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Diffstat (limited to 'make1.c')
| -rw-r--r-- | make1.c | 1145 |
1 files changed, 1145 insertions, 0 deletions
@@ -0,0 +1,1145 @@ +/* + * Copyright 1993-2002 Christopher Seiwald and Perforce Software, Inc. + * + * This file is part of Jam - see jam.c for Copyright information. + */ + +/* This file is ALSO: + * Copyright 2001-2004 David Abrahams. + * Distributed under the Boost Software License, Version 1.0. + * (See accompanying file LICENSE_1_0.txt or http://www.boost.org/LICENSE_1_0.txt) + */ + +/* + * make1.c - execute command to bring targets up to date + * + * This module contains make1(), the entry point called by make() to + * recursively decend the dependency graph executing update actions as + * marked by make0(). + * + * External routines: + * + * make1() - execute commands to update a TARGET and all of its dependencies. + * + * Internal routines, the recursive/asynchronous command executors: + * + * make1a() - recursively traverse dependency target tree, calling make1b(). + * make1atail() - started processing all dependencies so go on to make1b(). + * make1b() - when dependencies are up to date, build target with make1c(). + * make1c() - launch target's next command, call parents' make1b() if none. + * make1d() - handle command execution completion and call back make1c(). + * + * Internal support routines: + * + * make1cmds() - turn ACTIONS into CMDs, grouping, splitting, etc. + * make1list() - turn a list of targets into a LIST, for $(<) and $(>). + * make1settings() - for vars that get bound values, build up replacement lists. + * make1bind() - bind targets that weren't bound in dependency analysis. + * + * 04/16/94 (seiwald) - Split from make.c. + * 04/21/94 (seiwald) - Handle empty "updated" actions. + * 05/04/94 (seiwald) - async multiprocess (-j) support. + * 06/01/94 (seiwald) - new 'actions existing' does existing sources. + * 12/20/94 (seiwald) - NOTIME renamed NOTFILE. + * 01/19/95 (seiwald) - distinguish between CANTFIND/CANTMAKE targets. + * 01/22/94 (seiwald) - pass per-target JAMSHELL down to exec_cmd(). + * 02/28/95 (seiwald) - Handle empty "existing" actions. + * 03/10/95 (seiwald) - Fancy counts. + */ + +#include "jam.h" + +#include "lists.h" +#include "parse.h" +#include "assert.h" +#include "variable.h" +#include "rules.h" +#include "headers.h" + +#include "search.h" +#include "newstr.h" +#include "make.h" +#include "command.h" +#include "execcmd.h" +#include "compile.h" +#include "output.h" + +#include <stdlib.h> + +#if ! defined(NT) || defined(__GNUC__) + #include <unistd.h> /* for unlink */ +#endif + +static CMD * make1cmds ( TARGET * ); +static LIST * make1list ( LIST *, TARGETS *, int flags ); +static SETTINGS * make1settings( LIST * vars ); +static void make1bind ( TARGET * ); + +/* Ugly static - it is too hard to carry it through the callbacks. */ + +static struct +{ + int failed; + int skipped; + int total; + int made; +} counts[ 1 ] ; + +/* Target state - remove recursive calls by just keeping track of state target + * is in. + */ +typedef struct _state +{ + struct _state * prev; /* previous state on stack */ + TARGET * t; /* current target */ + TARGET * parent; /* parent argument necessary for make1a() */ +#define T_STATE_MAKE1A 0 /* make1a() should be called */ +#define T_STATE_MAKE1ATAIL 1 /* make1atail() should be called */ +#define T_STATE_MAKE1B 2 /* make1b() should be called */ +#define T_STATE_MAKE1C 3 /* make1c() should be called */ +#define T_STATE_MAKE1D 4 /* make1d() should be called */ + int curstate; /* current state */ + int status; +} state; + +static void make1a ( state * ); +static void make1atail ( state * ); +static void make1b ( state * ); +static void make1c ( state * ); +static void make1d ( state * ); +static void make_closure( void * closure, int status, timing_info *, char *, char * ); + +typedef struct _stack +{ + state * stack; +} stack; + +static stack state_stack = { NULL }; + +static state * state_freelist = NULL; + + +static state * alloc_state() +{ + if ( state_freelist != NULL ) + { + state * pState = state_freelist; + state_freelist = pState->prev; + memset( pState, 0, sizeof( state ) ); + return pState; + } + + return (state *)BJAM_MALLOC( sizeof( state ) ); +} + + +static void free_state( state * pState ) +{ + pState->prev = state_freelist; + state_freelist = pState; +} + + +static void clear_state_freelist() +{ + while ( state_freelist != NULL ) + { + state * pState = state_freelist; + state_freelist = state_freelist->prev; + BJAM_FREE( pState ); + } +} + + +static state * current_state( stack * pStack ) +{ + return pStack->stack; +} + + +static void pop_state( stack * pStack ) +{ + if ( pStack->stack != NULL ) + { + state * pState = pStack->stack->prev; + free_state( pStack->stack ); + pStack->stack = pState; + } +} + + +static state * push_state( stack * pStack, TARGET * t, TARGET * parent, int curstate ) +{ + state * pState = alloc_state(); + + pState->t = t; + pState->parent = parent; + pState->prev = pStack->stack; + pState->curstate = curstate; + + pStack->stack = pState; + + return pStack->stack; +} + + +/* + * Pushes a stack onto another stack, effectively reversing the order. + */ + +static void push_stack_on_stack( stack * pDest, stack * pSrc ) +{ + while ( pSrc->stack != NULL ) + { + state * pState = pSrc->stack; + pSrc->stack = pSrc->stack->prev; + pState->prev = pDest->stack; + pDest->stack = pState; + } +} + + +/* + * make1() - execute commands to update a TARGET and all of its dependencies. + */ + +static int intr = 0; + +int make1( TARGET * t ) +{ + state * pState; + + memset( (char *)counts, 0, sizeof( *counts ) ); + + /* Recursively make the target and its dependencies. */ + push_state( &state_stack, t, NULL, T_STATE_MAKE1A ); + + do + { + while ( ( pState = current_state( &state_stack ) ) != NULL ) + { + if ( intr ) + pop_state( &state_stack ); + + switch ( pState->curstate ) + { + case T_STATE_MAKE1A : make1a ( pState ); break; + case T_STATE_MAKE1ATAIL: make1atail( pState ); break; + case T_STATE_MAKE1B : make1b ( pState ); break; + case T_STATE_MAKE1C : make1c ( pState ); break; + case T_STATE_MAKE1D : make1d ( pState ); break; + } + } + } + /* Wait for any outstanding commands to finish running. */ + while ( exec_wait() ); + + clear_state_freelist(); + + /* Talk about it. */ + if ( counts->failed ) + printf( "...failed updating %d target%s...\n", counts->failed, + counts->failed > 1 ? "s" : "" ); + if ( DEBUG_MAKE && counts->skipped ) + printf( "...skipped %d target%s...\n", counts->skipped, + counts->skipped > 1 ? "s" : "" ); + if ( DEBUG_MAKE && counts->made ) + printf( "...updated %d target%s...\n", counts->made, + counts->made > 1 ? "s" : "" ); + + return counts->total != counts->made; +} + + +/* + * make1a() - recursively traverse target tree, calling make1b(). + * + * Called to start processing a specified target. Does nothing if the target is + * already being processed or otherwise starts processing all of its + * dependencies. Once all of its dependencies have started being processed goes + * on and calls make1b() (actually does that indirectly via a helper + * make1atail() state). + */ + +static void make1a( state * pState ) +{ + TARGET * t = pState->t; + TARGETS * c; + + /* If the parent is the first to try to build this target or this target is + * in the make1c() quagmire, arrange for the parent to be notified when this + * target is built. + */ + if ( pState->parent ) + switch ( pState->t->progress ) + { + case T_MAKE_INIT: + case T_MAKE_ACTIVE: + case T_MAKE_RUNNING: + pState->t->parents = targetentry( pState->t->parents, + pState->parent ); + ++pState->parent->asynccnt; + } + + /* If this target is already being processed