static void read_all_make_rules(bool noBuiltins, bool read_depend, Lst makefiles, struct dirs *d) { /* * Read in the built-in rules first, followed by the specified * makefile(s), or the default Makefile or makefile, in that order. */ if (!noBuiltins) { LIST sysMkPath; /* Path of sys.mk */ Lst_Init(&sysMkPath); Dir_Expand(_PATH_DEFSYSMK, systemIncludePath, &sysMkPath); if (Lst_IsEmpty(&sysMkPath)) Fatal("make: no system rules (%s).", _PATH_DEFSYSMK); read_makefile_list(&sysMkPath, d); } if (!Lst_IsEmpty(makefiles)) { read_makefile_list(makefiles, d); } else if (!ReadMakefile("makefile", d)) (void)ReadMakefile("Makefile", d); /* read a .depend file, if it exists, and we're not building depend */ if (read_depend) (void)ReadMakefile(".depend", d); Parse_End(); }
void End(void) { Suff_End(); Targ_End(); Arch_End(); Var_End(); Parse_End(); Dir_End(); Job_End(); }
FUNCTION_PTR Parser::Parse_Function(void) { FUNCTION_PTR ptr = (FUNCTION_PTR)POV_MALLOC(sizeof(FUNCTION), "Function ID"); ExprNode *expression = NULL; FunctionCode function; Parse_Begin(); FNCode f(this, &function, false, NULL); expression = FNSyntax_ParseExpression(); f.Compile(expression); FNSyntax_DeleteExpression(expression); Parse_End(); *ptr = sceneData->functionVM->AddFunction(&function); return ptr; }
/*- * main -- * The main function, for obvious reasons. Initializes variables * and a few modules, then parses the arguments give it in the * environment and on the command line. Reads the system makefile * followed by either Makefile, makefile or the file given by the * -f argument. Sets the .MAKEFLAGS PMake variable based on all the * flags it has received by then uses either the Make or the Compat * module to create the initial list of targets. * * Results: * If -q was given, exits -1 if anything was out-of-date. Else it exits * 0. * * Side Effects: * The program exits when done. Targets are created. etc. etc. etc. */ int main(int argc, char **argv) { Lst targs; /* target nodes to create -- passed to Make_Init */ Boolean outOfDate = FALSE; /* FALSE if all targets up to date */ struct stat sb, sa; char *p1, *path; char mdpath[MAXPATHLEN]; #ifdef FORCE_MACHINE const char *machine = FORCE_MACHINE; #else const char *machine = getenv("MACHINE"); #endif const char *machine_arch = getenv("MACHINE_ARCH"); char *syspath = getenv("MAKESYSPATH"); Lst sysMkPath; /* Path of sys.mk */ char *cp = NULL, *start; /* avoid faults on read-only strings */ static char defsyspath[] = _PATH_DEFSYSPATH; char found_path[MAXPATHLEN + 1]; /* for searching for sys.mk */ struct timeval rightnow; /* to initialize random seed */ struct utsname utsname; /* default to writing debug to stderr */ debug_file = stderr; #ifdef SIGINFO (void)bmake_signal(SIGINFO, siginfo); #endif /* * Set the seed to produce a different random sequence * on each program execution. */ gettimeofday(&rightnow, NULL); srandom(rightnow.tv_sec + rightnow.tv_usec); if ((progname = strrchr(argv[0], '/')) != NULL) progname++; else progname = argv[0]; #if defined(MAKE_NATIVE) || (defined(HAVE_SETRLIMIT) && defined(RLIMIT_NOFILE)) /* * get rid of resource limit on file descriptors */ { struct rlimit rl; if (getrlimit(RLIMIT_NOFILE, &rl) != -1 && rl.rlim_cur != rl.rlim_max) { rl.rlim_cur = rl.rlim_max; (void)setrlimit(RLIMIT_NOFILE, &rl); } } #endif if (uname(&utsname) == -1) { (void)fprintf(stderr, "%s: uname failed (%s).\n", progname, strerror(errno)); exit(2); } /* * Get the name of this type of MACHINE from utsname * so we can share an executable for similar machines. * (i.e. m68k: amiga hp300, mac68k, sun3, ...) * * Note that both MACHINE and MACHINE_ARCH are decided at * run-time. */ if (!machine) { #ifdef MAKE_NATIVE machine = utsname.machine; #else #ifdef MAKE_MACHINE machine = MAKE_MACHINE; #else machine = "unknown"; #endif #endif } if (!machine_arch) { #if defined(MAKE_NATIVE) && defined(HAVE_SYSCTL) && defined(CTL_HW) && defined(HW_MACHINE_ARCH) static char machine_arch_buf[sizeof(utsname.machine)]; int mib[2] = { CTL_HW, HW_MACHINE_ARCH }; size_t len = sizeof(machine_arch_buf); if (sysctl(mib, __arraycount(mib), machine_arch_buf, &len, NULL, 0) < 0) { (void)fprintf(stderr, "%s: sysctl failed (%s).