Transport::Transport()
: only_localhost_allowed_(false)
{
char *ros_ip_env = NULL, *ros_hostname_env = NULL;
#ifdef _MSC_VER
_dupenv_s(&ros_ip_env, NULL, "ROS_IP");
_dupenv_s(&ros_hostname_env, NULL, "ROS_HOSTNAME");
#else
ros_ip_env = getenv("ROS_IP");
ros_hostname_env = getenv("ROS_HOSTNAME");
#endif
if (ros_hostname_env && !strcmp(ros_hostname_env, "localhost"))
only_localhost_allowed_ = true;
else if (ros_ip_env && !strncmp(ros_ip_env, "127.", 4))
only_localhost_allowed_ = true;
else if (ros_ip_env && !strcmp(ros_ip_env, "::1"))
only_localhost_allowed_ = true;
char our_hostname[256] = {0};
gethostname(our_hostname, sizeof(our_hostname)-1);
allowed_hosts_.push_back(std::string(our_hostname));
allowed_hosts_.push_back("localhost");
#if !defined(__ANDROID__) && !defined(_MSC_VER)
// for ipv4 loopback, we'll explicitly search for 127.* in isHostAllowed()
// now we need to iterate all local interfaces and add their addresses
// from the getifaddrs manpage: (maybe something similar for windows ?)
ifaddrs *ifaddr;
if (-1 == getifaddrs(&ifaddr))
{
ROS_ERROR("getifaddr() failed");
return;
}
for (ifaddrs *ifa = ifaddr; ifa; ifa = ifa->ifa_next)
{
if(NULL == ifa->ifa_addr)
continue; // ifa_addr can be NULL
int family = ifa->ifa_addr->sa_family;
if (family != AF_INET && family != AF_INET6)
continue; // we're only looking for IP addresses
char addr[NI_MAXHOST] = {0};
if (getnameinfo(ifa->ifa_addr,
(family == AF_INET) ? sizeof(sockaddr_in)
: sizeof(sockaddr_in6),
addr, NI_MAXHOST,
NULL, 0, NI_NUMERICHOST))
{
ROS_ERROR("getnameinfo() failed");
continue;
}
allowed_hosts_.push_back(std::string(addr));
}
freeifaddrs(ifaddr);
#endif
}
void InitializeEnvironment() {
char *pValue;
size_t len;
errno_t err = _dupenv_s( &pValue, &len, "JAVA_HOME" );
gJavaHome = pValue;
char *path_env = (char*)malloc(sizeof(char)*2048);
_snprintf(path_env, 2048, "PATH=%s\\bin;%s", gJavaHome.c_str(), getenv("PATH"));
_putenv ( path_env );
err = _dupenv_s( &pValue, &len, "GEMFIRE" );
gGemfireHome = pValue;
}
void Prefs::open(){
char *p;//=getenv( "blitzpath" );
size_t len;
errno_t err=_dupenv_s( &p,&len,"blitzpath" );
if( err ){
AfxMessageBox( "blitzpath environment variable not found!",MB_TOPMOST|MB_SETFOREGROUND|MB_ICONINFORMATION );
ExitProcess(0);
}
homeDir=p;
free( p );
AddFontResource( (homeDir+"/cfg/blitz.fon").c_str() );
setDefault();
bool prg_windowed;
ifstream in( (homeDir+"/cfg/blitzide.prefs").c_str() );
if( !in.good() ) return;
while( !in.eof() ){
string t;in>>t;
if( !t.size() ) continue;
while( in.peek()=='\t' ) in.ignore();
if( t=="prg_debug" ) in>>prg_debug;
else if( t=="prg_lastbuild" ) getline( in,prg_lastbuild );
else if( t=="prg_windowed" ) in>>prg_windowed;
else if( t=="win_maximized" ) in>>win_maximized;
/**
* Test code to get a environment variable in Windows
*/
int main(int argc, char* argv[]) {
QCoreApplication app(argc, argv);
const QString envVar = "path"; // the name of the evnironment variable for which we want the value
char* pEnvVarVal = NULL; // the value that will be return from the function
#ifdef _WIN32
size_t envVarValSize; // the returned size of the variable
errno_t envVarErrorCode = _dupenv_s(&pEnvVarVal, &envVarValSize, envVar.toLatin1());
if(envVarErrorCode != 0 || envVarValSize == 0) {
// Handle error
// Note: for some reason an unknown variable may return success
// with a 0 size value instead of returning an error
std::cerr << "Unknown system variable " << envVar.toStdString() << std::endl;
}
else {
// Print value of the variable
std::cout << envVar.toStdString() << ":\t" << pEnvVarVal;
}
#else // Linux/Mac code
pEnvVarVal = getenv(envVar.toLatin1());
#endif
// Preven memory leak by cleaning up the variable's value after we are finished with it
delete pEnvVarVal;
pEnvVarVal = NULL;
return app.exec(); // this will prevent the application for exiting immediately
}
int git_init()
{
char *home;
char path[MAX_PATH+1];
char *prefix;
int ret;
size_t homesize,size;
_fmode = _O_BINARY;
_setmode(_fileno(stdin), _O_BINARY);
_setmode(_fileno(stdout), _O_BINARY);
_setmode(_fileno(stderr), _O_BINARY);
// set HOME if not set already
getenv_s(&homesize, NULL, 0, "HOME");
if (!homesize)
{
_dupenv_s(&home,&size,"USERPROFILE");
_putenv_s("HOME",home);
free(home);
}
GetModuleFileName(NULL, path, MAX_PATH);
convert_slash(path);
git_extract_argv0_path(path);
g_prefix = prefix = setup_git_directory();
ret = git_config(git_default_config, NULL);
if (!homesize)
{
_putenv_s("HOME","");/* clear home evironment to avoid affact third part software*/
}
return ret;
}
std::string get_home_folder ()
{
auto home_dir = std::string{};
char* appdata_folder{};
auto buffer_len = 0U;
errno_t error = _dupenv_s(&appdata_folder, &buffer_len, "LOCALAPPDATA");
if (error)
{
error = _dupenv_s(&appdata_folder, &buffer_len, "APPDATA");
}
if (!error)
{
home_dir = appdata_folder;
}
free(appdata_folder);
return home_dir;
}
const char *EstEID_getLogFilename() {
#ifdef _WIN32
if (!filename[0]) {
char *tempValue;
size_t length;
if(_dupenv_s(&tempValue, &length, "TEMP")) {
tempValue = strdup("");
}
sprintf_s(filename, MAX_LOG_FILE_NAME_LEN, "%s\\esteid.log", tempValue);
free(tempValue);
}
return filename;
#else
return "/tmp/esteid.log";
#endif
}
std::string Filesystem::getCurrentRobotDirectory(std::string name)
{
if (name.length() <= 0)
name = "unnamed";
char *dir;
errno_t err = _dupenv_s(&dir, NULL, "APPDATA");
if (err)
throw "Failed to get AppData directory!";
std::string strDir(dir);
free(dir);
return strDir + '\\' + ROBOT_APPDATA_DIRECTORY + '\\' + name + '\\';
}
//---------------------------------------------------------------
String DocumentExporter::getEnvironmentVariable ( const String & variableName )
{
char * buffer;
size_t numberOfElements;
errno_t error = _dupenv_s ( &buffer, &numberOfElements, variableName.c_str() );
if ( error != 0 )
{
free ( buffer );
return String();
}
String variableValue ( buffer, numberOfElements-1 );
free ( buffer );
return variableValue;
}
Formatter::Formatter() : doColor_(true){
// Check for the format string environment variable
char* format_string = NULL;
#ifdef _MSC_VER
_dupenv_s(&format_string, NULL, "SMCONSOLE_FORMAT");
#else
format_string = getenv("SMCONSOLE_FORMAT");
#endif
if (!format_string)
{
init("[${severity}] [${time}]: ${message}");
}
else
{
init(format_string);
}
}
void init(const M_string& remappings)
{
M_string::const_iterator it = remappings.find("__master");
if (it != remappings.end())
{
g_uri = it->second;
}
if (g_uri.empty())
{
char *master_uri_env = NULL;
#ifdef _MSC_VER
_dupenv_s(&master_uri_env, NULL, "ROS_MASTER_URI");
#else
master_uri_env = getenv("ROS_MASTER_URI");
#endif
if (!master_uri_env)
{
ROS_FATAL( "ROS_MASTER_URI is not defined in the environment. Either " \
"type the following or (preferrably) add this to your " \
"~/.bashrc file in order set up your " \
"local machine as a ROS master:\n\n" \
"export ROS_MASTER_URI=http://localhost:11311\n\n" \
"then, type 'roscore' in another shell to actually launch " \
"the master program.");
ROS_BREAK();
}
g_uri = master_uri_env;
#ifdef _MSC_VER
// http://msdn.microsoft.com/en-us/library/ms175774(v=vs.80).aspx
free(master_uri_env);
#endif
}
// Split URI into
if (!network::splitURI(g_uri, g_host, g_port))
{
ROS_FATAL( "Couldn't parse the master URI [%s] into a host:port pair.", g_uri.c_str());
ROS_BREAK();
}
}
void searchenv(char *filename, int fnsz, char *envname, char *pathname, int pthsz)
{
static char pbuf[5000];
char *p, *np;
size_t len;
// char *strpbrk(), *strtok(), *getenv();
strcpy_s(pathname, pthsz, filename);
if (_access(pathname, 0) != -1)
return;
/* ----------------------------------------------------------------------
The file doesn't exist in the current directory. If a specific
path was requested (ie. file contains \ or /) or if the environment
isn't set, return a NULL, else search for the file on the path.