then do nothing. There is no + * need to start processing the same target all over again. + */ + if ( pState->t->progress != T_MAKE_INIT ) + { + pop_state( &state_stack ); + return; + } + + /* Asynccnt counts the dependencies preventing this target from proceeding + * to make1b() for actual building. We start off with a count of 1 to + * prevent anything from happening until we can notify all dependencies that + * they are needed. This 1 is accounted for when we call make1b() ourselves, + * below. Without this if a a dependency gets built before we finish + * processing all of our other dependencies our build might be triggerred + * prematurely. + */ + pState->t->asynccnt = 1; + + /* Add header nodes created during the building process. */ + { + TARGETS * inc = 0; + for ( c = t->depends; c; c = c->next ) + if ( c->target->rescanned && c->target->includes ) + inc = targetentry( inc, c->target->includes ); + t->depends = targetchain( t->depends, inc ); + } + + /* Guard against circular dependencies. */ + pState->t->progress = T_MAKE_ONSTACK; + + { + stack temp_stack = { NULL }; + for ( c = t->depends; c && !intr; c = c->next ) + push_state( &temp_stack, c->target, pState->t, T_STATE_MAKE1A ); + + /* Using stacks reverses the order of execution. Reverse it back. */ + push_stack_on_stack( &state_stack, &temp_stack ); + } + + pState->curstate = T_STATE_MAKE1ATAIL; +} + + +/* + * make1atail() - started processing all dependencies so go on to make1b(). + */ + +static void make1atail( state * pState ) +{ + pState->t->progress = T_MAKE_ACTIVE; + /* Now that all of our dependencies have bumped up our asynccnt we can + * remove our own internal bump added to prevent this target from being + * built before all of its dependencies start getting processed. + */ + pState->curstate = T_STATE_MAKE1B; +} + + +/* + * make1b() - when dependencies are up to date, build target with make1c(). + * + * Called after all dependencies have started being processed and after each of + * them finishes its processing. The target actually goes on to getting built in + * make1c() only after all of its dependencies have finished their processing. + */ + +static void make1b( state * pState ) +{ + TARGET * t = pState->t; + TARGETS * c; + TARGET * failed = 0; + char * failed_name = "dependencies"; + + /* If any dependencies are still outstanding, wait until they call make1b() + * to signal their completion. + */ + if ( --pState->t->asynccnt ) + { + pop_state( &state_stack ); + return; + } + + /* Try to aquire a semaphore. If it is locked, wait until the target that + * locked it is built and signal completition. + */ +#ifdef OPT_SEMAPHORE + if ( t->semaphore && t->semaphore->asynccnt ) + { + /* Append 't' to the list of targets waiting on semaphore. */ + t->semaphore->parents = targetentry( t->semaphore->parents, t ); + t->asynccnt++; + + if ( DEBUG_EXECCMD ) + printf( "SEM: %s is busy, delaying launch of %s\n", + t->semaphore->name, t->name ); + pop_state( &state_stack ); + return; + } +#endif + + /* Now ready to build target 't', if dependencies built OK. */ + + /* Collect status from dependencies. */ + for ( c = t->depends; c; c = c->next ) + if ( c->target->status > t->status && !( c->target->flags & T_FLAG_NOCARE ) ) + { + failed = c->target; + pState->t->status = c->target->status; + } + /* If an internal header node failed to build, we want to output the target + * that it failed on. + */ + if ( failed ) + { + failed_name = failed->flags & T_FLAG_INTERNAL + ? failed->failed + : failed->name; + } + t->failed = failed_name; + + /* If actions for building any of the dependencies have failed, bail. + * Otherwise, execute all actions to make the current target. + */ + if ( ( pState->t->status == EXEC_CMD_FAIL ) && pState->t->actions ) + { + ++counts->skipped; + if ( ( pState->t->flags & ( T_FLAG_RMOLD | T_FLAG_NOTFILE ) ) == T_FLAG_RMOLD ) + { + if ( !unlink( pState->t->boundname ) ) + printf( "...removing outdated %s\n", pState->t->boundname ); + } + else + printf( "...skipped %s for lack of %s...