int main()
{
char linebuf[MAXTEXT], name[NAMESIZE];
FILE *infile[MERGEORDER];
FILE *outfile;
char *lineptr[MAXPTR];
int nlines, t, outlow, outhigh, mergelow, mergehigh;
outlow = 1;
mergelow = outlow + N;
mergehigh = mergelow-1;
for (;;) {
/*
* Read chunks from stdin and write to files outlow...outhigh.
*/
for (outhigh = outlow; outhigh < outlow+N; outhigh++) {
t = gtext(lineptr, MAXPTR, linebuf, MAXTEXT, &nlines, stdin);
qsort(lineptr, nlines, sizeof(lineptr[0]), qcmpstr);
outfile = makefile(outhigh);
ptext(lineptr, nlines, outfile);
fclose(outfile);
if (t == EOF)
break;
}
if (outhigh >= outlow+N)
outhigh--;
/*
* Merge files outlow...outhigh to mergehigh.
*/
gopen(infile, outlow, outhigh);
++mergehigh;
outfile = makefile(mergehigh);
merge(infile, outhigh-outlow+1, outfile);
fclose(outfile);
/*
* If the merge group is full, merge them to outlow and exchange
* merge group and sorting group.
*/
if (mergehigh-mergelow+1 >= N) {
gopen(infile, mergelow, mergehigh);
outfile = makefile(outlow);
merge(infile, mergehigh-mergelow+1, outfile);
fclose(outfile);
swap(&outlow, &mergelow);
mergehigh = mergelow;
}
if (t == EOF)
break;
}
gopen(infile, mergelow, mergehigh);
merge(infile, mergehigh-mergelow+1, stdout);
gopen(infile, 1, 2*N);
gremove(infile, 1, 2*N);
return 0;
}
static int _configure_do(Configure * configure, configArray * ca)
{
size_t i;
size_t cnt = array_count(ca);
String const * di;
size_t j;
Config * cj;
String const * dj;
for(i = 0; i < cnt; i++)
{
array_get_copy(ca, i, &configure->config);
if((di = config_get(configure->config, "", "directory"))
== NULL)
continue;
for(j = i; j < cnt; j++)
{
array_get_copy(ca, j, &cj);
if((dj = config_get(cj, "", "directory")) == NULL)
continue;
if(string_find(dj, di) == NULL)
break;
}
if(makefile(configure, di, ca, i, j) != 0)
break;
}
return (i == cnt) ? 0 : 1;
}
int main(){
double x0[N],y0[N];
double x[N],y[N];
makestar(x0,y0);
int i;
for(i = 0;i < N;i++)
x[i]=x0[i],y[i]=y0[i];
simulate(x,y,3.5,50,0.1,20);
makefile(x0,y0,x,y);
return 0;
}
void main()
{
node root=NULL;
int ele;
while(fscanf(stdin,"%d",&ele)==1)
{
if(ele==EOF)
break;
root=createTree(root,ele);
}
// printinorder(root);
checkBinary(root);
makefile(root);
}
static FILE *
logfile(FILE *log, struct log_ctl *lp)
{
static time_t lasttime = 0;
time_t newtime;
errfile = ERRFILE;
newtime = lp->ttime - timezone;
/*
* If it is a new day make a new log file
*/
if (((newtime/NSECDAY) != (lasttime/NSECDAY)) || !log) {
if (log)
(void) fclose(log);
lasttime = newtime;
makefile(errfile, lp->ttime);
return (fopen(errfile, "a+"));
}
lasttime = newtime;
return (log);
}
/*
* Config builds a set of files for building a UNIX
* system given a description of the desired system.
