source/tools/pkgdata/sttcmode.c - external/github.com/unicode-org/icu - Git at Google

 /******************************************************************************
 *
 *   Copyright (C) 2002, International Business Machines
 *   Corporation and others.  All Rights Reserved.
 *
 *******************************************************************************
 *   file name:  staticmode.c
 *   encoding:   ANSI X3.4 (1968)
 *   tab size:   8 (not used)
 *   indentation:4
 *
 *   created on: 2002mar14
 *   created by: Steven \u24C7 Loomis
 *
 *   This program packages the ICU data into a static library.
 *   It is *mainly* used by POSIX, but the top function (for writing READMEs) is
 *   shared with Win32.
 */

 #include "unicode/utypes.h"
 #include "unicode/uloc.h"
 #include "cmemory.h"
 #include "cstring.h"
 #include "filestrm.h"
 #include "toolutil.h"
 #include "unewdata.h"
 #include "uoptions.h"
 #include "pkgtypes.h"
 #include "filestrm.h"

 #include <stdio.h>
 #include <stdlib.h>

 /** set if AR is NOT to be called implicitly by gnumake
  ** (i.e. if  the form   libblah.a($(OBJECTS) doesnt work)
  **/
 #if defined(OS400) || defined(OS390)
 #    define NO_IMPLICIT_AR  1
 #else
 #    define NO_IMPLICIT_AR  0
 #endif

 void pkg_sttc_writeReadme(struct UPKGOptions_ *o, const char *libName, UErrorCode *status)
 {
   char tmp[1024];
   FileStream  *out;

   if(U_FAILURE(*status))
   {
       return;
   }

   /* Makefile pathname */
   uprv_strcpy(tmp, o->targetDir);
   uprv_strcat(tmp, U_FILE_SEP_STRING "README_");
   uprv_strcat(tmp, o->shortName);
   uprv_strcat(tmp, ".txt");

   out = T_FileStream_open(tmp, "w");
   if (!out) {
       fprintf(stderr, "err: couldn't create README file %s\n", tmp);
       *status = U_FILE_ACCESS_ERROR;
       return;
   }

   sprintf(tmp, "## README for \"%s\"'s static data (%s)\n"
                "## created by pkgdata, ICU Version %s\n",
              o->shortName,
              libName,
              U_ICU_VERSION);

   T_FileStream_writeLine(out, tmp);

   sprintf(tmp, "\n\nTo use this data in your application:\n\n"
                "1. At the top of your source file, add the following lines:\n"
                "\n"
                "     #include \"unicode/utypes.h\"\n"
                "     #include \"unicode/udata.h\"\n"
                "     U_CFUNC char %s_dat[];\n",
                o->cShortName);
   T_FileStream_writeLine(out, tmp);

   sprintf(tmp, "2. *Early* in your application, call the following function:\n"
                "\n"
                "     UErrorCode myError = U_ZERO_ERROR;\n"
                "     udata_setAppData( \"%s\", (const void*) %s_dat, &myError);\n"
                "     if(U_FAILURE(myError))\n"
                "     {\n"
                "          handle error condition ...\n"
                "     }\n"
                "\n",
                o->cShortName, o->cShortName);
   T_FileStream_writeLine(out, tmp);

   sprintf(tmp, "3. Link your application against %s\n"
                "\n\n"
                "4. Now, you may access this data with a 'path' of \"%s\" as in the following example:\n"
                "\n"
                "     ... ures_open( \"%s\", \"%s\", &err ); \n",
                libName, o->shortName, o->shortName, uloc_getDefault());
   T_FileStream_writeLine(out, tmp);

   T_FileStream_close(out);
 }


 #ifndef WIN32


 #include "makefile.h"


 void pkg_mode_static(UPKGOptions *o, FileStream *makefile, UErrorCode *status)
 {
     char tmp[1024];
     CharList *tail = NULL;
     CharList *objects = NULL;

     if(U_FAILURE(*status)) {
         return;
     }

     uprv_strcpy(tmp, LIB_PREFIX);
     uprv_strcat(tmp, o->cShortName);
     uprv_strcat(tmp, UDATA_LIB_SUFFIX);

     o->outFiles = pkg_appendToList(o->outFiles, &tail, uprv_strdup(tmp));

     pkg_sttc_writeReadme(o, tmp, status);
     if(U_FAILURE(*status)) {
         return;
     }