---------------------------------------------------------------------- */
_dupenv_s(&p, &len, envname);
if (len==0)
{
*pathname = '\0';
return;
}
strncpy_s(pbuf, sizeof(pbuf), p, sizeof(pbuf));
np = nullptr;
if (p = strtok_s(pbuf, ";", &np))
{
do
{
if (p[strlen(p)-1]=='\\')
sprintf_s(pathname, pthsz-1, "%0.90s%s", p, filename);
else
sprintf_s(pathname, pthsz, "%0.90s\\%s", p, filename);
if (_access(pathname, 0) >= 0)
return;
}
while(p = strtok_s(NULL, ";", &np));
}
*pathname = 0;
}
/*! Get the value of an environment variable.
*
* The returned std::string is the full environment variable string, and thus
* may actually contain multiple fields in the string with delimiters.
*
* \param var_name The name of the variable to search for.
* \param default_val A default string value to use if the path isn't found.
* \returns The string value of the environment variable.
*/
static std::string get_env_var(const std::string &var_name,
const std::string &default_val = "") {
std::string env_result = default_val;
char *env_var_str = NULL;
/* Some versions of MinGW don't expose `_dupenv_s` */
#if defined(UHD_PLATFORM_WIN32) && !defined(__MINGW32__)
size_t len;
errno_t err = _dupenv_s(&env_var_str, &len, var_name.c_str());
if((not err) and (env_var_str != NULL))
env_result = std::string(env_var_str);
free(env_var_str);
#else
env_var_str = std::getenv(var_name.c_str());
if(env_var_str != NULL)
env_result = std::string(env_var_str);
#endif
return env_result;
}
std::vector<unsigned char> CTestCaseData::LoadFile(const std::string filename)
{
std::vector<unsigned char> vectorBuffer;
char* pFileSamplesPath;
size_t len = 0;
if (_dupenv_s(&pFileSamplesPath, &len, "FileSamplesPath") || !pFileSamplesPath)
{
pFileSamplesPath = TEST_DATA_PATH;
}
std::string fileSamplesPath(pFileSamplesPath);
if (fileSamplesPath.size() && (*fileSamplesPath.rbegin() != '\\'))
{
fileSamplesPath += L'\\';
}
auto file = fileSamplesPath + filename;
if (PathFileExistsA(file.c_str()))
{
HANDLE hFile = CreateFileA(file.c_str(), FILE_READ_ACCESS, FILE_SHARE_READ, NULL, OPEN_EXISTING, 0, NULL);
if (hFile != INVALID_HANDLE_VALUE)
{
auto fileSize = GetFileSize(hFile, NULL);
vectorBuffer.resize(fileSize);
DWORD dwBytesRead = 0;
ReadFile(hFile, &vectorBuffer[0], fileSize, &dwBytesRead, NULL);
CloseHandle(hFile);
}
}
else
{
vectorBuffer.resize(MAX_PATH);
GetCurrentDirectoryA(vectorBuffer.size() - 1, (LPSTR)&vectorBuffer[0]);
std::string filePath((LPSTR)&vectorBuffer[0]);
filePath += "\\" + file;
const std::wstring errorMessage(L"File not found: " + CPtoUCS2(filePath, CP_ACP));
Microsoft::VisualStudio::CppUnitTestFramework::Assert::Fail(errorMessage.c_str(), LINE_INFO());
}
return vectorBuffer;
}
const char *getLogFilename() {
#ifdef _WIN32
if (!filename[0]) {
char *tempValue;
size_t length;
if(_dupenv_s(&tempValue, &length, "TEMP")) {
tempValue = strdup("");
}
sprintf_s(filename, MAX_LOG_FILE_NAME_LEN, "%s\\esteid-pkcs11.log", tempValue);
free(tempValue);
}
return filename;
#elif __APPLE__
if (!filename[0]) {
char *tmp;
tmp = getenv("TMPDIR");
sprintf(filename, "%sesteid-pkcs11.log", tmp);
}
return filename;
#else
return "/tmp/esteid-pkcs11.log";
#endif
}
/* Returns the program's appdata folder. */
std::string getAppDataFolder()
{
#if PLATFORM == PLATFORM_WINDOWS
/* Create a pointer and a size_t. */
char *buff;
size_t size = 0;
/* Get the address. */
_dupenv_s(&buff, &size, "APPDATA");
/* Store the address into a string. */
std::string addr = buff;
addr += "\\DarkRedemption\\";
/* Free the buffer given to us. */
free(buff);
/* Return the string. */
return addr;
#else
return "";
#endif
}
void InitializeLogging()
{
char * loggingFileName = NULL;
size_t loggingFileNameLength = 0;
_dupenv_s(& loggingFileName, & loggingFileNameLength, LOGGING_ENV_VAR);
if (loggingFileName != NULL)
{
// If the environment variable contains the path of a currently existing directory,
// then use a process-specific name for the log file and put it in that directory.
// Otherwise, assume that the environment variable specifies the name of the log file.
DWORD attributes = GetFileAttributesA(loggingFileName);
if (attributes != INVALID_FILE_ATTRIBUTES && ((attributes & FILE_ATTRIBUTE_DIRECTORY) == FILE_ATTRIBUTE_DIRECTORY))
{
char* loggingDirName = loggingFileName;
size_t bufferSize = loggingFileNameLength + 30; // Need space for PID and tick count
loggingFileName = new char[bufferSize];
_snprintf_s(loggingFileName, bufferSize, _TRUNCATE, "%s\\client.%d.%d.log", loggingDirName, GetCurrentProcessId(), GetTickCount());
delete[] loggingDirName;
}
logFile = _fsopen(loggingFileName, "at", _SH_DENYNO);
delete[] loggingFileName;
}
}
/**
* Discover available (pre-allocated) nodes. Allocate the
* requested number of nodes/process slots to the job.
*/
static int orte_ras_ccp_allocate(opal_list_t *nodes)
{
int ret, i;
size_t len;
char *cluster_head = NULL;
HRESULT hr = S_OK;
ICluster* pCluster = NULL;
/* CCP is not thread safe. Use the apartment model. */
CoInitializeEx(NULL, COINIT_APARTMENTTHREADED);
/* Create the Cluster object. */
hr = CoCreateInstance( __uuidof(Cluster),
NULL,
CLSCTX_INPROC_SERVER,
__uuidof(ICluster),
reinterpret_cast<void **> (&pCluster) );
if (FAILED(hr)) {
OPAL_OUTPUT_VERBOSE((1, orte_ras_base.ras_output,
"ras:ccp:allocate: failed to create cluster object!"));
return ORTE_ERROR;
}
if(NULL == orte_ccp_headnode) {
/* Get the cluster head nodes name */
_dupenv_s(&cluster_head, &len, "LOGONSERVER");
if(cluster_head == NULL) {
OPAL_OUTPUT_VERBOSE((1, orte_ras_base.ras_output,
"ras:ccp:allocate: connot find cluster head node!"));
return ORTE_ERROR;
}
/* Get rid of the beginning '//'. */
for( i = 0; i < len - 2; i++){
cluster_head[i] = cluster_head[i+2];
cluster_head[i+2] = '\0';
}
} else {
cluster_head = orte_ccp_headnode;
}
/* Connect to the cluster's head node */
hr = pCluster->Connect(_bstr_t(cluster_head));
if (FAILED(hr)) {
ras_get_cluster_message(pCluster);
OPAL_OUTPUT_VERBOSE((1, orte_ras_base.ras_output,
"ras:ccp:allocate: connection failed!"));
return ORTE_ERROR;
}
if (ORTE_SUCCESS != (ret = discover(nodes, pCluster))) {
OPAL_OUTPUT_VERBOSE((1, orte_ras_base.ras_output,
"ras:ccp:allocate: discover failed!"));
return ret;
}
/* in the CCP world, if we didn't find anything, then this
* is an unrecoverable error - report it
*/
if (opal_list_is_empty(nodes)) {
orte_show_help("help-ras-ccp.txt", "no-nodes-found", true);
return ORTE_ERR_NOT_FOUND;
}
/* All finished, release cluster object*/
pCluster->Release();
CoUninitialize();
return ret;
}
static int discover(opal_list_t* nodelist, ICluster* pCluster)
{
int ret = ORTE_ERROR;
int32_t nodeid;
orte_node_t *node;
opal_list_item_t* item;
opal_list_t new_nodes;
struct timeval start, stop;
HRESULT hr = S_OK;
long idle_processors = 0;
IClusterEnumerable* pNodesCollection = NULL;
IEnumVARIANT* pNodes = NULL;
INode* pNode = NULL;
BSTR node_name = NULL, node_arch = NULL;
VARIANT var;
NodeStatus Status;
size_t len;
/* check for timing request - get start time if so */
if (orte_timing) {
gettimeofday(&start, NULL);
}
/* Get the collection of nodes. */
hr = pCluster->get_ComputeNodes(&pNodesCollection);
if (FAILED(hr)) {
ras_get_cluster_message(pCluster);
OPAL_OUTPUT_VERBOSE((1, orte_ras_base.ras_output,
"ras:ccp:pCluster->get_ComputeNodes failed."));
return ORTE_ERROR;
}
/* Get the enumerator used to iterate through the collection. */
hr = pNodesCollection->GetEnumerator(&pNodes);
if (FAILED(hr)) {
ras_get_cluster_message(pCluster);
OPAL_OUTPUT_VERBOSE((1, orte_ras_base.ras_output,
"ras:ccp:pNodesCollection->GetEnumerator failed."));
return ORTE_ERROR;
}
VariantInit(&var);
/* Construct new node list. */
OBJ_CONSTRUCT(&new_nodes, opal_list_t);
nodeid=0;
/* Loop through the collection. */
while (hr = pNodes->Next(1, &var, NULL) == S_OK) {
var.pdispVal->QueryInterface(IID_INode, reinterpret_cast<void **> (&pNode));
/* Check wether the node is ready.