*/
int
main(int argc, char *argv[])
{
struct stat buf;
int ch, len;
unsigned int i;
char *p;
char linksrc[64], linkdest[MAXPATHLEN];
static const char *emus[] = { "linux" };
while ((ch = getopt(argc, argv, "d:gpr")) != -1)
switch (ch) {
case 'd':
if (*destdir == '\0')
strlcpy(destdir, optarg, sizeof(destdir));
else
errx(2, "directory already set");
break;
case 'g':
debugging++;
break;
case 'p':
profiling++;
break;
case 'r':
no_config_clobber = FALSE;
break;
case '?':
default:
usage();
}
argc -= optind;
argv += optind;
if (argc != 1)
usage();
if (freopen(PREFIX = *argv, "r", stdin) == NULL)
err(2, "%s", PREFIX);
if (*destdir != '\0') {
len = strlen(destdir);
while (len > 1 && destdir[len - 1] == '/')
destdir[--len] = '\0';
get_srcdir();
} else {
strlcpy(destdir, CDIR, sizeof(destdir));
strlcat(destdir, PREFIX, sizeof(destdir));
}
p = path(NULL);
if (stat(p, &buf)) {
if (mkdir(p, 0777))
err(2, "%s", p);
}
else if ((buf.st_mode & S_IFMT) != S_IFDIR) {
errx(2, "%s isn't a directory", p);
}
else if (!no_config_clobber) {
char tmp[strlen(p) + 8];
fprintf(stderr, "Removing old directory %s: ", p);
fflush(stderr);
snprintf(tmp, sizeof(tmp), "rm -rf %s", p);
if (system(tmp)) {
fprintf(stderr, "Failed!\n");
err(2, "%s", tmp);
}
fprintf(stderr, "Done.\n");
if (mkdir(p, 0777))
err(2, "%s", p);
}
dtab = NULL;
if (yyparse())
exit(3);
if (platformname == NULL) {
printf("Specify platform architecture, e.g. 'platform pc64'\n");
exit(1);
}
if (machinename == NULL) {
printf("Specify machine architecture, e.g. 'machine x86_64'\n");
exit(1);
}
if (machinearchname == NULL) {
printf("Specify cpu architecture, e.g. 'machine_arch x86_64'\n");
exit(1);
}
newbus_ioconf();
/*
* "machine" points into platform/<PLATFORM>/include
*/
if (*srcdir == '\0')
snprintf(linkdest, sizeof(linkdest), "../../platform/%s/include",
platformname);
else
snprintf(linkdest, sizeof(linkdest), "%s/platform/%s/include",
srcdir, platformname);
symlink(linkdest, path("machine"));
/*
* "machine_base" points into platform/<PLATFORM>
*/
if (*srcdir == '\0')
snprintf(linkdest, sizeof(linkdest), "../../platform/%s",
platformname);
else
snprintf(linkdest, sizeof(linkdest), "%s/platform/%s",
srcdir, platformname);
symlink(linkdest, path("machine_base"));
/*
* "cpu" points to cpu/<MACHINE_ARCH>/include
*/
if (*srcdir == '\0')
snprintf(linkdest, sizeof(linkdest),
"../../cpu/%s/include", machinearchname);
else
snprintf(linkdest, sizeof(linkdest),
"%s/cpu/%s/include", srcdir, machinearchname);
symlink(linkdest, path("cpu"));
/*
* "cpu_base" points to cpu/<MACHINE_ARCH>
*/
if (*srcdir == '\0')
snprintf(linkdest, sizeof(linkdest), "../../cpu/%s",
machinearchname);
else
snprintf(linkdest, sizeof(linkdest), "%s/cpu/%s",
srcdir, machinearchname);
symlink(linkdest, path("cpu_base"));
/*
* XXX check directory structure for architecture subdirectories and
* create the symlinks automatically XXX
*/
for (i = 0; i < sizeof(emus) / sizeof(emus[0]); ++i) {
if (*srcdir == 0) {
snprintf(linkdest, sizeof(linkdest),
"../../emulation/%s/%s",
emus[i], machinearchname);
} else {
snprintf(linkdest, sizeof(linkdest),
"%s/emulation/%s/%s",
srcdir, emus[i], machinearchname);
}
snprintf(linksrc, sizeof(linksrc), "arch_%s", emus[i]);
symlink(linkdest, path(linksrc));
}
options(); /* make options .h files */