     if(o->nooutput || o->verbose) {
         fprintf(stdout, "# Output file: %s%s%s\n", o->targetDir, U_FILE_SEP_STRING, tmp);
     }

     if(o->nooutput) {
         *status = U_ZERO_ERROR;
         return;
     }

     /* begin writing makefile ========================= */


     T_FileStream_writeLine(makefile, "# Version numbers:\nVERSIONED=");
     if (o->version) {
         sprintf(tmp, ".%s", o->version);
         if (!uprv_strchr(o->version, '.')) {
             uprv_strcat(tmp, ".0");
         }
         T_FileStream_writeLine(makefile, tmp);
         T_FileStream_writeLine(makefile, "\nDLL_LDFLAGS=$(LD_SONAME) $(RPATH_LDFLAGS)\n");
     } else {
         T_FileStream_writeLine(makefile, "\nDLL_LDFLAGS=$(BIR_LDFLAGS)\n");
     }
     T_FileStream_writeLine(makefile, "\n");

     sprintf(tmp, "# File to make:\nTARGET=%s\n\n", o->outFiles->str);
     T_FileStream_writeLine(makefile, tmp);
     T_FileStream_writeLine(makefile, "LIB_TARGET=$(TARGET)\n");

     uprv_strcpy(tmp, "all: $(TARG_PATH)$(LIB_TARGET)");
     uprv_strcat(tmp, "\n\n");
     T_FileStream_writeLine(makefile, tmp);

     /* Write compile rules */
     pkg_mak_writeObjRules(o, makefile, &objects, ".$(STATIC_O)"); /* use special .o suffix */

     sprintf(tmp, "# List file for gencmn:\n"
         "CMNLIST=%s%s$(NAME)_static.lst\n\n",
         o->tmpDir,
         U_FILE_SEP_STRING);
     T_FileStream_writeLine(makefile, tmp);

     if(o->hadStdin == FALSE) { /* shortcut */
         T_FileStream_writeLine(makefile, "$(CMNLIST): $(LISTFILES)\n"
             "\tcat $(LISTFILES) > $(CMNLIST)\n\n");
     } else {
         T_FileStream_writeLine(makefile, "$(CMNLIST): \n"
             "\t@echo \"generating $@ (list of data files)\"\n"
             "\t@-$(RMV) $@\n"
             "\t@for file in $(DATAFILEPATHS); do \\\n"
             "\t  echo $$file >> $@; \\\n"
             "\tdone;\n\n");
     }

     sprintf(tmp,"$(TEMP_PATH)$(NAME)_dat.$(STATIC_O) : $(TEMP_PATH)$(NAME)_dat.c\n"
         "\t$(COMPILE.c) -o $@ $<\n\n");
     T_FileStream_writeLine(makefile, tmp);

     T_FileStream_writeLine(makefile, "# 'TOCOBJ' contains C Table of Contents objects [if any]\n");

     sprintf(tmp, "$(TEMP_PATH)$(NAME)_dat.c: $(CMNLIST)\n"
             "\t$(INVOKE) $(GENCMN) -e $(ENTRYPOINT) -n $(NAME) -S -d $(TEMP_DIR) 0 $(CMNLIST)\n\n");
     T_FileStream_writeLine(makefile, tmp);

     sprintf(tmp, "TOCOBJ= $(NAME)_dat%s \n\n", OBJ_SUFFIX);
     T_FileStream_writeLine(makefile, tmp);
     sprintf(tmp, "TOCSYM= $(ENTRYPOINT)_dat \n\n"); /* entrypoint not always shortname! */
     T_FileStream_writeLine(makefile, tmp);

     T_FileStream_writeLine(makefile, "BASE_OBJECTS= $(TOCOBJ) ");

     pkg_writeCharListWrap(makefile, objects, " ", " \\\n",0);
     T_FileStream_writeLine(makefile, "\n\n");
     T_FileStream_writeLine(makefile, "OBJECTS=$(BASE_OBJECTS:%=$(TEMP_PATH)%)\n\n");

     T_FileStream_writeLine(makefile,"$(TEMP_PATH)%.$(STATIC_O): $(TEMP_PATH)%.c\n\t  $(COMPILE.c) -o $@ $<\n\n");