* There are four states:
* NodeStatus_Ready = 0,
* NodeStatus_Paused = 1,
* NodeStatus_Unreachable = 2, probably not a windows cluster node.
* NodeStatus_PendingApproval = 3
*/
hr = pNode->get_Status(&Status);
if (FAILED(hr)) {
OPAL_OUTPUT_VERBOSE((1, orte_ras_base.ras_output,
"ras:ccp:pNode->get_Status failed."));
ret = ORTE_ERROR;
goto cleanup;
}
/* Get available number of processors on each node. */
hr = pNode->get_NumberOfIdleProcessors(&idle_processors);
if (FAILED(hr)) {
OPAL_OUTPUT_VERBOSE((1, orte_ras_base.ras_output,
"ras:ccp:pNode->get_NumberOfIdleProcessors failed."));
ret = ORTE_ERROR;
goto cleanup;
}
/* Do we have enough processors on the available nodes?
* Question: How do we get the required number of processors?
*/
if ( (Status == NodeStatus_Ready) && (idle_processors > 0) ) {
/* Get node name. */
hr = pNode->get_Name(&node_name);
if (FAILED(hr)) {
OPAL_OUTPUT_VERBOSE((1, orte_ras_base.ras_output,
"ras:ccp:pNode->get_Name failed."));
ret = ORTE_ERROR;
goto cleanup;
}
/* Get node processor architecture. */
hr = pNode->get_ProcessorArchitecture(&node_arch);
if (FAILED(hr)) {
OPAL_OUTPUT_VERBOSE((1, orte_ras_base.ras_output,
"ras:ccp:pNode->get_ProcessorArchitecture failed."));
ret = ORTE_ERROR;
goto cleanup;
}
/* Prevent duplicated nodes in the list*/
for (item = opal_list_get_first(&new_nodes);
opal_list_get_end(&new_nodes) != item;
item = opal_list_get_next(item)) {
node = (orte_node_t*) item;
if (0 == strcmp(node->name, (char *)node_name)) {
++node->slots;
OPAL_OUTPUT_VERBOSE((1, orte_ras_base.ras_output,
"ras:ccp:allocate:discover: found -- bumped slots to %d",
node->slots));
break;
}
}
/* Did we find it? */
if (opal_list_get_end(&new_nodes) == item) {
/* Nope -- didn't find it, so add a new item to the list */
OPAL_OUTPUT_VERBOSE((1, orte_ras_base.ras_output,
"ras:ccp:allocate:discover: not found -- added to list"));
node = OBJ_NEW(orte_node_t);
/* The function _dupenv_s is much safer than getenv on Windows. */
_dupenv_s(&node->username, &len, "username");
node->name = _com_util::ConvertBSTRToString(node_name);
node->launch_id = nodeid;
node->slots_inuse = 0;
node->slots_max = 0;
node->slots = 1;
opal_list_append(nodelist, &node->super);
}
/* up the nodeid */
nodeid++;
}
pNode->Release();
VariantClear(&var);
}
pNodes->Release();
if (nodeid > 0) ret = ORTE_SUCCESS;
/* All done */
cleanup:
if (ORTE_SUCCESS == ret) {
OPAL_OUTPUT_VERBOSE((1, orte_ras_base.ras_output,
"ras:ccp:allocate:discover: success"));
} else {
OPAL_OUTPUT_VERBOSE((1, orte_ras_base.ras_output,
"ras:ccp:allocate:discover: failed (rc=%d)", ret));
}
OBJ_DESTRUCT(&new_nodes);
SysFreeString(node_name);
SysFreeString(node_arch);
/* check for timing request - get stop time and report elapsed time if so */
if (orte_timing) {
gettimeofday(&stop, NULL);
opal_output(0, "ras_ccp: time to allocate is %ld usec",
(long int)((stop.tv_sec - start.tv_sec)*1000000 +
(stop.tv_usec - start.tv_usec)));
gettimeofday(&start, NULL);
}
return ret;
}
rmw_node_t *
rmw_create_node(const char * name, size_t domain_id)
{
if (!name) {
RMW_SET_ERROR_MSG("name is null");
return nullptr;
}
DDS::DomainParticipantFactory_var dp_factory = DDS::DomainParticipantFactory::get_instance();
if (!dp_factory) {
RMW_SET_ERROR_MSG("failed to get domain participant factory");
return nullptr;
}
DDS::DomainId_t domain = static_cast<DDS::DomainId_t>(domain_id);
DDS::DomainParticipant * participant = nullptr;
// Make sure that the OSPL_URI is set, otherwise node creation will fail.
char * ospl_uri = nullptr;
const char * ospl_uri_env = "OSPL_URI";
#ifndef _WIN32
ospl_uri = getenv(ospl_uri_env);
#else
size_t ospl_uri_size;
_dupenv_s(&ospl_uri, &ospl_uri_size, ospl_uri_env);
#endif
if (!ospl_uri) {
RMW_SET_ERROR_MSG("OSPL_URI not set");
return nullptr;
} else {
#ifdef _WIN32
free(ospl_uri);
#endif
}
// Ensure the ROS_DOMAIN_ID env variable is set, otherwise parsing of the config may fail.
// Also make sure the it is set to the domain_id passed in, otherwise it will fail.
// But first backup the current ROS_DOMAIN_ID.
char * ros_domain_id = nullptr;
const char * env_var = "ROS_DOMAIN_ID";
#ifndef _WIN32
ros_domain_id = getenv(env_var);
#else
size_t ros_domain_id_size;
_dupenv_s(&ros_domain_id, &ros_domain_id_size, env_var);
#endif
// On Windows, setting the ROS_DOMAIN_ID does not fix the problem, so error early.
#ifdef _WIN32
if (!ros_domain_id) {
RMW_SET_ERROR_MSG("environment variable ROS_DOMAIN_ID is not set");
fprintf(stderr, "[rmw_opensplice_cpp]: error: %s\n", rmw_get_error_string_safe());
return nullptr;
}
#endif
// Set the ROS_DOMAIN_ID explicitly (if not Windows).
#ifndef _WIN32
auto domain_id_as_string = std::to_string(domain_id);
int ret = 0;
ret = setenv(env_var, domain_id_as_string.c_str(), 1);
if (0 != ret) {
RMW_SET_ERROR_MSG("failed to set the ROS_DOMAIN_ID");
return nullptr;
}
#endif
participant = dp_factory->create_participant(
domain, PARTICIPANT_QOS_DEFAULT, NULL, DDS::STATUS_MASK_NONE);
if (!participant) {
RMW_SET_ERROR_MSG("failed to create domain participant");
return NULL;
}
// Restore the ROS_DOMAIN_ID if necessary (and not Windows).