makefile(); /* build Makefile */
headers(); /* make a lot of .h files */
configfile(); /* put config file into kernel*/
printf("Kernel build directory is %s\n", p);
exit(EX_OK);
}
bool CBLinuxProject::createProjectFile(){
ofDirectory dir(projectDir);
if(!dir.exists()) dir.create(true);
ofFile project(ofFilePath::join(projectDir, projectName + ".cbp"));
string src = ofFilePath::join(templatePath,"emptyExample_" + target + ".cbp");
string dst = project.path();
bool ret;
if(!project.exists()){
ret = ofFile::copyFromTo(src,dst);
if(!ret){
ofLogError(LOG_NAME) << "error copying cbp template from " << src << " to " << dst;
return false;
}else{
findandreplaceInTexfile(dst, "emptyExample", projectName);
}
}
ofFile workspace(ofFilePath::join(projectDir, projectName + ".workspace"));
if(!workspace.exists()){
src = ofFilePath::join(templatePath,"emptyExample_" + target + ".workspace");
dst = workspace.path();
ret = ofFile::copyFromTo(src,dst);
if(!ret){
ofLogError(LOG_NAME) << "error copying workspace template from "<< src << " to " << dst;
return false;
}else{
findandreplaceInTexfile(dst, "emptyExample", projectName);
}
}
ofFile makefile(ofFilePath::join(projectDir,"Makefile"));
if(!makefile.exists()){
src = ofFilePath::join(templatePath,"Makefile");
dst = makefile.path();
ret = ofFile::copyFromTo(src,dst);
if(!ret){
ofLogError(LOG_NAME) << "error copying Makefile template from " << src << " to " << dst;
return false;
}
}
ofFile config(ofFilePath::join(projectDir,"config.make"));
if(!config.exists()){
src = ofFilePath::join(templatePath,"config.make");
dst = config.path();
ret = ofFile::copyFromTo(src,dst);
if(!ret){
ofLogError(LOG_NAME) << "error copying config.make template from " << src << " to " << dst;
return false;
}
}
// handle the relative roots.
string relRoot = getOFRelPath(ofFilePath::removeTrailingSlash(projectDir));
if (relRoot != "../../../"){
string relPath2 = relRoot;
relPath2.erase(relPath2.end()-1);
findandreplaceInTexfile(projectDir + "Makefile", "../../..", relPath2);
findandreplaceInTexfile(projectDir + "config.make", "../../..", relPath2);
findandreplaceInTexfile(ofFilePath::join(projectDir , projectName + ".workspace"), "../../../", relRoot);
findandreplaceInTexfile(ofFilePath::join(projectDir , projectName + ".cbp"), "../../../", relRoot);
}
return true;
}
void DocSets::initialize()
{
// -- get config options
QCString projectName = Config_getString("PROJECT_NAME");
if (projectName.isEmpty()) projectName="root";
QCString bundleId = Config_getString("DOCSET_BUNDLE_ID");
if (bundleId.isEmpty()) bundleId="org.doxygen.Project";
QCString feedName = Config_getString("DOCSET_FEEDNAME");
if (feedName.isEmpty()) feedName="FeedName";
QCString publisherId = Config_getString("DOCSET_PUBLISHER_ID");
if (publisherId.isEmpty()) publisherId="PublisherId";
QCString publisherName = Config_getString("DOCSET_PUBLISHER_NAME");
if (publisherName.isEmpty()) publisherName="PublisherName";
QCString projectNumber = Config_getString("PROJECT_NUMBER");
if (projectNumber.isEmpty()) projectNumber="ProjectNumber";
// -- write Makefile
{
QCString mfName = Config_getString("HTML_OUTPUT") + "/Makefile";
QFile makefile(mfName);
if (!makefile.open(IO_WriteOnly))
{
err("Could not open file %s for writing\n",mfName.data());
exit(1);
}
FTextStream ts(&makefile);
