Exemple #1
0
bool EncodingTable::load(const std::wstring& fileName, TextFile::Encoding encoding)
{
	unsigned char hexBuffer[MAXHEXLENGTH];

	TextFile input;
	if (input.open(fileName,TextFile::Read,encoding) == false)
		return false;

	hexData.clear();
	valueData.clear();
	entries.clear();
	setTerminationEntry((unsigned char*)"\0",1);

	while (!input.atEnd())
	{
		std::wstring line = input.readLine();
		if (line.empty() || line[0] == '*') continue;
		
		if (line[0] == '/')
		{
			std::wstring hex = line.substr(1);
			if (hex.empty() || hex.length() > 2*MAXHEXLENGTH)
			{
				// error
				continue;
			}

			int length = parseHexString(hex,hexBuffer);
			if (length == -1)
			{
				// error
				continue;
			}

			setTerminationEntry(hexBuffer,length);
		} else {
			size_t pos = line.find(L'=');
			std::wstring hex = line.substr(0,pos);
			std::wstring value = line.substr(pos+1);

			if (hex.empty() || value.empty() || hex.length() > 2*MAXHEXLENGTH)
			{
				// error
				continue;
			}
			
			int length = parseHexString(hex,hexBuffer);
			if (length == -1)
			{
				// error
				continue;
			}

			addEntry(hexBuffer,length,value);
		}
	}

	return true;
}
Exemple #2
0
void LoadAssemblyFile(const std::wstring& fileName, TextFile::Encoding encoding)
{
	tTextData Text;
	int num = 0;

	AddFileName((char*)convertWStringToUtf8(fileName).c_str());
	Global.IncludeNestingLevel++;

	if (Global.IncludeNestingLevel == ASSEMBLER_INCLUDE_NESTING_LEVEL)
	{
		Logger::printError(Logger::Error,L"Maximum include nesting level reached");
		return;
	}

	TextFile input;
	if (input.open(fileName,TextFile::Read,encoding) == false)
	{
		Logger::printError(Logger::Error,L"Could not open file");
		return;
	}

	while (!input.atEnd())
	{
		Global.FileInfo.LineNumber++;
		Global.FileInfo.TotalLineCount++;

		if (GetLine(input,Text.buffer) == false) continue;
		if (Text.buffer.size() == 0) continue;
		
		Text.buffer = Global.symbolTable.insertEquations(Text.buffer,Global.FileInfo.FileNum,Global.Section);

		if (CheckEquLabel(Text.buffer) == false)
		{
			Text.buffer = checkLabel(Text.buffer,false);
			splitLine(Text.buffer,Text.name,Text.params);
			if (Text.name.empty()) continue;

			if (ParseMacro(input,Text.name,Text.params) == true) continue;
			if (Arch->AssembleDirective(Text.name,Text.params) == false)
			{
				Arch->AssembleOpcode(Text.name,Text.params);
			}
		}

		if (Logger::hasFatalError())
			return;
	}
	
	Logger::printQueue();
	Global.IncludeNestingLevel--;
	input.close();
}
Exemple #3
0
void SynonymMap::load(const string& sFileName)
{
    close();
    TextFile tf;
    tf.open(sFileName.c_str(), "r");
    char szLine[512];
    if(tf.isFileOpen())
    {
        while(!tf.isEof() && tf.readLine(szLine, 512, true) > 0)
        {
            StringTokenizer st(szLine, ":", StringTokenizer::TOKEN_TRIM
                    | StringTokenizer::TOKEN_IGNORE_EMPTY );
            if(st.getNumTokens() != 2)
                continue;            
            addSynonyms(st[0].c_str(), st[1].c_str());
        }
    }
}
CAssemblerCommand* parseDirectiveInclude(Parser& parser, int flags)
{
    const Token& start = parser.peekToken();

    std::vector<Expression> parameters;
    if (parser.parseExpressionList(parameters,1,2) == false)
        return nullptr;

    std::wstring fileName;
    if (parameters[0].evaluateString(fileName,true) == false)
        return nullptr;

    fileName = getFullPathName(fileName);