\n", progname, strerror(errno)); exit(2); } machine_arch = machine_arch_buf; #else #ifndef MACHINE_ARCH #ifdef MAKE_MACHINE_ARCH machine_arch = MAKE_MACHINE_ARCH; #else machine_arch = "unknown"; #endif #else machine_arch = MACHINE_ARCH; #endif #endif } myPid = getpid(); /* remember this for vFork() */ /* * Just in case MAKEOBJDIR wants us to do something tricky. */ Var_Init(); /* Initialize the lists of variables for * parsing arguments */ Var_Set(".MAKE.OS", utsname.sysname, VAR_GLOBAL, 0); Var_Set("MACHINE", machine, VAR_GLOBAL, 0); Var_Set("MACHINE_ARCH", machine_arch, VAR_GLOBAL, 0); #ifdef MAKE_VERSION Var_Set("MAKE_VERSION", MAKE_VERSION, VAR_GLOBAL, 0); #endif Var_Set(".newline", "\n", VAR_GLOBAL, 0); /* handy for :@ loops */ /* * This is the traditional preference for makefiles. */ #ifndef MAKEFILE_PREFERENCE_LIST # define MAKEFILE_PREFERENCE_LIST "makefile Makefile" #endif Var_Set(MAKEFILE_PREFERENCE, MAKEFILE_PREFERENCE_LIST, VAR_GLOBAL, 0); Var_Set(MAKE_DEPENDFILE, ".depend", VAR_GLOBAL, 0); create = Lst_Init(FALSE); makefiles = Lst_Init(FALSE); printVars = FALSE; debugVflag = FALSE; variables = Lst_Init(FALSE); beSilent = FALSE; /* Print commands as executed */ ignoreErrors = FALSE; /* Pay attention to non-zero returns */ noExecute = FALSE; /* Execute all commands */ noRecursiveExecute = FALSE; /* Execute all .MAKE targets */ keepgoing = FALSE; /* Stop on error */ allPrecious = FALSE; /* Remove targets when interrupted */ queryFlag = FALSE; /* This is not just a check-run */ noBuiltins = FALSE; /* Read the built-in rules */ touchFlag = FALSE; /* Actually update targets */ debug = 0; /* No debug verbosity, please. */ jobsRunning = FALSE; maxJobs = DEFMAXLOCAL; /* Set default local max concurrency */ maxJobTokens = maxJobs; compatMake = FALSE; /* No compat mode */ ignorePWD = FALSE; /* * Initialize the parsing, directory and variable modules to prepare * for the reading of inclusion paths and variable settings on the * command line */ /* * Initialize various variables. * MAKE also gets this name, for compatibility * .MAKEFLAGS gets set to the empty string just in case. * MFLAGS also gets initialized empty, for compatibility. */ Parse_Init(); if (argv[0][0] == '/' || strchr(argv[0], '/') == NULL) { /* * Leave alone if it is an absolute path, or if it does * not contain a '/' in which case we need to find it in * the path, like execvp(3) and the shells do. */ p1 = argv[0]; } else { /* * A relative path, canonicalize it. */ p1 = cached_realpath(argv[0], mdpath); if (!p1 || *p1 != '/' || stat(p1, &sb) < 0) { p1 = argv[0]; /* realpath failed */ } } Var_Set("MAKE", p1, VAR_GLOBAL, 0); Var_Set(".MAKE", p1, VAR_GLOBAL, 0); Var_Set(MAKEFLAGS, "", VAR_GLOBAL, 0); Var_Set(MAKEOVERRIDES, "", VAR_GLOBAL, 0); Var_Set("MFLAGS", "", VAR_GLOBAL, 0); Var_Set(".ALLTARGETS", "", VAR_GLOBAL, 0); /* some makefiles need to know this */ Var_Set(MAKE_LEVEL ".ENV", MAKE_LEVEL_ENV, VAR_CMD, 0); /* * Set some other useful macros */ { char tmp[64], *ep; makelevel = ((ep = getenv(MAKE_LEVEL_ENV)) && *ep) ? atoi(ep) : 0; if (makelevel < 0) makelevel = 0; snprintf(tmp, sizeof(tmp), "%d", makelevel); Var_Set(MAKE_LEVEL, tmp, VAR_GLOBAL, 0); snprintf(tmp, sizeof(tmp), "%u", myPid); Var_Set(".MAKE.PID", tmp, VAR_GLOBAL, 0); snprintf(tmp, sizeof(tmp), "%u", getppid()); Var_Set(".MAKE.PPID", tmp, VAR_GLOBAL, 0); } if (makelevel > 0) { char pn[1024]; snprintf(pn, sizeof(pn), "%s[%d]", progname, makelevel); progname = bmake_strdup(pn); } #ifdef USE_META meta_init(); #endif /* * First snag any flags out of the MAKE environment variable. * (Note this is *not* MAKEFLAGS since /bin/make uses that and it's * in a different format). */ #ifdef POSIX p1 = explode(getenv("MAKEFLAGS")); Main_ParseArgLine(p1); free(p1); #else Main_ParseArgLine(getenv("MAKE")); #endif /* * Find where we are (now). * We take care of PWD for the automounter below... */ if (getcwd(curdir, MAXPATHLEN) == NULL) { (void)fprintf(stderr, "%s: getcwd: %s.\n", progname, strerror(errno)); exit(2); } MainParseArgs(argc, argv); if (enterFlag) printf("%s: Entering directory `%s'\n", progname, curdir); /* * Verify that cwd is sane. */ if (stat(curdir, &sa) == -1) { (void)fprintf(stderr, "%s: %s: %s.