ts << "DOCSET_NAME=" << bundleId << ".docset\n"
"DOCSET_CONTENTS=$(DOCSET_NAME)/Contents\n"
"DOCSET_RESOURCES=$(DOCSET_CONTENTS)/Resources\n"
"DOCSET_DOCUMENTS=$(DOCSET_RESOURCES)/Documents\n"
"DESTDIR=~/Library/Developer/Shared/Documentation/DocSets\n"
"XCODE_INSTALL=\"$(shell xcode-select -print-path)\"\n"
"\n"
"all: docset\n"
"\n"
"docset:\n"
"\tmkdir -p $(DOCSET_DOCUMENTS)\n"
"\tcp Nodes.xml $(DOCSET_RESOURCES)\n"
"\tcp Tokens.xml $(DOCSET_RESOURCES)\n"
"\tcp Info.plist $(DOCSET_CONTENTS)\n"
"\ttar --exclude $(DOCSET_NAME) \\\n"
"\t --exclude Nodes.xml \\\n"
"\t --exclude Tokens.xml \\\n"
"\t --exclude Info.plist \\\n"
"\t --exclude Makefile -c -f - . \\\n"
"\t | (cd $(DOCSET_DOCUMENTS); tar xvf -)\n"
"\t$(XCODE_INSTALL)/usr/bin/docsetutil index $(DOCSET_NAME)\n"
"\trm -f $(DOCSET_DOCUMENTS)/Nodes.xml\n"
"\trm -f $(DOCSET_DOCUMENTS)/Info.plist\n"
"\trm -f $(DOCSET_DOCUMENTS)/Makefile\n"
"\trm -f $(DOCSET_RESOURCES)/Nodes.xml\n"
"\trm -f $(DOCSET_RESOURCES)/Tokens.xml\n"
"\n"
"clean:\n"
"\trm -rf $(DOCSET_NAME)\n"
"\n"
"install: docset\n"
"\tmkdir -p $(DESTDIR)\n"
"\tcp -R $(DOCSET_NAME) $(DESTDIR)\n"
"\n"
"uninstall:\n"
"\trm -rf $(DESTDIR)/$(DOCSET_NAME)\n"
"\n"
"always:\n";
}
// -- write Info.plist
{
QCString plName = Config_getString("HTML_OUTPUT") + "/Info.plist";
QFile plist(plName);
if (!plist.open(IO_WriteOnly))
{
err("Could not open file %s for writing\n",plName.data());
exit(1);
}
FTextStream ts(&plist);
ts << "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n"
"<!DOCTYPE plist PUBLIC \"-//Apple Computer//DTD PLIST 1.0//EN\"\n"
"\"http://www.apple.com/DTDs/PropertyList-1.0.dtd\">\n"
"<plist version=\"1.0\">\n"
"<dict>\n"
" <key>CFBundleName</key>\n"
" <string>" << projectName << "</string>\n"
" <key>CFBundleIdentifier</key>\n"
" <string>" << bundleId << "</string>\n"
" <key>CFBundleVersion</key>\n"
" <string>" << projectNumber << "</string>\n"
" <key>DocSetFeedName</key>\n"
" <string>" << feedName << "</string>\n"
" <key>DocSetPublisherIdentifier</key>\n"
" <string>" << publisherId << "</string>\n"
" <key>DocSetPublisherName</key>\n"
" <string>" << publisherName << "</string>\n"
// markers for Dash
" <key>DashDocSetFamily</key>\n"
" <string>doxy</string>\n"
" <key>DocSetPlatformFamily</key>\n"
" <string>doxygen</string>\n"
"</dict>\n"
"</plist>\n";
}
// -- start Nodes.xml
QCString notes = Config_getString("HTML_OUTPUT") + "/Nodes.xml";
m_nf = new QFile(notes);
if (!m_nf->open(IO_WriteOnly))
{
err("Could not open file %s for writing\n",notes.data());
exit(1);
}
//QCString indexName=Config_getBool("GENERATE_TREEVIEW")?"main":"index";
QCString indexName="index";
m_nts.setDevice(m_nf);
m_nts << "<?xml version=\"1.0\" encoding=\"UTF-8\"?>" << endl;
m_nts << "<DocSetNodes version=\"1.0\">" << endl;
m_nts << " <TOC>" << endl;
m_nts << " <Node>" << endl;
m_nts << " <Name>Root</Name>" << endl;
m_nts << " <Path>" << indexName << Doxygen::htmlFileExtension << "</Path>" << endl;
m_nts << " <Subnodes>" << endl;
m_dc = 1;
m_firstNode.resize(m_dc);
m_firstNode.at(0)=TRUE;
QCString tokens = Config_getString("HTML_OUTPUT") + "/Tokens.xml";
m_tf = new QFile(tokens);
if (!m_tf->open(IO_WriteOnly))
{
err("Could not open file %s for writing\n",tokens.data());
exit(1);
}
m_tts.setDevice(m_tf);
