From 925087356b853e2099c1b60d8b757d7aa02121a9 Mon Sep 17 00:00:00 2001 From: Chris Dyer Date: Tue, 2 Oct 2012 00:19:43 -0400 Subject: cdec cleanup, remove bayesian stuff, parsing stuff --- jam-files/engine/builtins.c | 2310 ------------------------------------------- 1 file changed, 2310 deletions(-) delete mode 100644 jam-files/engine/builtins.c (limited to 'jam-files/engine/builtins.c') diff --git a/jam-files/engine/builtins.c b/jam-files/engine/builtins.c deleted file mode 100644 index b28a484e..00000000 --- a/jam-files/engine/builtins.c +++ /dev/null @@ -1,2310 +0,0 @@ -/* - * Copyright 1993-2002 Christopher Seiwald and Perforce Software, Inc. - * - * This file is part of Jam - see jam.c for Copyright information. - */ - -#include "jam.h" - -#include "lists.h" -#include "parse.h" -#include "builtins.h" -#include "rules.h" -#include "filesys.h" -#include "newstr.h" -#include "regexp.h" -#include "frames.h" -#include "hash.h" -#include "strings.h" -#include "pwd.h" -#include "pathsys.h" -#include "make.h" -#include "hdrmacro.h" -#include "compile.h" -#include "native.h" -#include "variable.h" -#include "timestamp.h" -#include "md5.h" -#include - -#if defined(USE_EXECUNIX) -# include -# include -#else -/* - NT does not have wait() and associated macros, it uses the return value - of system() instead. Status code group are documented at - http://msdn.microsoft.com/en-gb/library/ff565436.aspx -*/ -# define WIFEXITED(w) (((w) & 0XFFFFFF00) == 0) -# define WEXITSTATUS(w)(w) -#endif - -/* - * builtins.c - builtin jam rules - * - * External routines: - * - * load_builtin() - define builtin rules - * - * Internal routines: - * - * builtin_depends() - DEPENDS/INCLUDES rule. - * builtin_echo() - ECHO rule. - * builtin_exit() - EXIT rule. - * builtin_flags() - NOCARE, NOTFILE, TEMPORARY rule. - * builtin_glob() - GLOB rule. - * builtin_match() - MATCH rule. - * - * 01/10/01 (seiwald) - split from compile.c - */ - - -/* - * compile_builtin() - define builtin rules - */ - -#define P0 (PARSE *)0 -#define C0 (char *)0 - -#if defined( OS_NT ) || defined( OS_CYGWIN ) - LIST * builtin_system_registry ( PARSE *, FRAME * ); - LIST * builtin_system_registry_names( PARSE *, FRAME * ); -#endif - -int glob( char * s, char * c ); - -void backtrace ( FRAME * ); -void backtrace_line ( FRAME * ); -void print_source_line( PARSE * ); - - -RULE * bind_builtin( char * name, LIST * (* f)( PARSE *, FRAME * ), int flags, char * * args ) -{ - argument_list* arg_list = 0; - - if ( args ) - { - arg_list = args_new(); - lol_build( arg_list->data, args ); - } - - return new_rule_body( root_module(), name, arg_list, - parse_make( f, P0, P0, P0, C0, C0, flags ), 1 ); -} - - -RULE * duplicate_rule( char * name, RULE * other ) -{ - return import_rule( other, root_module(), name ); -} - - -void load_builtins() -{ - duplicate_rule( "Always", - bind_builtin( "ALWAYS", - builtin_flags, T_FLAG_TOUCHED, 0 ) ); - - duplicate_rule( "Depends", - bind_builtin( "DEPENDS", - builtin_depends, 0, 0 ) ); - - duplicate_rule( "echo", - duplicate_rule( "Echo", - bind_builtin( "ECHO", - builtin_echo, 0, 0 ) ) ); - - { - char * args[] = { "message", "*", ":", "result-value", "?", 0 }; - duplicate_rule( "exit", - duplicate_rule( "Exit", - bind_builtin( "EXIT", - builtin_exit, 0, args ) ) ); - } - - { - char * args[] = { "directories", "*", ":", "patterns", "*", ":", "case-insensitive", "?", 0 }; - duplicate_rule( "Glob", - bind_builtin( "GLOB", builtin_glob, 0, args ) ); - } - - { - char * args[] = { "patterns", "*", 0 }; - bind_builtin( "GLOB-RECURSIVELY", - builtin_glob_recursive, 0, args ); - } - - duplicate_rule( "Includes", - bind_builtin( "INCLUDES", - builtin_depends, 1, 0 ) ); - - { - char * args[] = { "targets", "*", ":", "targets-to-rebuild", "*", 0 }; - bind_builtin( "REBUILDS", - builtin_rebuilds, 0, args ); - } - - duplicate_rule( "Leaves", - bind_builtin( "LEAVES", - builtin_flags, T_FLAG_LEAVES, 0 ) ); - - duplicate_rule( "Match", - bind_builtin( "MATCH", - builtin_match, 0, 0 ) ); - - { - char * args[] = { "string", ":", "delimiters" }; - bind_builtin( "SPLIT_BY_CHARACTERS", - builtin_split_by_characters, 0, 0 ); - } - - duplicate_rule( "NoCare", - bind_builtin( "NOCARE", - builtin_flags, T_FLAG_NOCARE, 0 ) ); - - duplicate_rule( "NOTIME", - duplicate_rule( "NotFile", - bind_builtin( "NOTFILE", - builtin_flags, T_FLAG_NOTFILE, 0 ) ) ); - - duplicate_rule( "NoUpdate", - bind_builtin( "NOUPDATE", - builtin_flags, T_FLAG_NOUPDATE, 0 ) ); - - duplicate_rule( "Temporary", - bind_builtin( "TEMPORARY", - builtin_flags, T_FLAG_TEMP, 0 ) ); - - bind_builtin( "ISFILE", - builtin_flags, T_FLAG_ISFILE, 0 ); - - duplicate_rule( "HdrMacro", - bind_builtin( "HDRMACRO", - builtin_hdrmacro, 0, 0 ) ); - - /* FAIL_EXPECTED is used to indicate that the result of a target build - * action should be inverted (ok <=> fail) this can be useful when - * performing test runs from Jamfiles. - */ - bind_builtin( "FAIL_EXPECTED", - builtin_flags, T_FLAG_FAIL_EXPECTED, 0 ); - - bind_builtin( "RMOLD", - builtin_flags, T_FLAG_RMOLD, 0 ); - - { - char * args[] = { "targets", "*", 0 }; - bind_builtin( "UPDATE", - builtin_update, 0, args ); - } - - { - char * args[] = { "targets", "*", - ":", "log", "?", - ":", "ignore-minus-n", "?", - ":", "ignore-minus-q", "?", 0 }; - bind_builtin( "UPDATE_NOW", - builtin_update_now, 0, args ); - } - - { - char * args[] = { "string", "pattern", "replacements", "+", 0 }; - duplicate_rule( "subst", - bind_builtin( "SUBST", - builtin_subst, 0, args ) ); - } - - { - char * args[] = { "module", "?", 0 }; - bind_builtin( "RULENAMES", - builtin_rulenames, 0, args ); - } - - - { - char * args[] = { "module", "?", 0 }; - bind_builtin( "VARNAMES", - builtin_varnames, 0, args ); - } - - { - char * args[] = { "module", "?", 0 }; - bind_builtin( "DELETE_MODULE", - builtin_delete_module, 0, args ); - } - - { - char * args[] = { "source_module", "?", - ":", "source_rules", "*", - ":", "target_module", "?", - ":", "target_rules", "*", - ":", "localize", "?", 0 }; - bind_builtin( "IMPORT", - builtin_import, 0, args ); - } - - { - char * args[] = { "module", "?", ":", "rules", "*", 0 }; - bind_builtin( "EXPORT", - builtin_export, 0, args ); - } - - { - char * args[] = { "levels", "?", 0 }; - bind_builtin( "CALLER_MODULE", - builtin_caller_module, 0, args ); - } - - { - char * args[] = { "levels", "?", 0 }; - bind_builtin( "BACKTRACE", - builtin_backtrace, 0, args ); - } - - { - char * args[] = { 0 }; - bind_builtin( "PWD", - builtin_pwd, 0, args ); - } - - { - char * args[] = { "target", "*", ":", "path", "*", 0 }; - bind_builtin( "SEARCH_FOR_TARGET", - builtin_search_for_target, 0, args ); - } - - { - char * args[] = { "modules_to_import", "+", ":", "target_module", "?", 