#include <stdarg.h>
-
-#ifdef _XBT_WIN32
+#ifdef __BORLANDC__
/* stupid stubs so that it compiles on windows */
void generate_sim(char *project)
{
#define MAKEFILE_FILENAME_REMOTE "%s.Makefile.remote"
#define DEPLOYMENT "%s.deploy.sh"
-char *warning = NULL;
-
/**********************************************/
/**** Generate the file for the simulator *****/
/**********************************************/
const char *SIM_PREEMBULE =
- "/* specific to Borland Compiler */\n"
- "#ifdef __BORLANDC__\n"
- "#pragma hdrstop\n"
- "#endif\n\n"
- "#include <stdlib.h>\n"
- "#include <stdio.h>\n"
- "#include \"msg/msg.h\"\n"
- "#include <gras.h>\n" "\n" "char *gras_log=NULL;\n";
+ "/* specific to Borland Compiler */\n"
+ "#ifdef __BORLANDC__\n"
+ "#pragma hdrstop\n"
+ "#endif\n\n"
+ "#include <stdlib.h>\n"
+ "#include <stdio.h>\n"
+ "#include \"msg/msg.h\"\n"
+ "#include <gras.h>\n" "\n" "char *gras_log=NULL;\n";
#define SIM_LAUNCH_FUNC \
"}\n"
const char *SIM_MAIN_POSTEMBULE = "\n"
- "\n"
- " gras_launch_application(argv[2]);\n"
- "\n"
- " /* Run the simulation */\n"
- " gras_main();\n"
- "\n"
- " /* cleanup the place */\n"
- " gras_clean();\n"
- " if (gras_log)\n" " free(gras_log);\n" " return 0;\n" "}\n";
+ "\n"
+ " gras_launch_application(argv[2]);\n"
+ "\n"
+ " /* Run the simulation */\n"
+ " gras_main();\n"
+ "\n"
+ " /* cleanup the place */\n"
+ " gras_clean();\n"
+ " if (gras_log)\n" " free(gras_log);\n" " return 0;\n" "}\n";
char *key = NULL;
void *data = NULL;
char *filename = NULL;
- FILE *OUT = NULL;
+ FILE *FICOUT = NULL;
/* Output file: <projet>_simulator.c */
filename = xbt_new(char, strlen(project) + strlen(SIM_SOURCENAME));
sprintf(filename, SIM_SOURCENAME, project);
- OUT = fopen(filename, "w");
+ FICOUT = fopen(filename, "w");
- xbt_assert1(OUT, "Unable to open %s for writing", filename);
+ xbt_assert(FICOUT, "Unable to open %s for writing", filename);
- fprintf(OUT, "%s\n", warning);
- fprintf(OUT, "%s", SIM_PREEMBULE);
+ fprintf(FICOUT, "%s\n", warning);
+ fprintf(FICOUT, "%s", SIM_PREEMBULE);
xbt_dict_foreach(process_function_set, cursor, key, data) {
- fprintf(OUT, "int %s(int argc,char *argv[]);\n", key);
+ fprintf(FICOUT, "int %s(int argc,char *argv[]);\n", key);
}
- fprintf(OUT, "\n");
+ fprintf(FICOUT, "\n");
xbt_dict_foreach(process_function_set, cursor, key, data) {
- fprintf(OUT, "int launch_%s(int argc,char *argv[]);\n", key);
+ fprintf(FICOUT, "int launch_%s(int argc,char *argv[]);\n", key);
}
- fprintf(OUT, "\n%s\n", warning);
+ fprintf(FICOUT, "\n%s\n", warning);
xbt_dict_foreach(process_function_set, cursor, key, data) {
- fprintf(OUT, SIM_LAUNCH_FUNC, key, key);
+ fprintf(FICOUT, SIM_LAUNCH_FUNC, key, key);
}
- fprintf(OUT, "\n%s\n", warning);