m_tts << "<?xml version=\"1.0\" encoding=\"UTF-8\"?>" << endl;
m_tts << "<Tokens version=\"1.0\">" << endl;
}
static gboolean
gegl_post_parse_hook (GOptionContext *context,
GOptionGroup *group,
gpointer data,
GError **error)
{
glong time;
if (config)
return TRUE;
g_assert (global_time == 0);
global_time = gegl_ticks ();
g_type_init ();
gegl_instrument ("gegl", "gegl_init", 0);
config = (void*)gegl_config ();
if (cmd_gegl_swap)
g_object_set (config, "swap", cmd_gegl_swap, NULL);
if (cmd_gegl_quality)
config->quality = atof (cmd_gegl_quality);
if (cmd_gegl_cache_size)
config->cache_size = atoi (cmd_gegl_cache_size)*1024*1024;
if (cmd_gegl_chunk_size)
config->chunk_size = atoi (cmd_gegl_chunk_size);
if (cmd_gegl_tile_size)
{
const gchar *str = cmd_gegl_tile_size;
config->tile_width = atoi(str);
str = strchr (str, 'x');
if (str)
config->tile_height = atoi(str+1);
}
if (cmd_gegl_threads)
config->threads = atoi (cmd_gegl_threads);
if (cmd_babl_tolerance)
g_object_set (config, "babl-tolerance", atof(cmd_babl_tolerance), NULL);
#ifdef GEGL_ENABLE_DEBUG
{
const char *env_string;
env_string = g_getenv ("GEGL_DEBUG");
if (env_string != NULL)
{
gegl_debug_flags =
g_parse_debug_string (env_string,
gegl_debug_keys,
G_N_ELEMENTS (gegl_debug_keys));
env_string = NULL;
}
}
#endif /* GEGL_ENABLE_DEBUG */
time = gegl_ticks ();
babl_init ();
gegl_instrument ("gegl_init", "babl_init", gegl_ticks () - time);
gegl_init_i18n ();
time = gegl_ticks ();
if (!module_db)
{
const gchar *gegl_path = g_getenv ("GEGL_PATH");
module_db = gegl_module_db_new (FALSE);
if (gegl_path)
{
gegl_module_db_load (module_db, gegl_path);
}
else
{
gchar *module_path;
#ifdef G_OS_WIN32
{
gchar *prefix;
prefix = g_win32_get_package_installation_directory_of_module ( hLibGeglModule );
module_path = g_build_filename (prefix, "lib", GEGL_LIBRARY, NULL);
g_free(prefix);
}
#else
module_path = g_build_filename (LIBDIR, GEGL_LIBRARY, NULL);
#endif
gegl_module_db_load (module_db, module_path);
g_free (module_path);
/* also load plug-ins from ~/.local/share/gegl-0.0/plugins */
module_path = g_build_filename (g_get_user_data_dir (),
GEGL_LIBRARY,
"plug-ins",
NULL);
if (g_mkdir_with_parents (module_path,
S_IRUSR | S_IWUSR | S_IXUSR) == 0)
{
gchar *makefile_path = g_build_filename (module_path,
"Makefile",
NULL);
if (! g_file_test (makefile_path, G_FILE_TEST_EXISTS))
g_file_set_contents (makefile_path, makefile (), -1, NULL);
g_free (makefile_path);
}
gegl_module_db_load (module_db, module_path);
g_free (module_path);
}
gegl_instrument ("gegl_init", "load modules", gegl_ticks () - time);
}
gegl_instrument ("gegl", "gegl_init", gegl_ticks () - global_time);
if (g_getenv ("GEGL_SWAP"))
g_object_set (config, "swap", g_getenv ("GEGL_SWAP"), NULL);
if (g_getenv ("GEGL_QUALITY"))
{
const gchar *quality = g_getenv ("GEGL_QUALITY");
if (g_str_equal (quality, "fast"))
g_object_set (config, "quality", 0.0, NULL);
if (g_str_equal (quality, "good"))
g_object_set (config, "quality", 0.5, NULL);
if (g_str_equal (quality, "best"))
g_object_set (config, "quality", 1.0, NULL);
}
swap_clean ();
return TRUE;
}
void SymbianAbldMakefileGenerator::writeMkFile(const QString& wrapperFileName, bool deploymentOnly)
{
QString mkFullPath = Option::output_dir + QLatin1Char('/') + gnuMakefileName;
QFile ft(mkFullPath);