#ifndef _WIN32
if (ros_domain_id) {
ret = setenv(env_var, ros_domain_id, 1);
if (0 != ret) {
RMW_SET_ERROR_MSG("failed to reset the ROS_DOMAIN_ID");
return nullptr;
}
} else {
// Otherwise unset it again.
ret = unsetenv(env_var);
if (0 != ret) {
RMW_SET_ERROR_MSG("failed to unset the ROS_DOMAIN_ID");
return nullptr;
}
}
#endif
rmw_node_t * node = nullptr;
OpenSpliceStaticNodeInfo * node_info = nullptr;
CustomPublisherListener * publisher_listener = nullptr;
CustomSubscriberListener * subscriber_listener = nullptr;
void * buf = nullptr;
DDS::DataReader * data_reader = nullptr;
DDS::PublicationBuiltinTopicDataDataReader * builtin_publication_datareader = nullptr;
DDS::SubscriptionBuiltinTopicDataDataReader * builtin_subscription_datareader = nullptr;
DDS::Subscriber * builtin_subscriber = participant->get_builtin_subscriber();
if (!builtin_subscriber) {
RMW_SET_ERROR_MSG("builtin subscriber handle is null");
goto fail;
}
// setup publisher listener
data_reader = builtin_subscriber->lookup_datareader("DCPSPublication");
builtin_publication_datareader =
DDS::PublicationBuiltinTopicDataDataReader::_narrow(data_reader);
if (!builtin_publication_datareader) {
RMW_SET_ERROR_MSG("builtin publication datareader handle is null");
goto fail;
}
buf = rmw_allocate(sizeof(CustomPublisherListener));
if (!buf) {
RMW_SET_ERROR_MSG("failed to allocate memory");
goto fail;
}
RMW_TRY_PLACEMENT_NEW(publisher_listener, buf, goto fail, CustomPublisherListener)
buf = nullptr;
builtin_publication_datareader->set_listener(publisher_listener, DDS::DATA_AVAILABLE_STATUS);
data_reader = builtin_subscriber->lookup_datareader("DCPSSubscription");
builtin_subscription_datareader =
DDS::SubscriptionBuiltinTopicDataDataReader::_narrow(data_reader);
if (!builtin_subscription_datareader) {
RMW_SET_ERROR_MSG("builtin subscription datareader handle is null");
goto fail;
}
// setup subscriber listener
buf = rmw_allocate(sizeof(CustomSubscriberListener));
if (!buf) {
RMW_SET_ERROR_MSG("failed to allocate memory");
goto fail;
}
RMW_TRY_PLACEMENT_NEW(subscriber_listener, buf, goto fail, CustomSubscriberListener)
buf = nullptr;
builtin_subscription_datareader->set_listener(subscriber_listener, DDS::DATA_AVAILABLE_STATUS);
node = rmw_node_allocate();
if (!node) {
RMW_SET_ERROR_MSG("failed to allocate rmw_node_t");
goto fail;
}
node->name = reinterpret_cast<const char *>(rmw_allocate(sizeof(char) * strlen(name) + 1));
if (!node->name) {
RMW_SET_ERROR_MSG("failed to allocate memory for node name");
goto fail;
}
memcpy(const_cast<char *>(node->name), name, strlen(name) + 1);
buf = rmw_allocate(sizeof(OpenSpliceStaticNodeInfo));
if (!buf) {
RMW_SET_ERROR_MSG("failed to allocate memory");
goto fail;
}
RMW_TRY_PLACEMENT_NEW(node_info, buf, goto fail, OpenSpliceStaticNodeInfo)
buf = nullptr;
node_info->participant = participant;
node_info->publisher_listener = publisher_listener;
node_info->subscriber_listener = subscriber_listener;
node->implementation_identifier = opensplice_cpp_identifier;
node->data = node_info;
return node;
fail:
if (participant) {
if (dp_factory->delete_participant(participant) != DDS::RETCODE_OK) {
std::stringstream ss;
ss << "leaking domain participant while handling failure at: " <<
__FILE__ << ":" << __LINE__ << '\n';
(std::cerr << ss.str()).flush();
}
}
if (publisher_listener) {
RMW_TRY_DESTRUCTOR_FROM_WITHIN_FAILURE(
publisher_listener->~CustomPublisherListener(), CustomPublisherListener)
rmw_free(publisher_listener);
}
if (subscriber_listener) {
RMW_TRY_DESTRUCTOR_FROM_WITHIN_FAILURE(
subscriber_listener->~CustomSubscriberListener(), CustomSubscriberListener)
rmw_free(subscriber_listener);
}
if (node_info) {
RMW_TRY_DESTRUCTOR_FROM_WITHIN_FAILURE(
node_info->~OpenSpliceStaticNodeInfo(), OpenSpliceStaticNodeInfo)
rmw_free(node_info);
}
if (buf) {
rmw_free(buf);
}
if (node) {
if (node->name) {
rmw_free(const_cast<char *>(node->name));
}
rmw_node_free(node);
}
return nullptr;
}
static void setup_python(int argc, char **argv) {
char *pathlist = NULL;
TCHAR szPath[MAX_PATH];
std::string module_path;
if (GetModuleFileName(NULL, szPath, MAX_PATH)) {
CHAR char_path[MAX_PATH] = {0};
WideCharToMultiByte(CP_UTF8, 0, szPath, -1, char_path, MAX_PATH, NULL, NULL);
std::string full_path(char_path);
size_t path_end = full_path.find_last_of('\\');
if (path_end != std::string::npos)
module_path = full_path.substr(0, path_end + 1);
}
#if 0
if (_dupenv_s(&pathlist, &bufsize, "PYTHONPATH") == 0 && pathlist)
{
int len = strlen("PYTHONPATH")+1+strlen(pathlist)+strlen(";python;scripts")+1;
char *tmp = (char*)malloc(len);
sprintf_s(tmp, len, "PYTHONPATH=%s;python;scripts", pathlist);
_putenv(tmp);
free(tmp);
}
else
#endif
SetDllDirectoryA((module_path + "..").c_str());
// This should initialize PYTHONPATH, but for some reason it doesn't work when built in VS2010.
std::string pythonpath;
pythonpath.append(module_path).append("modules;");
pythonpath.append(module_path).append("python;");
pythonpath.append(module_path).append("python\\Lib;");
pythonpath.append(module_path).append("python\\libs;");
pythonpath.append(module_path).append("python\\DLLs;");
_putenv_s("PYTHONHOME", "python");
_putenv_s("PYTHONPATH", pythonpath.c_str());
if (pathlist)
free(pathlist);
Py_SetProgramName(argv[0]);
// Here comes some ugly hack to fix PYTHONPATH init problem.
// Create dummy site package to avoid error import site message from Py_Initialize();
FILE *pFile;
pFile = fopen("site.py", "w");
if (pFile != NULL)
fclose(pFile);
Py_Initialize();
// Delete dummy site module.
remove("site.py");
remove("site.pyc");
PySys_SetArgv(argc, argv);
// Now import sys and modify PYTHONPATH.
PyRun_SimpleString("import sys");
PyRun_SimpleString("sys.path.append('modules')");
PyRun_SimpleString("sys.path.append('python')");
PyRun_SimpleString("sys.path.append('python\\Lib')");
PyRun_SimpleString("sys.path.append('python\\libs')");
PyRun_SimpleString("sys.path.append('python\\DLLs')");
// Reload site module with real module from updated PYTHONPATH.
PyRun_SimpleString("import site");
PyRun_SimpleString("reload(site)");
}
// do all the important initialization stuffz
bool InitializepreVentrilo()
{
std::ifstream fin(strSettingsFile.c_str());
std::string line;
if(!std::getline(fin, line))
{
char *pProg;
size_t len;
errno_t err = _dupenv_s( &pProg, &len, "PROGRAMFILES" );
if(!err)
{
settings.ventPath = pProg;
settings.ventPath += "\\Ventrilo\\Ventrilo.exe";
free( pProg );
}
else
settings.ventPath = "";
}
else
settings.ventPath = line;
if(!(fin >> settings.pauseType))
settings.pauseType = (PAUSE_TYPE_OTHERS | PAUSE_TYPE_SELF);
if(!(fin >> settings.mediaPlayer))
settings.mediaPlayer = MEDIA_PLAYER_WINAMP;
if(!(fin >> settings.bAdjustVolume))
settings.bAdjustVolume = true;
if(!(fin >> settings.nAdjustedVolume))
settings.nAdjustedVolume = 29;
fin.close();
SaveSettings();
hinstDLL = LoadLibrary("prevent.dll");
if(hinstDLL == NULL)
{
MessageBox(NULL, "Unable to load prevent.dll", NULL, NULL);
return false;
}
pSetVentHook = (LPSetVentHook)GetProcAddress(hinstDLL, "SetVentHook");
pKillVentHook = GetProcAddress(hinstDLL, "KillVentHook");
pSetMediaPlayer = (LPdwhwnd)GetProcAddress(hinstDLL, "SetMediaPlayer");
pSetMuteType = (LPSetMuteType)GetProcAddress(hinstDLL, "SetMuteType");
if(pSetVentHook == NULL || pKillVentHook == NULL || pSetMediaPlayer == NULL || pSetMuteType == NULL)
{
MessageBox(NULL, "Unable to load DLL functions", NULL, NULL);
return false;
}
hWndVent = FindWindow( NULL, "Ventrilo");
if(hWndVent == NULL)
{
if((int)ShellExecute(NULL, "open", settings.ventPath.c_str(), "", NULL, SW_SHOWNORMAL) <= 32)
{
MessageBox(NULL, "Please select the Ventrilo executable.", NULL, NULL);
OPENFILENAME ofn;
char szFileName[MAX_PATH] = "";
ZeroMemory(&ofn, sizeof(ofn));
ofn.lStructSize = sizeof(ofn);
ofn.hwndOwner = NULL;
ofn.lpstrFilter = "Ventrilo.exe\0Ventrilo.exe\0All Files (*.*)\0*.*\0";
ofn.lpstrFile = szFileName;
ofn.nMaxFile = MAX_PATH;
ofn.Flags = OFN_FILEMUSTEXIST | OFN_HIDEREADONLY | OFN_NOCHANGEDIR;
ofn.lpstrDefExt = "exe";
if(GetOpenFileName(&ofn))
{
settings.ventPath = szFileName;
ShellExecute(NULL, "open", settings.ventPath.c_str(), "", NULL, SW_SHOWNORMAL);
}
}
}
hThreadVent = CreateThread(
NULL, // default security attributes
0, // use default stack size
ThreadVentProc, // thread function
NULL, // argument to thread function
0, // use default creation flags
&dwThreadVentId); // returns the thread identifier
if(hThreadVent == NULL)
{
MessageBox(NULL, "Error.", NULL, NULL);
return false;
}
OnMediaPlayer();
return true;
}
/*
* Perform initialization. This usually happens on the program startup
* and restarting after glutMainLoop termination...
