count()
{
return x2a ? x2a->count : 0;
}
/* Return an array of pointers to all data in the table.
** The array is obtained from malloc. Return NULL if memory allocation
** problems, or if the array is empty. */
struct symbol **Symbol_arrayof()
{
struct symbol **array;
int i,arrSize;
if( x2a==0 ) return 0;
arrSize = x2a->count;
array = (struct symbol **)calloc(arrSize, sizeof(struct symbol *));
if( array ){
for(i=0; i<arrSize; i++) array[i] = x2a->tbl[i].data;
}
return array;
}
/* Compare two configurations */
int Configcmp(const char *_a,const char *_b)
{
const struct config *a = (struct config *) _a;
const struct config *b = (struct config *) _b;
int x;
x = a->rp->index - b->rp->index;
if( x==0 ) x = a->dot - b->dot;
return x;
}
/* Compare two states */
PRIVATE int statecmp(struct config *a, struct config *b)
{
int rc;
for(rc=0; rc==0 && a && b; a=a->bp, b=b->bp){
rc = a->rp->index - b->rp->index;
if( rc==0 ) rc = a->dot - b->dot;
}
if( rc==0 ){
if( a ) rc = 1;
if( b ) rc = -1;
}
return rc;
}
/* Hash a state */
PRIVATE unsigned statehash(struct config *a)
{
unsigned h=0;
while( a ){
h = h*571 + a->rp->index*37 + a->dot;
a = a->bp;
}
return h;
}
/* Allocate a new state structure */
struct state *State_new()
{
struct state *newstate;
newstate = (struct state *)calloc(1, sizeof(struct state) );
MemoryCheck(newstate);
return newstate;
}
/* There is one instance of the following structure for each
** associative array of type "x3".
*/
struct s_x3 {
int size; /* The number of available slots. */
/* Must be a power of 2 greater than or */
/* equal to 1 */
int count; /* Number of currently slots filled */
struct s_x3node *tbl; /* The data stored here */
struct s_x3node **ht; /* Hash table for lookups */
};
/* There is one instance of this structure for every data element
** in an associative array of type "x3".
*/
typedef struct s_x3node {
struct state *data; /* The data */
struct config *key; /* The key */
struct s_x3node *next; /* Next entry with the same hash */
struct s_x3node **from; /* Previous link */
} x3node;
/* There is only one instance of the array, which is the following */
static struct s_x3 *x3a;
/* Allocate a new associative array */
void State_init(){
if( x3a ) return;
x3a = (struct s_x3*)malloc( sizeof(struct s_x3) );
if( x3a ){
x3a->size = 128;
x3a->count = 0;
x3a->tbl = (x3node*)calloc(128, sizeof(x3node) + sizeof(x3node*));
if( x3a->tbl==0 ){
free(x3a);
x3a = 0;
}else{
int i;
x3a->ht = (x3node**)&(x3a->tbl[128]);
for(i=0; i<128; i++) x3a->ht[i] = 0;
}
}
}
/* Insert a new record into the array. Return TRUE if successful.
** Prior data with the same key is NOT overwritten */
int State_insert(struct state *data, struct config *key)
{
x3node *np;
unsigned h;
unsigned ph;
if( x3a==0 ) return 0;
ph = statehash(key);
h = ph & (x3a->size-1);
np = x3a->ht[h];
while( np ){
if( statecmp(np->key,key)==0 ){
/* An existing entry with the same key is found. */
/* Fail because overwrite is not allows. */
return 0;
}
np = np->next;
}
if( x3a->count>=x3a->size ){
/* Need to make the hash table bigger */
int i,arrSize;
struct s_x3 array;
array.size = arrSize = x3a->size*2;
array.count = x3a->count;
array.tbl = (x3node*)calloc(arrSize, sizeof(x3node) + sizeof(x3node*));
if( array.tbl==0 ) return 0; /* Fail due to malloc failure */
array.ht = (x3node**)&(array.tbl[arrSize]);
for(i=0; i<arrSize; i++) array.ht[i] = 0;
for(i=0; i<x3a->count; i++){
x3node *oldnp, *newnp;
oldnp = &(x3a->tbl[i]);
h = statehash(oldnp->key) & (arrSize-1);
newnp = &(array.tbl[i]);
if( array.ht[h] ) array.ht[h]->from = &(newnp->next);
newnp->next = array.ht[h];
newnp->key = oldnp->key;
newnp->data = oldnp->data;
newnp->from = &(array.ht[h]);
array.ht[h] = newnp;
}
free(x3a->tbl);
*x3a = array;
}
/* Insert the new data */
h = ph & (x3a->size-1);
np = &(x3a->tbl[x3a->count++]);
np->key = key;
np->data = data;
if( x3a->ht[h] ) x3a->ht[h]->from = &(np->next);
np->next = x3a->ht[h];
x3a->ht[h] = np;
np->from = &(x3a->ht[h]);
return 1;
}
/* Return a pointer to data assigned to the given key. Return NULL
** if no such key. */
struct state *State_find(struct config *key)
{
unsigned h;
x3node *np;
if( x3a==0 ) return 0;
h = statehash(key) & (x3a->size-1);
np = x3a->ht[h];
while( np ){
if( statecmp(np->key,key)==0 ) break;
np = np->next;
}
return np ? np->data : 0;
}
/* Return an array of pointers to all data in the table.