\n", pState->t->name, failed_name ); + } + + if ( pState->t->status == EXEC_CMD_OK ) + switch ( pState->t->fate ) + { + /* These are handled by the default case below now + case T_FATE_INIT: + case T_FATE_MAKING: + */ + + case T_FATE_STABLE: + case T_FATE_NEWER: + break; + + case T_FATE_CANTFIND: + case T_FATE_CANTMAKE: + pState->t->status = EXEC_CMD_FAIL; + break; + + case T_FATE_ISTMP: + if ( DEBUG_MAKE ) + printf( "...using %s...\n", pState->t->name ); + break; + + case T_FATE_TOUCHED: + case T_FATE_MISSING: + case T_FATE_NEEDTMP: + case T_FATE_OUTDATED: + case T_FATE_UPDATE: + case T_FATE_REBUILD: + /* Prepare commands for executing actions scheduled for this target + * and then schedule transfer to make1c() state to proceed with + * executing the prepared commands. Commands have their embedded + * variables automatically expanded, including making use of any "on + * target" variables. + */ + if ( pState->t->actions ) + { + ++counts->total; + if ( DEBUG_MAKE && !( counts->total % 100 ) ) + printf( "...on %dth target...\n", counts->total ); + + pState->t->cmds = (char *)make1cmds( pState->t ); + /* Set the target's "progress" so that make1c() counts it among + * its successes/failures. + */ + pState->t->progress = T_MAKE_RUNNING; + } + break; + + /* All possible fates should have been accounted for by now. */ + default: + printf( "ERROR: %s has bad fate %d", pState->t->name, + pState->t->fate ); + abort(); + } + + /* Call make1c() to begin the execution of the chain of commands needed to + * build the target. If we are not going to build the target (due of + * dependency failures or no commands needing to be run) the chain will be + * empty and make1c() will directly signal the target's completion. + */ + +#ifdef OPT_SEMAPHORE + /* If there is a semaphore, indicate that it is in use. */ + if ( pState->t->semaphore ) + { + ++pState->t->semaphore->asynccnt; + if ( DEBUG_EXECCMD ) + printf( "SEM: %s now used by %s\n", pState->t->semaphore->name, + pState->t->name ); + } +#endif + + pState->curstate = T_STATE_MAKE1C; +} + + +/* + * make1c() - launch target's next command, call parents' make1b() if none. + * + * If there are (more) commands to run to build this target (and we have not hit + * an error running earlier comands) we launch the command using exec_cmd(). If + * there are no more commands to run, we collect the status from all the actions + * and report our completion to all the parents. + */ + +static void make1c( state * pState ) +{ + CMD * cmd = (CMD *)pState->t->cmds; + + if ( cmd && ( pState->t->status == EXEC_CMD_OK ) ) + { + char * rule_name = 0; + char * target = 0; + + if ( DEBUG_MAKEQ || + ( !( cmd->rule->actions->flags & RULE_QUIETLY ) && DEBUG_MAKE ) ) + { + rule_name = cmd->rule->name; + target = lol_get( &cmd->args, 0 )->string; + if ( globs.noexec ) + out_action( rule_name, target, cmd->buf, "", "", EXIT_OK ); + } + + if ( globs.noexec ) + { + pState->curstate = T_STATE_MAKE1D; + pState->status = EXEC_CMD_OK; + } + else + { + /* Pop state first because exec_cmd() could push state. */ + pop_state( &state_stack ); + exec_cmd( cmd->buf, make_closure, pState->t, cmd->shell, rule_name, + target ); + } + } + else + { + TARGETS * c; + ACTIONS * actions; + + /* Collect status from actions, and distribute it as well. */ + for ( actions = pState->t->actions; actions; actions = actions->next ) + if ( actions->action->status > pState->t->status ) + pState->t->status = actions->action->status; + for ( actions = pState->t->actions; actions; actions = actions->next ) + if ( pState->t->status > actions->action->status ) + actions->action->status = pState->t->status; + + /* Tally success/failure for those we tried to update. */ + if ( pState->t->progress == T_MAKE_RUNNING ) + switch ( pState->t->status ) + { + case EXEC_CMD_OK : ++counts->made ; break; + case EXEC_CMD_FAIL: ++counts->failed; break; + } + + /* Tell parents their dependency has been built. */ + { + stack temp_stack = { NULL }; + TARGET * t = pState->t; + TARGET * additional_includes = NULL; + + t->progress = T_MAKE_DONE; + + /* Target has been updated so rescan it for dependencies. */ + if ( ( t->fate >= T_FATE_MISSING ) && + ( t->status == EXEC_CMD_OK ) && + !t->rescanned ) + { + TARGET * target_to_rescan = t; + SETTINGS * s; + + target_to_rescan->rescanned = 1; + + if ( target_to_rescan->flags & T_FLAG_INTERNAL ) + target_to_rescan = t->original_target; + + /* Clean current includes. */ + target_to_rescan->includes = 0; + + s = copysettings( target_to_rescan->settings ); + pushsettings( s ); + headers( target_to_rescan ); + popsettings( s ); + freesettings( s ); + + if ( target_to_rescan->includes ) + { + target_to_rescan->includes->rescanned = 1; + /* Tricky. The parents have already been processed, but they + * have not seen the internal node, because it was just + * created. We need to make the calls to make1a() that would + * have been made by the parents here, and also make sure + * all unprocessed parents will pick up the includes. We + * must make sure processing of the additional make1a() + * invocations is done before make1b() which means this + * target is built, otherwise the parent would be considered + * built before this make1a() processing has even started. + */ + make0( target_to_rescan->includes, target_to_rescan->parents->target, 0, 0, 0 ); + for ( c = target_to_rescan->parents; c; c = c->next ) + c->target->depends = targetentry( c->target->depends, + target_to_rescan->includes ); + /* Will be processed below. */ + additional_includes = target_to_rescan->includes; + } + } + + if ( additional_includes ) + for ( c = t->parents; c; c = c->next ) + push_state( &temp_stack, additional_includes, c->target, T_STATE_MAKE1A ); + + for ( c = t->parents; c; c = c->next ) + push_state( &temp_stack, c->target, NULL, T_STATE_MAKE1B ); + +#ifdef OPT_SEMAPHORE + /* If there is a semaphore, it is now free. */ + if ( t->semaphore ) + { + assert( t->semaphore->asynccnt == 1 ); + --t->semaphore->asynccnt; + + if ( DEBUG_EXECCMD ) + printf( "SEM: %s is now free\n", t->semaphore->name ); + + /* If anything is waiting, notify the next target. There is no + * point in notifying waiting targets, since they will be + * notified again. + */ + if ( t->semaphore->parents ) + { + TARGETS * first = t->semaphore->parents; + if ( first->next ) + first->next->tail = first->tail; + t->semaphore->parents = first->next; + + if ( DEBUG_EXECCMD ) + printf( "SEM: placing %s on stack\n", first->target->name ); + push_state( &temp_stack, first->target, NULL, T_STATE_MAKE1B ); + BJAM_FREE( first ); + } + } +#endif + + /* Must pop state before pushing any more. */ + pop_state( &state_stack ); + + /* Using stacks reverses the order of execution. Reverse it back. */ + push_stack_on_stack( &state_stack, &temp_stack ); + } + } +} + + +/* + * call_timing_rule() - Look up the __TIMING_RULE__ variable on the given + * target, and if non-empty, invoke the rule it names, passing the given + * timing_info. + */ + +static void call_timing_rule( TARGET * target, timing_info * time ) +{ + LIST * timing_rule; + + pushsettings( target->settings ); + timing_rule = var_get( "__TIMING_RULE__" ); + popsettings( target->settings ); + + if ( timing_rule ) + { + /* rule timing-rule ( args * : target : start end user system ) */ + + /* Prepare the argument list. */ + FRAME frame[ 1 ]; + frame_init( frame ); + + /* args * :: $(__TIMING_RULE__[2-]) */ + lol_add( frame->args, list_copy( L0, timing_rule->next ) ); + + /* target :: the name of the target */ + lol_add( frame->args, list_new( L0, target->name ) ); + + /* start end user system :: info about the action command */ + lol_add( frame->args, list_new( list_new( list_new( list_new( L0, + outf_time ( time->start ) ), + outf_time ( time->end ) ), + outf_double( time->user ) ), + outf_double( time->system ) ) ); + + /* Call the rule. */ + evaluate_rule( timing_rule->string, frame ); + + /* Clean up. */ + frame_free( frame ); + } +} + + +/* + * call_action_rule() - Look up the __ACTION_RULE__ variable on the given + * target, and if non-empty, invoke the rule it names, passing the given info, + * timing_info, executed command and command output. + */ + +static void call_action_rule +( + TARGET * target, + int status, + timing_info * time, + char * executed_command, + char * command_output +) +{ + LIST * action_rule; + + pushsettings( target->settings ); + action_rule = var_get( "__ACTION_RULE__" ); + popsettings( target->settings ); + + if ( action_rule ) + { + /* rule action-rule ( + args * : + target : + command status start end user system : + output ? ) */ + + /* Prepare the argument list. */ + FRAME frame[ 1 ]; + frame_init( frame ); + + /* args * :: $(__ACTION_RULE__[2-]) */ + lol_add( frame->args, list_copy( L0, action_rule->next ) ); + + /* target :: the name of the target */ + lol_add( frame->args, list_new( L0, target->name ) ); + + /* command status start end user system :: info about the action command */ + lol_add( frame->args, + list_new( list_new( list_new( list_new( list_new( list_new( L0, + newstr( executed_command ) ), + outf_int( status ) ), + outf_time( time->start ) ), + outf_time( time->end ) ), + outf_double( time->user ) ), + outf_double( time->system ) ) ); + + /* output ? :: the output of the action command */ + if ( command_output ) + lol_add( frame->args, list_new( L0, newstr( command_output ) ) ); + else + lol_add( frame->args, L0 ); + + /* Call the rule. */ + evaluate_rule( action_rule->string, frame ); + + /* Clean up. */ + frame_free( frame ); + } +} + + +/* + * make_closure() - internal function passed as a notification callback for when + * commands finish getting executed by the OS. + */ + +static void make_closure +( + void * closure, + int status, + timing_info * time, + char * executed_command, + char * command_output +) +{ + TARGET * built = (TARGET *)closure; + + call_timing_rule( built, time ); + if ( DEBUG_EXECCMD ) + printf( "%f sec system; %f sec user\n", time->system, time->user ); + + call_action_rule( built, status, time, executed_command, command_output ); + + push_state( &state_stack, built, NULL, T_STATE_MAKE1D )->status = status; +} + + +/* + * make1d() - handle command execution completion and call back make1c(). + * + * exec_cmd() has completed and now all we need to do is fiddle with the status + * and call back to make1c() so it can run the next command scheduled for + * building this target or close up the target's build process in case there are + * no more commands scheduled for it. On interrupts, we bail heavily. + */ + +static void make1d( state * pState ) +{ + TARGET * t = pState->t; + CMD * cmd = (CMD *)t->cmds; + int status = pState->status; + + if ( t->flags & T_FLAG_FAIL_EXPECTED ) + { + /* Invert execution result when FAIL_EXPECTED has been applied. */ + switch ( status ) + { + case EXEC_CMD_FAIL: status = EXEC_CMD_OK ; break; + case EXEC_CMD_OK: status = EXEC_CMD_FAIL; break; + } + } + + if ( ( status == EXEC_CMD_FAIL ) && + ( cmd->rule->actions->flags & RULE_IGNORE ) ) + status = EXEC_CMD_OK; + + /* On interrupt, set intr so _everything_ fails. */ + if ( status == EXEC_CMD_INTR ) + ++intr; + + /* Print command text on failure. */ + if ( ( status == EXEC_CMD_FAIL ) && DEBUG_MAKE ) + { + if ( !DEBUG_EXEC ) + printf( "%s\n", cmd->buf ); + + printf( "...failed %s ", cmd->rule->name ); + list_print( lol_get( &cmd->args, 0 ) ); + printf( "...