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Clean up and optimize BasisUniversal
This commit is contained in:
parent
bf919eafa7
commit
a1997d13e4
@ -37,9 +37,6 @@
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#include <encoder/basisu_comp.h>
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#endif
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//workaround for lack of ETC2 RG
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#define USE_RG_AS_RGBA
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void basis_universal_init() {
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#ifdef TOOLS_ENABLED
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basisu::basisu_encoder_init();
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@ -50,225 +47,205 @@ void basis_universal_init() {
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#ifdef TOOLS_ENABLED
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Vector<uint8_t> basis_universal_packer(const Ref<Image> &p_image, Image::UsedChannels p_channels) {
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Vector<uint8_t> budata;
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{
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basisu::basis_compressor_params params;
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Ref<Image> image = p_image->duplicate();
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if (image->get_format() != Image::FORMAT_RGBA8) {
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image->convert(Image::FORMAT_RGBA8);
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}
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Ref<Image> image = p_image->duplicate();
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image->convert(Image::FORMAT_RGBA8);
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params.m_uastc = true;
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params.m_quality_level = basisu::BASISU_QUALITY_MIN;
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basisu::basis_compressor_params params;
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params.m_pack_uastc_flags &= ~basisu::cPackUASTCLevelMask;
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params.m_uastc = true;
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params.m_quality_level = basisu::BASISU_QUALITY_MIN;
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params.m_pack_uastc_flags &= ~basisu::cPackUASTCLevelMask;
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params.m_pack_uastc_flags |= basisu::cPackUASTCLevelFastest;
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static const uint32_t s_level_flags[basisu::TOTAL_PACK_UASTC_LEVELS] = { basisu::cPackUASTCLevelFastest, basisu::cPackUASTCLevelFaster, basisu::cPackUASTCLevelDefault, basisu::cPackUASTCLevelSlower, basisu::cPackUASTCLevelVerySlow };
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params.m_pack_uastc_flags |= s_level_flags[0];
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params.m_rdo_uastc = 0.0f;
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params.m_rdo_uastc_quality_scalar = 0.0f;
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params.m_rdo_uastc_dict_size = 1024;
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params.m_rdo_uastc = 0.0f;
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params.m_rdo_uastc_quality_scalar = 0.0f;
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params.m_rdo_uastc_dict_size = 1024;
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params.m_mip_fast = true;
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params.m_multithreading = true;
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params.m_mip_fast = true;
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params.m_multithreading = true;
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params.m_check_for_alpha = false;
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basisu::job_pool jpool(OS::get_singleton()->get_processor_count());
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params.m_pJob_pool = &jpool;
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basisu::job_pool job_pool(OS::get_singleton()->get_processor_count());
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params.m_pJob_pool = &job_pool;
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BasisDecompressFormat decompress_format = BASIS_DECOMPRESS_RG;
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params.m_check_for_alpha = false;
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switch (p_channels) {
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case Image::USED_CHANNELS_L: {
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decompress_format = BASIS_DECOMPRESS_RGB;
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} break;
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case Image::USED_CHANNELS_LA: {
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params.m_force_alpha = true;
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decompress_format = BASIS_DECOMPRESS_RGBA;
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} break;
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case Image::USED_CHANNELS_R: {
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decompress_format = BASIS_DECOMPRESS_RGB;
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} break;
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case Image::USED_CHANNELS_RG: {
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#ifdef USE_RG_AS_RGBA
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params.m_force_alpha = true;
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image->convert_rg_to_ra_rgba8();
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decompress_format = BASIS_DECOMPRESS_RG_AS_RA;
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#else
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params.m_seperate_rg_to_color_alpha = true;
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decompress_format = BASIS_DECOMPRESS_RG;
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#endif
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} break;
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case Image::USED_CHANNELS_RGB: {
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decompress_format = BASIS_DECOMPRESS_RGB;
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} break;
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case Image::USED_CHANNELS_RGBA: {
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params.m_force_alpha = true;
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decompress_format = BASIS_DECOMPRESS_RGBA;
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} break;
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}
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if (!image->has_mipmaps()) {
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basisu::image buimg(image->get_width(), image->get_height());
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Vector<uint8_t> vec = image->get_data();
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const uint8_t *r = vec.ptr();
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memcpy(buimg.get_ptr(), r, vec.size());
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params.m_source_images.push_back(buimg);
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} else {
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{
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Ref<Image> base_image = image->get_image_from_mipmap(0);
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Vector<uint8_t> image_vec = base_image->get_data();
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basisu::image buimg_image(base_image->get_width(), base_image->get_height());
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const uint8_t *r = image_vec.ptr();
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memcpy(buimg_image.get_ptr(), r, image_vec.size());
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params.m_source_images.push_back(buimg_image);
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}
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basisu::vector<basisu::image> images;
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for (int32_t mip_map_i = 1; mip_map_i <= image->get_mipmap_count(); mip_map_i++) {