 #if NO_IMPLICIT_AR
     T_FileStream_writeLine(makefile, "$(TARG_PATH)$(LIB_TARGET):$(TARG_PATH)$(LIB_TARGET) $(OBJECTS) $(LISTFILES)\n"
                            "\t$(AR) $(ARFLAGS) $(TARG_PATH)$(LIB_TARGET) $(OBJECTS)\n"
                             "\t$(RANLIB) $@\n\n");
 #else
     T_FileStream_writeLine(makefile, "$(TARG_PATH)$(LIB_TARGET):$(TARG_PATH)$(LIB_TARGET)($(OBJECTS)) $(LISTFILES)\n"
                             "\t$(RANLIB) $@\n\n");
 #endif


     T_FileStream_writeLine(makefile, "CLEANFILES= $(CMNLIST) $(OBJECTS) $(TARG_PATH)$(LIB_TARGET) $(TARG_PATH)$(MIDDLE_STATIC_LIB_TARGET) $(TARG_PATH)$(TARGET)\n\nclean:\n\t-$(RMV) $(CLEANFILES) $(MAKEFILE)");
     T_FileStream_writeLine(makefile, "\n\n");

     T_FileStream_writeLine(makefile, "# static mode shouldn't need to be installed, but we will install the header and static library for them.\n");

     T_FileStream_writeLine(makefile, "install: $(TARG_PATH)$(LIB_TARGET)\n"
                 "\t$(INSTALL-L) $(TARG_PATH)$(LIB_TARGET) $(INSTALLTO)/$(LIB_TARGET)\n");
     T_FileStream_writeLine(makefile, "\t$(RANLIB) $(INSTALLTO)/$(LIB_TARGET)\n");
     if (o->version) {
         T_FileStream_writeLine(makefile, "\tcd $(INSTALLTO) && $(RM) $(MIDDLE_STATIC_LIB_TARGET) && ln -s $(LIB_TARGET) $(MIDDLE_STATIC_LIB_TARGET)\n\tcd $(INSTALLTO) && $(RM) $(STATIC_LIB_TARGET) && ln -s $(LIB_TARGET) $(STATIC_LIB_TARGET)\n");
     T_FileStream_writeLine(makefile, "\t$(RANLIB) $(INSTALLTO)/$(STATIC_LIB_TARGET)\n\n");

     }

     *status = U_ZERO_ERROR;

 }


 #endif
	/******************************************************************************
	*
	* Copyright (C) 2002, International Business Machines
	* Corporation and others. All Rights Reserved.
	*
	*******************************************************************************
	* file name: staticmode.c
	* encoding: ANSI X3.4 (1968)
	* tab size: 8 (not used)
	* indentation:4
	*
	* created on: 2002mar14
	* created by: Steven \u24C7 Loomis
	*
	* This program packages the ICU data into a static library.
	* It is mainly used by POSIX, but the top function (for writing READMEs) is
	* shared with Win32.
	*/

	#include "unicode/utypes.h"
	#include "unicode/uloc.h"
	#include "cmemory.h"
	#include "cstring.h"
	#include "filestrm.h"
	#include "toolutil.h"
	#include "unewdata.h"
	#include "uoptions.h"
	#include "pkgtypes.h"
	#include "filestrm.h"

	#include <stdio.h>
	#include <stdlib.h>

	/** set if AR is NOT to be called implicitly by gnumake
	** (i.e. if the form libblah.a($(OBJECTS) doesnt work)
	**/
	#if defined(OS400) \|\| defined(OS390)
	# define NO_IMPLICIT_AR 1
	#else
	# define NO_IMPLICIT_AR 0
	#endif

	void pkg_sttc_writeReadme(struct UPKGOptions_ o, const char libName, UErrorCode *status)
	{
	char tmp[1024];
	FileStream *out;

	if(U_FAILURE(*status))
	{
	return;
	}

	/* Makefile pathname */
	uprv_strcpy(tmp, o->targetDir);
	uprv_strcat(tmp, U_FILE_SEP_STRING "README_");
	uprv_strcat(tmp, o->shortName);
	uprv_strcat(tmp, ".txt");

	out = T_FileStream_open(tmp, "w");
	if (!out) {
	fprintf(stderr, "err: couldn't create README file %s\n", tmp);
	*status = U_FILE_ACCESS_ERROR;
	return;
	}

	sprintf(tmp, "## README for \"%s\"'s static data (%s)\n"
	"## created by pkgdata, ICU Version %s\n",
	o->shortName,
	libName,
	U_ICU_VERSION);