\n" ); + } + + /* Treat failed commands as interrupts in case we were asked to stop the + * build in case of any errors. + */ + if ( ( status == EXEC_CMD_FAIL ) && globs.quitquick ) + ++intr; + + /* If the command was interrupted or failed and the target is not + * "precious", remove the targets. + */ + if (status != EXEC_CMD_OK) + { + LIST * targets = lol_get( &cmd->args, 0 ); + for ( ; targets; targets = list_next( targets ) ) + { + int need_unlink = 1; + TARGET* t = bindtarget ( targets->string ); + if (t->flags & T_FLAG_PRECIOUS) + { + need_unlink = 0; + } + if (need_unlink && !unlink( targets->string ) ) + printf( "...removing %s\n", targets->string ); + } + } + + /* Free this command and call make1c() to move onto the next one scheduled + * for building this same target. + */ + t->status = status; + t->cmds = (char *)cmd_next( cmd ); + cmd_free( cmd ); + pState->curstate = T_STATE_MAKE1C; +} + + +/* + * swap_settings() - replace the settings from the current module and target + * with those from the new module and target + */ + +static void swap_settings +( + module_t * * current_module, + TARGET * * current_target, + module_t * new_module, + TARGET * new_target +) +{ + if ( new_module == root_module() ) + new_module = 0; + + if ( ( new_target == *current_target ) && ( new_module == *current_module ) ) + return; + + if ( *current_target ) + popsettings( (*current_target)->settings ); + + if ( new_module != *current_module ) + { + if ( *current_module ) + exit_module( *current_module ); + + *current_module = new_module; + + if ( new_module ) + enter_module( new_module ); + } + + *current_target = new_target; + if ( new_target ) + pushsettings( new_target->settings ); +} + + +/* + * make1cmds() - turn ACTIONS into CMDs, grouping, splitting, etc. + * + * Essentially copies a chain of ACTIONs to a chain of CMDs, grouping + * RULE_TOGETHER actions, splitting RULE_PIECEMEAL actions, and handling + * RULE_NEWSRCS actions. The result is a chain of CMDs which can be expanded by + * var_string() and executed using exec_cmd(). + */ + +static CMD * make1cmds( TARGET * t ) +{ + CMD * cmds = 0; + LIST * shell = 0; + module_t * settings_module = 0; + TARGET * settings_target = 0; + ACTIONS * a0; + + /* Step through actions. Actions may be shared with other targets or grouped + * using RULE_TOGETHER, so actions already seen are skipped. + */ + for ( a0 = t->actions ; a0; a0 = a0->next ) + { + RULE * rule = a0->action->rule; + rule_actions * actions = rule->actions; + SETTINGS * boundvars; + LIST * nt; + LIST * ns; + ACTIONS * a1; + int start; + int chunk; + int length; + + /* Only do rules with commands to execute. If this action has already + * been executed, use saved status. + */ + if ( !actions || a0->action->running ) + continue; + + a0->action->running = 1; + + /* Make LISTS of targets and sources. If `execute together` has been + * specified for this rule, tack on sources from each instance of this + * rule for this target. + */ + nt = make1list( L0, a0->action->targets, 0 ); + ns = make1list( L0, a0->action->sources, actions->flags ); + if ( actions->flags & RULE_TOGETHER ) + for ( a1 = a0->next; a1; a1 = a1->next ) + if ( a1->action->rule == rule && !a1->action->running ) + { + ns = make1list( ns, a1->action->sources, actions->flags ); + a1->action->running = 1; + } + + /* If doing only updated (or existing) sources, but none have been + * updated (or exist), skip this action. + */ + if ( !ns && ( actions->flags & ( RULE_NEWSRCS | RULE_EXISTING ) ) ) + { + list_free( nt ); + continue; + } + + swap_settings( &settings_module, &settings_target, rule->module, t ); + if ( !shell ) + shell = var_get( "JAMSHELL" ); /* shell is per-target */ + + /* If we had 'actions xxx bind vars' we bind the vars now. */ + boundvars = make1settings( actions->bindlist ); + pushsettings( boundvars ); + + /* + * Build command, starting with all source