\n", progname, curdir, strerror(errno)); exit(2); } /* * All this code is so that we know where we are when we start up * on a different machine with pmake. * Overriding getcwd() with $PWD totally breaks MAKEOBJDIRPREFIX * since the value of curdir can vary depending on how we got * here. Ie sitting at a shell prompt (shell that provides $PWD) * or via subdir.mk in which case its likely a shell which does * not provide it. * So, to stop it breaking this case only, we ignore PWD if * MAKEOBJDIRPREFIX is set or MAKEOBJDIR contains a transform. */ #ifndef NO_PWD_OVERRIDE if (!ignorePWD) { char *pwd, *ptmp1 = NULL, *ptmp2 = NULL; if ((pwd = getenv("PWD")) != NULL && Var_Value("MAKEOBJDIRPREFIX", VAR_CMD, &ptmp1) == NULL) { const char *makeobjdir = Var_Value("MAKEOBJDIR", VAR_CMD, &ptmp2); if (makeobjdir == NULL || !strchr(makeobjdir, '$')) { if (stat(pwd, &sb) == 0 && sa.st_ino == sb.st_ino && sa.st_dev == sb.st_dev) (void)strncpy(curdir, pwd, MAXPATHLEN); } } free(ptmp1); free(ptmp2); } #endif Var_Set(".CURDIR", curdir, VAR_GLOBAL, 0); /* * Find the .OBJDIR. If MAKEOBJDIRPREFIX, or failing that, * MAKEOBJDIR is set in the environment, try only that value * and fall back to .CURDIR if it does not exist. * * Otherwise, try _PATH_OBJDIR.MACHINE, _PATH_OBJDIR, and * finally _PATH_OBJDIRPREFIX`pwd`, in that order. If none * of these paths exist, just use .CURDIR. */ Dir_Init(curdir); (void)Main_SetObjdir(curdir); if ((path = Var_Value("MAKEOBJDIRPREFIX", VAR_CMD, &p1)) != NULL) { (void)snprintf(mdpath, MAXPATHLEN, "%s%s", path, curdir); (void)Main_SetObjdir(mdpath); free(p1); } else if ((path = Var_Value("MAKEOBJDIR", VAR_CMD, &p1)) != NULL) { (void)Main_SetObjdir(path); free(p1); } else { (void)snprintf(mdpath, MAXPATHLEN, "%s.%s", _PATH_OBJDIR, machine); if (!Main_SetObjdir(mdpath) && !Main_SetObjdir(_PATH_OBJDIR)) { (void)snprintf(mdpath, MAXPATHLEN, "%s%s", _PATH_OBJDIRPREFIX, curdir); (void)Main_SetObjdir(mdpath); } } /* * Initialize archive, target and suffix modules in preparation for * parsing the makefile(s) */ Arch_Init(); Targ_Init(); Suff_Init(); Trace_Init(tracefile); DEFAULT = NULL; (void)time(&now); Trace_Log(MAKESTART, NULL); /* * Set up the .TARGETS variable to contain the list of targets to be * created. If none specified, make the variable empty -- the parser * will fill the thing in with the default or .MAIN target. */ if (!Lst_IsEmpty(create)) { LstNode ln; for (ln = Lst_First(create); ln != NULL; ln = Lst_Succ(ln)) { char *name = (char *)Lst_Datum(ln); Var_Append(".TARGETS", name, VAR_GLOBAL); } } else Var_Set(".TARGETS", "", VAR_GLOBAL, 0); /* * If no user-supplied system path was given (through the -m option) * add the directories from the DEFSYSPATH (more than one may be given * as dir1:...:dirn) to the system include path. */ if (syspath == NULL || *syspath == '\0') syspath = defsyspath; else syspath = bmake_strdup(syspath); for (start = syspath; *start != '\0'; start = cp) { for (cp = start; *cp != '\0' && *cp != ':'; cp++) continue; if (*cp == ':') { *cp++ = '\0'; } /* look for magic parent directory search string */ if (strncmp(".../", start, 4) != 0) { (void)Dir_AddDir(defIncPath, start); } else { if (Dir_FindHereOrAbove(curdir, start+4, found_path, sizeof(found_path))) { (void)Dir_AddDir(defIncPath, found_path); } } } if (syspath != defsyspath) free(syspath); /* * Read in the built-in rules first, followed by the specified * makefile, if it was (makefile != NULL), or the default * makefile and Makefile, in that order, if it wasn't. */ if (!noBuiltins) { LstNode ln; sysMkPath = Lst_Init(FALSE); Dir_Expand(_PATH_DEFSYSMK, Lst_IsEmpty(sysIncPath) ? defIncPath : sysIncPath, sysMkPath); if (Lst_IsEmpty(sysMkPath)) Fatal("%s: no system rules (%s).", progname, _PATH_DEFSYSMK); ln = Lst_Find(sysMkPath, NULL, ReadMakefile); if (ln == NULL) Fatal("%s: cannot open %s.", progname, (char *)Lst_Datum(ln)); } if (!Lst_IsEmpty(makefiles)) { LstNode ln; ln = Lst_Find(makefiles, NULL, ReadAllMakefiles); if (ln != NULL) Fatal("%s: cannot open %s.", progname, (char *)Lst_Datum(ln)); } else { p1 = Var_Subst(NULL, "${" MAKEFILE_PREFERENCE "}", VAR_CMD, VARF_WANTRES); if (p1) { (void)str2Lst_Append(makefiles, p1, NULL); (void)Lst_Find(makefiles, NULL, ReadMakefile); free(p1); } } /* In