    TextFile::Encoding encoding = TextFile::GUESS;
    if (parameters.size() == 2)
    {
        std::wstring encodingName;
        if (parameters[1].evaluateString(encodingName,true) == false
                && parameters[1].evaluateIdentifier(encodingName) == false)
            return nullptr;

        encoding = getEncodingFromString(encodingName);
    }

    // don't include the file if it's inside a false block
    if (parser.isInsideTrueBlock() == false)
        return new DummyCommand();

    if (fileExists(fileName) == false)
    {
        parser.printError(start,L"Included file \"%s\" does not exist",fileName);
        return nullptr;
    }

    TextFile f;
    if (f.open(fileName,TextFile::Read,encoding) == false)
    {
        parser.printError(start,L"Could not open included file \"%s\"",fileName);
        return nullptr;
    }

    return parser.parseFile(f);
}
Exemple #5
0
int main() {
    TextFile file;
    String s;
    if (file.open("birthday.in")) {
        while (true) {
            String f = file.read_line();
            if (f.is_empty()) {
                break;
            }
            s += f;
        }
    }
    
    for (int i = 0; i < s.len(); i += 1) {
        
    }
    

    return 0;
}
Exemple #6
0
void SynonymMap::save(const string& sFileName)
{
    TextFile tf;
    tf.open(sFileName.c_str(), "w");
    
    for(SynMap::const_iterator it = m_synMap.begin(); it != m_synMap.end();it++)
    {
        tf.write(it->first.c_str());
        Group* pGroup = it->second;
        tf.write(":");
        for(Group::const_iterator git = pGroup->begin(); git != pGroup->end(); git++)
        {
            tf.write((*git).c_str());
            if( (git + 1) != pGroup->end())
            {
                tf.write(",");
            }            
        }
        tf.write("\n");        
    }
    tf.close();    
}
Exemple #7
0
bool runArmips(ArmipsArguments& arguments)
{
	// initialize and reset global data
	Global.Radix = 10;
	Global.Revalidate = true;
	Global.Section = 0;
	Global.nocash = false;
	Global.IncludeNestingLevel = 0;
	Global.MacroNestingLevel = 0;
	Global.FileInfo.FileCount = 0;
	Global.FileInfo.TotalLineCount = 0;
	Global.DebugMessages = 0;
	Global.relativeInclude = false;
	Global.validationPasses = 0;
	Global.multiThreading = true;
	Arch = &InvalidArchitecture;

	Tokenizer::clearEquValues();
	Logger::clear();
	Global.symData.clear();
	Global.Table.clear();
	Global.symbolTable.clear();
	Global.tempData.clear();

	Global.FileInfo.FileList.clear();
	Global.FileInfo.FileCount = 0;
	Global.FileInfo.TotalLineCount = 0;
	Global.FileInfo.LineNumber = 0;
	Global.FileInfo.FileNum = 0;

	Arm.clear();

	// process arguments
	Parser parser;

	Logger::setSilent(arguments.silent);
	Logger::setErrorOnWarning(arguments.errorOnWarning);

	if (!arguments.symFileName.empty())
		Global.symData.setNocashSymFileName(arguments.symFileName,arguments.symFileVersion);

	if (!arguments.tempFileName.empty())
		Global.tempData.setFileName(arguments.tempFileName);

	Token token;
	for (size_t i = 0; i < arguments.equList.size(); i++)
	{
		parser.addEquation(token,arguments.equList[i].name, arguments.equList[i].value);
	}

	Global.symbolTable.addLabels(arguments.labels);

	if (Logger::hasError())
		return false;