args. + * + * If cmd_new returns 0, it is because the resulting command length is + * > MAXLINE. In this case, we will slowly reduce the number of source + * arguments presented until it does fit. This only applies to actions + * that allow PIECEMEAL commands. + * + * While reducing slowly takes a bit of compute time to get things just + * right, it is worth it to get as close to MAXLINE as possible, because + * launching the commands we are executing is likely to be much more + * compute intensive. + * + * Note we loop through at least once, for sourceless actions. + */ + + start = 0; + chunk = length = list_length( ns ); + + do + { + /* Build cmd: cmd_new consumes its lists. */ + CMD * cmd = cmd_new( rule, + list_copy( L0, nt ), + list_sublist( ns, start, chunk ), + list_copy( L0, shell ) ); + + if ( cmd ) + { + /* It fit: chain it up. */ + if ( !cmds ) cmds = cmd; + else cmds->tail->next = cmd; + cmds->tail = cmd; + start += chunk; + } + else if ( ( actions->flags & RULE_PIECEMEAL ) && ( chunk > 1 ) ) + { + /* Reduce chunk size slowly. */ + chunk = chunk * 9 / 10; + } + else + { + /* Too long and not splittable. */ + printf( "%s actions too long (max %d):\n", rule->name, MAXLINE + ); + + /* Tell the user what didn't fit. */ + cmd = cmd_new( rule, list_copy( L0, nt ), + list_sublist( ns, start, chunk ), + list_new( L0, newstr( "%" ) ) ); + fputs( cmd->buf, stdout ); + exit( EXITBAD ); + } + } + while ( start < length ); + + /* These were always copied when used. */ + list_free( nt ); + list_free( ns ); + + /* Free the variables whose values were bound by 'actions xxx bind + * vars'. + */ + popsettings( boundvars ); + freesettings( boundvars ); + } + + swap_settings( &settings_module, &settings_target, 0, 0 ); + return cmds; +} + + +/* + * make1list() - turn a list of targets into a LIST, for $(<) and $(>). + */ + +static LIST * make1list( LIST * l, TARGETS * targets, int flags ) +{ + for ( ; targets; targets = targets->next ) + { + TARGET * t = targets->target; + + if ( t->binding == T_BIND_UNBOUND ) + make1bind( t ); + + if ( ( flags & RULE_EXISTING ) && ( flags & RULE_NEWSRCS ) ) + { + if ( ( t->binding != T_BIND_EXISTS ) && ( t->fate <= T_FATE_STABLE ) ) + continue; + } + else + { + if ( ( flags & RULE_EXISTING ) && ( t->binding != T_BIND_EXISTS ) ) + continue; + + if ( ( flags & RULE_NEWSRCS ) && ( t->fate <= T_FATE_STABLE ) ) + continue; + } + + /* Prohibit duplicates for RULE_TOGETHER. */ + if ( flags & RULE_TOGETHER ) + { + LIST * m; + for ( m = l; m; m = m->next ) + if ( !strcmp( m->string, t->boundname ) ) + break; + if ( m ) + continue; + } + + /* Build new list. */ + l = list_new( l, copystr( t->boundname ) ); + } + + return l; +} + + +/* + * make1settings() - for vars that get bound values, build up replacement lists. + */ + +static SETTINGS * make1settings( LIST * vars ) +{ + SETTINGS * settings = 0; + + for ( ; vars; vars = list_next( vars ) ) + { + LIST * l = var_get( vars->string ); + LIST * nl = 0; + + for ( ; l; l = list_next( l ) ) + { + TARGET * t = bindtarget( l->string ); + + /* Make sure the target is bound. */ + if ( t->binding == T_BIND_UNBOUND ) + make1bind( t ); + + /* Build a new list. */ + nl = list_new( nl, copystr( t->boundname ) ); + } + + /* Add to settings chain. */ + settings = addsettings( settings, VAR_SET, vars->string, nl ); + } + + return settings; +} + + +/* + * make1bind() - bind targets that were not bound during dependency analysis + * + * Spot the kludge! If a target is not in the dependency tree, it did not get + * bound by make0(), so we have to do it here. Ugly. + */ + +static void make1bind( TARGET * t ) +{ + if ( t->flags & T_FLAG_NOTFILE ) + return; + + pushsettings( t->settings ); + t->boundname = search( t->name, &t->time, 0, ( t->flags & T_FLAG_ISFILE ) ); + t->binding = t->time ? T_BIND_EXISTS : T_BIND_MISSING; + popsettings( t->settings ); +} |