+ fprintf(FICOUT, "\n%s\n", warning);
- fprintf(OUT, "%s", "/* specific to Borland Compiler */\n"
+ fprintf(FICOUT, "%s", "/* specific to Borland Compiler */\n"
"#ifdef __BORLANDDC__\n" "#pragma argsused\n" "#endif\n\n");
- fprintf(OUT, "%s", "int main (int argc,char *argv[]) {\n"
+ fprintf(FICOUT, "%s", "int main (int argc,char *argv[]) {\n"
"\n"
" /* Simulation setup */\n"
" gras_global_init(&argc,argv);\n"
" if (argc != 3) {\n"
" fprintf(stderr, \"Usage: %s platform.xml deployment.xml [--log=...]\\n\",argv[0]);\n"
" exit(1);\n" " }\n" "\n");
- fprintf(OUT,
+ fprintf(FICOUT,
" gras_create_environment(argv[1]);\n"
"\n" " /* Application deployment */\n");
xbt_dict_foreach(process_function_set, cursor, key, data) {
- fprintf(OUT, " gras_function_register(\"%s\", launch_%s);\n", key, key);
+ fprintf(FICOUT, " gras_function_register(\"%s\", launch_%s);\n", key,
+ key);
}
- fprintf(OUT, "%s", SIM_MAIN_POSTEMBULE);
- fclose(OUT);
+ fprintf(FICOUT, "%s", SIM_MAIN_POSTEMBULE);
+ fclose(FICOUT);
free(filename);
}
char *key = NULL;
void *data = NULL;
char *filename = NULL;
- FILE *OUT = NULL;
+ FILE *FICOUT = NULL;
xbt_dict_foreach(process_function_set, cursor, key, data) {
filename =
- xbt_new(char, strlen(project) + strlen(RL_SOURCENAME) + strlen(key));
+ xbt_new(char,
+ strlen(project) + strlen(RL_SOURCENAME) + strlen(key));
sprintf(filename, RL_SOURCENAME, project, key);
- OUT = fopen(filename, "w");
- xbt_assert1(OUT, "Unable to open %s for writing", filename);
+ FICOUT = fopen(filename, "w");
+ xbt_assert(FICOUT, "Unable to open %s for writing", filename);
- fprintf(OUT, "\n%s\n", warning);
- fprintf(OUT, "/* specific to Borland Compiler */\n"
+ fprintf(FICOUT, "\n%s\n", warning);
+ fprintf(FICOUT, "/* specific to Borland Compiler */\n"
"#ifdef __BORLANDC__\n"
"#pragma hdrstop\n"
"#endif\n\n"
" _gras_procname = \"%s\";\n"
" errcode=%s(argc,argv);\n"
" \n" " return errcode;\n" "}\n", key, key, key);
- fprintf(OUT, "\n%s\n", warning);
- fclose(OUT);
+ fprintf(FICOUT, "\n%s\n", warning);
+ fclose(FICOUT);
free(filename);
}
}
char *key = NULL;
void *data = NULL;
char *filename = NULL;
- FILE *OUT = NULL;
+ FILE *FICOUT = NULL;
filename = xbt_new(char, strlen(project) + strlen(MAKEFILE_FILENAME_AM));
sprintf(filename, MAKEFILE_FILENAME_AM, project);
- OUT = fopen(filename, "w");
- xbt_assert1(OUT, "Unable to open %s for writing", filename);
+ FICOUT = fopen(filename, "w");
+ xbt_assert(FICOUT, "Unable to open %s for writing", filename);
- fprintf(OUT, "# AUTOMAKE variable definition\n");
- fprintf(OUT, "INCLUDES= @CFLAGS_SimGrid@\n\n");
- fprintf(OUT, "PROGRAMS=");
- fprintf(OUT, SIM_BINARYNAME, project);
+ fprintf(FICOUT, "# AUTOMAKE variable definition\n");