*/
void FGAPIENTRY glutInit( int* pargc, char** argv )
{
char* displayName = NULL;
char* geometry = NULL;
size_t len;
errno_t err = 0;
int i, j, argc = *pargc;
if( fgState.Initialised )
fgError( "illegal glutInit() reinitialization attempt" );
if (pargc && *pargc && argv && *argv && **argv)
{
fgState.ProgramName = strdup (*argv);
if( !fgState.ProgramName )
fgError ("Could not allocate space for the program's name.");
}
fgCreateStructure( );
fgElapsedTime( );
/* check if GLUT_FPS env var is set */
#if !TARGET_HOST_WINCE
{
char *fps = NULL;
err = _dupenv_s( &fps, &len, "GLUT_FPS" );
if( len )
{
int interval;
sscanf_s( fps, "%d", &interval );
if( interval <= 0 )
fgState.FPSInterval = 5000; /* 5000 millisecond default */
else
fgState.FPSInterval = interval;
}
}
err = _dupenv_s( &displayName, &len, "DISPLAY" );
for( i = 1; i < argc; i++ )
{
if( strcmp( argv[ i ], "-display" ) == 0 )
{
if( ++i >= argc )
fgError( "-display parameter must be followed by display name" );
displayName = argv[ i ];
argv[ i - 1 ] = NULL;
argv[ i ] = NULL;
( *pargc ) -= 2;
}
else if( strcmp( argv[ i ], "-geometry" ) == 0 )
{
if( ++i >= argc )
fgError( "-geometry parameter must be followed by window "
"geometry settings" );
geometry = argv[ i ];
argv[ i - 1 ] = NULL;
argv[ i ] = NULL;
( *pargc ) -= 2;
}
else if( strcmp( argv[ i ], "-direct" ) == 0)
{
if( fgState.DirectContext == GLUT_FORCE_INDIRECT_CONTEXT )
fgError( "parameters ambiguity, -direct and -indirect "
"cannot be both specified" );
fgState.DirectContext = GLUT_FORCE_DIRECT_CONTEXT;
argv[ i ] = NULL;
( *pargc )--;
}
else if( strcmp( argv[ i ], "-indirect" ) == 0 )
{
if( fgState.DirectContext == GLUT_FORCE_DIRECT_CONTEXT )
fgError( "parameters ambiguity, -direct and -indirect "
"cannot be both specified" );
fgState.DirectContext = GLUT_FORCE_INDIRECT_CONTEXT;
argv[ i ] = NULL;
(*pargc)--;
}
else if( strcmp( argv[ i ], "-iconic" ) == 0 )
{
fgState.ForceIconic = GL_TRUE;
argv[ i ] = NULL;
( *pargc )--;
}
else if( strcmp( argv[ i ], "-gldebug" ) == 0 )
{
fgState.GLDebugSwitch = GL_TRUE;
argv[ i ] = NULL;
( *pargc )--;
}
else if( strcmp( argv[ i ], "-sync" ) == 0 )
{
fgState.XSyncSwitch = GL_TRUE;
argv[ i ] = NULL;
( *pargc )--;
}
}
/* Compact {argv}. */
for( i = j = 1; i < *pargc; i++, j++ )
{
/* Guaranteed to end because there are "*pargc" arguments left */
while ( argv[ j ] == NULL )
j++;
if ( i != j )
argv[ i ] = argv[ j ];
}
#endif /* TARGET_HOST_WINCE */
/*
* Have the display created now. If there wasn't a "-display"
* in the program arguments, we will use the DISPLAY environment
* variable for opening the X display (see code above):
*/
fghInitialize( displayName );
/*
* Geometry parsing deffered until here because we may need the screen
* size.
*/
if (geometry )
{
unsigned int parsedWidth, parsedHeight;
int mask = XParseGeometry( geometry,
&fgState.Position.X, &fgState.Position.Y,
&parsedWidth, &parsedHeight );
/* TODO: Check for overflow? */
fgState.Size.X = parsedWidth;
fgState.Size.Y = parsedHeight;
if( (mask & (WidthValue|HeightValue)) == (WidthValue|HeightValue) )
fgState.Size.Use = GL_TRUE;
if( mask & XNegative )
fgState.Position.X += fgDisplay.ScreenWidth - fgState.Size.X;
if( mask & YNegative )
fgState.Position.Y += fgDisplay.ScreenHeight - fgState.Size.Y;
if( (mask & (XValue|YValue)) == (XValue|YValue) )
fgState.Position.Use = GL_TRUE;
}
}
/**
* Windows DLL entry point function. This ensures that the environment
* variable \c TWEEK_BASE_DIR is set as soon as this DLL is attached to the
* process. If it is not set, then it sets it based on an assumption about the
* structure of a Tweek installation. More specifically, an assumption is made
* that this DLL lives in the \c lib subdirectory of the Tweek installation.
* Therefore, the root of the Tweek installation is the parent of the
* directory containing this DLL.
*/
BOOL __stdcall DllMain(HINSTANCE module, DWORD reason, LPVOID reserved)
{
switch (reason)
{
case DLL_PROCESS_ATTACH:
{
char* env_dir(NULL);
#if defined(_MSC_VER) && _MSC_VER >= 1400
size_t len;
_dupenv_s(&env_dir, &len, "TWEEK_BASE_DIR");
#else
env_dir = std::getenv("TWEEK_BASE_DIR");
#endif
try
{
fs::path base_dir;
// If TWEEK_BASE_DIR is not set, look up the path to this DLL
// and use it to provide a default setting for that environment
// variable.
if ( NULL == env_dir )
{
char tmppath[1024];
std::memset(tmppath, 0, sizeof(tmppath));
GetModuleFileName(module, tmppath, sizeof(tmppath));
const fs::path dll_path(tmppath, fs::native);
base_dir = dll_path.branch_path().branch_path();
#if (defined(JUGGLER_DEBUG) || defined(TWEEK_DEBUG)) && ! defined(_DEBUG)
// The debug DLL linked against the release runtime is in
// <base_dir>\lib\debug.
base_dir = base_dir.branch_path();
#endif
const std::string base_dir_str =
base_dir.native_directory_string();
#if defined(_MSC_VER) && _MSC_VER >= 1400
_putenv_s("TWEEK_BASE_DIR", base_dir_str.c_str());
#else
std::ostringstream env_stream;
env_stream << "TWEEK_BASE_DIR=" << base_dir_str;
putenv(env_stream.str().c_str());
#endif
}
else
{
base_dir = fs::path(env_dir, fs::native);
#if defined(_MSC_VER) && _MSC_VER >= 1400
std::free(env_dir);
env_dir = NULL;
#endif
}
#if defined(_MSC_VER) && _MSC_VER >= 1400
_dupenv_s(&env_dir, &len, "TWEEK_DATA_DIR");
#else
env_dir = std::getenv("TWEEK_DATA_DIR");
#endif
// If TWEEK_BASE_DIR is not set, set a default relative to
// base_dir.