particular suppress .depend for '-r -V .OBJDIR -f /dev/null' */ if (!noBuiltins || !printVars) { makeDependfile = Var_Subst(NULL, "${.MAKE.DEPENDFILE:T}", VAR_CMD, VARF_WANTRES); doing_depend = TRUE; (void)ReadMakefile(makeDependfile, NULL); doing_depend = FALSE; } if (enterFlagObj) printf("%s: Entering directory `%s'\n", progname, objdir); MakeMode(NULL); Var_Append("MFLAGS", Var_Value(MAKEFLAGS, VAR_GLOBAL, &p1), VAR_GLOBAL); free(p1); if (!forceJobs && !compatMake && Var_Exists(".MAKE.JOBS", VAR_GLOBAL)) { char *value; int n; value = Var_Subst(NULL, "${.MAKE.JOBS}", VAR_GLOBAL, VARF_WANTRES); n = strtol(value, NULL, 0); if (n < 1) { (void)fprintf(stderr, "%s: illegal value for .MAKE.JOBS -- must be positive integer!\n", progname); exit(1); } if (n != maxJobs) { Var_Append(MAKEFLAGS, "-j", VAR_GLOBAL); Var_Append(MAKEFLAGS, value, VAR_GLOBAL); } maxJobs = n; maxJobTokens = maxJobs; forceJobs = TRUE; free(value); } /* * Be compatible if user did not specify -j and did not explicitly * turned compatibility on */ if (!compatMake && !forceJobs) { compatMake = TRUE; } if (!compatMake) Job_ServerStart(maxJobTokens, jp_0, jp_1); if (DEBUG(JOB)) fprintf(debug_file, "job_pipe %d %d, maxjobs %d, tokens %d, compat %d\n", jp_0, jp_1, maxJobs, maxJobTokens, compatMake); Main_ExportMAKEFLAGS(TRUE); /* initial export */ /* * For compatibility, look at the directories in the VPATH variable * and add them to the search path, if the variable is defined. The * variable's value is in the same format as the PATH envariable, i.e. * <directory>:<directory>:<directory>... */ if (Var_Exists("VPATH", VAR_CMD)) { char *vpath, savec; /* * GCC stores string constants in read-only memory, but * Var_Subst will want to write this thing, so store it * in an array */ static char VPATH[] = "${VPATH}"; vpath = Var_Subst(NULL, VPATH, VAR_CMD, VARF_WANTRES); path = vpath; do { /* skip to end of directory */ for (cp = path; *cp != ':' && *cp != '\0'; cp++) continue; /* Save terminator character so know when to stop */ savec = *cp; *cp = '\0'; /* Add directory to search path */ (void)Dir_AddDir(dirSearchPath, path); *cp = savec; path = cp + 1; } while (savec == ':'); free(vpath); } /* * Now that all search paths have been read for suffixes et al, it's * time to add the default search path to their lists... */ Suff_DoPaths(); /* * Propagate attributes through :: dependency lists. */ Targ_Propagate(); /* print the initial graph, if the user requested it */ if (DEBUG(GRAPH1)) Targ_PrintGraph(1); /* print the values of any variables requested by the user */ if (printVars) { LstNode ln; Boolean expandVars; if (debugVflag) expandVars = FALSE; else expandVars = getBoolean(".MAKE.EXPAND_VARIABLES", FALSE); for (ln = Lst_First(variables); ln != NULL; ln = Lst_Succ(ln)) { char *var = (char *)Lst_Datum(ln); char *value; if (strchr(var, '$')) { value = p1 = Var_Subst(NULL, var, VAR_GLOBAL, VARF_WANTRES); } else if (expandVars) { char tmp[128]; if (snprintf(tmp, sizeof(tmp), "${%s}", var) >= (int)(sizeof(tmp))) Fatal("%s: variable name too big: %s", progname, var); value = p1 = Var_Subst(NULL, tmp, VAR_GLOBAL, VARF_WANTRES); } else { value = Var_Value(var, VAR_GLOBAL, &p1); } printf("%s\n", value ? value : ""); free(p1); } } else { /* * Have now read the entire graph and need to make a list of * targets to create. If none was given on the command line, * we consult the parsing module to find the main target(s) * to create. */ if (Lst_IsEmpty(create)) targs = Parse_MainName(); else targs = Targ_FindList(create, TARG_CREATE); if (!compatMake) { /* * Initialize job module before traversing the graph * now that any .BEGIN and .END targets have been read. * This is done only if the -q flag wasn't given * (to prevent the .BEGIN from being executed should * it exist). */ if (!queryFlag) { Job_Init(); jobsRunning = TRUE; } /* Traverse the graph, checking on all the targets */ outOfDate = Make_Run(targs); } else { /* * Compat_Init will take care of creating all the * targets as well as initializing the module. */ Compat_Run(targs); } } #ifdef CLEANUP Lst_Destroy(targs, NULL); Lst_Destroy(variables, NULL); Lst_Destroy(makefiles, NULL); Lst_Destroy(create, (FreeProc *)free); #endif /* print the graph now it's been processed if the user requested it */ if (DEBUG(GRAPH2)) Targ_PrintGraph(2); Trace_Log(MAKEEND, 0); if (enterFlagObj) printf("%s: Leaving directory `%s'\n", progname, objdir); if (enterFlag) printf("%s: Leaving directory `%s'\n", progname, curdir); #ifdef USE_META meta_finish(); #endif Suff_End(); Targ_End(); Arch_End(); Var_End(); Parse_End(); Dir_End(); Job_End(); Trace_End(); return outOfDate ? 1 : 0; }