0 }; - bind_builtin( "IMPORT_MODULE", - builtin_import_module, 0, args ); - } - - { - char * args[] = { "module", "?", 0 }; - bind_builtin( "IMPORTED_MODULES", - builtin_imported_modules, 0, args ); - } - - { - char * args[] = { "instance_module", ":", "class_module", 0 }; - bind_builtin( "INSTANCE", - builtin_instance, 0, args ); - } - - { - char * args[] = { "sequence", "*", 0 }; - bind_builtin( "SORT", - builtin_sort, 0, args ); - } - - { - char * args[] = { "path_parts", "*", 0 }; - bind_builtin( "NORMALIZE_PATH", - builtin_normalize_path, 0, args ); - } - - { - char * args[] = { "args", "*", 0 }; - bind_builtin( "CALC", - builtin_calc, 0, args ); - } - - { - char * args[] = { "module", ":", "rule", 0 }; - bind_builtin( "NATIVE_RULE", - builtin_native_rule, 0, args ); - } - - { - char * args[] = { "module", ":", "rule", ":", "version", 0 }; - bind_builtin( "HAS_NATIVE_RULE", - builtin_has_native_rule, 0, args ); - } - - { - char * args[] = { "module", "*", 0 }; - bind_builtin( "USER_MODULE", - builtin_user_module, 0, args ); - } - - { - char * args[] = { 0 }; - bind_builtin( "NEAREST_USER_LOCATION", - builtin_nearest_user_location, 0, args ); - } - - { - char * args[] = { "file", 0 }; - bind_builtin( "CHECK_IF_FILE", - builtin_check_if_file, 0, args ); - } - -#ifdef HAVE_PYTHON - { - char * args[] = { "python-module", ":", "function", ":", - "jam-module", ":", "rule-name", 0 }; - bind_builtin( "PYTHON_IMPORT_RULE", - builtin_python_import_rule, 0, args ); - } -#endif - -# if defined( OS_NT ) || defined( OS_CYGWIN ) - { - char * args[] = { "key_path", ":", "data", "?", 0 }; - bind_builtin( "W32_GETREG", - builtin_system_registry, 0, args ); - } - - { - char * args[] = { "key_path", ":", "result-type", 0 }; - bind_builtin( "W32_GETREGNAMES", - builtin_system_registry_names, 0, args ); - } -# endif - - { - char * args[] = { "command", ":", "*", 0 }; - duplicate_rule( "SHELL", - bind_builtin( "COMMAND", - builtin_shell, 0, args ) ); - } - - { - char * args[] = { "string", 0 }; - bind_builtin( "MD5", - builtin_md5, 0, args ) ; - } - - { - char * args[] = { "name", ":", "mode", 0 }; - bind_builtin( "FILE_OPEN", - builtin_file_open, 0, args ); - } - - { - char * args[] = { "string", ":", "width", 0 }; - bind_builtin( "PAD", - builtin_pad, 0, args ); - } - - { - char * args[] = { "targets", "*", 0 }; - bind_builtin( "PRECIOUS", - builtin_precious, 0, args ); - } - - { - char * args [] = { 0 }; - bind_builtin( "SELF_PATH", builtin_self_path, 0, args ); - } - - { - char * args [] = { "path", 0 }; - bind_builtin( "MAKEDIR", builtin_makedir, 0, args ); - } - - /* Initialize builtin modules. */ - init_set(); - init_path(); - init_regex(); - init_property_set(); - init_sequence(); - init_order(); -} - - -/* - * builtin_calc() - CALC rule. - * - * The CALC rule performs simple mathematical operations on two arguments. - */ - -LIST * builtin_calc( PARSE * parse, FRAME * frame ) -{ - LIST * arg = lol_get( frame->args, 0 ); - - LIST * result = 0; - long lhs_value; - long rhs_value; - long result_value; - char buffer [ 16 ]; - char const * lhs; - char const * op; - char const * rhs; - - if ( arg == 0 ) return L0; - lhs = arg->string; - - arg = list_next( arg ); - if ( arg == 0 ) return L0; - op = arg->string; - - arg = list_next( arg ); - if ( arg == 0 ) return L0; - rhs = arg->string; - - lhs_value = atoi( lhs ); - rhs_value = atoi( rhs ); - - if ( strcmp( "+", op ) == 0 ) - { - result_value = lhs_value + rhs_value; - } - else if ( strcmp( "-", op ) == 0 ) - { - result_value = lhs_value - rhs_value; - } - else - { - return L0; - } - - sprintf( buffer, "%ld", result_value ); - result = list_new( result, newstr( buffer ) ); - return result; -} - - -/* - * builtin_depends() - DEPENDS/INCLUDES rule. - * - * The DEPENDS/INCLUDES builtin rule appends each of the listed sources on the - * dependency/includes list of each of the listed targets. It binds both the - * targets and sources as TARGETs. - */ - -LIST * builtin_depends( PARSE * parse, FRAME * frame ) -{ - LIST * targets = lol_get( frame->args, 0 ); - LIST * sources = lol_get( frame->args, 1 ); - LIST * l; - - for ( l = targets; l; l = list_next( l ) ) - { - TARGET * t = bindtarget( l->string ); - - /* If doing INCLUDES, switch to the TARGET's include */ - /* TARGET, creating it if needed. The internal include */ - /* TARGET shares the name of its parent. */ - - if ( parse->num ) - { - if ( !t->includes ) - { - t->includes = copytarget( t ); - t->includes->original_target = t; - } - t = t->includes; - } - - t->depends = targetlist( t->depends, sources ); - } - - /* Enter reverse links */ - for ( l = sources; l; l = list_next( l ) ) - { - TARGET * s = bindtarget( l->string ); - s->dependants = targetlist( s->dependants, targets ); - } - - return L0; -} - - -/* - * builtin_rebuilds() - REBUILDS rule. - * - * The REBUILDS builtin rule appends each of the listed rebuild-targets in its - * 2nd argument on the rebuilds list of each of the listed targets in its first - * argument. - */ - -LIST * builtin_rebuilds( PARSE * parse, FRAME * frame ) -{ - LIST * targets = lol_get( frame->args, 0 ); - LIST * rebuilds = lol_get( frame->args, 1 ); - LIST * l; - - for ( l = targets; l; l = list_next( l ) ) - { - TARGET * t = bindtarget( l->string ); - t->rebuilds = targetlist( t->rebuilds, rebuilds ); - } - - return L0; -} - - -/* - * builtin_echo() - ECHO rule. - * - * The ECHO builtin rule echoes the targets to the user. No other actions are - * taken. - */ - -LIST * builtin_echo( PARSE * parse, FRAME * frame ) -{ - list_print( lol_get( frame->args, 0 ) ); - printf( "\n" ); - fflush( stdout ); - return L0; -} - - -/* - * builtin_exit() - EXIT rule. - * - * The EXIT builtin rule echoes the targets to the user and exits the program - * with a failure status. - */ - -LIST * builtin_exit( PARSE * parse, FRAME * frame ) -{ - list_print( lol_get( frame->args, 0 ) ); - printf( "\n" ); - if ( lol_get( frame->args, 1 ) ) - { - exit( atoi( lol_get( frame->args, 1 )->string ) ); - } - else - { - exit( EXITBAD ); /* yeech */ - } - return L0; -} - - -/* - * builtin_flags() - NOCARE, NOTFILE, TEMPORARY rule. - * - * Builtin_flags() marks the target with the appropriate flag, for use by make0(). - * It binds each target as a TARGET. - */ - -LIST * builtin_flags( PARSE * parse, FRAME * frame ) -{ - LIST * l = lol_get( frame->args, 0 ); - for ( ; l; l = list_next( l ) ) - bindtarget( l->string )->flags |= parse->num; - return L0; -} - - -/* - * builtin_globbing() - GLOB rule. - */ - -struct globbing -{ - LIST * patterns; - LIST * results; - LIST * case_insensitive; -}; - - -static void downcase_inplace( char * p ) -{ - for ( ; *p; ++p ) - *p = tolower( *p ); -} - - -static void builtin_glob_back -( - void * closure, - char * file, - int status, - time_t time -) -{ - PROFILE_ENTER( BUILTIN_GLOB_BACK ); - - struct globbing * globbing = (struct globbing *)closure; - LIST * l; - PATHNAME f; - string buf[ 1 ]; - - /* Null out directory for matching. We wish we had file_dirscan() pass up a - * PATHNAME. - */ - path_parse( file, &f ); - f.f_dir.len = 0; - - /* For globbing, we unconditionally ignore current and parent directory - * items. Since they items always exist, there is no reason why caller of - * GLOB would want to see them. We could also change file_dirscan(), but - * then paths with embedded "." and ".." would not work anywhere. - */ - if ( !strcmp( f.f_base.ptr, "." ) || !strcmp( f.f_base.ptr, ".." ) ) - { - PROFILE_EXIT( BUILTIN_GLOB_BACK ); - return; - } - - string_new( buf ); - path_build( &f, buf, 0 ); - - if ( globbing->case_insensitive ) - downcase_inplace( buf->value ); - - for ( l = globbing->patterns; l; l = l->next ) - { - if ( !glob( l->string, buf->value ) ) - { - globbing->results = list_new( globbing->results, newstr( file ) ); - break; - } - } - - string_free( buf ); - - PROFILE_EXIT( BUILTIN_GLOB_BACK ); -} - - -static LIST * downcase_list( LIST * in ) -{ - LIST * result = 0; - - string s[ 1 ]; - string_new( s ); - - while ( in ) - { - string_copy( s, in->string ); - downcase_inplace( s->value ); - result = list_append( result, list_new( 0, newstr( s->value ) ) ); - in = in->next; - } - - string_free( s ); - return result; -} - - -LIST * builtin_glob( PARSE * parse, FRAME * frame ) -{ - LIST * l = lol_get( frame->args, 0 ); - LIST * r = lol_get( frame->args, 1 ); - - struct globbing globbing; - - globbing.results = L0; - globbing.patterns = r; - - globbing.case_insensitive -# if defined( OS_NT ) || defined( OS_CYGWIN ) - = l; /* Always case-insensitive if any files can be found. */ -# else - = lol_get( frame->args, 2 ); -# endif - - if ( globbing.case_insensitive ) - globbing.patterns = downcase_list( r ); - - for ( ; l; l = list_next( l ) ) - file_dirscan( l->string, builtin_glob_back, &globbing ); - - if ( globbing.case_insensitive ) - list_free( globbing.patterns ); - - return globbing.results; -} - - -static int has_wildcards( char const * str ) -{ - size_t const index = strcspn( str, "[]*?" ); - return str[ index ] == '\0' ? 0 : 1; -} - - -/* - * If 'file' exists, append 'file' to 'list'. Returns 'list'. - */ - -static LIST * append_if_exists( LIST * list, char * file ) -{ - time_t time; - timestamp( file, &time ); - return time > 0 - ? list_new( list, newstr( file ) ) - : list; -} - - -LIST * glob1( char * dirname, char * pattern ) -{ - LIST * plist = list_new( L0, pattern ); - struct globbing globbing; - - globbing.results = L0; - globbing.patterns = plist; - - globbing.case_insensitive -# if defined( OS_NT ) || defined( OS_CYGWIN ) - = plist; /* always case-insensitive if any files can be found */ -# else - = L0; -# endif - - if ( globbing.case_insensitive ) - globbing.patterns = downcase_list( plist ); - - file_dirscan( dirname, builtin_glob_back, &globbing ); - - if ( globbing.case_insensitive ) - list_free( globbing.patterns ); - - list_free( plist ); - - return globbing.results; -} - - -LIST * glob_recursive( char * pattern ) -{ - LIST * result = L0; - - /* Check if there's metacharacters in pattern */ - if ( !has_wildcards( pattern ) ) - { - /* No metacharacters. Check if the path exists. */ - result = append_if_exists(result, pattern); - } - else - { - /* Have metacharacters in the pattern. Split into dir/name. */ - PATHNAME path[ 1 ]; - path_parse( pattern, path ); - - if ( path->f_dir.ptr ) - { - LIST * dirs = L0; - string dirname[ 1 ]; - string basename[ 1 ]; - string_new( dirname ); - string_new( basename ); - - string_append_range( dirname, path->f_dir.ptr, - path->f_dir.ptr + path->f_dir.len ); - - path->f_grist.ptr = 0; - path->f_grist.len = 0; - path->f_dir.ptr = 0; - path->f_dir.len = 0; - path_build( path, basename, 0 ); - - dirs = has_wildcards( dirname->value ) - ? glob_recursive( dirname->value ) - : list_new( dirs, dirname->value ); - - if ( has_wildcards( basename->value ) ) - { - for ( ; dirs; dirs = dirs->next ) - result = list_append( result, glob1( dirs->string, - basename->value ) ); - } - else - { - string file_string[ 1 ]; - string_new( file_string ); - - /* No wildcard in basename. */ - for ( ; dirs; dirs = dirs->next ) - { - path->f_dir.ptr = dirs->string; - path->f_dir.len = strlen( dirs->string ); - path_build( path, file_string, 0 ); - - result = append_if_exists( result, file_string->value ); - - string_truncate( file_string, 0 ); - } - - string_free( file_string ); - } - - string_free( dirname ); - string_free( basename ); - } - else - { - /** No directory, just a pattern. */ - result = list_append( result, glob1( ".", pattern ) ); - } - } - - return result; -} - - -LIST * builtin_glob_recursive( PARSE * parse, FRAME * frame ) -{ - LIST * result = L0; - LIST * l = lol_get( frame->args, 0 ); - for ( ; l; l = l->next ) - result = list_append( result, glob_recursive( l->string ) ); - return result; -} - - -/* - * builtin_match() - MATCH rule, regexp matching. - */ - -LIST * builtin_match( PARSE * parse, FRAME * frame ) -{ - LIST * l; - LIST * r; - LIST * result = 0; - - string buf[ 1 ]; - string_new( buf ); - - /* For each pattern */ - - for ( l = lol_get( frame->args, 0 ); l; l = l->next ) - { - /* Result is cached and intentionally never freed. */ - regexp * re = regex_compile( l->string ); - - /* For each string to match against. */ - for ( r = lol_get( frame->args, 1 ); r; r = r->next ) - { - if ( regexec( re, r->string ) ) - { - int i; - int top; - - /* Find highest parameter */ - - for ( top = NSUBEXP; top-- > 1; ) - if ( re->startp[ top ] ) - break; - - /* And add all parameters up to highest onto list. */ - /* Must have parameters to have results! */ - for ( i = 1; i <= top; ++i ) - { - string_append_range( buf, re->startp[ i ], re->endp[ i ] ); - result = list_new( result, newstr( buf->value ) ); - string_truncate( buf, 0 ); - } - } - } - } - - string_free( buf ); - return result; -} - -LIST * builtin_split_by_characters( PARSE * parse, FRAME * frame ) -{ - LIST * l1 = lol_get( frame->args, 0 ); - LIST * l2 = lol_get( frame->args, 1 ); - - LIST * result = 0; - - char* s = strdup (l1->string); - char* delimiters = l2->string; - char* t; - - t = strtok (s, delimiters); - while (t) - { - result = list_new(result, newstr(t)); - t = strtok (NULL, delimiters); - } - - free (s); - - return result; -} - -LIST * builtin_hdrmacro( PARSE * parse, FRAME * frame ) -{ - LIST * l = lol_get( frame->args, 0 ); - - for ( ; l; l = list_next( l ) ) - { - TARGET * t = bindtarget( l->string ); - - /* Scan file for header filename macro definitions. */ - if ( DEBUG_HEADER ) - printf( "scanning '%s' for header file macro definitions\n", - l->string ); - - macro_headers( t ); - } - - return L0; -} - - -/* - * builtin_rulenames() - RULENAMES ( MODULE ? ). - * - * Returns a list of the non-local rule names in the given MODULE. If MODULE is - * not supplied, returns the list of rule names in the global module. - */ - -static void add_rule_name( void * r_, void * result_ ) -{ - RULE * r = (RULE *)r_; - LIST * * result = (LIST * *)result_; - if ( r->exported ) - *result = list_new( *result, copystr( r->name ) ); -} - - -LIST * builtin_rulenames( PARSE * parse, FRAME * frame ) -{ - LIST * arg0 = lol_get( frame->args, 0 ); - LIST * result = L0; - module_t * source_module = bindmodule( arg0 ? arg0->string : 0 ); - - if ( source_module->rules ) - hashenumerate( source_module->rules, add_rule_name, &result ); - return result; -} - - -/* - * builtin_varnames() - VARNAMES ( MODULE ? ). - * - * Returns a list of the variable names in the given MODULE. If MODULE is not - * supplied, returns the list of variable names in the global module. - */ - -/* helper function for builtin_varnames(), below. Used with hashenumerate, will - * prepend the key of each element to the list - */ -static void add_hash_key( void * np, void * result_ ) -{ - LIST * * result = (LIST * *)result_; - *result = list_new( *result, copystr( *(char * *)np ) ); -} - - -static struct hash * get_running_module_vars() -{ - struct hash * dummy; - struct hash * vars = NULL; - /* Get the global variables pointer (that of the currently running module). - */ - var_hash_swap( &vars ); - dummy = vars; - /* Put the global variables pointer in its right place. */ - var_hash_swap( &dummy ); - return vars; -} - - -LIST * builtin_varnames( PARSE * parse, FRAME * frame ) -{ - LIST * arg0 = lol_get( frame->args, 0 ); - LIST * result = L0; - module_t * source_module = bindmodule( arg0 ? arg0->string : 0 ); - - /* The running module _always_ has its 'variables' member set to NULL due to - * the way enter_module() and var_hash_swap() work. - */ - struct hash * vars = source_module == frame->module - ? get_running_module_vars() - : source_module->variables; - - if ( vars ) - hashenumerate( vars, add_hash_key, &result ); - return result; -} - - -/* - * builtin_delete_module() - MODULE ?. - * - * Clears all rules and variables from the given module. - */ - -LIST * builtin_delete_module( PARSE * parse, FRAME * frame ) -{ - LIST * arg0 = lol_get( frame->args, 0 ); - LIST * result = L0; - module_t * source_module = bindmodule( arg0 ? arg0->string : 0 ); - delete_module( source_module ); - return result; -} - - -static void unknown_rule( FRAME * frame, char * key, char * module_name, char * rule_name ) -{ - backtrace_line( frame->prev ); - printf( "%s error: rule \"%s\" unknown in module \"%s\"\n", key, rule_name, module_name ); - backtrace( frame->prev ); - exit( 1 ); -} - - -/* - * builtin_import() - IMPORT - * ( - * SOURCE_MODULE ? : - * SOURCE_RULES * : - * TARGET_MODULE ? : - * TARGET_RULES * : - * LOCALIZE ? - * ) - * - * The IMPORT rule imports rules from the SOURCE_MODULE into the TARGET_MODULE - * as local rules. If either SOURCE_MODULE or TARGET_MODULE is not supplied, it - * refers to the global module. SOURCE_RULES specifies which rules from the - * SOURCE_MODULE to import; TARGET_RULES specifies the names to give those rules - * in TARGET_MODULE. If SOURCE_RULES contains a name which doesn't correspond to - * a rule in SOURCE_MODULE, or if it contains a different number of items than - * TARGET_RULES, an error is issued. If LOCALIZE is specified, the rules will be - * executed in TARGET_MODULE, with corresponding access to its module local - * variables. - */ - -LIST * builtin_import( PARSE * parse, FRAME * frame ) -{ - LIST * source_module_list = lol_get( frame->args, 0 ); - LIST * source_rules = lol_get( frame->args, 1 ); - LIST * target_module_list = lol_get( frame->args, 2 ); - LIST * target_rules = lol_get( frame->args, 3 ); - LIST * localize = lol_get( frame->args, 4 ); - - module_t * target_module = - bindmodule( target_module_list ? target_module_list->string : 0 ); - module_t * source_module = - bindmodule( source_module_list ? source_module_list->string : 0 ); - - LIST * source_name; - LIST * target_name; - - for ( source_name = source_rules, target_name = target_rules; - source_name && target_name; - source_name = list_next( source_name ), - target_name = list_next( target_name ) ) - { - RULE r_; - RULE * r = &r_; - RULE * imported; - r_.name = source_name->string; - - if ( !source_module->rules || - !hashcheck( source_module->rules, (HASHDATA * *)&r ) ) - unknown_rule( frame, "IMPORT", source_module->name, r_.name ); - - imported = import_rule( r, target_module, target_name->string ); - if ( localize ) - imported->module = target_module; - /* This rule is really part of some other module. Just refer to it here, - * but do not let it out. - */ - imported->exported = 0; - } - - if ( source_name || target_name ) - { - backtrace_line( frame->prev ); - printf( "import error: length of source and target rule name lists don't match!\n" ); - printf( " source: " ); - list_print( source_rules ); - printf( "\n target: " ); - list_print( target_rules ); - printf( "\n" ); - backtrace( frame->prev ); - exit( 1 ); - } - - return L0; -} - - -/* - * builtin_export() - EXPORT ( MODULE ? : RULES * ). - * - * The EXPORT rule marks RULES from the SOURCE_MODULE as non-local (and thus - * exportable). If an element of RULES does not name a rule in MODULE, an error - * is issued. - */ - -LIST * builtin_export( PARSE * parse, FRAME * frame ) -{ - LIST * module_list = lol_get( frame->args, 0 ); - LIST * rules = lol_get( frame->args, 1 ); - module_t * m = bindmodule( module_list ? module_list->string : 0 ); - - for ( ; rules; rules = list_next( rules ) ) - { - RULE r_; - RULE * r = &r_; - r_.name = rules->string; - - if ( !m->rules || !hashcheck( m->rules, (HASHDATA * *)&r ) ) - unknown_rule( frame, "EXPORT", m->name, r_.name ); - - r->exported = 1; - } - return L0; -} - - -/* - * get_source_line() - Retrieve the file and line number that should be - * indicated for a given procedure in debug output or an error backtrace. - */ - -static void get_source_line( PARSE * procedure, char * * file, int * line ) -{ - if ( procedure ) - { - char * f = procedure->file; - int l = procedure->line; - if ( !strcmp( f, "+" ) ) - { - f = "jambase.c"; - l += 3; - } - *file = f; - *line = l; - } - else - { - *file = "(builtin)"; - *line = -1; - } -} - - -void print_source_line( PARSE * p ) -{ - char * file; - int line; - - get_source_line( p, &file, &line ); - if ( line < 0 ) - printf( "(builtin):" ); - else - printf( "%s:%d:", file, line ); -} - - -/* - * backtrace_line() - print a single line of error backtrace for the given - * frame. - */ - -void backtrace_line( FRAME * frame ) -{ - if ( frame == 0 ) - { - printf( "(no frame):" ); - } - else - { - print_source_line( frame->procedure ); - printf( " in %s\n", frame->rulename ); - } -} - - -/* - * backtrace() - Print the entire backtrace from the given frame to the Jambase - * which invoked it. - */ - -void backtrace( FRAME * frame ) -{ - if ( !frame ) return; - while ( ( frame = frame->prev ) ) - backtrace_line( frame ); -} - - -/* - * builtin_backtrace() - A Jam version of the backtrace function, taking no - * arguments and returning a list of quadruples: FILENAME LINE MODULE. RULENAME - * describing each frame. Note that the module-name is always followed by a - * period. - */ - -LIST * builtin_backtrace( PARSE * parse, FRAME * frame ) -{ - LIST * levels_arg = lol_get( frame->args, 0 ); - int levels = levels_arg ? atoi( levels_arg->string ) : ( (unsigned int)(-1) >> 1 ) ; - - LIST * result = L0; - for ( ; ( frame = frame->prev ) && levels ; --levels ) - { - char * file; - int line; - char buf[32]; - get_source_line( frame->procedure, &file, &line ); - sprintf( buf, "%d", line ); - result = list_new( result, newstr( file ) ); - result = list_new( result, newstr( buf ) ); - result = list_new( result, newstr( frame->module->name ) ); - result = list_new( result, newstr( frame->rulename ) ); - } - return result; -} - - -/* - * builtin_caller_module() - CALLER_MODULE ( levels ? ) - * - * If levels is not supplied, returns the name of the module of the rule which - * called the one calling this one. If levels is supplied, it is interpreted as - * an integer specifying a number of additional levels of call stack to traverse - * in order to locate the module in question. If no such module exists, returns - * the empty list. Also returns the empty list when the module in question is - * the global module. This rule is needed for implementing module import - * behavior. - */ - -LIST * builtin_caller_module( PARSE * parse, FRAME * frame ) -{ - LIST * levels_arg = lol_get( frame->args, 0 ); - int levels = levels_arg ? atoi( levels_arg->string ) : 0 ; - - int i; - for ( i = 0; ( i < levels + 2 ) && frame->prev; ++i ) - frame = frame->prev; - - if ( frame->module == root_module() ) - return L0; - - { - LIST * result; - string name; - string_copy( &name, frame->module->name ); - string_pop_back( &name ); - result = list_new( L0, newstr(name.value) ); - string_free( &name ); - return result; - } -} - - -/* - * Return the current working directory. - * - * Usage: pwd = [ PWD ] ; - */ - -LIST * builtin_pwd( PARSE * parse, FRAME * frame ) -{ - return pwd(); -} - - -/* - * Adds targets to the list of target that jam will attempt to update. - */ - -LIST * builtin_update( PARSE * parse, FRAME * frame ) -{ - LIST * result = list_copy( L0, targets_to_update() ); - LIST * arg1 = lol_get( frame->args, 0 ); - clear_targets_to_update(); - for ( ; arg1; arg1 = list_next( arg1 ) ) - mark_target_for_updating( newstr( arg1->string ) ); - return result; -} - -extern int anyhow; -int last_update_now_status; - -/* Takes a list of target names as first argument, and immediately - updates them. - Second parameter, if specified, if the descriptor (converted to a string) - of a log file where all build output is redirected. - Third parameter, if non-empty, specifies that the -n option should have - no effect -- that is, all out-of-date targets should be rebuild. -*/ -LIST * builtin_update_now( PARSE * parse, FRAME * frame ) -{ - LIST * targets = lol_get( frame->args, 0 ); - LIST * log = lol_get( frame->args, 1 ); - LIST * force = lol_get (frame->args, 2); - LIST * continue_ = lol_get(frame->args, 3); - int status = 0; - int original_stdout; - int original_stderr; - int n; - int targets_count; - const char** targets2; - int i; - int original_noexec; - int original_quitquick; - - - if (log) - { - int fd = atoi(log->string); - /* Redirect stdout and stderr, temporary, to the log file. */ - original_stdout = dup (0); - original_stderr = dup (1); - dup2 (fd, 0); - dup2 (fd, 1); - } - - if (force) - { - original_noexec = globs.noexec; - globs.noexec = 0; - original_quitquick = globs.quitquick; - globs.quitquick = 0; - } - - if (continue_) - { - original_quitquick = globs.quitquick; - globs.quitquick = 0; - } - - targets_count = list_length( targets ); - targets2 = (const char * *)BJAM_MALLOC( targets_count * sizeof( char * ) ); - for (i = 0 ; targets; targets = list_next( targets ) ) - targets2[ i++ ] = targets->string; - status |= make( targets_count, targets2, anyhow); - free( targets ); - - if (force) - { - globs.noexec = original_noexec; - globs.quitquick = original_quitquick; - } - - if (continue_) - { - globs.quitquick = original_quitquick; - } - - if (log) - { - /* Flush whatever stdio might have buffered, while descriptions - 0 and 1 still refer to the log file. */ - fflush (stdout); - fflush (stderr); - dup2 (original_stdout, 0); - dup2 (original_stderr, 1); - close (original_stdout); - close (original_stderr); - } - - last_update_now_status = status; - - if (status == 0) - return list_new (L0, newstr ("ok")); - else - return L0; -} - -LIST * builtin_search_for_target( PARSE * parse, FRAME * frame ) -{ - LIST * arg1 = lol_get( frame->args, 0 ); - LIST * arg2 = lol_get( frame->args, 1 ); - TARGET * t = search_for_target( arg1->string, arg2 ); - return list_new( L0, t->name ); -} - - -LIST * builtin_import_module( PARSE * parse, FRAME * frame ) -{ - LIST * arg1 = lol_get( frame->args, 0 ); - LIST * arg2 = lol_get( frame->args, 1 ); - module_t * m = arg2 ? bindmodule( arg2->string ) : root_module(); - import_module( arg1, m ); - return L0; -} - - -LIST * builtin_imported_modules( PARSE * parse, FRAME * frame ) -{ - LIST * arg0 = lol_get( frame->args, 0 ); - return imported_modules( bindmodule( arg0 ? arg0->string : 0 ) ); -} - - -LIST * builtin_instance( PARSE * parse, FRAME * frame ) -{ - LIST * arg1 = lol_get( frame->args, 0 ); - LIST * arg2 = lol_get( frame->args, 1 ); - module_t * const instance = bindmodule( arg1->string ); - module_t * const class_module = bindmodule( arg2->string ); - instance->class_module = class_module; - return L0; -} - - -LIST * builtin_sort( PARSE * parse, FRAME * frame ) -{ - LIST * arg1 = lol_get( frame->args, 0 ); - return list_sort( arg1 ); -} - - -LIST * builtin_normalize_path( PARSE * parse, FRAME * frame ) -{ - LIST * arg = lol_get( frame->args, 0 ); - - /* First, we iterate over all '/'-separated elements, starting from the end - * of string. If we see a '..', we remove a previous path elements. If we - * see '.', we remove it. The removal is done by overwriting data using '\1' - * in the