+ fprintf(FICOUT, "INCLUDES= @CFLAGS_SimGrid@\n\n");
+ fprintf(FICOUT, "PROGRAMS=");
+ fprintf(FICOUT, SIM_BINARYNAME, project);
xbt_dict_foreach(process_function_set, cursor, key, data) {
- fprintf(OUT, " ");
- fprintf(OUT, RL_BINARYNAME, project, key);
+ fprintf(FICOUT, " ");
+ fprintf(FICOUT, RL_BINARYNAME, project, key);
}
- fprintf(OUT, "\n\n");
- fprintf(OUT, SIM_SOURCENAME_SOURCES, project);
- fprintf(OUT, "=\t");
- fprintf(OUT, SIM_SOURCENAME, project);
- fprintf(OUT, " %s.c\n", project);
- fprintf(OUT, SIM_SOURCENAME_LDADD, project);
- fprintf(OUT, "=\tpath/to/libsimgrid.a\n\n");
+ fprintf(FICOUT, "\n\n");
+ fprintf(FICOUT, SIM_SOURCENAME_SOURCES, project);
+ fprintf(FICOUT, "=\t");
+ fprintf(FICOUT, SIM_SOURCENAME, project);
+ fprintf(FICOUT, " %s.c\n", project);
+ fprintf(FICOUT, SIM_SOURCENAME_LDADD, project);
+ fprintf(FICOUT, "=\tpath/to/libsimgrid.a\n\n");
xbt_dict_foreach(process_function_set, cursor, key, data) {
- fprintf(OUT, RL_SOURCENAME_SOURCES, project, key);
- fprintf(OUT, "=\t");
- fprintf(OUT, RL_SOURCENAME, project, key);
- fprintf(OUT, " %s.c\n", project);
- fprintf(OUT, RL_SOURCENAME_LDADD, project, key);
- fprintf(OUT, "=\tpath/to/libgras.a\n\n");
+ fprintf(FICOUT, RL_SOURCENAME_SOURCES, project, key);
+ fprintf(FICOUT, "=\t");
+ fprintf(FICOUT, RL_SOURCENAME, project, key);
+ fprintf(FICOUT, " %s.c\n", project);
+ fprintf(FICOUT, RL_SOURCENAME_LDADD, project, key);
+ fprintf(FICOUT, "=\tpath/to/libgras.a\n\n");
}
- fprintf(OUT,
+ fprintf(FICOUT,
"\n# cleanup temps (allowing the user to add extra clean files)\n");
- fprintf(OUT, "CLEANFILES?= \n");
- fprintf(OUT, "CLEANFILES+= ");
- fprintf(OUT, SIM_SOURCENAME, project);
+ fprintf(FICOUT, "CLEANFILES?= \n");
+ fprintf(FICOUT, "CLEANFILES+= ");
+ fprintf(FICOUT, SIM_SOURCENAME, project);
xbt_dict_foreach(process_function_set, cursor, key, data) {
- fprintf(OUT, " ");
- fprintf(OUT, RL_SOURCENAME, project, key);
+ fprintf(FICOUT, " ");
+ fprintf(FICOUT, RL_SOURCENAME, project, key);
}
- fprintf(OUT, "\n");
+ fprintf(FICOUT, "\n");
- fprintf(OUT, "\n# generate temps\n");
- fprintf(OUT,
+ fprintf(FICOUT, "\n# generate temps\n");
+ fprintf(FICOUT,
"\n# A rule to generate the source file each time the deployment file changes\n");
xbt_dict_foreach(process_function_set, cursor, key, data) {
- fprintf(OUT, RL_SOURCENAME, project, key);
- fprintf(OUT, " ");
+ fprintf(FICOUT, RL_SOURCENAME, project, key);
+ fprintf(FICOUT, " ");
}
- fprintf(OUT, SIM_SOURCENAME, project);
- fprintf(OUT, ": %s\n", deployment);
- fprintf(OUT, "\tgras_stub_generator %s %s >/dev/null\n", project,
+ fprintf(FICOUT, SIM_SOURCENAME, project);
+ fprintf(FICOUT, ": %s\n", deployment);
+ fprintf(FICOUT, "\tgras_stub_generator %s %s >/dev/null\n", project,