if (ft.open(QIODevice::WriteOnly)) {
generatedFiles << ft.fileName();
QTextStream t(&ft);
t << "# ==============================================================================" << endl;
t << "# Generated by qmake (" << qmake_version() << ") (Qt " << QT_VERSION_STR << ") on: ";
t << QDateTime::currentDateTime().toString() << endl;
t << "# This file is generated by qmake and should not be modified by the" << endl;
t << "# user." << endl;
t << "# Name : " << gnuMakefileName << endl;
t << "# Part of : " << project->values("TARGET").join(" ") << endl;
t << "# Description : This file is used to call necessary targets on wrapper makefile" << endl;
t << "# during normal Symbian build process." << endl;
t << "# Version : " << endl;
t << "#" << endl;
t << "# ==============================================================================" << "\n" << endl;
t << endl << endl;
t << "MAKE = make" << endl;
t << endl;
t << "VISUAL_CFG = RELEASE" << endl;
t << "ifeq \"$(CFG)\" \"UDEB\"" << endl;
t << "VISUAL_CFG = DEBUG" << endl;
t << "endif" << endl;
t << endl;
t << DO_NOTHING_TARGET " :" << endl;
t << "\t" << "@rem " DO_NOTHING_TARGET << endl << endl;
QString buildDeps;
QString cleanDeps;
QString finalDeps;
QString cleanDepsWinscw;
QString finalDepsWinscw;
QStringList wrapperTargets;
if (deploymentOnly) {
buildDeps.append(STORE_BUILD_TARGET);
cleanDeps.append(DEPLOYMENT_CLEAN_TARGET);
cleanDepsWinscw.append(WINSCW_DEPLOYMENT_CLEAN_TARGET " " DEPLOYMENT_CLEAN_TARGET);
finalDeps.append(DEPLOYMENT_TARGET);
finalDepsWinscw.append(WINSCW_DEPLOYMENT_TARGET " " DEPLOYMENT_TARGET);
wrapperTargets << WINSCW_DEPLOYMENT_TARGET
<< WINSCW_DEPLOYMENT_CLEAN_TARGET
<< DEPLOYMENT_TARGET
<< DEPLOYMENT_CLEAN_TARGET
<< STORE_BUILD_TARGET;
} else {
buildDeps.append(CREATE_TEMPS_TARGET " " PRE_TARGETDEPS_TARGET " " STORE_BUILD_TARGET);
cleanDeps.append(EXTENSION_CLEAN " " DEPLOYMENT_CLEAN_TARGET);
cleanDepsWinscw.append(EXTENSION_CLEAN " " WINSCW_DEPLOYMENT_CLEAN_TARGET " " DEPLOYMENT_CLEAN_TARGET);
finalDeps.append(FINALIZE_TARGET " " DEPLOYMENT_TARGET);
finalDepsWinscw.append(FINALIZE_TARGET " " WINSCW_DEPLOYMENT_TARGET " " DEPLOYMENT_TARGET);
wrapperTargets << PRE_TARGETDEPS_TARGET
<< CREATE_TEMPS_TARGET
<< EXTENSION_CLEAN
<< FINALIZE_TARGET
<< WINSCW_DEPLOYMENT_CLEAN_TARGET
<< WINSCW_DEPLOYMENT_TARGET
<< DEPLOYMENT_CLEAN_TARGET
<< DEPLOYMENT_TARGET
<< STORE_BUILD_TARGET;
}
t << "MAKMAKE: " << buildDeps << endl << endl;
t << "LIB: " << buildDeps << endl << endl;
t << "BLD: " << buildDeps << endl << endl;
t << "ifeq \"$(PLATFORM)\" \"WINSCW\"" << endl;
t << "CLEAN: " << cleanDepsWinscw << endl;
t << "else" << endl;
t << "CLEAN: " << cleanDeps << endl;
t << "endif" << endl << endl;
t << "CLEANLIB: " DO_NOTHING_TARGET << endl << endl;
t << "RESOURCE: " DO_NOTHING_TARGET << endl << endl;
t << "FREEZE: " DO_NOTHING_TARGET << endl << endl;
t << "SAVESPACE: " DO_NOTHING_TARGET << endl << endl;
t << "RELEASABLES: " DO_NOTHING_TARGET << endl << endl;
t << "ifeq \"$(PLATFORM)\" \"WINSCW\"" << endl;
t << "FINAL: " << finalDepsWinscw << endl;
t << "else" << endl;
t << "FINAL: " << finalDeps << endl;
t << "endif" << endl << endl;
QString makefile(Option::fixPathToTargetOS(fileInfo(wrapperFileName).canonicalFilePath()));
foreach(QString target, wrapperTargets) {
t << target << " : " << makefile << endl;