	// run assembler
	TextFile input;
	switch (arguments.mode)
	{
	case ArmipsMode::FILE:
		Global.memoryMode = false;		
		if (input.open(arguments.inputFileName,TextFile::Read) == false)
		{
			Logger::printError(Logger::Error,L"Could not open file");
			return false;
		}
		break;
	case ArmipsMode::MEMORY:
		Global.memoryMode = true;
		Global.memoryFile = arguments.memoryFile;
		input.openMemory(arguments.content);
		break;
	}

	CAssemblerCommand* content = parser.parseFile(input);

	bool result = !Logger::hasError();
	if (result == true && content != nullptr)
		result = encodeAssembly(content);
	else if (g_fileManager->hasOpenFile())
	{
		if (!Global.memoryMode)
			Logger::printError(Logger::Warning,L"File not closed");
		g_fileManager->closeFile();
	}

	// return errors
	if (arguments.errorsResult != NULL)
	{
		StringList errors = Logger::getErrors();
		for (size_t i = 0; i < errors.size(); i++)
			arguments.errorsResult->push_back(errors[i]);
	}

	return result;
}
Exemple #8
0
/**
* Test utf8 bom 
*/
void test_utf8_bom(const char* fileName)
{
    TextFile tf;
    tf.open(fileName);
    assert(tf.getEncoding() == UTF8);
}
Exemple #9
0
void ExtensionsWizard::OnWizardFinished(wxWizardEvent &e)
{
	String extensionName = conversions::to_utf16(m_pageGeneral->getExtensionName());
	String extensionDescription = conversions::to_utf16(m_pageGeneral->getExtensionDescription());
	String extensionAuthor = conversions::to_utf16(m_pageGeneral->getExtensionAuthor());
	shared_ptr<ExtensionsWizardPageTemplate::TemplateDetails> extensionTemplate = m_pageTemplate->getTemplate();
	const ExtensionsWizardPageTemplate::TemplateDetails::Files &extensionFiles = extensionTemplate->getFiles();

	ExtensionID extensionID = ExtensionID::generate();

	String rootPath = ExtensionsSystem::instance()->getDataPath();
	String extensionPath = utils::makeFolderPath(rootPath, extensionID.toUTF16());

	shared_ptr<XMLDocument> document(OS_NEW XMLDocument());
	shared_ptr<XMLNode> nodeRoot = document->create(OS_EXTENSION_XML_NODE_ROOT);
	nodeRoot->setAttributeString(OS_EXTENSION_XML_NODE_ROOT_ID, extensionID.getString());
	nodeRoot->setAttributeString(OS_EXTENSION_XML_NODE_ROOT_NAME, extensionName);
	nodeRoot->setAttributeString(OS_EXTENSION_XML_NODE_ROOT_DESCRIPTION, extensionDescription);
	nodeRoot->setAttributeString(OS_EXTENSION_XML_NODE_ROOT_AUTHOR, extensionAuthor);
	nodeRoot->setAttributeString(OS_EXTENSION_XML_NODE_ROOT_VERSION_CODE, _S("1"));
	nodeRoot->setAttributeString(OS_EXTENSION_XML_NODE_ROOT_VERSION_NAME, _S("0.1"));
	nodeRoot->setAttributeString(OS_EXTENSION_XML_NODE_ROOT_ICON, _S("icon.png"));
	nodeRoot->setAttributeString(OS_EXTENSION_XML_NODE_ROOT_LOGO, _S("logo.png"));

	shared_ptr<XMLNode> nodeScripts;
	ExtensionsWizardPageTemplate::TemplateDetails::Files::const_iterator i;
	for(i = extensionFiles.begin(); i != extensionFiles.end(); ++i)
	{
		if((*i).script)
		{
			if(nodeScripts == nullptr)
				nodeScripts = nodeRoot->addChild(OS_EXTENSION_XML_NODE_SCRIPTS);

			shared_ptr<XMLNode> nodeScript = nodeScripts->addChild(OS_EXTENSION_XML_NODE_SCRIPT);
			nodeScript->setAttributeString(OS_EXTENSION_XML_NODE_SCRIPT_PATH, (*i).target);
			// TODO: temp
			nodeScript->setAttributeString(OS_EXTENSION_XML_NODE_SCRIPT_LANGUAGE, "python");
		}
	}