deployment);
- fclose(OUT);
+ fclose(FICOUT);
}
void generate_makefile_local(char *project, char *deployment)
char *key = NULL;
void *data = NULL;
char *filename = NULL;
- FILE *OUT = NULL;
+ FILE *FICOUT = NULL;
- filename = xbt_new(char, strlen(project) + strlen(MAKEFILE_FILENAME_LOCAL));
+ filename =
+ xbt_new(char, strlen(project) + strlen(MAKEFILE_FILENAME_LOCAL));
sprintf(filename, MAKEFILE_FILENAME_LOCAL, project);
- OUT = fopen(filename, "w");
- xbt_assert1(OUT, "Unable to open %s for writing", filename);
+ FICOUT = fopen(filename, "w");
+ xbt_assert(FICOUT, "Unable to open %s for writing", filename);
free(filename);
- fprintf(OUT,
+ fprintf(FICOUT,
"\n"
"####\n"
"#### THIS FILE WAS GENERATED, DO NOT EDIT BEFORE RENAMING IT\n"
"####\n\n\n");
- fprintf(OUT, "## Variable declarations\n"
+ fprintf(FICOUT, "## Variable declarations\n"
"PROJECT_NAME=%s\n" "DISTDIR=gras-$(PROJECT_NAME)\n\n", project);
- fprintf(OUT,
+ fprintf(FICOUT,
"# Set the GRAS_ROOT environment variable to the path under which you installed SimGrid\n"
"# Compilation will fail if you don't do so\n"
"GRAS_ROOT?= $(shell if [ -e /usr/local/lib/libgras.so ] ; then echo /usr/local ; else echo \"\\\"<<<< GRAS_ROOT undefined !!! >>>>\\\"\"; fi)\n\n"
"LIBS_SIM = -lm -L$(GRAS_ROOT)/lib/ -lsimgrid\n"
"LIBS_RL = -lm -L$(GRAS_ROOT)/lib/ -lgras\n" "LIBS = \n" "\n");
- fprintf(OUT, "PRECIOUS_C_FILES ?= %s.c\n", project);
+ fprintf(FICOUT, "PRECIOUS_C_FILES ?= %s.c\n", project);
- fprintf(OUT, "GENERATED_C_FILES = ");
- fprintf(OUT, SIM_SOURCENAME " ", project);
+ fprintf(FICOUT, "GENERATED_C_FILES = ");
+ fprintf(FICOUT, SIM_SOURCENAME " ", project);
xbt_dict_foreach(process_function_set, cursor, key, data) {
- fprintf(OUT, RL_SOURCENAME " ", project, key);
+ fprintf(FICOUT, RL_SOURCENAME " ", project, key);
}
- fprintf(OUT, "\n");
+ fprintf(FICOUT, "\n");
- fprintf(OUT, "OBJ_FILES = $(patsubst %%.c,%%.o,$(PRECIOUS_C_FILES))\n");
+ fprintf(FICOUT,
+ "OBJ_FILES = $(patsubst %%.c,%%.o,$(PRECIOUS_C_FILES))\n");
- fprintf(OUT, "BIN_FILES = ");
+ fprintf(FICOUT, "BIN_FILES = ");
- fprintf(OUT, SIM_BINARYNAME " ", project);
+ fprintf(FICOUT, SIM_BINARYNAME " ", project);
xbt_dict_foreach(process_function_set, cursor, key, data) {
- fprintf(OUT, RL_BINARYNAME " ", project, key);
+ fprintf(FICOUT, RL_BINARYNAME " ", project, key);
}
- fprintf(OUT, "\n");
+ fprintf(FICOUT, "\n");
- fprintf(OUT,
+ fprintf(FICOUT,
"\n"
"## By default, build all the binaries\n"
"all: $(BIN_FILES)\n" "\n");
- fprintf(OUT,
+ fprintf(FICOUT,
"\n## generate temps: regenerate the source file each time the deployment file changes\n");
xbt_dict_foreach(process_function_set, cursor, key, data) {
- fprintf(OUT, RL_SOURCENAME, project, key);