** The array is obtained from malloc. Return NULL if memory allocation
** problems, or if the array is empty. */
struct state **State_arrayof()
{
struct state **array;
int i,arrSize;
if( x3a==0 ) return 0;
arrSize = x3a->count;
array = (struct state **)calloc(arrSize, sizeof(struct state *));
if( array ){
for(i=0; i<arrSize; i++) array[i] = x3a->tbl[i].data;
}
return array;
}
/* Hash a configuration */
PRIVATE unsigned confighash(struct config *a)
{
unsigned h=0;
h = h*571 + a->rp->index*37 + a->dot;
return h;
}
/* There is one instance of the following structure for each
** associative array of type "x4".
*/
struct s_x4 {
int size; /* The number of available slots. */
/* Must be a power of 2 greater than or */
/* equal to 1 */
int count; /* Number of currently slots filled */
struct s_x4node *tbl; /* The data stored here */
struct s_x4node **ht; /* Hash table for lookups */
};
/* There is one instance of this structure for every data element
** in an associative array of type "x4".
*/
typedef struct s_x4node {
struct config *data; /* The data */
struct s_x4node *next; /* Next entry with the same hash */
struct s_x4node **from; /* Previous link */
} x4node;
/* There is only one instance of the array, which is the following */
static struct s_x4 *x4a;
/* Allocate a new associative array */
void Configtable_init(){
if( x4a ) return;
x4a = (struct s_x4*)malloc( sizeof(struct s_x4) );
if( x4a ){
x4a->size = 64;
x4a->count = 0;
x4a->tbl = (x4node*)calloc(64, sizeof(x4node) + sizeof(x4node*));
if( x4a->tbl==0 ){
free(x4a);
x4a = 0;
}else{
int i;
x4a->ht = (x4node**)&(x4a->tbl[64]);
for(i=0; i<64; i++) x4a->ht[i] = 0;
}
}
}
/* Insert a new record into the array. Return TRUE if successful.
** Prior data with the same key is NOT overwritten */
int Configtable_insert(struct config *data)
{
x4node *np;
unsigned h;
unsigned ph;
if( x4a==0 ) return 0;
ph = confighash(data);
h = ph & (x4a->size-1);
np = x4a->ht[h];
while( np ){
if( Configcmp((const char *) np->data,(const char *) data)==0 ){
/* An existing entry with the same key is found. */
/* Fail because overwrite is not allows. */
return 0;
}
np = np->next;
}
if( x4a->count>=x4a->size ){
/* Need to make the hash table bigger */
int i,arrSize;
struct s_x4 array;
array.size = arrSize = x4a->size*2;
array.count = x4a->count;
array.tbl = (x4node*)calloc(arrSize, sizeof(x4node) + sizeof(x4node*));
if( array.tbl==0 ) return 0; /* Fail due to malloc failure */
array.ht = (x4node**)&(array.tbl[arrSize]);
for(i=0; i<arrSize; i++) array.ht[i] = 0;
for(i=0; i<x4a->count; i++){
x4node *oldnp, *newnp;
oldnp = &(x4a->tbl[i]);
h = confighash(oldnp->data) & (arrSize-1);
newnp = &(array.tbl[i]);
if( array.ht[h] ) array.ht[h]->from = &(newnp->next);
newnp->next = array.ht[h];
newnp->data = oldnp->data;
newnp->from = &(array.ht[h]);
array.ht[h] = newnp;
}
free(x4a->tbl);
*x4a = array;
}
/* Insert the new data */
h = ph & (x4a->size-1);
np = &(x4a->tbl[x4a->count++]);
np->data = data;
if( x4a->ht[h] ) x4a->ht[h]->from = &(np->next);
np->next = x4a->ht[h];
x4a->ht[h] = np;
np->from = &(x4a->ht[h]);
return 1;
}
/* Return a pointer to data assigned to the given key. Return NULL
** if no such key. */
struct config *Configtable_find(struct config *key)
{
int h;
x4node *np;
if( x4a==0 ) return 0;
h = confighash(key) & (x4a->size-1);
np = x4a->ht[h];
while( np ){
if( Configcmp((const char *) np->data,(const char *) key)==0 ) break;
np = np->next;
}
return np ? np->data : 0;
}
/* Remove all data from the table. Pass each data to the function "f"
** as it is removed. ("f" may be null to avoid this step.) */
void Configtable_clear(int(*f)(struct config *))
{
int i;
if( x4a==0 || x4a->count==0 ) return;
if( f ) for(i=0; i<x4a->count; i++) (*f)(x4a->tbl[i].data);
for(i=0; i<x4a->size; i++) x4a->ht[i] = 0;
x4a->count = 0;
return;
}
Reference in New Issue View Git Blame Copy Permalink