	String documentString;
	if(document->writeString(documentString) == false)
	{
		OS_ASSERTFALSE();
		Application::instance()->reportError("Internal error generating extension's xml, please report it", true);
		return;
	}

	if(XMLManager::instance()->validateString(documentString, XMLSchema::fromFile(utils::makeFilePath(utils::makeFolderPath(Options::instance()->getSharePath(), OS_SCHEMAS_PATH), OS_EXTENSIONS_EXTENSION_SCHEMA))) == false)
	{
		OS_ASSERTFALSE();
		Application::instance()->reportError("Internal error validating extension's xml, please report it", true);
		return;
	}

	if(FileSystem::instance()->ensureDirectory(extensionPath) == false)
	{
		Application::instance()->reportError("Cannot create directory '" + extensionPath + "'", true);
		return;
	}

	for(i = extensionFiles.begin(); i != extensionFiles.end(); ++i)
	{
		String targetFile = utils::makeFilePath(extensionPath, (*i).target);
		String sourceFile = utils::makeFilePath(extensionTemplate->getFolder(), (*i).source);

		String targetPath = FileSystem::instance()->getFilePath(targetFile);
		if(FileSystem::instance()->ensureDirectory(targetPath) == false)
		{
			Application::instance()->reportError("Cannot create directory '" + targetPath + "'", true);
			return;
		}

		if(FileSystem::instance()->copyFile(sourceFile, targetFile) == false)
		{
			Application::instance()->reportError("Cannot copy file '" + sourceFile + "' to '" + targetFile + "'", true);
			return;
		}

		if((*i).macro)
		{
			// Open file, do replaces and save.
			String data;
			TextFile::readFile(targetFile, data);

			data = data.replace_all("{extension_id}", extensionID.getString());
			data = data.replace_all("{extension_name}", extensionName);
			data = data.replace_all("{extension_description}", extensionDescription);
			data = data.replace_all("{extension_author}", extensionAuthor);
			UniqueID uniqueID = UniqueID::generate();
			data = data.replace_all("{unique_id}", uniqueID.getString());

			TextFile file;
			file.open(targetFile, TextFile::ofWrite);
			file.writeLine(data);
			file.close();
		}
	}

	String documentFile = utils::makeFilePath(extensionPath, OS_MANIFESTXML);
	if(document->writeFile(documentFile) == false)
	{
		Application::instance()->reportError("Error writing file '" + documentFile + "'", true);
		return;
	}

	OS_ASSERT(XMLManager::instance()->validateFile(documentFile, XMLSchema::fromFile(utils::makeFilePath(utils::makeFolderPath(Options::instance()->getSharePath(), OS_SCHEMAS_PATH), OS_EXTENSIONS_EXTENSION_SCHEMA))));

	if(m_pageFinish->getOpenFolder())
		Application::instance()->shell(extensionPath);

	Application::instance()->reloadExtensions();
}
Exemple #10
0
void	PrintCallStackOfThisThread(const wchar_t* name, const wchar_t* expression, const wchar_t* function, const wchar_t* file, int line)
{
	if (name == NULL) name = L"Unknown";
	if (expression == NULL) expression = L"No Expression";
	if (function == NULL) function = L"Unknown Function";
	if (file == NULL) file = L"Unknown File";

	wchar_t folder[MAX_PATH] = { 0, };
	GetProcessFolder(::GetCurrentProcess(), folder, _countof(folder));

	wchar_t callStackFile[MAX_PATH] = { 0, };

	SYSTEMTIME systemTime;
	::memset(&systemTime, 0, sizeof(systemTime));
	::GetLocalTime(&systemTime);