t << "\t-$(MAKE) -f \"" << makefile << "\" " << target << " QT_SIS_TARGET=$(VISUAL_CFG)-$(PLATFORM)" << endl << endl;
}
if (CA == NULL) {
X509_NAME_free(CAName);
Py_DECREF(CAList);
return NULL;
}
if (PyList_SetItem(CAList, i, CA)) {
Py_DECREF(CA);
Py_DECREF(CAList);
return NULL;
}
}
return CAList;
}
static char ssl_Connection_makefile_doc[] = "\n\
The makefile() method is not implemented, since there is no dup semantics\n\
for SSL connections\n\
\n\
@raise NotImplementedError\n\
";
static PyObject *
ssl_Connection_makefile(ssl_ConnectionObj *self, PyObject *args)
{
PyErr_SetString(PyExc_NotImplementedError, "Cannot make file object of SSL.Connection");
return NULL;
}
static char ssl_Connection_get_app_data_doc[] = "\n\
Get application data\n\
\n\
@return: The application data\n\
//Here are where the real methods start
int realmake_java::output_makefile() {
//First, we need to figure out what kind of Java compiler is available
int rc = 0; //This is the return code from the system command
std::string tmp = ""; //This is a string buffer
struct stat finfo; //This is used to check if a file exists
//Can we find a Java compiler on our own?
if(verbose)
std::cout << "Checking for a Java compiler..." << std::endl;
if(!comp.empty())
rc = stat(comp.c_str(),&finfo);
else {
comp = JAVAC;
tmp = "which " + JAVAC + " > /dev/null";
rc = system(tmp.c_str());
}
if(0 != rc) {
std::cerr << "realmake error: cannot determine what Java compiler to use" << std::endl;
std::cerr << "use the -c option to specify a compiler (i.e. -c /usr/bin/javac)" << std::endl;
return STATUS_MAKEFILE_ERR;
}
//Can we find a make program on our own?
if(verbose)
std::cout << "Checking for a make utility..." << std::endl;
if(!m_util.empty()) {
rc = stat(m_util.c_str(),&finfo);
if(0 != rc) {
std::cerr << "realmake error: cannot determine what make utility to use " << std::endl;
std::cerr << "use the -m option to specify a make utility (i.e. -m /usr/bin/make)" << std::endl;
return STATUS_MAKEFILE_ERR;
}
}
else {
m_util = make;
tmp = "which " + make + " > /dev/null";
rc = system(tmp.c_str());
}
if(0 != rc) {
tmp = "which " + gmake;
rc = system(tmp.c_str());
if(0 != rc) {
std::cerr << "realmake error: cannot determine which make utility to use" << std::endl;
return STATUS_MAKEFILE_ERR;
}
else
m_util = gmake;
}
//open a handle to the source code directory
DIR *dir = 0;
struct dirent *d_entry = 0;
dir = opendir(source_dir.c_str());
if(NULL == dir) {
std::cerr << "realmake error: the directory " << source_dir << " cannot be opened" << std::endl;
return STATUS_MAKEFILE_ERR;
}
//Now, check if the given directory actually has Java files
if(verbose)
std::cout << "Checking source files in (" << source_dir << ")..." << std::endl;
std::map <std::string,std::string> files;
while(NULL != (d_entry = readdir(dir))) {
if(DT_REG == d_entry->d_type) {
std::string buf(d_entry->d_name);
if((buf.find_last_of(".") + 1) < buf.length()) {
if(0 == strcasecmp("java",buf.substr(buf.find_last_of(".") + 1).c_str()))
files[buf] = buf;
//files[buf.substr(0,buf.find_last_of(".")) + ".java"] = buf;
}
}
}
if(files.empty()) {
std::cout << "realmake error: no Java files found in the (" << source_dir << ") directory" << std::endl;
std::cout << "Use " << src_dir << " argument to specify the source code directory" << std::endl;