	T_FileStream_writeLine(out, tmp);

	sprintf(tmp, "\n\nTo use this data in your application:\n\n"
	"1. At the top of your source file, add the following lines:\n"
	"\n"
	" #include \"unicode/utypes.h\"\n"
	" #include \"unicode/udata.h\"\n"
	" U_CFUNC char %s_dat[];\n",
	o->cShortName);
	T_FileStream_writeLine(out, tmp);

	sprintf(tmp, "2. Early in your application, call the following function:\n"
	"\n"
	" UErrorCode myError = U_ZERO_ERROR;\n"
	" udata_setAppData( \"%s\", (const void*) %s_dat, &myError);\n"
	" if(U_FAILURE(myError))\n"
	" {\n"
	" handle error condition ...\n"
	" }\n"
	"\n",
	o->cShortName, o->cShortName);
	T_FileStream_writeLine(out, tmp);

	sprintf(tmp, "3. Link your application against %s\n"
	"\n\n"
	"4. Now, you may access this data with a 'path' of \"%s\" as in the following example:\n"
	"\n"
	" ... ures_open( \"%s\", \"%s\", &err ); \n",
	libName, o->shortName, o->shortName, uloc_getDefault());
	T_FileStream_writeLine(out, tmp);

	T_FileStream_close(out);
	}


	#ifndef WIN32


	#include "makefile.h"


	void pkg_mode_static(UPKGOptions o, FileStream makefile, UErrorCode *status)
	{
	char tmp[1024];
	CharList *tail = NULL;
	CharList *objects = NULL;

	if(U_FAILURE(*status)) {
	return;
	}

	uprv_strcpy(tmp, LIB_PREFIX);
	uprv_strcat(tmp, o->cShortName);
	uprv_strcat(tmp, UDATA_LIB_SUFFIX);

	o->outFiles = pkg_appendToList(o->outFiles, &tail, uprv_strdup(tmp));

	pkg_sttc_writeReadme(o, tmp, status);
	if(U_FAILURE(*status)) {
	return;
	}


	if(o->nooutput \|\| o->verbose) {
	fprintf(stdout, "# Output file: %s%s%s\n", o->targetDir, U_FILE_SEP_STRING, tmp);
	}

	if(o->nooutput) {
	*status = U_ZERO_ERROR;
	return;
	}

	/* begin writing makefile ========================= */


	T_FileStream_writeLine(makefile, "# Version numbers:\nVERSIONED=");
	if (o->version) {
	sprintf(tmp, ".%s", o->version);
	if (!uprv_strchr(o->version, '.')) {
	uprv_strcat(tmp, ".0");
	}
	T_FileStream_writeLine(makefile, tmp);
	T_FileStream_writeLine(makefile, "\nDLL_LDFLAGS=$(LD_SONAME) $(RPATH_LDFLAGS)\n");
	} else {
	T_FileStream_writeLine(makefile, "\nDLL_LDFLAGS=$(BIR_LDFLAGS)\n");
	}
	T_FileStream_writeLine(makefile, "\n");

	sprintf(tmp, "# File to make:\nTARGET=%s\n\n", o->outFiles->str);
	T_FileStream_writeLine(makefile, tmp);
	T_FileStream_writeLine(makefile, "LIB_TARGET=$(TARGET)\n");

	uprv_strcpy(tmp, "all: $(TARG_PATH)$(LIB_TARGET)");
	uprv_strcat(tmp, "\n\n");
	T_FileStream_writeLine(makefile, tmp);

	/* Write compile rules */
	pkg_mak_writeObjRules(o, makefile, &objects, ".$(STATIC_O)"); /* use special .o suffix */

	sprintf(tmp, "# List file for gencmn:\n"
	"CMNLIST=%s%s$(NAME)_static.lst\n\n",
	o->tmpDir,
	U_FILE_SEP_STRING);
	T_FileStream_writeLine(makefile, tmp);

	if(o->hadStdin == FALSE) { /* shortcut */
	T_FileStream_writeLine(makefile, "$(CMNLIST): $(LISTFILES)\n"
	"\tcat $(LISTFILES) > $(CMNLIST)\n\n");
	} else {
	T_FileStream_writeLine(makefile, "$(CMNLIST): \n"
	"\t@echo \"generating $@ (list of data files)\"\n"
	"\t@-$(RMV) $@\n"
	"\t@for file in $(DATAFILEPATHS); do \\\n"
	"\t echo $$file >> $@; \\\n"
	"\tdone;\n\n");
	}

	sprintf(tmp,"$(TEMP_PATH)$(NAME)_dat.$(STATIC_O) : $(TEMP_PATH)$(NAME)_dat.c\n"
	"\t$(COMPILE.c) -o $@ $<\n\n");
	T_FileStream_writeLine(makefile, tmp);

