/* * Copyright 1993, 2000 Christopher Seiwald. * * This file is part of Jam - see jam.c for Copyright information. */ # include "jam.h" # include "lists.h" # include "parse.h" # include "compile.h" # include "variable.h" # include "expand.h" # include "rules.h" # include "newstr.h" # include "make.h" # include "search.h" /* * compile.c - compile parsed jam statements * * External routines: * * compile_append() - append list results of two statements * compile_foreach() - compile the "for x in y" statement * compile_if() - compile 'if' rule * compile_include() - support for 'include' - call include() on file * compile_list() - expand and return a list * compile_local() - declare (and set) local variables * compile_null() - do nothing -- a stub for parsing * compile_rule() - compile a single user defined rule * compile_rules() - compile a chain of rules * compile_set() - compile the "set variable" statement * compile_setcomp() - support for `rule` - save parse tree * compile_setexec() - support for `actions` - save execution string * compile_settings() - compile the "on =" (set variable on exec) statement * compile_switch() - compile 'switch' rule * * Internal routines: * * debug_compile() - printf with indent to show rule expansion. * * evaluate_if() - evaluate if to determine which leg to compile * evaluate_rule() - execute a rule invocation * * builtin_depends() - DEPENDS/INCLUDES rule * builtin_echo() - ECHO rule * builtin_exit() - EXIT rule * builtin_flags() - NOCARE, NOTFILE, TEMPORARY rule * * 02/03/94 (seiwald) - Changed trace output to read "setting" instead of * the awkward sounding "settings". * 04/12/94 (seiwald) - Combined build_depends() with build_includes(). * 04/12/94 (seiwald) - actionlist() now just appends a single action. * 04/13/94 (seiwald) - added shorthand L0 for null list pointer * 05/13/94 (seiwald) - include files are now bound as targets, and thus * can make use of $(SEARCH) * 06/01/94 (seiwald) - new 'actions existing' does existing sources * 08/23/94 (seiwald) - Support for '+=' (append to variable) * 12/20/94 (seiwald) - NOTIME renamed NOTFILE. * 01/22/95 (seiwald) - Exit rule. * 02/02/95 (seiwald) - Always rule; LEAVES rule. * 02/14/95 (seiwald) - NoUpdate rule. * 09/11/00 (seiwald) - new evaluate_rule() for headers(). * 09/11/00 (seiwald) - compile_xxx() now return LIST *. * New compile_append() and compile_list() in * support of building lists here, rather than * in jamgram.yy. */ static void debug_compile( int which, char *s ); static int evaluate_if( PARSE *parse, LOL *args ); static LIST *builtin_depends( PARSE *parse, LOL *args ); static LIST *builtin_echo( PARSE *parse, LOL *args ); static LIST *builtin_exit( PARSE *parse, LOL *args ); static LIST *builtin_flags( PARSE *parse, LOL *args ); int glob( char *s, char *c ); /* * compile_builtin() - define builtin rules */ # define P0 (PARSE *)0 # define C0 (char *)0 void compile_builtins() { bindrule( "Always" )->procedure = bindrule( "ALWAYS" )->procedure = parse_make( builtin_flags, P0, P0, P0, C0, C0, T_FLAG_TOUCHED ); bindrule( "Depends" )->procedure = bindrule( "DEPENDS" )->procedure = parse_make( builtin_depends, P0, P0, P0, C0, C0, T_DEPS_DEPENDS ); bindrule( "Echo" )->procedure = bindrule( "ECHO" )->procedure = parse_make( builtin_echo, P0, P0, P0, C0, C0, 0 ); bindrule( "Exit" )->procedure = bindrule( "EXIT" )->procedure = parse_make( builtin_exit, P0, P0, P0, C0, C0, 0 ); bindrule( "Includes" )->procedure = bindrule( "INCLUDES" )->procedure = parse_make( builtin_depends, P0, P0, P0, C0, C0, T_DEPS_INCLUDES ); bindrule( "Leaves" )->procedure = bindrule( "LEAVES" )->procedure = parse_make( builtin_flags, P0, P0, P0, C0, C0, T_FLAG_LEAVES ); bindrule( "NoCare" )->procedure = bindrule( "NOCARE" )->procedure = parse_make( builtin_flags, P0, P0, P0, C0, C0, T_FLAG_NOCARE ); bindrule( "NOTIME" )->procedure = bindrule( "NotFile" )->procedure = bindrule( "NOTFILE" )->procedure = parse_make( builtin_flags, P0, P0, P0, C0, C0, T_FLAG_NOTFILE ); bindrule( "NoUpdate" )->procedure = bindrule( "NOUPDATE" )->procedure = parse_make( builtin_flags, P0, P0, P0, C0, C0, T_FLAG_NOUPDATE ); bindrule( "Temporary" )->procedure = bindrule( "TEMPORARY" )->procedure = parse_make( builtin_flags, P0, P0, P0, C0, C0, T_FLAG_TEMP ); } /* * compile_append() - append list results of two statements * * parse->left more compile_append() by left-recursion * parse->right single rule */ LIST * compile_append( PARSE *parse, LOL *args ) { /* Append right to left. */ return list_append( (*parse->left->func)( parse->left, args ), (*parse->right->func)( parse->right, args ) ); } /* * compile_foreach() - compile the "for x in y" statement * * Compile_foreach() resets the given variable name to each specified * value, executing the commands enclosed in braces for each iteration. * * parse->string index variable * parse->left variable values * parse->right rule to compile */ LIST * compile_foreach( PARSE *parse, LOL *args ) { LIST *nv = (*parse->left->func)( parse->left, args ); LIST *l; /* Call var_set to reset $(parse->string) for each val. */ for( l = nv; l; l = list_next( l ) ) { LIST *val = list_new( L0, copystr( l->string ) ); var_set( parse->string, val, VAR_SET ); list_free( (*parse->right->func)( parse->right, args ) ); } list_free( nv ); return L0; } /* * compile_if() - compile 'if' rule * * parse->left condition tree * parse->right then tree * parse->third else tree */ LIST * compile_if( PARSE *p, LOL *args ) { if( evaluate_if( p->left, args ) ) { return (*p->right->func)( p->right, args ); } else { return (*p->third->func)( p->third, args ); } } /* * evaluate_if() - evaluate if to determine which leg to compile * * Returns: * !0 if expression true - compile 'then' clause * 0 if expression false - compile 'else' clause */ static int evaluate_if( PARSE *parse, LOL *args ) { int status; if( parse->num <= COND_OR ) { /* Handle one of the logical operators */ switch( parse->num ) { case COND_NOT: status = !evaluate_if( parse->left, args ); break; case COND_AND: status = evaluate_if( parse->left, args ) && evaluate_if( parse->right, args ); break; case COND_OR: status = evaluate_if( parse->left, args ) || evaluate_if( parse->right, args ); break; default: status = 0; /* can't happen */ } } else { /* Handle one of the comparison operators */ /* Expand targets and sources */ LIST *nt = (*parse->left->func)( parse->left, args ); LIST *ns = (*parse->right->func)( parse->right, args ); /* "a in b" make sure each of a is equal to something in b. */ /* Otherwise, step through pairwise comparison. */ if( parse->num == COND_IN ) { LIST *s, *t; /* Try each t until failure. */ for( status = 1, t = nt; status && t; t = list_next( t ) ) { int stat1; /* Try each s until success */ for( stat1 = 0, s = ns; !stat1 && s; s = list_next( s ) ) stat1 = !strcmp( t->string, s->string ); status = stat1; } } else { LIST *s = ns, *t = nt; status = 0; while( !status && ( t || s ) ) { char *st = t ? t->string : ""; char *ss = s ? s->string : ""; status = strcmp( st, ss ); t = t ? list_next( t ) : t; s = s ? list_next( s ) : s; } } switch( parse->num ) { case COND_EXISTS: status = status > 0 ; break; case COND_EQUALS: status = !status; break; case COND_NOTEQ: status = status != 0; break; case COND_LESS: status = status < 0; break; case COND_LESSEQ: status = status <= 0; break; case COND_MORE: status = status > 0; break; case COND_MOREEQ: status = status >= 0; break; case COND_IN: /* status = status */ break; } if( DEBUG_IF ) { debug_compile( 0, "if" ); list_print( nt ); printf( "(%d)", status ); list_print( ns ); printf( "\n" ); } list_free( nt ); list_free( ns ); } return status; } /* * compile_include() - support for 'include' - call include() on file * * parse->left list of files to include (can only do 1) */ LIST * compile_include( PARSE *parse, LOL *args ) { LIST *nt = (*parse->left->func)( parse->left, args ); if( DEBUG_COMPILE ) { debug_compile( 0, "include" ); list_print( nt ); printf( "\n" ); } if( nt ) { TARGET *t = bindtarget( nt->string ); /* Bind the include file under the influence of */ /* "on-target" variables. Though they are targets, */ /* include files are not built with make(). */ pushsettings( t->settings ); t->boundname = search( t->name, &t->time ); popsettings( t->settings ); parse_file( t->boundname ); } list_free( nt ); return L0; } /* * compile_list() - expand and return a list * * parse->string - character string to expand */ LIST * compile_list( PARSE *parse, LOL *args ) { /* voodoo 1 means: s is a copyable string */ char *s = parse->string; return var_expand( L0, s, s + strlen( s ), args, 1 ); } /* * compile_local() - declare (and set) local variables * * parse->left list of variables * parse->right list of values * parse->third rules to execute */ LIST * compile_local( PARSE *parse, LOL *args ) { LIST *l; SETTINGS *s = 0; LIST *nt = (*parse->left->func)( parse->left, args ); LIST *ns = (*parse->right->func)( parse->right, args ); LIST *result; if( DEBUG_COMPILE ) { debug_compile( 0, "local" ); list_print( nt ); printf( " = " ); list_print( ns ); printf( "\n" ); } /* Initial value is ns */ for( l = nt; l; l = list_next( l ) ) s = addsettings( s, 0, l->string, list_copy( (LIST*)0, ns ) ); list_free( ns ); list_free( nt ); /* Note that callees of the current context get this "local" */ /* variable, making it not so much local as layered. */ pushsettings( s ); result = (*parse->third->func)( parse->third, args ); popsettings( s ); freesettings( s ); return result; } /* * compile_null() - do nothing -- a stub for parsing */ LIST * compile_null( PARSE *parse, LOL *args ) { return L0; } /* * compile_rule() - compile a single user defined rule * * parse->string name of user defined rule * parse->left parameters (list of lists) to rule, recursing left * * Wrapped around evaluate_rule() so that headers() can share it. */ LIST * compile_rule( PARSE *parse, LOL *args ) { LOL nargs[1]; LIST *result; PARSE *p; /* Build up the list of arg lists */ lol_init( nargs ); for( p = parse->left; p; p = p->left ) lol_add( nargs, (*p->right->func)( p->right, args ) ); /* And invoke rule */ result = evaluate_rule( parse->string, nargs ); lol_free( nargs ); return result; } /* * evaluate_rule() - execute a rule invocation */ LIST * evaluate_rule( char *rulename, LOL *args ) { LIST *result = L0; RULE *rule = bindrule( rulename ); if( DEBUG_COMPILE ) { debug_compile( 1, rulename ); lol_print( args ); printf( "\n" ); } /* Check traditional targets $(<) and sources $(>) */ if( !rule->actions && !rule->procedure ) printf( "warning: unknown rule %s\n", rule->name ); /* If this rule will be executed for updating the targets */ /* then construct the action for make(). */ if( rule->actions ) { TARGETS *t; ACTION *action; /* The action is associated with this instance of this rule */ action = (ACTION *)malloc( sizeof( ACTION ) ); memset( (char *)action, '\0', sizeof( *action ) ); action->rule = rule; action->targets = targetlist( (TARGETS *)0, lol_get( args, 0 ) ); action->sources = targetlist( (TARGETS *)0, lol_get( args, 1 ) ); /* Append this action to the actions of each target */ for( t = action->targets; t; t = t->next ) t->target->actions = actionlist( t->target->actions, action ); } /* Now recursively compile any parse tree associated with this rule */ /* refer/free to ensure rule not freed during use */ if( rule->procedure ) { PARSE *parse = rule->procedure; parse_refer( parse ); result = (*parse->func)( parse, args ); parse_free( parse ); } if( DEBUG_COMPILE ) debug_compile( -1, 0 ); return result; } /* * compile_rules() - compile a chain of rules * * parse->left more compile_rules() by left-recursion * parse->right single rule */ LIST * compile_rules( PARSE *parse, LOL *args ) { /* Ignore result from first statement; return the 2nd. */ list_free( (*parse->left->func)( parse->left, args ) ); return (*parse->right->func)( parse->right, args ); } /* * compile_set() - compile the "set variable" statement * * parse->left variable names * parse->right variable values * parse->num ASSIGN_SET/APPEND/DEFAULT */ LIST * compile_set( PARSE *parse, LOL *args ) { LIST *nt = (*parse->left->func)( parse->left, args ); LIST *ns = (*parse->right->func)( parse->right, args ); LIST *l; int setflag; char *trace; switch( parse->num ) { case ASSIGN_SET: setflag = VAR_SET; trace = "="; break; case ASSIGN_APPEND: setflag = VAR_APPEND; trace = "+="; break; case ASSIGN_DEFAULT: setflag = VAR_DEFAULT; trace = "?="; break; default: setflag = VAR_SET; trace = ""; break; } if( DEBUG_COMPILE ) { debug_compile( 0, "set" ); list_print( nt ); printf( " %s ", trace ); list_print( ns ); printf( "\n" ); } /* Call var_set to set variable */ /* var_set keeps ns, so need to copy it */ for( l = nt; l; l = list_next( l ) ) var_set( l->string, list_copy( L0, ns ), setflag ); list_free( nt ); return ns; } /* * compile_setcomp() - support for `rule` - save parse tree * * parse->string rule name * parse->left rules for rule */ LIST * compile_setcomp( PARSE *parse, LOL *args ) { RULE *rule = bindrule( parse->string ); /* Free old one, if present */ if( rule->procedure ) parse_decref( rule->procedure ); rule->procedure = parse->left; /* we now own this parse tree */ /* don't let parse_decref() release it */ parse->left = 0; return L0; } /* * compile_setexec() - support for `actions` - save execution string * * parse->string rule name * parse->string1 OS command string * parse->num flags * parse->left `bind` variables * * Note that the parse flags (as defined in compile.h) are transfered * directly to the rule flags (as defined in rules.h). */ LIST * compile_setexec( PARSE *parse, LOL *args ) { RULE *rule = bindrule( parse->string ); LIST *bindlist = (*parse->left->func)( parse->left, args ); /* Free old one, if present */ if( rule->actions ) { freestr( rule->actions ); list_free( rule->bindlist ); } rule->actions = copystr( parse->string1 ); rule->bindlist = bindlist; rule->flags = parse->num; /* XXX translate this properly */ return L0; } /* * compile_settings() - compile the "on =" (set variable on exec) statement * * parse->left variable names * parse->right target name * parse->third variable value * parse->num ASSIGN_SET/APPEND */ LIST * compile_settings( PARSE *parse, LOL *args ) { LIST *nt = (*parse->left->func)( parse->left, args ); LIST *ns = (*parse->third->func)( parse->third, args ); LIST *targets = (*parse->right->func)( parse->right, args ); LIST *ts; int append = parse->num == ASSIGN_APPEND; if( DEBUG_COMPILE ) { debug_compile( 0, "set" ); list_print( nt ); printf( "on " ); list_print( targets ); printf( " %s ", append ? "+=" : "=" ); list_print( ns ); printf( "\n" ); } /* Call addsettings to save variable setting */ /* addsettings keeps ns, so need to copy it */ /* Pass append flag to addsettings() */ for( ts = targets; ts; ts = list_next( ts ) ) { TARGET *t = bindtarget( ts->string ); LIST *l; for( l = nt; l; l = list_next( l ) ) t->settings = addsettings( t->settings, append, l->string, list_copy( (LIST*)0, ns ) ); } list_free( nt ); list_free( targets ); return ns; } /* * compile_switch() - compile 'switch' rule * * parse->left switch value (only 1st used) * parse->right cases * * cases->left 1st case * cases->right next cases * * case->string argument to match * case->left parse tree to execute */ LIST * compile_switch( PARSE *parse, LOL *args ) { LIST *nt = (*parse->left->func)( parse->left, args ); LIST *result = 0; if( DEBUG_COMPILE ) { debug_compile( 0, "switch" ); list_print( nt ); printf( "\n" ); } /* Step through cases */ for( parse = parse->right; parse; parse = parse->right ) { if( !glob( parse->left->string, nt ? nt->string : "" ) ) { /* Get & exec parse tree for this case */ parse = parse->left->left; result = (*parse->func)( parse, args ); break; } } list_free( nt ); return result; } /* * builtin_depends() - DEPENDS/INCLUDES rule * * The DEPENDS builtin rule appends each of the listed sources on the * dependency list of each of the listed targets. It binds both the * targets and sources as TARGETs. */ static LIST * builtin_depends( PARSE *parse, LOL *args ) { LIST *targets = lol_get( args, 0 ); LIST *sources = lol_get( args, 1 ); int which = parse->num; LIST *l; for( l = targets; l; l = list_next( l ) ) { TARGET *t = bindtarget( l->string ); t->deps[ which ] = targetlist( t->deps[ which ], sources ); } return L0; } /* * builtin_echo() - ECHO rule * * The ECHO builtin rule echoes the targets to the user. No other * actions are taken. */ static LIST * builtin_echo( PARSE *parse, LOL *args ) { list_print( lol_get( args, 0 ) ); printf( "\n" ); return L0; } /* * builtin_exit() - EXIT rule * * The EXIT builtin rule echoes the targets to the user and exits * the program with a failure status. */ static LIST * builtin_exit( PARSE *parse, LOL *args ) { list_print( lol_get( args, 0 ) ); printf( "\n" ); 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. */ static LIST * builtin_flags( PARSE *parse, LOL *args ) { LIST *l = lol_get( args, 0 ); for( ; l; l = list_next( l ) ) bindtarget( l->string )->flags |= parse->num; return L0; } /* * debug_compile() - printf with indent to show rule expansion. */ static void debug_compile( int which, char *s ) { static int level = 0; static char indent[36] = ">>>>|>>>>|>>>>|>>>>|>>>>|>>>>|>>>>|"; int i = ((1+level) * 2) % 35; if( which >= 0 ) printf( "%*.*s ", i, i, indent ); if( s ) printf( "%s ", s ); level += which; }
# | Change | User | Description | Committed | |
---|---|---|---|---|---|
#5 | 1270 | Matt Armstrong | In prep for publishing all my patches to jam. | ||
#4 | 1089 | Matt Armstrong | One more integration. | ||
#3 | 1088 | Matt Armstrong | Merge in changes from upstream. | ||
#2 | 293 | Matt Armstrong |
Fix a crash bug in jam by adding reference counting to the PARSE struct. The bug occurs when a rule re-defines itself. This can only happen by using the include statement, as follows. JamfileA: ---------------------------------------------------- rule DoInclude { ECHO JamfileA DoInclude $(<) start ; include $(<) ; ECHO JamfileA DoInclude $(<) end ; } DoInclude JambileB ; ---------------------------------------------------- JamfileB: ---------------------------------------------------- rule DoInclude { ECHO JamfileB DoInclude ; } DoInclude JambileC ; ---------------------------------------------------- With these two jamfiles you can reproduce the crash bug by running "jam -fJamfileA". If that doesn't work, change parse_free() such that it memsets PARSE struct being freed to something bogus like 0x03 and try again (or use Purify and watch the free memory read warnings). The problem is that compile_setcomp() just frees the PARSE without regard for the possibility that it might be executing. In the case above, JamfileA's DoInclude is re-defined by JamfileB while it is still being executed. The simple fix is to just have compile_setcomp() not free the PARSE. This would introduce a memory leak for every re-defined rule. My fix introduces reference counting of the PARSE struct. A PARSE is allocated with a reference count of 1 and when it goes to 0 it is freed. Every place that was a parse_free() is now a parse_decref(). In addition, compile_rules() increments the reference count of its PARSE around the calls to its left and right functions. Perhaps there a better fix! |
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#1 | 289 | Matt Armstrong | Initial branch. | ||
//guest/perforce_software/jam/src/compile.c | |||||
#1 | 2 | laura | Add Jam/MR 2.2 source |