- fprintf(OUT, " ");
+ fprintf(FICOUT, RL_SOURCENAME, project, key);
+ fprintf(FICOUT, " ");
}
- fprintf(OUT, SIM_SOURCENAME, project);
- fprintf(OUT, ": %s\n", deployment);
- fprintf(OUT, "\tgras_stub_generator %s %s >/dev/null\n", project,
+ fprintf(FICOUT, SIM_SOURCENAME, project);
+ fprintf(FICOUT, ": %s\n", deployment);
+ fprintf(FICOUT, "\tgras_stub_generator %s %s >/dev/null\n", project,
deployment);
- fprintf(OUT, "\n## Generate the binaries\n");
- fprintf(OUT, SIM_BINARYNAME ": " SIM_OBJNAME " $(OBJ_FILES)\n", project,
- project);
- fprintf(OUT,
+ fprintf(FICOUT, "\n## Generate the binaries\n");
+ fprintf(FICOUT, SIM_BINARYNAME ": " SIM_OBJNAME " $(OBJ_FILES)\n",
+ project, project);
+ fprintf(FICOUT,
"\t$(CC) $(INCLUDES) $(DEFS) $(CFLAGS) $^ $(LIBS_SIM) $(LIBS) $(LDADD) -o $@ \n");
xbt_dict_foreach(process_function_set, cursor, key, data) {
- fprintf(OUT, RL_BINARYNAME " : " RL_OBJNAME " $(OBJ_FILES)\n", project,
- key, project, key);
- fprintf(OUT,
+ fprintf(FICOUT, RL_BINARYNAME " : " RL_OBJNAME " $(OBJ_FILES)\n",
+ project, key, project, key);
+ fprintf(FICOUT,
"\t$(CC) $(INCLUDES) $(DEFS) $(CFLAGS) $^ $(LIBS_RL) $(LIBS) $(LDADD) -o $@ \n");
}
- fprintf(OUT,
+ fprintf(FICOUT,
"\n"
"%%: %%.o\n"
"\t$(CC) $(INCLUDES) $(DEFS) $(CFLAGS) $^ $(LIBS) $(LDADD) -o $@ \n"
"%%.o: %%.c\n"
"\t$(CC) $(INCLUDES) $(DEFS) $(CFLAGS) -c -o $@ $<\n" "\n");
- fprintf(OUT,
+ fprintf(FICOUT,
"## Rules for tarballs and cleaning\n"
"DIST_FILES= $(EXTRA_DIST) $(GENERATED_C_FILES) $(PRECIOUS_C_FILES) "
MAKEFILE_FILENAME_LOCAL " " /*MAKEFILE_FILENAME_REMOTE */ "\n"
"\ttar c $(DISTDIR) | gzip -c9 > $(DISTDIR).tar.gz\n" "\n",
project /*, project */ );
- fprintf(OUT,
+ fprintf(FICOUT,
"clean:\n"
"\trm -f $(CLEANFILES) $(BIN_FILES) $(OBJ_FILES) *~ %s.o "
SIM_OBJNAME, project, project);
xbt_dict_foreach(process_function_set, cursor, key, data) {
- fprintf(OUT, " " RL_OBJNAME, project, key);
+ fprintf(FICOUT, " " RL_OBJNAME, project, key);
}
- fprintf(OUT,
+ fprintf(FICOUT,
"\n"
"\trm -rf $(DISTDIR)\n"
"\n" ".SUFFIXES:\n" ".PHONY : clean\n" "\n");
/*
- fprintf(OUT, "############ REMOTE COMPILING #########\n");
- fprintf(OUT,
+ fprintf(FICOUT, "############ REMOTE COMPILING #########\n");
+ fprintf(FICOUT,
"MACHINES ?= ");
xbt_dict_foreach(machine_set,cursor,key,data) {
- fprintf(OUT, "%s ",key);
+ fprintf(FICOUT, "%s ",key);
}
- fprintf(OUT,"\n");
+ fprintf(FICOUT,"\n");
- fprintf(OUT,
+ fprintf(FICOUT,
"INSTALL_PATH ?='$$HOME/tmp/src' ### Has to be an absolute path !!! \n"
"GRAS_ROOT ?='$(INSTALL_PATH)' ### Has to be an absolute path !!! \n"
"SRCDIR ?= ./\n"
"\t fi;\\\n"
"\t done;\n",project,project,project);
*/
- fclose(OUT);
+ fclose(FICOUT);
}
static void print(void *p)