	T_FileStream_writeLine(makefile, "# 'TOCOBJ' contains C Table of Contents objects [if any]\n");

	sprintf(tmp, "$(TEMP_PATH)$(NAME)_dat.c: $(CMNLIST)\n"
	"\t$(INVOKE) $(GENCMN) -e $(ENTRYPOINT) -n $(NAME) -S -d $(TEMP_DIR) 0 $(CMNLIST)\n\n");
	T_FileStream_writeLine(makefile, tmp);

	sprintf(tmp, "TOCOBJ= $(NAME)_dat%s \n\n", OBJ_SUFFIX);
	T_FileStream_writeLine(makefile, tmp);
	sprintf(tmp, "TOCSYM= $(ENTRYPOINT)_dat \n\n"); /* entrypoint not always shortname! */
	T_FileStream_writeLine(makefile, tmp);

	T_FileStream_writeLine(makefile, "BASE_OBJECTS= $(TOCOBJ) ");

	pkg_writeCharListWrap(makefile, objects, " ", " \\\n",0);
	T_FileStream_writeLine(makefile, "\n\n");
	T_FileStream_writeLine(makefile, "OBJECTS=$(BASE_OBJECTS:%=$(TEMP_PATH)%)\n\n");

	T_FileStream_writeLine(makefile,"$(TEMP_PATH)%.$(STATIC_O): $(TEMP_PATH)%.c\n\t $(COMPILE.c) -o $@ $<\n\n");

	#if NO_IMPLICIT_AR
	T_FileStream_writeLine(makefile, "$(TARG_PATH)$(LIB_TARGET):$(TARG_PATH)$(LIB_TARGET) $(OBJECTS) $(LISTFILES)\n"
	"\t$(AR) $(ARFLAGS) $(TARG_PATH)$(LIB_TARGET) $(OBJECTS)\n"
	"\t$(RANLIB) $@\n\n");
	#else
	T_FileStream_writeLine(makefile, "$(TARG_PATH)$(LIB_TARGET):$(TARG_PATH)$(LIB_TARGET)($(OBJECTS)) $(LISTFILES)\n"
	"\t$(RANLIB) $@\n\n");
	#endif


	T_FileStream_writeLine(makefile, "CLEANFILES= $(CMNLIST) $(OBJECTS) $(TARG_PATH)$(LIB_TARGET) $(TARG_PATH)$(MIDDLE_STATIC_LIB_TARGET) $(TARG_PATH)$(TARGET)\n\nclean:\n\t-$(RMV) $(CLEANFILES) $(MAKEFILE)");
	T_FileStream_writeLine(makefile, "\n\n");

	T_FileStream_writeLine(makefile, "# static mode shouldn't need to be installed, but we will install the header and static library for them.\n");

	T_FileStream_writeLine(makefile, "install: $(TARG_PATH)$(LIB_TARGET)\n"
	"\t$(INSTALL-L) $(TARG_PATH)$(LIB_TARGET) $(INSTALLTO)/$(LIB_TARGET)\n");
	T_FileStream_writeLine(makefile, "\t$(RANLIB) $(INSTALLTO)/$(LIB_TARGET)\n");
	if (o->version) {
	T_FileStream_writeLine(makefile, "\tcd $(INSTALLTO) && $(RM) $(MIDDLE_STATIC_LIB_TARGET) && ln -s $(LIB_TARGET) $(MIDDLE_STATIC_LIB_TARGET)\n\tcd $(INSTALLTO) && $(RM) $(STATIC_LIB_TARGET) && ln -s $(LIB_TARGET) $(STATIC_LIB_TARGET)\n");
	T_FileStream_writeLine(makefile, "\t$(RANLIB) $(INSTALLTO)/$(STATIC_LIB_TARGET)\n\n");

	}

	*status = U_ZERO_ERROR;

	}



	#endif