int n_threads = -1;

std::string model_path;

std::string output_path = "output.png";

std::string prompt;

std::string negative_prompt;

float cfg_scale = 7.0f;

int w = 512;

int h = 512;

SampleMethod sample_method = EULAR_A;

int sample_steps = 20;

int seed = 42;

bool verbose = false;

void print() {

printf("Option: \n");

printf(" n_threads: %d\n", n_threads);

printf(" model_path: %s\n", model_path.c_str());

printf(" output_path: %s\n", output_path.c_str());

printf(" prompt: %s\n", prompt.c_str());

printf(" negative_prompt: %s\n", negative_prompt.c_str());

printf(" cfg_scale: %.2f\n", cfg_scale);

printf(" width: %d\n", w);

printf(" height: %d\n", h);

printf(" sample_method: %s\n", "eular a");

printf(" sample_steps: %d\n", sample_steps);

printf(" seed: %d\n", seed);

}

printf("usage: %s [arguments]\n", argv[0]);

printf("\n");

printf("arguments:\n");

printf(" -h, --help show this help message and exit\n");

printf(" -t, --threads N number of threads to use during computation (default: -1).\n");

printf(" If threads <= 0, then threads will be set to the number of CPU cores\n");

printf(" -m, --model [MODEL] path to model\n");

printf(" -o, --output OUTPUT path to write result image to (default: .\\output.png)\n");

printf(" -p, --prompt [PROMPT] the prompt to render\n");

printf(" -n, --negative-prompt PROMPT the negative prompt (default: \"\")\n");

printf(" --cfg-scale SCALE unconditional guidance scale: (default: 7.0)\n");

printf(" -H, --height H image height, in pixel space (default: 512)\n");

printf(" -W, --width W image width, in pixel space (default: 512)\n");

printf(" --sample-method SAMPLE_METHOD sample method (default: \"eular a\")\n");

printf(" --steps STEPS number of sample steps (default: 20)\n");

printf(" -s SEED, --seed SEED RNG seed (default: 42, use random seed for < 0)\n");

printf(" -v, --verbose print extra info\n");

bool invalid_arg = false;

for (int i = 1; i < argc; i++) {

std::string arg = argv[i];

if (arg == "-t" || arg == "--threads") {

if (++i >= argc) {

invalid_arg = true;

break;

}

opt->n_threads = std::stoi(argv[i]);

} else if (arg == "-m" || arg == "--model") {

if (++i >= argc) {

invalid_arg = true;

break;

}

opt->model_path = argv[i];

} else if (arg == "-o" || arg == "--output") {

if (++i >= argc) {

invalid_arg = true;

break;

}

opt->output_path = argv[i];

} else if (arg == "-p" || arg == "--prompt") {

if (++i >= argc) {

invalid_arg = true;

break;

}

opt->prompt = argv[i];

} else if (arg == "-n" || arg == "--negative-prompt") {

if (++i >= argc) {

invalid_arg = true;

break;

}

opt->negative_prompt = argv[i];

} else if (arg == "--cfg-scale") {

if (++i >= argc) {

invalid_arg = true;

break;

}

opt->cfg_scale = std::stof(argv[i]);

} else if (arg == "-H" || arg == "--height") {

if (++i >= argc) {

invalid_arg = true;

break;

}

opt->h = std::stoi(argv[i]);

} else if (arg == "-W" || arg == "--width") {

if (++i >= argc) {

invalid_arg = true;

break;

}

opt->w = std::stoi(argv[i]);

} else if (arg == "--steps") {

if (++i >= argc) {

invalid_arg = true;

break;

}

opt->sample_steps = std::stoi(argv[i]);

} else if (arg == "-s" || arg == "--seed") {

if (++i >= argc) {

invalid_arg = true;

break;

}

opt->seed = std::stoi(argv[i]);

} else if (arg == "-h" || arg == "--help") {

print_usage(argc, argv);

exit(0);

} else if (arg == "-v" || arg == "--verbose") {

opt->verbose = true;

} else {

fprintf(stderr, "error: unknown argument: %s\n", arg.c_str());

print_usage(argc, argv);

exit(1);

}

if (invalid_arg) {

fprintf(stderr, "error: invalid parameter for argument: %s\n", arg.c_str());

print_usage(argc, argv);

exit(1);

}

}

if (opt->n_threads <= 0) {

opt->n_threads = std::thread::hardware_concurrency();

}

if (opt->prompt.length() == 0) {

fprintf(stderr, "error: the following arguments are required: prompt\n");

print_usage(argc, argv);

exit(1);

}

if (opt->model_path.length() == 0) {

fprintf(stderr, "error: the following arguments are required: model_path\n");

print_usage(argc, argv);

exit(1);

}

if (opt->output_path.length() == 0) {

fprintf(stderr, "error: the following arguments are required: output_path\n");

print_usage(argc, argv);

exit(1);

}

if (opt->w <= 0 || opt->w % 32 != 0) {

fprintf(stderr, "error: the width must be a multiple of 32\n");

exit(1);

}

if (opt->h <= 0 || opt->h % 32 != 0) {

fprintf(stderr, "error: the height must be a multiple of 32\n");

exit(1);

}

if (opt->sample_steps <= 0) {

fprintf(stderr, "error: the sample_steps must be greater than 0\n");

exit(1);

}

Option opt;

parse_args(argc, argv, &opt);

if (opt.verbose) {

opt.print();

printf("%s", sd_get_system_info().c_str());

set_sd_log_level(SDLogLevel::DEBUG);

}

StableDiffusion sd(opt.n_threads);

if (!sd.load_from_file(opt.model_path)) {

return 1;

}

std::vector<uint8_t> img = sd.txt2img(opt.prompt,

opt.negative_prompt,

opt.cfg_scale,

opt.w,

opt.h,

opt.sample_method,

opt.sample_steps,

opt.seed);

stbi_write_png(opt.output_path.c_str(), opt.w, opt.h, 3, img.data(), 0);

printf("save result image to '%s'\n", opt.output_path.c_str());

return 0;

}