if ( NULL == env_dir )
{
fs::path data_dir(base_dir / "share" / "tweek");
const std::string data_dir_str =
data_dir.native_directory_string();
#if defined(_MSC_VER) && _MSC_VER >= 1400
_putenv_s("TWEEK_DATA_DIR", data_dir_str.c_str());
#else
std::ostringstream env_stream;
env_stream << "TWEEK_DATA_DIR=" << data_dir_str;
putenv(env_stream.str().c_str());
#endif
}
#if defined(_MSC_VER) && _MSC_VER >= 1400
else
{
std::free(env_dir);
env_dir = NULL;
}
#endif
}
catch (fs::filesystem_error& ex)
{
std::cerr << "Automatic assignment of Tweek environment "
<< "variables failed:\n" << ex.what() << std::endl;
#if defined(_MSC_VER) && _MSC_VER >= 1400
if ( NULL != env_dir )
{
std::free(env_dir);
}
#endif
}
}
break;
default:
break;
}
return TRUE;
}
void main()
{
if (!CONFIG::get("saveFile", fileName))
{
char *pValue;
size_t len;
errno_t err = _dupenv_s(&pValue, &len, "USERPROFILE");
if (err)
fileName = string("C:\\savedcoords.txt");
else
fileName = string(pValue) + "\\Documents\\Rockstar Games\\GTA V\\savedcoords.txt";
}
sendPlayerMessage("GTAV DevHelper by Funtik Initialized");
sendPlayerMessage("Press F6 to open chat textbox");
auto loadEntities = []()
{
if (!CONFIG::loadList("devhelper/vehicles.txt", vehicles))
sendPlayerMessage("Can not load devhelper/vehicles.txt", 255, 0, 0);
else
{
maxVehNr = vehicles.size() - 1;
sendPlayerMessage("Vehicles loaded", 0, 255, 0);
}
if (!CONFIG::loadList("devhelper/peds.txt", peds))
sendPlayerMessage("Can not load devhelper/peds.txt", 255, 0, 0);
else
{
maxPedNr = peds.size() - 1;
sendPlayerMessage("Peds loaded", 0, 255, 0);
}
if (!CONFIG::loadList("devhelper/objects.txt", objects))
sendPlayerMessage("Can not load devhelper/objects.txt", 255, 0, 0);
else
{
maxObjNr = objects.size() - 1;
sendPlayerMessage("Objects loaded", 0, 255, 0);
}
};
thread(loadEntities).detach();
while (true)
{
Player player = PLAYER::PLAYER_ID();
Ped playerPed = PLAYER::PLAYER_PED_ID();
if (ENTITY::DOES_ENTITY_EXIST(playerPed))
{
Hash model = ENTITY::GET_ENTITY_MODEL(playerPed);
if (ENTITY::IS_ENTITY_DEAD(playerPed) || PLAYER::IS_PLAYER_BEING_ARRESTED(player, TRUE))
{
if (model != GAMEPLAY::GET_HASH_KEY("player_zero") &&
model != GAMEPLAY::GET_HASH_KEY("player_one") &&
model != GAMEPLAY::GET_HASH_KEY("player_two"))
{
model = GAMEPLAY::GET_HASH_KEY("player_zero");
STREAMING::REQUEST_MODEL(model);
while (!STREAMING::HAS_MODEL_LOADED(model))
WAIT(0);
PLAYER::SET_PLAYER_MODEL(player, model);
PED::SET_PED_DEFAULT_COMPONENT_VARIATION(playerPed);
STREAMING::SET_MODEL_AS_NO_LONGER_NEEDED(model);
while (ENTITY::IS_ENTITY_DEAD(PLAYER::PLAYER_PED_ID()) || PLAYER::IS_PLAYER_BEING_ARRESTED(player, TRUE))
WAIT(0);
}
}
}
if (modKitId != -1)
{
VEHICLE::SET_VEHICLE_MOD_KIT(lastVehId, modKitId);
sendPlayerMessage("Your car\'s modkit changed", 0, 255, 0);
modKitId = -1;
}
if (vehCreateId != -1)
{
stringstream buff;
DWORD model = (vehCreateId == -2) ? vehHash : GAMEPLAY::GET_HASH_KEY((char *)vehicles[vehCreateId].c_str());
buff << "Loading vehicle [" << vehCreateId << "] " << ((vehCreateId == -2) ? vehName : vehicles[vehCreateId]) << ", Hash = 0x" << std::hex << model;
sendPlayerMessage(buff.str());
if (STREAMING::IS_MODEL_IN_CDIMAGE(model) && STREAMING::IS_MODEL_A_VEHICLE(model))
{
STREAMING::REQUEST_MODEL(model);
while (!STREAMING::HAS_MODEL_LOADED(model)) WAIT(0);
Vector3 coords = ENTITY::GET_OFFSET_FROM_ENTITY_IN_WORLD_COORDS(PLAYER::PLAYER_PED_ID(), 0.0, 5.0, 0.0);
Vehicle veh = VEHICLE::CREATE_VEHICLE(model, coords.x, coords.y, coords.z, 0.0, 1, 1);
VEHICLE::SET_VEHICLE_ON_GROUND_PROPERLY(veh);
ENTITY::SET_ENTITY_HEADING(veh, ENTITY::GET_ENTITY_HEADING(PLAYER::PLAYER_PED_ID()));
PED::SET_PED_INTO_VEHICLE(PLAYER::PLAYER_PED_ID(), veh, -1);
WAIT(0);
STREAMING::SET_MODEL_AS_NO_LONGER_NEEDED(model);
ENTITY::SET_VEHICLE_AS_NO_LONGER_NEEDED(&veh);
sendPlayerMessage(string("Vehicle ") + ((vehCreateId == -2) ? vehName : vehicles[vehCreateId]) + " created.", 0, 255, 0);
}
else
{
sendPlayerMessage("Error when creating vehicle", 255, 0, 0);
}
vehCreateId = -1;
}
if (chatEnabled)
{
GRAPHICS::DRAW_RECT(0.0f, 0.0f, 0.9f, 0.645f, 0, 0, 0, 200);
size_t first = (chatLines.size() > 10) ? (chatLines.size() - 10) : 0;
for (size_t i = first, c = 0; i < chatLines.size(); ++i, ++c)
{
drawText(chatLines[i].text, 0.0f, ((float)c)*(0.03f), chatLines[i].r, chatLines[i].g, chatLines[i].b);
}
}
if (chatWrite)
{
string chatText(curChatText);
chatText.insert(chatText.begin() + cursorPos, '_');
GRAPHICS::DRAW_RECT(0.0f, 0.340f, 0.9f, 0.040f, 125, 125, 125, 255);
drawText("> " + chatText, 0.0f, 0.330f, 255, 255, 255);
UI::SET_PAUSE_MENU_ACTIVE(false);
}
if (pedId != -1)
{
Hash skin = (pedId == -2) ? pedHash : GAMEPLAY::GET_HASH_KEY((char*)peds[pedId].c_str());
if (STREAMING::IS_MODEL_IN_CDIMAGE(skin) && STREAMING::IS_MODEL_VALID(skin))
{
STREAMING::REQUEST_MODEL(skin);
while (!STREAMING::HAS_MODEL_LOADED(skin))
WAIT(0);
PLAYER::SET_PLAYER_MODEL(PLAYER::PLAYER_ID(), skin);
PED::SET_PED_DEFAULT_COMPONENT_VARIATION(PLAYER::PLAYER_PED_ID());
STREAMING::SET_MODEL_AS_NO_LONGER_NEEDED(skin);
sendPlayerMessage(string("Your model changed to ") + ((pedId == -2) ? pedName : peds[pedId]), 0, 200, 0);
}
else
sendPlayerMessage("Unknown error!", 255, 0, 0);
pedId = -1;
}
if (objectEditor)
{
/*for (unsigned i = 0; i < lil::Object::_data.size(); ++i)
{
Vector3 pos = lil::Object::_data[i]->GetPosition();
GRAPHICS::DRAW_DEBUG_TEXT_2D("Object", pos.x, pos.y, pos.z, 255, 255, 255, 255);
}*/
Vector3 pos = playerObject->GetPosition();
Vector3 rot = playerObject->GetRotation();
drawText("Object parameters:", 0.1f, 0.8f, 255, 255, 255);
char buff[256];
sprintf_s(buff, "Position X: %.4f", pos.x);
drawText(buff, 0.01f, 0.815f, 255, 255, 255);
sprintf_s(buff, "Position Y: %.4f", pos.y);
drawText(buff, 0.01f, 0.83f, 255, 255, 255);
sprintf_s(buff, "Position Z: %.4f", pos.z);
drawText(buff, 0.01f, 0.845f, 255, 255, 255);
sprintf_s(buff, "Rotation X: %.4f", rot.x);
drawText(buff, 0.01f, 0.86f, 255, 255, 255);
sprintf_s(buff, "Rotation Y: %.4f", rot.y);
drawText(buff, 0.01f, 0.875f, 255, 255, 255);
sprintf_s(buff, "Rotation Z: %.4f", rot.z);
drawText(buff, 0.01f, 0.89f, 255, 255, 255);
}
if (objId != -1)
{
Hash object = (objId == -2) ? pedHash : GAMEPLAY::GET_HASH_KEY((char*)objects[objId].c_str());
if (STREAMING::IS_MODEL_VALID(object))
{
STREAMING::REQUEST_MODEL(object);
while (!STREAMING::HAS_MODEL_LOADED(object))
WAIT(0);
if (!objectEditor)
{