FUNCTION_PTR Parser::Parse_DeclareFunction(int *token_id, const char *fn_name, bool is_local) { FUNCTION_PTR ptr = (FUNCTION_PTR)POV_MALLOC(sizeof(FUNCTION), "Function ID"); ExprNode *expression = NULL; FunctionCode function; // default type is float function *token_id = FUNCT_ID_TOKEN; FNCode f(this, &function, is_local, fn_name); f.Parameter(); Parse_Begin(); Get_Token(); if(Token.Token_Id == INTERNAL_TOKEN) { GET(LEFT_PAREN_TOKEN); Get_Token(); if(Token.Function_Id != FLOAT_TOKEN) Expectation_Error("internal function identifier"); expression = FNSyntax_GetTrapExpression((unsigned int)(Token.Token_Float)); function.flags = FN_INLINE_FLAG; GET(RIGHT_PAREN_TOKEN); } else if(Token.Token_Id == TRANSFORM_TOKEN) { if(function.parameter_cnt != 0) Error("Function parameters for transform functions are not allowed."); expression = FNSyntax_GetTrapExpression(1); // 1 refers to POVFPU_TrapSTable[1] = f_transform [trf] function.private_copy_method = (FNCODE_PRIVATE_COPY_METHOD)Copy_Transform; function.private_destroy_method = (FNCODE_PRIVATE_DESTROY_METHOD)Destroy_Transform; function.private_data = reinterpret_cast<void *>(Parse_Transform_Block()); function.return_size = 3; // returns a 3d vector!!! // function type is vector function *token_id = VECTFUNCT_ID_TOKEN; } else if(Token.Token_Id == SPLINE_TOKEN) { if(function.parameter_cnt != 0) Error("Function parameters for spline functions are not allowed."); Experimental_Flag |= EF_SPLINE; expression = FNSyntax_GetTrapExpression(2); // 2 refers to POVFPU_TrapSTable[2] = f_spline [trf] function.private_copy_method = (FNCODE_PRIVATE_COPY_METHOD)Copy_Spline; function.private_destroy_method = (FNCODE_PRIVATE_DESTROY_METHOD)Destroy_Spline; Parse_Begin(); function.private_data = reinterpret_cast<void *>(Parse_Spline()); Parse_End(); function.return_size = (reinterpret_cast<SPLINE *>(function.private_data))->Terms; // returns a 2d, 3d, 4d or 5d vector!!! // function type is vector function *token_id = VECTFUNCT_ID_TOKEN; } else if(Token.Token_Id == PIGMENT_TOKEN) { if(function.parameter_cnt != 0) Error("Function parameters for pigment functions are not allowed."); expression = FNSyntax_GetTrapExpression(0); // 0 refers to POVFPU_TrapSTable[0] = f_pigment [trf] function.private_copy_method = (FNCODE_PRIVATE_COPY_METHOD)Copy_Pigment; function.private_destroy_method = (FNCODE_PRIVATE_DESTROY_METHOD)Destroy_Pigment; Parse_Begin(); function.private_data = reinterpret_cast<void *>(Create_Pigment()); Parse_Pigment(reinterpret_cast<PIGMENT **>(&function.private_data)); Parse_End(); Post_Pigment(reinterpret_cast<PIGMENT *>(function.private_data)); function.return_size = 5; // returns a color!!! // function type is vector function *token_id = VECTFUNCT_ID_TOKEN; } else if(Token.Token_Id == PATTERN_TOKEN) { if(function.parameter_cnt != 0) Error("Function parameters for pattern functions are not allowed."); expression = FNSyntax_GetTrapExpression(77); // 77 refers to POVFPU_TrapTable[77] = f_pattern [trf] function.private_copy_method = (FNCODE_PRIVATE_COPY_METHOD)Copy_Pigment; function.private_destroy_method = (FNCODE_PRIVATE_DESTROY_METHOD)Destroy_Pigment; Parse_Begin(); function.private_data = reinterpret_cast<void *>(Create_Pigment()); // Yes, this is a pigment! [trf] Parse_PatternFunction(reinterpret_cast<TPATTERN *>(function.private_data)); Parse_End(); Post_Pigment(reinterpret_cast<PIGMENT *>(function.private_data)); } else if(Token.Token_Id == STRING_LITERAL_TOKEN) { f.SetFlag(2, Token.Token_String); Get_Token(); if(Token.Token_Id == COMMA_TOKEN) { Get_Token(); if(Token.Token_Id != STRING_LITERAL_TOKEN) Expectation_Error("valid function expression"); f.SetFlag(1, Token.Token_String); } else { Unget_Token(); expression = FNSyntax_ParseExpression(); } } else { Unget_Token(); expression = FNSyntax_ParseExpression(); } f.Compile(expression); FNSyntax_DeleteExpression(expression); Parse_End(); *ptr = sceneData->functionVM->AddFunction(&function); return ptr; }
