void result(const TURN stone[SIZE_Y][SIZE_X]){ fresult(stdout, stone); clearDisplay(); }
int main(int argc, char *argv[]) { //MyAssertHandler assertHandler; MyMessageHandler messageHandler; float gamma = 2.2f; nv::Path input; nv::Path output; uint size = 128; // Parse arguments. for (int i = 1; i < argc; i++) { // Input options. if (strcmp("-s", argv[i]) == 0) { if (i+1 < argc && argv[i+1][0] != '-') { size = (uint)atoi(argv[i+1]); i++; } } else if (argv[i][0] != '-') { input = argv[i]; if (i+1 < argc && argv[i+1][0] != '-') { output = argv[i+1]; } else { fprintf(stderr, "No output filename.\n"); return 1; } break; } } if (input.isNull() || output.isNull()) { printf("NVIDIA Texture Tools - Copyright NVIDIA Corporation 2007\n\n"); printf("usage: nv-gnome-thumbnailer [options] input output\n\n"); printf("Options:\n"); printf(" -s size\tThumbnail size (default = 128)\n"); return 1; } nv::Image image; if (!loadImage(image, input.str())) return 1; nv::StringBuilder widthString; widthString.number(image.width()); nv::StringBuilder heightString; heightString.number(image.height()); nv::Array<const char *> metaData; metaData.append("Thumb::Image::Width"); metaData.append(widthString.str()); metaData.append("Thumb::Image::Height"); metaData.append(heightString.str()); metaData.append(NULL); metaData.append(NULL); if ((image.width() > size) || (image.height() > size)) { nv::FloatImage fimage(&image); fimage.toLinear(0, 3, gamma); uint thumbW, thumbH; if (image.width() > image.height()) { thumbW = size; thumbH = uint ((float (image.height()) / float (image.width())) * size); } else { thumbW = uint ((float (image.width()) / float (image.height())) * size); thumbH = size; } nv::AutoPtr<nv::FloatImage> fresult(fimage.resize(nv::BoxFilter(), thumbW, thumbH, nv::FloatImage::WrapMode_Clamp)); nv::AutoPtr<nv::Image> result(fresult->createImageGammaCorrect(gamma)); result->setFormat(nv::Image::Format_ARGB); nv::StdOutputStream stream(output.str()); nv::ImageIO::save(output.str(), stream, result.ptr(), metaData.buffer()); } else { nv::StdOutputStream stream(output.str()); nv::ImageIO::save(output.str(), stream, &image, metaData.buffer()); } return 0; }
int main(int argc, char *argv[]) { //MyAssertHandler assertHandler; MyMessageHandler messageHandler; float scale = 0.5f; float gamma = 2.2f; nv::AutoPtr<nv::Filter> filter; nv::Path input; nv::Path output; nv::FloatImage::WrapMode wrapMode = nv::FloatImage::WrapMode_Mirror; // Parse arguments. for (int i = 1; i < argc; i++) { // Input options. if (strcmp("-s", argv[i]) == 0) { if (i+1 < argc && argv[i+1][0] != '-') { scale = (float)atof(argv[i+1]); i++; } } else if (strcmp("-g", argv[i]) == 0) { if (i+1 < argc && argv[i+1][0] != '-') { gamma = (float)atof(argv[i+1]); i++; } } else if (strcmp("-f", argv[i]) == 0) { if (i+1 == argc) break; i++; if (strcmp("box", argv[i]) == 0) filter = new nv::BoxFilter(); else if (strcmp("triangle", argv[i]) == 0) filter = new nv::TriangleFilter(); else if (strcmp("quadratic", argv[i]) == 0) filter = new nv::QuadraticFilter(); else if (strcmp("bspline", argv[i]) == 0) filter = new nv::BSplineFilter(); else if (strcmp("mitchell", argv[i]) == 0) filter = new nv::MitchellFilter(); else if (strcmp("lanczos", argv[i]) == 0) filter = new nv::LanczosFilter(); else if (strcmp("kaiser", argv[i]) == 0) { filter = new nv::KaiserFilter(3); ((nv::KaiserFilter *)filter.ptr())->setParameters(4.0f, 1.0f); } } else if (strcmp("-w", argv[i]) == 0) { if (i+1 == argc) break; i++; if (strcmp("mirror", argv[i]) == 0) wrapMode = nv::FloatImage::WrapMode_Mirror; else if (strcmp("repeat", argv[i]) == 0) wrapMode = nv::FloatImage::WrapMode_Repeat; else if (strcmp("clamp", argv[i]) == 0) wrapMode = nv::FloatImage::WrapMode_Clamp; } else if (argv[i][0] != '-') { input = argv[i]; if (i+1 < argc && argv[i+1][0] != '-') { output = argv[i+1]; } break; } } if (input.isNull() || output.isNull()) { printf("NVIDIA Texture Tools - Copyright NVIDIA Corporation 2007\n\n"); printf("usage: nvzoom [options] input [output]\n\n"); printf("Options:\n"); printf(" -s scale Scale factor (default = 0.5)\n"); printf(" -g gamma Gamma correction (default = 2.2)\n"); printf(" -f filter One of the following: (default = 'box')\n"); printf(" * box\n"); printf(" * triangle\n"); printf(" * quadratic\n"); printf(" * bspline\n"); printf(" * mitchell\n"); printf(" * lanczos\n"); printf(" * kaiser\n"); printf(" -w mode One of the following: (default = 'mirror')\n"); printf(" * mirror\n"); printf(" * repeat\n"); printf(" * clamp\n"); return 1; } if (filter == NULL) { filter = new nv::BoxFilter(); } nv::Image image; if (!loadImage(image, input)) return 0; nv::FloatImage fimage(&image); fimage.toLinear(0, 3, gamma); nv::AutoPtr<nv::FloatImage> fresult(fimage.resize(*filter, uint(image.width() * scale), uint(image.height() * scale), wrapMode)); nv::AutoPtr<nv::Image> result(fresult->createImageGammaCorrect(gamma)); result->setFormat(nv::Image::Format_ARGB); nv::StdOutputStream stream(output); nv::ImageIO::saveTGA(stream, result.ptr()); // @@ Add generic save function. Add support for png too. return 0; }