objectEditor = true;
GRAPHICS::SET_DEBUG_LINES_AND_SPHERES_DRAWING_ACTIVE(true);
UI::DISPLAY_HUD(false);
UI::DISPLAY_RADAR(false);
}
lil::Object *curObj = new lil::Object(object, objPos.x, objPos.y, objPos.z);
playerObject = curObj;
STREAMING::SET_MODEL_AS_NO_LONGER_NEEDED(object);
ENTITY::SET_ENTITY_VISIBLE(PLAYER::PLAYER_PED_ID(), false);
PLAYER::SET_PLAYER_CONTROL(PLAYER::PLAYER_ID(), false, 0);
if(!CAM::DOES_CAM_EXIST(playerCam))
playerCam = CAM::CREATE_CAMERA(0x19286a9, 0);
if (CAM::DOES_CAM_EXIST(playerCam)) {
CAM::SET_CAM_ACTIVE(playerCam, 1);
CAM::RENDER_SCRIPT_CAMS(true, 0, playerCam, true, 0);
playerObject->PointCam(playerCam);
}
sendPlayerMessage(string("Object created ") + ((objId == -2) ? objName : objects[objId]), 0, 200, 0);
}
else
sendPlayerMessage("Unknown error!", 255, 0, 0);
objId = -1;
}
WAIT(0);
}
}
/* ---------------------------------------------------------------------------- */
int main(int argc, char **argv)
{
struct aiLogStream stream;
glutInitWindowSize(900,600);
glutInitWindowPosition(100,100);
glutInitDisplayMode(GLUT_RGB | GLUT_DOUBLE | GLUT_DEPTH);
glutInit(&argc, argv);
glutCreateWindow("Assimp - Very simple OpenGL sample");
glutDisplayFunc(display);
glutReshapeFunc(reshape);
/* get a handle to the predefined STDOUT log stream and attach
it to the logging system. It remains active for all further
calls to aiImportFile(Ex) and aiApplyPostProcessing. */
stream = aiGetPredefinedLogStream(aiDefaultLogStream_STDOUT,NULL);
aiAttachLogStream(&stream);
/* ... same procedure, but this stream now writes the
log messages to assimp_log.txt */
stream = aiGetPredefinedLogStream(aiDefaultLogStream_FILE,"assimp_log.txt");
aiAttachLogStream(&stream);
/* the model name can be specified on the command line. If none
is specified, we try to locate one of the more expressive test
models from the repository (/models-nonbsd may be missing in
some distributions so we need a fallback from /models!). */
if( 0 != loadasset( argc >= 2 ? argv[1] : "X/dwarf.x")) {
if( argc != 1 || (0 != loadasset( "X/dwarf.x") && 0 != loadasset( "X/Testwuson.X"))) {
return -1;
}
}
glClearColor(0.1f,0.1f,0.1f,1.f);
glEnable(GL_LIGHTING);
glEnable(GL_LIGHT0); /* Uses default lighting parameters */
glEnable(GL_DEPTH_TEST);
glLightModeli(GL_LIGHT_MODEL_TWO_SIDE, GL_TRUE);
glEnable(GL_NORMALIZE);
/* XXX docs say all polygons are emitted CCW, but tests show that some aren't. */
char * buf = 0;
size_t sz = 0;
if(_dupenv_s(&buf,&sz,"MODEL_IS_BROKEN"))
glFrontFace(GL_CW);
glColorMaterial(GL_FRONT_AND_BACK, GL_DIFFUSE);
glutGet(GLUT_ELAPSED_TIME);
glutMainLoop();
/* cleanup - calling 'aiReleaseImport' is important, as the library
keeps internal resources until the scene is freed again. Not
doing so can cause severe resource leaking. */
aiReleaseImport(scene);
/* We added a log stream to the library, it's our job to disable it
again. This will definitely release the last resources allocated
by Assimp.*/
aiDetachAllLogStreams();
return 0;
}
/*
* getopt_internal --
* Parse argc/argv argument vector. Called by user level routines.
*/
static int
getopt_internal(int nargc, char * const *nargv, const char *options,
const struct option *long_options, int *idx, int flags)
{
const char *oli; /* option letter list index */
int optchar, short_too;
static int posixly_correct = -1;
if (options == NULL)
return (-1);
/*
* XXX Some GNU programs (like cvs) set optind to 0 instead of
* XXX using optreset. Work around this braindamage.
*/
if (optind == 0)
optind = optreset = 1;
/*
* Disable GNU extensions if POSIXLY_CORRECT is set or options
* string begins with a '+'.
*/
if (posixly_correct == -1 || optreset){
char *p;
size_t len;
auto ret=_dupenv_s(&p, &len, "POSIXLY_CORRECT");
posixly_correct = (ret == 0);
}
if (*options == '-')
flags |= FLAG_ALLARGS;
else if (posixly_correct || *options == '+')
flags &= ~FLAG_PERMUTE;
if (*options == '+' || *options == '-')
options++;
optarg = NULL;
if (optreset)
nonopt_start = nonopt_end = -1;
start:
if (optreset || !*place) { /* update scanning pointer */
optreset = 0;
if (optind >= nargc) { /* end of argument vector */
place = EMSG;
if (nonopt_end != -1) {
/* do permutation, if we have to */
permute_args(nonopt_start, nonopt_end,
optind, nargv);
optind -= nonopt_end - nonopt_start;
}
else if (nonopt_start != -1) {
/*
* If we skipped non-options, set optind
* to the first of them.
*/
optind = nonopt_start;
}
nonopt_start = nonopt_end = -1;
return (-1);
}
if (*(place = nargv[optind]) != '-' ||
(place[1] == '\0' && strchr(options, '-') == NULL)) {
place = EMSG; /* found non-option */
if (flags & FLAG_ALLARGS) {
/*
* GNU extension:
* return non-option as argument to option 1
*/
optarg = nargv[optind++];
return (INORDER);
}
if (!(flags & FLAG_PERMUTE)) {
/*
* If no permutation wanted, stop parsing
* at first non-option.
*/
return (-1);
}
/* do permutation */
if (nonopt_start == -1)
nonopt_start = optind;
else if (nonopt_end != -1) {
permute_args(nonopt_start, nonopt_end,
optind, nargv);
nonopt_start = optind -
(nonopt_end - nonopt_start);
nonopt_end = -1;
}
optind++;
/* process next argument */
goto start;
}
if (nonopt_start != -1 && nonopt_end == -1)
nonopt_end = optind;
/*
* If we have "-" do nothing, if "--" we are done.
*/
if (place[1] != '\0' && *++place == '-' && place[1] == '\0') {
optind++;
place = EMSG;
/*
* We found an option (--), so if we skipped
* non-options, we have to permute.
*/
if (nonopt_end != -1) {
permute_args(nonopt_start, nonopt_end,
optind, nargv);
optind -= nonopt_end - nonopt_start;
}
nonopt_start = nonopt_end = -1;
return (-1);
}
}
/*
* Check long options if:
* 1) we were passed some
* 2) the arg is not just "-"
* 3) either the arg starts with -- we are getopt_long_only()
*/
if (long_options != NULL && place != nargv[optind] &&
(*place == '-' || (flags & FLAG_LONGONLY))) {
short_too = 0;
if (*place == '-')
place++; /* --foo long option */
else if (*place != ':' && strchr(options, *place) != NULL)
short_too = 1; /* could be short option too */
optchar = parse_long_options(nargv, options, long_options,
idx, short_too);
if (optchar != -1) {
place = EMSG;
return (optchar);
}
}
if ((optchar = (int)*place++) == (int)':' ||
(optchar == (int)'-' && *place != '\0') ||
(oli = strchr(options, optchar)) == NULL) {
/*
* If the user specified "-" and '-' isn't listed in
* options, return -1 (non-option) as per POSIX.
* Otherwise, it is an unknown option character (or ':').