/*- * main -- * The main function, for obvious reasons. Initializes variables * and a few modules, then parses the arguments give it in the * environment and on the command line. Reads the system makefile * followed by either Makefile, makefile or the file given by the * -f argument. Sets the .MAKEFLAGS PMake variable based on all the * flags it has received by then uses either the Make or the Compat * module to create the initial list of targets. * * Results: * If -q was given, exits -1 if anything was out-of-date. Else it exits * 0. * * Side Effects: * The program exits when done. Targets are created. etc. etc. etc. */ int main(int argc, char **argv) { Lst targs; /* target nodes to create -- passed to Make_Init */ Boolean outOfDate = TRUE; /* FALSE if all targets up to date */ struct stat sb, sa; char *p1, *path, *pwd; char mdpath[MAXPATHLEN]; #ifdef FORCE_MACHINE char *machine = FORCE_MACHINE; #else char *machine = getenv("MACHINE"); #endif const char *machine_arch = getenv("MACHINE_ARCH"); char *syspath = getenv("MAKESYSPATH"); Lst sysMkPath; /* Path of sys.mk */ char *cp = NULL, *start; /* avoid faults on read-only strings */ static char defsyspath[] = DEFAULT_SYS_PATH; char found_path[MAXPATHLEN + 1]; /* for searching for sys.mk */ struct timeval rightnow; /* to initialize random seed */ /* * Set the seed to produce a different random sequences * on each program execution. */ gettimeofday(&rightnow, NULL); srandom(rightnow.tv_sec + rightnow.tv_usec); if ((progname = strrchr(argv[0], '/')) != NULL) progname++; else progname = argv[0]; #ifdef RLIMIT_NOFILE /* * get rid of resource limit on file descriptors */ { struct rlimit rl; if (getrlimit(RLIMIT_NOFILE, &rl) != -1 && rl.rlim_cur != rl.rlim_max) { rl.rlim_cur = rl.rlim_max; (void)setrlimit(RLIMIT_NOFILE, &rl); } } #endif /* * Find where we are and take care of PWD for the automounter... * All this code is so that we know where we are when we start up * on a different machine with pmake. */ if (getcwd(curdir, MAXPATHLEN) == NULL) { (void)fprintf(stderr, "%s: %s.\n", progname, strerror(errno)); exit(2); } if (stat(curdir, &sa) == -1) { (void)fprintf(stderr, "%s: %s: %s.\n", progname, curdir, strerror(errno)); exit(2); } /* * Overriding getcwd() with $PWD totally breaks MAKEOBJDIRPREFIX * since the value of curdir can very depending on how we got * here. Ie sitting at a shell prompt (shell that provides $PWD) * or via subdir.mk in which case its likely a shell which does * not provide it. * So, to stop it breaking this case only, we ignore PWD if * MAKEOBJDIRPREFIX is set or MAKEOBJDIR contains a transform. */ #ifndef NO_PWD_OVERRIDE if ((pwd = getenv("PWD")) != NULL && getenv("MAKEOBJDIRPREFIX") == NULL) { const char *makeobjdir = getenv("MAKEOBJDIR"); if (makeobjdir == NULL || !strchr(makeobjdir, '$')) { if (stat(pwd, &sb) == 0 && sa.st_ino == sb.st_ino && sa.st_dev == sb.st_dev) (void)strncpy(curdir, pwd, MAXPATHLEN); } } #endif /* * Get the name of this type of MACHINE from utsname * so we can share an executable for similar machines. * (i.e. m68k: amiga hp300, mac68k, sun3, ...) * * Note that both MACHINE and MACHINE_ARCH are decided at * run-time. */ if (!machine) { #ifdef MAKE_NATIVE struct utsname utsname; if (uname(&utsname) == -1) { (void)fprintf(stderr, "%s: uname failed (%s).\n", progname, strerror(errno)); exit(2); } machine = utsname.machine; #else #ifdef MAKE_MACHINE machine = MAKE_MACHINE; #else machine = "unknown"; #endif #endif } if (!machine_arch) { #ifndef MACHINE_ARCH #ifdef MAKE_MACHINE_ARCH machine_arch = MAKE_MACHINE_ARCH; #else machine_arch = "unknown"; #endif #else machine_arch = MACHINE_ARCH; #endif } /* * Just in case MAKEOBJDIR wants us to do something tricky. */ Var_Init(); /* Initialize the lists of variables for * parsing arguments */ Var_Set(".CURDIR", curdir, VAR_GLOBAL, 0); Var_Set("MACHINE", machine, VAR_GLOBAL, 0); Var_Set("MACHINE_ARCH", machine_arch, VAR_GLOBAL, 0); #ifdef MAKE_VERSION Var_Set("MAKE_VERSION", MAKE_VERSION, VAR_GLOBAL, 0); #endif Var_Set(".newline", "\n", VAR_GLOBAL, 