bool parseIntegerVec(std::string str, IntegerVec& intVector) { StringVector strVector = explodeString(str, ";"); IntegerVec tmpIntVector; for(StringVector::iterator it = strVector.begin(); it != strVector.end(); ++it) { tmpIntVector = vectorAtoi(explodeString((*it), "-")); if(!tmpIntVector[0] && it->substr(0, 1) != "0") continue; intVector.push_back(tmpIntVector[0]); if(tmpIntVector.size() > 1) { while(tmpIntVector[0] < tmpIntVector[1]) intVector.push_back(++tmpIntVector[0]); } } return true; }
//--------------------------------------------------------------------- void GLSLProgramManagerCommon::parseIndividualConstant(const String& src, GpuNamedConstants& defs, String::size_type currPos, const String& filename, GpuSharedParametersPtr sharedParams) { GpuConstantDefinition def; String paramName = ""; String::size_type endPos = src.find(";", currPos); String line = src.substr(currPos, endPos - currPos); // Remove spaces before opening square braces, otherwise // the following split() can split the line at inappropriate // places (e.g. "vec3 something [3]" won't work). for (String::size_type sqp = line.find (" ["); sqp != String::npos; sqp = line.find (" [")) line.erase (sqp, 1); // Split into tokens StringVector parts = StringUtil::split(line, ", \t\r\n"); for (StringVector::iterator i = parts.begin(); i != parts.end(); ++i) { // Is this a type? StringToEnumMap::iterator typei = mTypeEnumMap.find(*i); if (typei != mTypeEnumMap.end()) { completeDefInfo(typei->second, def); } else { // if this is not a type, and not empty, it should be a name StringUtil::trim(*i); if (i->empty()) continue; // Skip over precision keywords if(StringUtil::match((*i), "lowp") || StringUtil::match((*i), "mediump") || StringUtil::match((*i), "highp")) continue; String::size_type arrayStart = i->find("[", 0); if (arrayStart != String::npos) { // potential name (if butted up to array) String name = i->substr(0, arrayStart); StringUtil::trim(name); if (!name.empty()) paramName = name; String::size_type arrayEnd = i->find("]", arrayStart); String arrayDimTerm = i->substr(arrayStart + 1, arrayEnd - arrayStart - 1); StringUtil::trim(arrayDimTerm); // the array term might be a simple number or it might be // an expression (e.g. 24*3) or refer to a constant expression // we'd have to evaluate the expression which could get nasty // TODO def.arraySize = StringConverter::parseInt(arrayDimTerm); } else { paramName = *i; def.arraySize = 1; } // Name should be after the type, so complete def and add // We do this now so that comma-separated params will do // this part once for each name mentioned if (def.constType == GCT_UNKNOWN) { LogManager::getSingleton().logMessage("Problem parsing the following GLSL Uniform: '" + line + "' in file " + filename); // next uniform break; } // Special handling for shared parameters if(sharedParams.isNull()) { // Complete def and add // increment physical buffer location def.logicalIndex = 0; // not valid in GLSL if (def.isFloat()) { def.physicalIndex = defs.floatBufferSize; defs.floatBufferSize += def.arraySize * def.elementSize; } else { def.physicalIndex = defs.intBufferSize; defs.intBufferSize += def.arraySize * def.elementSize; } defs.map.insert(GpuConstantDefinitionMap::value_type(paramName, def)); // Generate array accessors defs.generateConstantDefinitionArrayEntries(paramName, def); } else { try { const GpuConstantDefinition &sharedDef = sharedParams->getConstantDefinition(paramName); (void)sharedDef; // Silence warning } catch (Exception& e) { // This constant doesn't exist so we'll create a new one sharedParams->addConstantDefinition(paramName, def.constType); } } } } }
//--------------------------------------------------------------------- void GLSLESProgramManagerCommon::extractConstantDefs(const String& src, GpuNamedConstants& defs, const String& filename) { // Parse the output string and collect all uniforms // NOTE this relies on the source already having been preprocessed // which is done in GLSLESProgram::loadFromSource String line; String::size_type currPos = src.find("uniform"); while (currPos != String::npos) { GpuConstantDefinition def; String paramName; // Now check for using the word 'uniform' in a larger string & ignore bool inLargerString = false; if (currPos != 0) { char prev = src.at(currPos - 1); if (prev != ' ' && prev != '\t' && prev != '\r' && prev != '\n' && prev != ';') inLargerString = true; } if (!inLargerString && currPos + 7 < src.size()) { char next = src.at(currPos + 7); if (next != ' ' && next != '\t' && next != '\r' && next != '\n') inLargerString = true; } // skip 'uniform' currPos += 7; if (!inLargerString) { // find terminating semicolon String::size_type endPos = src.find(";", currPos); if (endPos == String::npos) { // problem, missing semicolon, abort break; } line = src.substr(currPos, endPos - currPos); // Remove spaces before opening square braces, otherwise // the following split() can split the line at inappropriate // places (e.g. "vec3 something [3]" won't work). for (String::size_type sqp = line.find (" ["); sqp != String::npos; sqp = line.find (" [")) line.erase (sqp, 1); // Split into tokens StringVector parts = StringUtil::split(line, ", \t\r\n"); for (StringVector::iterator i = parts.begin(); i != parts.end(); ++i) { // Is this a type? StringToEnumMap::iterator typei = mTypeEnumMap.find(*i); if (typei != mTypeEnumMap.end()) { completeDefInfo(typei->second, def); } else { // if this is not a type, and not empty, it should be a name StringUtil::trim(*i); if (i->empty()) continue; // Skip over precision keywords if(StringUtil::match((*i), "lowp") || StringUtil::match((*i), "mediump") || StringUtil::match((*i), "highp")) continue; String::size_type arrayStart = i->find("[", 0); if (arrayStart != String::npos) { // potential name (if butted up to array) String name = i->substr(0, arrayStart); StringUtil::trim(name); if (!name.empty()) paramName = name; String::size_type arrayEnd = i->find("]", arrayStart); String arrayDimTerm = i->substr(arrayStart + 1, arrayEnd - arrayStart - 1); StringUtil::trim(arrayDimTerm); // the array term might be a simple number or it might be // an expression (e.g. 24*3) or refer to a constant expression // we'd have to evaluate the expression which could get nasty // TODO def.arraySize = StringConverter::parseUnsignedLong(arrayDimTerm); } else { paramName = *i; def.arraySize = 1; } // Name should be after the type, so complete def and add // We do this now so that comma-separated params will do // this part once for each name mentioned if (def.constType == GCT_UNKNOWN) { LogManager::getSingleton().logMessage( "Problem parsing the following GLSL Uniform: '" + line + "' in file " + filename); // next uniform break; } // Complete def and add // increment physical buffer location def.logicalIndex = 0; // not valid in GLSL if (def.isFloat()) { def.physicalIndex = defs.floatBufferSize; defs.floatBufferSize += def.arraySize * def.elementSize; } else { def.physicalIndex = defs.intBufferSize; defs.intBufferSize += def.arraySize * def.elementSize; } defs.map.insert(GpuConstantDefinitionMap::value_type(paramName, def)); // Generate array accessors defs.generateConstantDefinitionArrayEntries(paramName, def); } } } // not commented or a larger symbol // Find next one currPos = src.find("uniform", currPos); } }