*/
if (optchar == (int)'-' && *place == '\0')
return (-1);
if (!*place)
++optind;
if (PRINT_ERROR)
warnx(illoptchar, optchar);
optopt = optchar;
return (BADCH);
}
if (long_options != NULL && optchar == 'W' && oli[1] == ';') {
/* -W long-option */
if (*place) /* no space */
/* NOTHING */;
else if (++optind >= nargc) { /* no arg */
place = EMSG;
if (PRINT_ERROR)
warnx(recargchar, optchar);
optopt = optchar;
return (BADARG);
}
else /* white space */
place = nargv[optind];
optchar = parse_long_options(nargv, options, long_options,
idx, 0);
place = EMSG;
return (optchar);
}
if (*++oli != ':') { /* doesn't take argument */
if (!*place)
++optind;
}
else { /* takes (optional) argument */
optarg = NULL;
if (*place) /* no white space */
optarg = place;
else if (oli[1] != ':') { /* arg not optional */
if (++optind >= nargc) { /* no arg */
place = EMSG;
if (PRINT_ERROR)
warnx(recargchar, optchar);
optopt = optchar;
return (BADARG);
}
else
optarg = nargv[optind];
}
place = EMSG;
++optind;
}
/* dump back option letter */
return (optchar);
}
int
clemuGPU :: initDevice(void)
{
int ret = CL_EMU_SUCCESS;
if ( !IsInit())
{
char *env_root;
size_t var_len;
char root_location[512];
char propert_file_location[512];
FILE * property_file;
_dupenv_s(&env_root,&var_len, "CLEMU_ROOT");
assert(var_len > 0);
if ( !var_len )
{
return(CL_EMU_FAILURE);
}
strcpy_s(root_location, 512,env_root);
if ( root_location[var_len-1] != '\\' )
{
root_location[var_len-1] = '\\';
root_location[var_len] = 0;
}
sprintf_s(propert_file_location,512,"%s%s\\%s.txt", root_location, DEFAULTE_PROPERTY_FOLDER, DEFAULT_EMULATOR_PROPERTIES_NM);
property_file = fopen( propert_file_location,"rt");
if ( property_file )
{
char in_buffer[512];
char data_buffer[512];
char format_buffer[512];
int class_len = strlen("class=");
int found_class, found_device;
fgets( in_buffer, 512, property_file);
sscanf(in_buffer, "emu_class=%s\n", data_buffer);
SetDevClass( (const char * )data_buffer);
fgets( in_buffer, 512, property_file);
sscanf(in_buffer, "emu_name=%s\n", data_buffer);
SetDevNm( (const char * )data_buffer);
found_class = 0;
while(fgets( in_buffer, 512, property_file))
{
sscanf(in_buffer, "class=%s\n", data_buffer);
if (!strcmp(data_buffer, m_class))
{
found_class = 1;
break;
}
}
if ( found_class )
{
found_device = 0;
while(fgets( in_buffer, 512, property_file))
{
sscanf(in_buffer, "name=%s\n", data_buffer);
if (!strcmp(data_buffer, m_name))
{
found_device = 1;
break;
}
}
if ( found_device )
{
int propery;
/*
m_nbr_groupsperSIMD = 2;
m_nbr_SE = 1;
m_nbr_SIMD = 1;
m_wavefront_size = 64;
m_local_mem_sz = (1 << 15);
*/
for(int p = 0; emulator_device_properties_nm[p]; p++)
{
sprintf_s(format_buffer,512,"%s.%s=%%d\n", m_name,emulator_device_properties_nm[p]);
fscanf(property_file, format_buffer, &propery);
if ( !strcmp(emulator_device_properties_nm[p], "se" ) )
{
m_nbr_SE = propery;
}
if ( !strcmp(emulator_device_properties_nm[p], "SIMD" ) )
{
m_nbr_SIMD = propery;
}
if ( !strcmp(emulator_device_properties_nm[p], "width" ) )
{
m_wavefront_size = propery;
}
if ( !strcmp(emulator_device_properties_nm[p], "local_memory" ) )
{
m_local_mem_sz = propery;
}
if ( !strcmp(emulator_device_properties_nm[p], "groups_per_SIMD" ) )
{
m_nbr_groupsperSIMD = propery;
}
}
// ALIGNED??
m_localMem = new __int64*[GetNbrSIMD()];
assert(m_localMem);
for(int i = 0; i < GetNbrSIMD(); i++)
{
m_localMem[i] = (__int64*)new __int64[GetTotalLclSz()];
assert(m_localMem[i]);
}
m_init = 1;
}
}
fclose(property_file);
}
}
return(ret);
}
std::string Sys::GetConfigPath( std::string appname ) {
char path[EE_MAX_CFG_PATH_LEN];
#if EE_PLATFORM == EE_PLATFORM_WIN
#ifdef EE_COMPILER_MSVC
char * ppath;
size_t ssize = EE_MAX_CFG_PATH_LEN;
_dupenv_s( &ppath, &ssize, "APPDATA" );
String::StrCopy( path, ppath, EE_MAX_CFG_PATH_LEN );
free( ppath );
if( !ssize )
return std::string();
#else
char * home = getenv("APPDATA");
if( !home )
return std::string();
_snprintf(path, EE_MAX_CFG_PATH_LEN, "%s\\%s", home, appname.c_str() );
#endif
#elif EE_PLATFORM == EE_PLATFORM_MACOSX
char *home = getenv("HOME");
if( NULL == home ) {
return std::string();
}
snprintf(path, EE_MAX_CFG_PATH_LEN, "%s/Library/Application Support/%s", home, appname.c_str() );
#elif EE_PLATFORM == EE_PLATFORM_HAIKU
char *home = getenv("HOME");
if( NULL == home ) {
return std::string();
}
snprintf(path, EE_MAX_CFG_PATH_LEN, "%s/config/settings/%s", home, appname.c_str() );
#elif EE_PLATFORM == EE_PLATFORM_LINUX || EE_PLATFORM == EE_PLATFORM_BSD || EE_PLATFORM == EE_PLATFORM_SOLARIS
char * config = getenv("XDG_CONFIG_HOME");
if ( NULL != config ) {
snprintf(path, EE_MAX_CFG_PATH_LEN, "%s/%s", config, appname.c_str() );
} else {
char *home = getenv("HOME");
if( NULL == home ) {
return std::string();
}
snprintf(path, EE_MAX_CFG_PATH_LEN, "%s/.config/%s", home, appname.c_str() );
}
#elif EE_PLATFORM == EE_PLATFORM_IOS
return GetProcessPath() + "config";
#elif EE_PLATFORM == EE_PLATFORM_ANDROID
if ( NULL != Window::cEngine::instance() )
return Window::cEngine::instance()->GetCurrentWindow()->GetInternalStoragePath();
return std::string();
#else
#warning Sys::GetConfigPath not implemented for this platform ( it will use HOME directory + /.appname )
char *home = getenv("HOME");
if( NULL == home ) {
return std::string();
}
snprintf(path, EE_MAX_CFG_PATH_LEN, "%s/.%s", home, appname.c_str() );
#endif
return std::string( path );
}
int GetGraceSerializationPaths(int &OutputCount, char **List, int MaxCount)
{
OutputCount = 0;
if (*List == NULL)
return 1;
//add local directory
{
char *LocalPath = new char[2];
strcpy_s(LocalPath, 2, ".");
if (DirExists(LocalPath) && OutputCount<MaxCount)
List[OutputCount++] = LocalPath;
else
delete LocalPath;
}
//add temp directory 1
{
char *TempPath = new char[500];
DWORD ret = GetTempPath(500, TempPath);
if (ret < MAX_PATH && ret != 0)
{
RemoveEndSlashes(TempPath);
if (HaveStringInList(TempPath, List, OutputCount) == 0 && DirExists(TempPath) && OutputCount<MaxCount)
List[OutputCount++] = TempPath;
else
delete[] TempPath;
}
else
delete[] TempPath;
}
//add temp directory 2
{
char *env_p;
size_t len;
errno_t err = _dupenv_s(&env_p, &len, "TMP");
if (err == 0 && len > 0)
{
RemoveEndSlashes(env_p);
if (HaveStringInList(env_p, List, OutputCount) == 0 && DirExists(env_p) && OutputCount < MaxCount)
{
char *TempPath = new char[500];
strcpy_s(TempPath, 500, env_p);
List[OutputCount++] = TempPath;
}
free(env_p);
}
}
//add temp directory 3
{
char *env_p;
size_t len;
errno_t err = _dupenv_s(&env_p, &len, "TEMP");
if (err == 0 && len > 0)
{
RemoveEndSlashes(env_p);
if (HaveStringInList(env_p, List, OutputCount) == 0 && DirExists(env_p) && OutputCount < MaxCount)
{
char *TempPath = new char[500];
strcpy_s(TempPath, 500, env_p);
List[OutputCount++] = TempPath;
}
free(env_p);
}
}
//add temp directory 4
{
char *env_p;
size_t len;
errno_t err = _dupenv_s(&env_p, &len, "USERPROFILE");
if (err == 0 && len > 0)
{
RemoveEndSlashes(env_p);
if (HaveStringInList(env_p, List, OutputCount) == 0 && DirExists(env_p) && OutputCount < MaxCount)
{
char *TempPath = new char[500];
strcpy_s(TempPath, 500, env_p);
List[OutputCount++] = TempPath;
}
free(env_p);
}
}
//add temp directory 5
{
char *env_p;
size_t len;
errno_t err = _dupenv_s(&env_p, &len, "%WINDIR%\temp");
if (err == 0 && len > 0)
{
RemoveEndSlashes(env_p);
if (HaveStringInList(env_p, List, OutputCount) == 0 && DirExists(env_p) && OutputCount < MaxCount)
{
char *TempPath = new char[500];
strcpy_s(TempPath, 500, env_p);
List[OutputCount++] = TempPath;
}
free(env_p);
}
}
return 0;
}