0); /* handy for :@ loops */ /* * Find the .OBJDIR. If MAKEOBJDIRPREFIX, or failing that, * MAKEOBJDIR is set in the environment, try only that value * and fall back to .CURDIR if it does not exist. * * Otherwise, try _PATH_OBJDIR.MACHINE, _PATH_OBJDIR, and * finally _PATH_OBJDIRPREFIX`pwd`, in that order. If none * of these paths exist, just use .CURDIR. */ Dir_Init(curdir); (void)Main_SetObjdir(curdir); if ((path = getenv("MAKEOBJDIRPREFIX")) != NULL) { (void)snprintf(mdpath, MAXPATHLEN, "%s%s", path, curdir); (void)Main_SetObjdir(mdpath); } else if ((path = getenv("MAKEOBJDIR")) != NULL) { (void)Main_SetObjdir(path); } else { (void)snprintf(mdpath, MAXPATHLEN, "%s.%s", _PATH_OBJDIR, machine); if (!Main_SetObjdir(mdpath) && !Main_SetObjdir(_PATH_OBJDIR)) { (void)snprintf(mdpath, MAXPATHLEN, "%s%s", _PATH_OBJDIRPREFIX, curdir); (void)Main_SetObjdir(mdpath); } } create = Lst_Init(FALSE); makefiles = Lst_Init(FALSE); printVars = FALSE; variables = Lst_Init(FALSE); beSilent = FALSE; /* Print commands as executed */ ignoreErrors = FALSE; /* Pay attention to non-zero returns */ noExecute = FALSE; /* Execute all commands */ noRecursiveExecute = FALSE; /* Execute all .MAKE targets */ keepgoing = FALSE; /* Stop on error */ allPrecious = FALSE; /* Remove targets when interrupted */ queryFlag = FALSE; /* This is not just a check-run */ noBuiltins = FALSE; /* Read the built-in rules */ touchFlag = FALSE; /* Actually update targets */ usePipes = TRUE; /* Catch child output in pipes */ debug = 0; /* No debug verbosity, please. */ jobsRunning = FALSE; maxLocal = DEFMAXLOCAL; /* Set default local max concurrency */ #ifdef REMOTE maxJobs = DEFMAXJOBS; /* Set default max concurrency */ #else maxJobs = maxLocal; #endif compatMake = FALSE; /* No compat mode */ /* * Initialize the parsing, directory and variable modules to prepare * for the reading of inclusion paths and variable settings on the * command line */ /* * Initialize various variables. * MAKE also gets this name, for compatibility * .MAKEFLAGS gets set to the empty string just in case. * MFLAGS also gets initialized empty, for compatibility. */ Parse_Init(); Var_Set("MAKE", argv[0], VAR_GLOBAL, 0); Var_Set(".MAKE", argv[0], VAR_GLOBAL, 0); Var_Set(MAKEFLAGS, "", VAR_GLOBAL, 0); Var_Set(MAKEOVERRIDES, "", VAR_GLOBAL, 0); Var_Set("MFLAGS", "", VAR_GLOBAL, 0); Var_Set(".ALLTARGETS", "", VAR_GLOBAL, 0); /* * First snag any flags out of the MAKE environment variable. * (Note this is *not* MAKEFLAGS since /bin/make uses that and it's * in a different format). */ #ifdef POSIX Main_ParseArgLine(getenv("MAKEFLAGS")); #else Main_ParseArgLine(getenv("MAKE")); #endif MainParseArgs(argc, argv); /* * Be compatible if user did not specify -j and did not explicitly * turned compatibility on */ if (!compatMake && !forceJobs) { compatMake = TRUE; } /* * Initialize archive, target and suffix modules in preparation for * parsing the makefile(s) */ Arch_Init(); Targ_Init(); Suff_Init(); Trace_Init(tracefile); DEFAULT = NILGNODE; (void)time(&now); Trace_Log(MAKESTART, NULL); /* * Set up the .TARGETS variable to contain the list of targets to be * created. If none specified, make the variable empty -- the parser * will fill the thing in with the default or .MAIN target. */ if (!Lst_IsEmpty(create)) { LstNode ln; for (ln = Lst_First(create); ln != NILLNODE; ln = Lst_Succ(ln)) { char *name = (char *)Lst_Datum(ln); Var_Append(".TARGETS", name, VAR_GLOBAL); } } else Var_Set(".TARGETS", "", VAR_GLOBAL, 0); /* * If no user-supplied system path was given (through the -m option) * add the directories from the DEFSYSPATH (more than one may be given * as dir1:...:dirn) to the system include path. */ if (syspath == NULL || *syspath == '\0') syspath = defsyspath; else syspath = strdup(syspath); for (start = syspath; *start != '\0'; start = cp) { for (cp = start; *cp != '\0' && *cp != ':'; cp++) continue; if (*cp == ':') { *cp++ = '\0'; } /* look for magic parent directory search string */ if (strncmp(".../", start, 4) != 0) { (void)Dir_AddDir(defIncPath, start); } else { if (Dir_FindHereOrAbove(curdir, start+4, found_path, sizeof(found_path))) { (void)Dir_AddDir(defIncPath, found_path); } } } if (syspath != defsyspath) free(syspath); /* * Read in the built-in rules first, followed by the specified * makefile, if it was (makefile != NULL), or the default * makefile and Makefile, in that order, if it wasn't. */ if (!noBuiltins) { LstNode ln; sysMkPath = Lst_Init(FALSE); Dir_Expand(_PATH_DEFSYSMK, Lst_IsEmpty(sysIncPath) ? defIncPath : sysIncPath, sysMkPath); if (Lst_IsEmpty(sysMkPath)) Fatal("%s: no system rules (%s).", progname, _PATH_DEFSYSMK); ln = Lst_Find(sysMkPath, (ClientData)NULL, ReadMakefile); if (ln != NILLNODE) Fatal("%s: cannot open %s.", progname, (char *)Lst_Datum(ln)); } if (!Lst_IsEmpty(makefiles)) { LstNode ln; ln = Lst_Find(makefiles, (ClientData)NULL, ReadMakefile); if (ln != NILLNODE) Fatal("%s: cannot open %s.", progname, (char *)Lst_Datum(ln)); } else if (!ReadMakefile(UNCONST("makefile"), NULL)) (void)ReadMakefile(UNCONST("Makefile"), NULL); (void)ReadMakefile(UNCONST(".depend"), NULL); Var_Append("MFLAGS", Var_Value(MAKEFLAGS, VAR_GLOBAL, &p1), VAR_GLOBAL); if (p1) free(p1); if (!jobServer && !compatMake) Job_ServerStart(maxJobs); if (DEBUG(JOB)) printf("job_pipe %d %d, maxjobs %d maxlocal %d compat %d\n", job_pipe[0], job_pipe[1], maxJobs, maxLocal, compatMake); Main_ExportMAKEFLAGS(TRUE); /* initial export */ #ifndef NO_CHECK_MAKE_CHDIR Check_Cwd_av(0, NULL, 0); /* initialize it */ #endif /* * For compatibility, look at the directories in the VPATH variable * and add them to the search path, if the variable is defined. The * variable's value is in the same format as the PATH envariable, i.e. * <directory>:<directory>:<directory>... */ if (Var_Exists("VPATH", VAR_CMD)) { char *vpath, savec; /* * GCC stores string constants in read-only memory, but * Var_Subst will want to write this thing, so store it * in an array */ static char VPATH[] = "${VPATH}"; vpath = Var_Subst(NULL, VPATH, VAR_CMD, FALSE); path = vpath; do { /* skip to end of directory */ for (cp = path; *cp != ':' && *cp != '\0'; cp++) continue; /* Save terminator character so know when to stop */ savec = *cp; *cp = '\0'; /* Add directory to search path */ (void)Dir_AddDir(dirSearchPath, path); *cp = savec; path = cp + 1; } while (savec == ':'); free(vpath); } /* * Now that all search paths have been read for suffixes et al, it's * time to add the default search path to their lists... */ Suff_DoPaths(); /* * Propagate attributes through :: dependency lists. */ Targ_Propagate(); /* print the initial graph, if the user requested it */ if (DEBUG(GRAPH1)) Targ_PrintGraph(1); /* print the values of any variables requested by the user */ if (printVars) { LstNode ln; for (ln = Lst_First(variables); ln != NILLNODE; ln = Lst_Succ(ln)) { char *var = (char *)Lst_Datum(ln); char *value; if (strchr(var, '$')) { value = p1 = Var_Subst(NULL, var, VAR_GLOBAL, 0); } else { value = Var_Value(var, VAR_GLOBAL, &p1); } printf("%s\n", value ? value : ""); if (p1) free(p1); } } /* * Have now read the entire graph and need to make a list of targets * to create. If none was given on the command line, we consult the * parsing module to find the main target(s) to create. */ if (Lst_IsEmpty(create)) targs = Parse_MainName(); else targs = Targ_FindList(create, TARG_CREATE); if (!compatMake && !printVars) { /* * Initialize job module before traversing the graph, now that * any .BEGIN and .END targets have been read. This is done * only if the -q flag wasn't given (to prevent the .BEGIN from * being executed should it exist). */ if (!queryFlag) { if (maxLocal == -1) maxLocal = maxJobs; Job_Init(maxJobs, maxLocal); jobsRunning = TRUE; } /* Traverse the graph, checking on all the targets */ outOfDate = Make_Run(targs); } else if (!printVars) { /* * Compat_Init will take care of creating all the targets as * well as initializing the module. */ Compat_Run(targs); } #ifdef CLEANUP Lst_Destroy(targs, NOFREE); Lst_Destroy(variables, NOFREE); Lst_Destroy(makefiles, NOFREE); Lst_Destroy(create, (FreeProc *)free); #endif /* print the graph now it's been processed if the user requested it */ if (DEBUG(GRAPH2)) Targ_PrintGraph(2); Trace_Log(MAKEEND, 0); Suff_End(); Targ_End(); Arch_End(); Var_End(); Parse_End(); Dir_End(); Job_End(); Trace_End(); if (queryFlag && outOfDate) return(1); else return(0); }