int main(int argc, char* argv[]) { Arguments args; args.add("help", 'h').required(true).description("Shows this help message.").flag(true); args.add("config", 'c').description("Path to config file"); args.add("output").description("Output directory").value("/tmp"); cout << args.getHelpMessage() << endl; try { cout << "output value: " << args.get("output").value() << endl; cout << "output value: " << args.get("nonexists").value() << endl; } catch(string& e) { cerr << e << endl; } if (!args.evaluate(argc, argv)) { cout << args.getErrorMessage() << endl; return 1; } cout << "output value: " << args.get("output").value() << endl; return 0; }
void GTPReader::ReaderLoop() { // Main loop to read commands from standard input std::string inputstring; int id; std::string command(""); std::string rawargs; std::stringstream ss; Arguments arguments; while(command != "quit") { std::getline(std::cin, inputstring); ss.str(inputstring); ss.clear(); ss.seekg(0, std::ios::beg); ss >> id; if(ss.fail()) { id = -1; ss.clear(); ss.seekg(0, std::ios::beg); } ss >> command; if(ss.fail()) { ss.clear(); ss.seekg(0, std::ios::beg); continue; } while (ss >> rawargs){ arguments.add(rawargs); rawargs.clear(); } ss.clear(); ss.seekg(0, std::ios::beg); rawargs.clear(); engine.command(id, command, arguments); arguments.clear(); } }
int run(int argc, char* argv[]) { Arguments args; args.add("help", 'h').description("Shows this help message.").flag(true); args.add("input", 'i').description("Input filename").required(true); args.add("output", 'o').description("Output filename").required(true); args.add("format", 'f').description("Output format. Overrides file extension."); args.add("axis", 'x').description("Change axis order of the cordinate system and polarity. (like +x+y+z, +x-z+y, ... )"); args.add("textures", 't').description("Strip path from texture filenames").flag(true); // parse args if (!args.evaluate(argc, argv)) { cout << args.getErrorMessage() << endl; cout << args.getHelpMessage() << endl; return 1; } // print help if (argc == 1 || args.get("help").isFound()) { cout << args.getHelpMessage() << endl; return 0; } string inFileName = args.get("input").value(); string outFileName = args.get("output").value(); string outExtension; // determine file format if (!args.get("format").isFound()) { string::size_type n; string s = outFileName; n = s.find_last_of('.'); if (n != string::npos) { s = s.substr(n + 1); } if (s.empty()) { outExtension = "assbin"; cout << "WARNING: No file extension was given. Using assbin format for default." << endl; } else { outExtension = s; } } else { outExtension = args.get("format").value(); } // import scene Assimp::Importer aiImporter; aiScene const * scene = aiImporter.ReadFile(inFileName.c_str(), aiProcessPreset_TargetRealtime_Quality | aiProcess_ConvertToLeftHanded | 0); if (scene == nullptr) { cout << "Could not load model file" << inFileName << endl; cout << aiImporter.GetErrorString() << endl; return 1; } // flip axes if (args.get("axis").isFound() && scene->HasMeshes()) { string axesOrder = args.get("axis").value(); if (axesOrder.length() != 6) { cout << args.getHelpMessage() << endl; return 1; } char order[3]; char polarity[3]; uint k = 3; while (k--) { char c = axesOrder.at(2*k), b = -1; char a = axesOrder.at(2*k+1), d = 1; switch (a) { case 'x': case 'X': b = 0; break; case 'y': case 'Y': b = 1; break; case 'z': case 'Z': b = 2; break; default: cout << args.getHelpMessage() << endl; return 1; } switch (c) { case '+': d = +1; break; case '-': d = -1; break; default: cout << args.getHelpMessage() << endl; return 1; } order[k] = b; polarity[k] = d; } for (uint i = 0; i < scene->mNumMeshes; i++) { aiMesh * const mesh = scene->mMeshes[i]; for (uint j = 0; j < mesh->mNumVertices; j++) { swap_vertices(&mesh->mVertices[j], order, polarity); swap_vertices(&mesh->mNormals[j], order, polarity); } } } // strip texture filenames if (args.get("textures").isFound() && scene->HasMaterials()) { for (uint i = 0; i < scene->mNumMaterials; i++) { aiMaterial const * material = scene->mMaterials[i]; for (uint j = 0; j < sizeof(textureTypes) / sizeof(textureTypes[0]); j++) { aiTextureType tt = textureTypes[j]; for (uint k = 0; k < material->GetTextureCount(tt); k++) { aiString aiPath; material->GetTexture(tt, k, &aiPath); string path = aiPath.C_Str(); { string s = path; string::size_type n, m; n = s.find_last_of('/'); m = s.find_last_of('\\'); if (n != string::npos) { s = s.substr(n + 1); } else if (m != string::npos) { s = s.substr(m + 1); } if (!s.empty()) { path = s; } } // textura filenev vissza const aiMaterialProperty* pp = nullptr; if (aiGetMaterialProperty(material, AI_MATKEY_TEXTURE(tt, k), &pp) == AI_SUCCESS) { aiMaterialProperty* pProp = const_cast<aiMaterialProperty*>(pp); if (aiPTI_String == pProp->mType) { size_t newLen = path.length() + 4; char* newData = (char*)malloc(newLen); (*(uint*)(&newData[0])) = path.length(); memcpy_s(&newData[4], newLen, path.c_str(), path.length()); free(pProp->mData); pProp->mData = newData; pProp->mDataLength = newLen; } } } } } } // save Assimp::Exporter aiExporter; if (aiExporter.Export(scene, outExtension, outFileName) != aiReturn_SUCCESS) { cout << "Could not save model file" << endl; cout << aiExporter.GetErrorString() << endl; return 1; } return 0; }