string. After the whole string has been processed, we do a second - * pass, removing all the entered '\1' characters. - */ - - string in[ 1 ]; - string out[ 1 ]; - /* Last character of the part of string still to be processed. */ - char * end; - /* Working pointer. */ - char * current; - /* Number of '..' elements seen and not processed yet. */ - int dotdots = 0; - int rooted = 0; - char * result = 0; - - /* Make a copy of input: we should not change it. Prepend a '/' before it as - * a guard for the algorithm later on and remember whether it was originally - * rooted or not. - */ - string_new( in ); - string_push_back( in, '/' ); - for ( ; arg; arg = list_next( arg ) ) - { - if ( arg->string[ 0 ] != '\0' ) - { - if ( in->size == 1 ) - rooted = ( ( arg->string[ 0 ] == '/' ) || - ( arg->string[ 0 ] == '\\' ) ); - else - string_append( in, "/" ); - string_append( in, arg->string ); - } - } - - /* Convert \ into /. On Windows, paths using / and \ are equivalent, and we - * want this function to obtain a canonic representation. - */ - for ( current = in->value, end = in->value + in->size; - current < end; ++current ) - if ( *current == '\\' ) - *current = '/'; - - /* Now we remove any extra path elements by overwriting them with '\1' - * characters and cound how many more unused '..' path elements there are - * remaining. Note that each remaining path element with always starts with - * a '/' character. - */ - for ( end = in->value + in->size - 1; end >= in->value; ) - { - /* Set 'current' to the next occurence of '/', which always exists. */ - for ( current = end; *current != '/'; --current ); - - if ( current == end ) - { - /* Found a trailing or duplicate '/'. Remove it. */ - *current = '\1'; - } - else if ( ( end - current == 1 ) && ( *(current + 1) == '.' ) ) - { - /* Found '/.'. Remove them all. */ - *current = '\1'; - *(current + 1) = '\1'; - } - else if ( ( end - current == 2 ) && ( *(current + 1) == '.' ) && ( *(current + 2) == '.' ) ) - { - /* Found '/..'. Remove them all. */ - *current = '\1'; - *(current + 1) = '\1'; - *(current + 2) = '\1'; - ++dotdots; - } - else if ( dotdots ) - { - memset( current, '\1', end - current + 1 ); - --dotdots; - } - end = current - 1; - } - - string_new( out ); - - /* Now we know that we need to add exactly dotdots '..' path elements to the - * front and that our string is either empty or has a '/' as its first - * significant character. If we have any dotdots remaining then the passed - * path must not have been rooted or else it is invalid we return an empty - * list. - */ - if ( dotdots ) - { - if ( rooted ) return L0; - do - string_append( out, "/.." ); - while ( --dotdots ); - } - - /* Now we actually remove all the path characters marked for removal. */ - for ( current = in->value; *current; ++current ) - if ( *current != '\1' ) - string_push_back( out, *current ); - - /* Here we know that our string contains no '\1' characters and is either - * empty or has a '/' as its initial character. If the original path was not - * rooted and we have a non-empty path we need to drop the initial '/'. If - * the original path was rooted and we have an empty path we need to add - * back the '/'. - */ - result = newstr( out->size ? out->value + !rooted : ( rooted ? "/" : "." ) ); - - string_free( out ); - string_free( in ); - - return list_new( 0, result ); -} - - -LIST * builtin_native_rule( PARSE * parse, FRAME * frame ) -{ - LIST * module_name = lol_get( frame->args, 0 ); - LIST * rule_name = lol_get( frame->args, 1 ); - - module_t * module = bindmodule( module_name->string ); - - native_rule_t n; - native_rule_t * np = &n; - n.name = rule_name->string; - if ( module->native_rules && hashcheck( module->native_rules, (HASHDATA * *)&np ) ) - { - new_rule_body( module, np->name, np->arguments, np->procedure, 1 ); - } - else - { - backtrace_line( frame->prev ); - printf( "error: no native rule \"%s\" defined in module \"%s\"\n", - n.name, module->name ); - backtrace( frame->prev ); - exit( 1 ); - } - return L0; -} - - -LIST * builtin_has_native_rule( PARSE * parse, FRAME * frame ) -{ - LIST * module_name = lol_get( frame->args, 0 ); - LIST * rule_name = lol_get( frame->args, 1 ); - LIST * version = lol_get( frame->args, 2 ); - - module_t * module = bindmodule( module_name->string ); - - native_rule_t n; - native_rule_t * np = &n; - n.name = rule_name->string; - if ( module->native_rules && hashcheck( module->native_rules, (HASHDATA * *)&np ) ) - { - int expected_version = atoi( version->string ); - if ( np->version == expected_version ) - return list_new( 0, newstr( "true" ) ); - } - return L0; -} - - -LIST * builtin_user_module( PARSE * parse, FRAME * frame ) -{ - LIST * module_name = lol_get( frame->args, 0 ); - for ( ; module_name; module_name = module_name->next ) - { - module_t * m = bindmodule( module_name->string ); - m->user_module = 1; - } - return L0; -} - - -LIST * builtin_nearest_user_location( PARSE * parse, FRAME * frame ) -{ - FRAME * nearest_user_frame = - frame->module->user_module ? frame : frame->prev_user; - if ( !nearest_user_frame ) - return L0; - - { - LIST * result = 0; - char * file; - int line; - char buf[32]; - - get_source_line( nearest_user_frame->procedure, &file, &line ); - sprintf( buf, "%d", line ); - result = list_new( result, newstr( file ) ); - result = list_new( result, newstr( buf ) ); - return result; - } -} - - -LIST * builtin_check_if_file( PARSE * parse, FRAME * frame ) -{ - LIST * name = lol_get( frame->args, 0 ); - return file_is_file( name->string ) == 1 - ? list_new( 0, newstr( "true" ) ) - : L0 ; -} - - -LIST * builtin_md5( PARSE * parse, FRAME * frame ) -{ - LIST * l = lol_get( frame->args, 0 ); - char* s = l->string; - - md5_state_t state; - md5_byte_t digest[16]; - char hex_output[16*2 + 1]; - - int di; - - md5_init(&state); - md5_append(&state, (const md5_byte_t *)s, strlen(s)); - md5_finish(&state, digest); - - for (di = 0; di < 16; ++di) - sprintf(hex_output + di * 2, "%02x", digest[di]); - - return list_new (0, newstr(hex_output)); -} - -LIST *builtin_file_open( PARSE *parse, FRAME *frame ) -{ - char* name = lol_get(frame->args, 0)->string; - char* mode = lol_get(frame->args, 1)->string; - int fd; - char buffer[sizeof("4294967295")]; - - if (strcmp(mode, "w") == 0) - { - fd = open(name, O_WRONLY|O_CREAT|O_TRUNC, 0666); - } - else - { - fd = open(name, O_RDONLY); - } - - if (fd != -1) - { - sprintf(buffer, "%d", fd); - return list_new(L0, newstr(buffer)); - } - else - { - return L0; - } -} - -LIST *builtin_pad( PARSE *parse, FRAME *frame ) -{ - char *string = lol_get(frame->args, 0)->string; - char *width_s = lol_get(frame->args, 1)->string; - - int current = strlen (string); - int desired = atoi(width_s); - if (current >= desired) - return list_new (L0, string); - else - { - char *buffer = malloc (desired + 1); - int i; - LIST *result; - - strcpy (buffer, string); - for (i = current; i < desired; ++i) - buffer[i] = ' '; - buffer[desired] = '\0'; - result = list_new (L0, newstr (buffer)); - free (buffer); - return result; - } -} - -LIST *builtin_precious( PARSE *parse, FRAME *frame ) -{ - LIST* targets = lol_get(frame->args, 0); - - for ( ; targets; targets = list_next( targets ) ) - { - TARGET* t = bindtarget (targets->string); - t->flags |= T_FLAG_PRECIOUS; - } - - return L0; -} - -LIST *builtin_self_path( PARSE *parse, FRAME *frame ) -{ - extern char *saved_argv0; - char *p = executable_path (saved_argv0); - if (p) - { - LIST* result = list_new (0, newstr (p)); - free(p); - return result; - } - else - { - return L0; - } -} - -LIST *builtin_makedir( PARSE *parse, FRAME *frame ) -{ - LIST *path = lol_get(frame->args, 0); - - if (file_mkdir(path->string) == 0) - { - LIST *result = list_new (0, newstr(path->string)); - return result; - } - else - { - return L0; - } -} - -#ifdef HAVE_PYTHON - -LIST * builtin_python_import_rule( PARSE * parse, FRAME * frame ) -{ - static int first_time = 1; - char * python_module = lol_get( frame->args, 0 )->string; - char * python_function = lol_get( frame->args, 1 )->string; - char * jam_module = lol_get( frame->args, 2 )->string; - char * jam_rule = lol_get( frame->args, 3 )->string; - - PyObject * pName; - PyObject * pModule; - PyObject * pDict; - PyObject * pFunc; - - if ( first_time ) - { - /* At the first invocation, we add the value of the global - * EXTRA_PYTHONPATH to the sys.path Python variable. - */ - LIST * extra = 0; - module_t * outer_module = frame->module; - - first_time = 0; - - if ( outer_module != root_module() ) - { - exit_module( outer_module ); - enter_module( root_module() ); - } - - extra = var_get( "EXTRA_PYTHONPATH" ); - - if ( outer_module != root_module() ) - { - exit_module( root_module() ); - enter_module( outer_module ); - } - - for ( ; extra; extra = extra->next ) - { - string buf[ 1 ]; - string_new( buf ); - string_append( buf, "import sys\nsys.path.append(\"" ); - string_append( buf, extra->string ); - string_append( buf, "\")\n" ); - PyRun_SimpleString( buf->value ); - string_free( buf ); - } - } - - pName = PyString_FromString( python_module ); - pModule = PyImport_Import( pName ); - Py_DECREF( pName ); - - if ( pModule != NULL ) - { - pDict = PyModule_GetDict( pModule ); - pFunc = PyDict_GetItemString( pDict, python_function ); - - if ( pFunc && PyCallable_Check( pFunc ) ) - { - module_t * m = bindmodule( jam_module ); - RULE * r = bindrule( jam_rule, m ); - - /* Make pFunc owned. */ - Py_INCREF( pFunc ); - - r->python_function = pFunc; - } - else - { - if ( PyErr_Occurred() ) - PyErr_Print(); - fprintf( stderr, "Cannot find function \"%s\"\n", python_function ); - } - Py_DECREF( pModule ); - } - else - { - PyErr_Print(); - fprintf( stderr, "Failed to load \"%s\"\n", python_module ); - } - return L0; - -} - -#endif - -void lol_build( LOL * lol, char * * elements ) -{ - LIST * l = L0; - lol_init( lol ); - - while ( elements && *elements ) - { - if ( !strcmp( *elements, ":" ) ) - { - lol_add( lol, l ); - l = L0 ; - } - else - { - l = list_new( l, newstr( *elements ) ); - } - ++elements; - } - - if ( l != L0 ) - lol_add( lol, l ); -} - - -#ifdef HAVE_PYTHON - -/* - * Calls the bjam rule specified by name passed in 'args'. The name is looked up - * in the context of bjam's 'python_interface' module. Returns the list of - * string retured by the rule. - */ - -PyObject* bjam_call( PyObject * self, PyObject * args ) -{ - FRAME inner[ 1 ]; - LIST * result; - PARSE * p; - char * rulename; - - /* Build up the list of arg lists. */ - frame_init( inner ); - inner->prev = 0; - inner->prev_user = 0; - inner->module = bindmodule( "python_interface" ); - inner->procedure = 0; - - /* Extract the rule name and arguments from 'args'. */ - - /* PyTuple_GetItem returns borrowed reference. */ - rulename = PyString_AsString( PyTuple_GetItem( args, 0 ) ); - { - int i = 1; - int size = PyTuple_Size( args ); - for ( ; i < size; ++i ) - { - PyObject * a = PyTuple_GetItem( args, i ); - if ( PyString_Check( a ) ) - { - lol_add( inner->args, list_new( 0, newstr( - PyString_AsString( a ) ) ) ); - } - else if ( PySequence_Check( a ) ) - { - LIST * l = 0; - int s = PySequence_Size( a ); - int i = 0; - for ( ; i < s; ++i ) - { - /* PySequence_GetItem returns new reference. */ - PyObject * e = PySequence_GetItem( a, i ); - char * s = PyString_AsString( e ); - if ( !s ) - { - printf( "Invalid parameter type passed from Python\n" ); - exit( 1 ); - } - l = list_new( l, newstr( s ) ); - Py_DECREF( e ); - } - lol_add( inner->args, l ); - } - } - } - - result = evaluate_rule( rulename, inner ); - - frame_free( inner ); - - /* Convert the bjam list into a Python list result. */ - { - PyObject * pyResult = PyList_New( list_length( result ) ); - int i = 0; - while ( result ) - { - PyList_SetItem( pyResult, i, PyString_FromString( result->string ) ); - result = list_next( result ); - i += 1; - } - list_free( result ); - return pyResult; - } -} - - -/* - * Accepts four arguments: - * - module name - * - rule name, - * - Python callable. - * - (optional) bjam language function signature. - * Creates a bjam rule with the specified name in the specified module, which will - * invoke the Python callable. - */ - -PyObject * bjam_import_rule( PyObject * self, PyObject * args ) -{ - char * module; - char * rule; - PyObject * func; - PyObject * bjam_signature = NULL; - module_t * m; - RULE * r; - - if ( !PyArg_ParseTuple( args, "ssO|O:import_rule", - &module, &rule, &func, &bjam_signature ) ) - return NULL; - - if ( !PyCallable_Check( func ) ) - { - PyErr_SetString( PyExc_RuntimeError, - "Non-callable object passed to bjam.import_rule" ); - return NULL; - } - - m = bindmodule( *module ? module : 0 ); - r = bindrule( rule, m ); - - /* Make pFunc owned. */ - Py_INCREF( func ); - - r->python_function = func; - r->arguments = 0; - - if (bjam_signature) - { - argument_list * arg_list = args_new(); - Py_ssize_t i; - - Py_ssize_t s = PySequence_Size (bjam_signature); - for (i = 0; i < s; ++i) - { - PyObject* v = PySequence_GetItem (bjam_signature, i); - lol_add(arg_list->data, list_from_python (v)); - Py_DECREF(v); - } - r->arguments = arg_list; - } - - Py_INCREF( Py_None ); - return Py_None; -} - - -/* - * Accepts four arguments: - * - an action name - * - an action body - * - a list of variable that will be bound inside the action - * - integer flags. - * Defines an action on bjam side. - */ - -PyObject * bjam_define_action( PyObject * self, PyObject * args ) -{ - char * name; - char * body; - module_t * m; - PyObject * bindlist_python; - int flags; - LIST * bindlist = L0; - int n; - int i; - - if ( !PyArg_ParseTuple( args, "ssO!i:define_action", &name, &body, - &PyList_Type, &bindlist_python, &flags ) ) - return NULL; - - n = PyList_Size( bindlist_python ); - for ( i = 0; i < n; ++i ) - { - PyObject * next = PyList_GetItem( bindlist_python, i ); - if ( !PyString_Check( next ) ) - { - PyErr_SetString( PyExc_RuntimeError, - "bind list has non-string type" ); - return NULL; - } - bindlist = list_new( bindlist, PyString_AsString( next ) ); - } - - new_rule_actions( root_module(), name, newstr( body ), bindlist, flags ); - - Py_INCREF( Py_None ); - return Py_None; -} - - -/* - * Returns the value of a variable in root Jam module. - */ - -PyObject * bjam_variable( PyObject * self, PyObject * args ) -{ - char * name; - LIST * value; - PyObject * result; - int i; - - if ( !PyArg_ParseTuple( args, "s", &name ) ) - return NULL; - - enter_module( root_module() ); - value = var_get( name ); - exit_module( root_module() ); - - result = PyList_New( list_length( value ) ); - for ( i = 0; value; value = list_next( value ), ++i ) - PyList_SetItem( result, i, PyString_FromString( value->string ) ); - - return result; -} - - -PyObject * bjam_backtrace( PyObject * self, PyObject * args ) -{ - PyObject * result = PyList_New( 0 ); - struct frame * f = frame_before_python_call; - - for ( ; f = f->prev; ) - { - PyObject * tuple = PyTuple_New( 4 ); - char * file; - int line; - char buf[ 32 ]; - - get_source_line( f->procedure, &file, &line ); - sprintf( buf, "%d", line ); - - /* PyTuple_SetItem steals reference. */ - PyTuple_SetItem( tuple, 0, PyString_FromString( file ) ); - PyTuple_SetItem( tuple, 1, PyString_FromString( buf ) ); - PyTuple_SetItem( tuple, 2, PyString_FromString( f->module->name ) ); - PyTuple_SetItem( tuple, 3, PyString_FromString( f->rulename ) ); - - PyList_Append( result, tuple ); - Py_DECREF( tuple ); - } - return result; -} - -PyObject * bjam_caller( PyObject * self, PyObject * args ) -{ - PyObject *result = PyString_FromString( - frame_before_python_call->prev->module->name); - return result; -} - -#endif /* #ifdef HAVE_PYTHON */ - - -#ifdef HAVE_POPEN - -#if defined(_MSC_VER) || defined(__BORLANDC__) - #define popen windows_popen_wrapper - #define pclose _pclose - - /* - * This wrapper is a workaround for a funny _popen() feature on Windows - * where it eats external quotes in some cases. The bug seems to be related - * to the quote stripping functionality used by the Windows cmd.exe - * interpreter when its /S is not specified. - * - * Cleaned up quote from the cmd.exe help screen as displayed on Windows XP - * SP3: - * - * 1. If all of the following conditions are met, then quote characters on - * the command line are preserved: - * - * - no /S switch - * - exactly two quote characters - * - no special characters between the two quote characters, where - * special is one of: &<>()@^| - * - there are one or more whitespace characters between the two quote - * characters - * - the string between the two quote characters is the name of an - * executable file. - * - * 2. Otherwise, old behavior is to see if the first character is a quote - * character and if so, strip the leading character and remove the last - * quote character on the command line, preserving any text after the - * last quote character. - * - * This causes some commands containing quotes not to be executed correctly. - * For example: - * - * "\Long folder name\aaa.exe" --name="Jurko" --no-surname - * - * would get its outermost quotes stripped and would be executed as: - * - * \Long folder name\aaa.exe" --name="Jurko --no-surname - * - * which would report an error about '\Long' not being a valid command. - * - * cmd.exe help seems to indicate it would be enough to add an extra space - * character in front of the command to avoid this but this does not work, - * most likely due to the shell first stripping all leading whitespace - * characters from the command. - * - * Solution implemented here is to quote the whole command in case it - * contains any quote characters. Note thought this will not work correctly - * should Windows ever 'fix' this feature. - * (03.06.2008.) (Jurko) - */ - static FILE * windows_popen_wrapper( char * command, char * mode ) - { - int extra_command_quotes_needed = ( strchr( command, '"' ) != 0 ); - string quoted_command; - FILE * result; - - if ( extra_command_quotes_needed ) - { - string_new( "ed_command ); - string_append( "ed_command, "\"" ); - string_append( "ed_command, command ); - string_append( "ed_command, "\"" ); - command = quoted_command.value; - } - - result = _popen( command, "r" ); - - if ( extra_command_quotes_needed ) - string_free( "ed_command ); - - return result; - } -#endif - - -static char * rtrim(char *s) -{ - char *p = s; - while(*p) ++p; - for(--p; p >= s && isspace(*p); *p-- = 0); - return s; -} - -LIST * builtin_shell( PARSE * parse, FRAME * frame ) -{ - LIST * command = lol_get( frame->args, 0 ); - LIST * result = 0; - string s; - int ret; - char buffer[ 1024 ]; - FILE * p = NULL; - int exit_status = -1; - int exit_status_opt = 0; - int no_output_opt = 0; - int strip_eol_opt = 0; - - /* Process the variable args options. */ - { - int a = 1; - LIST * arg = lol_get( frame->args, a ); - while ( arg ) - { - if ( strcmp( "exit-status", arg->string ) == 0 ) - { - exit_status_opt = 1; - } - else if ( strcmp( "no-output", arg->string ) == 0 ) - { - no_output_opt = 1; - } - else if ( strcmp("strip-eol", arg->string) == 0 ) - { - strip_eol_opt = 1; - } - arg = lol_get( frame->args, ++a ); - } - } - - /* The following fflush() call seems to be indicated as a workaround for a - * popen() bug on POSIX implementations related to synhronizing input - * stream positions for the called and the calling process. - */ - fflush( NULL ); - - p = popen( command->string, "r" ); - if ( p == NULL ) - return L0; - - string_new( &s ); - - while ( ( ret = fread( buffer, sizeof( char ), sizeof( buffer ) - 1, p ) ) > 0 ) - { - buffer[ret] = 0; - if ( !no_output_opt ) - { - if ( strip_eol_opt ) - rtrim(buffer); - string_append( &s, buffer ); - } - } - - exit_status = pclose( p ); - - /* The command output is returned first. */ - result = list_new( L0, newstr( s.value ) ); - string_free( &s ); - - /* The command exit result next. */ - if ( exit_status_opt ) - { - if ( WIFEXITED(exit_status) ) - exit_status = WEXITSTATUS(exit_status); - else - exit_status = -1; - sprintf( buffer, "%d", exit_status ); - result = list_new( result, newstr( buffer ) ); - } - - return result; -} - -#else /* #ifdef HAVE_POPEN */ - -LIST * builtin_shell( PARSE * parse, FRAME * frame ) -{ - return L0; -} - -#endif /* #ifdef HAVE_POPEN */ -- cgit v1.2.3