closedir(dir);
return STATUS_MAKEFILE_ERR;
}
//open a file stream
srand(time(0));
std::stringstream convert;
convert << rand();
std::string filename = "Makefile." + convert.str();
std::ofstream makefile(filename.c_str());
if(!makefile) {
std::cerr << "realmake error: cannot open makefile for writing" << std::endl;
closedir(dir);
return STATUS_FILE_IO_ERR;
}
//Now, write data to the makefile
if(verbose)
std::cout << "Writing makefile..." << std::endl;
makefile << m_header << std::endl << std::endl;
makefile << "JAVA=" + comp << std::endl;
if(!flags.empty())
makefile << "CFLAGS=" + flags << std::endl;
else
makefile << "CFLAGS=" << std::endl;
/*if(!name.empty())
makefile << "NAME=" + source_dir + "/" + name << std::endl;
else
makefile << "NAME=" + source_dir + "/a.out" << std::endl;*/
makefile << "FILES=";
for(std::map <std::string,std::string>::iterator ii=files.begin(); ii != files.end(); ii++)
makefile << source_dir + "/" + (*ii).first << " ";
makefile << std::endl << std::endl;
makefile << "all: $(FILES)" << std::endl;
/*makefile << "$(NAME): $(CLASS)" << std::endl;*/
makefile << "\t$(JAVA) $(CFLAGS) $(FILES)" << std::endl << std::endl;
/*for(std::map <std::string,std::string>::iterator ii=files.begin(); ii != files.end(); ii++) {
makefile << (*ii).first << ": " << source_dir + "/" << (*ii).second << std::endl;
makefile << "\t$(JAVA) $(CFLAGS) " << source_dir + "/" << (*ii).second << std::endl << std::endl;
}*/
makefile << "clean:" << std::endl;
makefile << "\trm -f " << source_dir + "/*.class" << std::endl;
//Be sure to close the file stream
makefile.close();
closedir(dir);
makef_name = filename;
if(verbose)
std::cout << "Finished writing makefile..." << std::endl;
return STATUS_OK;
}
// Main Function
void _main(void)
{
signed char STATUS, a;
int plinkos;
unsigned char *Home = malloc(LCD_SIZE); // Allocate the SAVE_SCREEN buffer
if (Home == NULL) {
Error_Memory();
return;
}
LCD_save(Home); // Save LCD HomeScreen Contents
virtual_dark = malloc ( LCD_SIZE ); // Allocate the dark buffer
if (virtual_dark == NULL) {Error_Memory(); return; }
virtual_light=malloc ( LCD_SIZE ); // Allocate the light buffer
if (virtual_light == NULL) {
free(virtual_dark);
Error_Memory();
return;
}
randomize();
if (Gray_prep() == QUIT) {
Error_Memory();
goto end;
}
if (makefile() == QUIT) // Tests whether or not we need a default save file and installs one if the
// user doesn't already have one on their calc
goto end;
for(a = 10; a--;)
FADE_LIGHTER();
// Clears both Hidden Gray planes
ClearGrayScreen2B(Hiddenl, Hiddend);
GraySpriteX8_OR(52, 37, 27, titlel, titled, 7, Hiddenl, Hiddend);
FontSetSys (F_4x6);
GrayDBufSetHiddenAMSPlane (DARK_PLANE);
DrawStr(122, 94, "-- By Fisch", A_NORMAL);
GrayDBufSetHiddenAMSPlane (LIGHT_PLANE);
DrawStr(123, 95, "-- By Fisch", A_NORMAL);
GrayDBufToggleSync(); // switches two sets of planes
for(a = 10; a--;)
FADE_DARKER();
Waitkey();
NEW_GAME:
if ((STATUS = MENU()) == QUIT)
goto end;
if ((plinkos = PRODUCTS()) == QUIT)
goto end;
if ((STATUS = INTRO()) == QUIT)
goto end;
if ((STATUS = main_game(plinkos)) == QUIT)
goto end;
goto NEW_GAME;
end:
// Clean up at end of Program
Cleanup();
if (Home) {
LCD_restore(Home);
free(Home);
GKeyFlush();
ST_helpMsg("Plinko --By Travis Fischer");
}
}