	::swprintf_s(callStackFile, _countof(callStackFile), L"%s/%s_%04d-%02d-%02d.rpt",
		folder, name, systemTime.wYear, systemTime.wMonth, systemTime.wDay);

	TextFile textFile;

	int count = 0;
	while (textFile.open(callStackFile, GENERIC_WRITE, FILE_SHARE_READ) == false &&
		textFile.create(callStackFile, GENERIC_WRITE, FILE_SHARE_READ) == false)
	{
		++count;

		::swprintf_s(callStackFile, _countof(callStackFile), L"%s/%s_%04d-%02d-%02d(%d).rpt",
			folder, name, systemTime.wYear, systemTime.wMonth, systemTime.wDay, count);
	}

	textFile.seek(0, FILE_END);

	DumpPrint(&textFile, L"[%04d-%02d-%02d %02d:%02d:%02d] %s at %s\r\n%s(%d)\r\n",
		systemTime.wYear, systemTime.wMonth, systemTime.wDay,
		systemTime.wHour, systemTime.wMinute, systemTime.wSecond,
		expression,
		function,
		file,
		line);

	// current thread call stack
	DWORD processId = ::GetCurrentProcessId();
	HANDLE process = ::OpenProcess(PROCESS_QUERY_INFORMATION | PROCESS_VM_READ, FALSE, processId);
	if (process != NULL)
	{
		HANDLE thread = ::GetCurrentThread();
		DWORD threadId = ::GetCurrentThreadId();

		DumpPrint(&textFile, L"%s(Thread(%u) Call Stack)\r\n", function, threadId);

		EXCEPTION_RECORD exceptionRecord = {};
		CONTEXT context = {};
		EXCEPTION_POINTERS exceptionPointers = { &exceptionRecord, &context };

		context.ContextFlags = CONTEXT_FULL;
		if (::GetThreadContext(thread, &context) != FALSE)
		{
			PrintThreadCallStack(&textFile, &exceptionPointers, process, thread);

			DumpPrint(&textFile, L"\r\n");
		}

		::CloseHandle(process);
		process = NULL;
	}

	DumpPrint(&textFile, L"\r\n");

	textFile.flush();
}
Exemple #11
0
void SymbolData::writeNocashSym()
{
    if (nocashSymFileName.empty())
        return;

    std::vector<NocashSymEntry> entries;
    for (size_t k = 0; k < modules.size(); k++)
    {
        SymDataModule& module = modules[k];
        for (size_t i = 0; i < module.symbols.size(); i++)
        {
            SymDataSymbol& sym = module.symbols[i];

            NocashSymEntry entry;
            entry.address = sym.address;
            entry.text = sym.name;
            entries.push_back(entry);
        }

        for (size_t i = 0; i < module.data.size(); i++)
        {
            SymDataData& data = module.data[i];
            NocashSymEntry entry;
            entry.address = data.address;

            switch (data.type)
            {
            case Data8:
                entry.text = formatString(".byt:%04X",data.size);
                break;
            case Data16:
                entry.text = formatString(".wrd:%04X",data.size);
                break;
            case Data32:
                entry.text = formatString(".dbl:%04X",data.size);
                break;
            case DataAscii:
                entry.text = formatString(".asc:%04X",data.size);
                break;
            }

            entries.push_back(entry);
        }
    }

    std::sort(entries.begin(),entries.end());

    TextFile file;
    if (file.open(nocashSymFileName,TextFile::Write,TextFile::ASCII) == false)
    {
        Logger::printError(Logger::Error,L"Could not open sym file %s.",file.getFileName().c_str());
        return;
    }
    file.writeLine(L"00000000 0");

    for (size_t i = 0; i < entries.size(); i++)
    {
        file.writeFormat(L"%08X %S\n",entries[i].address,entries[i].text.c_str());
    }

    file.write("\x1A");
    file.close();
}