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Ref<Image> mip_map = image->get_image_from_mipmap(mip_map_i);
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Vector<uint8_t> mip_map_vec = mip_map->get_data();
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basisu::image buimg_mipmap(mip_map->get_width(), mip_map->get_height());
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const uint8_t *r = mip_map_vec.ptr();
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memcpy(buimg_mipmap.get_ptr(), r, mip_map_vec.size());
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images.push_back(buimg_mipmap);
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}
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params.m_source_mipmap_images.push_back(images);
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}
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basisu::basis_compressor c;
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c.init(params);
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int buerr = c.process();
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ERR_FAIL_COND_V(buerr != basisu::basis_compressor::cECSuccess, budata);
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const basisu::uint8_vec &buvec = c.get_output_basis_file();
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budata.resize(buvec.size() + 4);
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{
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uint8_t *w = budata.ptrw();
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uint32_t *decf = (uint32_t *)w;
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*decf = decompress_format;
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memcpy(w + 4, &buvec[0], buvec.size());
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}
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BasisDecompressFormat decompress_format = BASIS_DECOMPRESS_RG;
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switch (p_channels) {
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case Image::USED_CHANNELS_L: {
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decompress_format = BASIS_DECOMPRESS_RGB;
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} break;
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case Image::USED_CHANNELS_LA: {
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params.m_force_alpha = true;
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decompress_format = BASIS_DECOMPRESS_RGBA;
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} break;
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case Image::USED_CHANNELS_R: {
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decompress_format = BASIS_DECOMPRESS_RGB;
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} break;
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case Image::USED_CHANNELS_RG: {
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// Currently RG textures are compressed as DXT5/ETC2_RGBA8 with a RA -> RG swizzle,
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// as BasisUniversal didn't use to support ETC2_RG11 transcoding.
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params.m_force_alpha = true;
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image->convert_rg_to_ra_rgba8();
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decompress_format = BASIS_DECOMPRESS_RG_AS_RA;
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} break;
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case Image::USED_CHANNELS_RGB: {
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decompress_format = BASIS_DECOMPRESS_RGB;
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} break;
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case Image::USED_CHANNELS_RGBA: {
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params.m_force_alpha = true;
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decompress_format = BASIS_DECOMPRESS_RGBA;
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} break;
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}
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return budata;
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{
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// Encode the image with mipmaps.
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Vector<uint8_t> image_data = image->get_data();
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basisu::vector<basisu::image> basisu_mipmaps;
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for (int32_t i = 0; i <= image->get_mipmap_count(); i++) {
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int ofs, size, width, height;
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image->get_mipmap_offset_size_and_dimensions(i, ofs, size, width, height);
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basisu::image basisu_image(width, height);
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memcpy(basisu_image.get_ptr(), image_data.ptr() + ofs, size);
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if (i == 0) {
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params.m_source_images.push_back(basisu_image);
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} else {
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basisu_mipmaps.push_back(basisu_image);
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}
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}
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params.m_source_mipmap_images.push_back(basisu_mipmaps);
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}
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// Encode the image data.
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Vector<uint8_t> basisu_data;
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basisu::basis_compressor compressor;
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compressor.init(params);
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int basisu_err = compressor.process();
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ERR_FAIL_COND_V(basisu_err != basisu::basis_compressor::cECSuccess, basisu_data);
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const basisu::uint8_vec &basisu_out = compressor.get_output_basis_file();
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basisu_data.resize(basisu_out.size() + 4);
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// Copy the encoded data to the buffer.
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{
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uint8_t *w = basisu_data.ptrw();
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*(uint32_t *)w = decompress_format;
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memcpy(w + 4, basisu_out.get_ptr(), basisu_out.size());
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}
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return basisu_data;
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}
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#endif // TOOLS_ENABLED
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Ref<Image> basis_universal_unpacker_ptr(const uint8_t *p_data, int p_size) {
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Ref<Image> image;
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ERR_FAIL_NULL_V_MSG(p_data, image, "Cannot unpack invalid BasisUniversal data.");
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const uint8_t *ptr = p_data;
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int size = p_size;
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ERR_FAIL_NULL_V_MSG(p_data, image, "Cannot unpack invalid basis universal data.");
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const uint8_t *src_ptr = p_data;
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int src_size = p_size;
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basist::transcoder_texture_format format = basist::transcoder_texture_format::cTFTotalTextureFormats;
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Image::Format imgfmt = Image::FORMAT_MAX;
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basist::transcoder_texture_format basisu_format = basist::transcoder_texture_format::cTFTotalTextureFormats;
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Image::Format image_format = Image::FORMAT_MAX;
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switch (*(uint32_t *)(ptr)) {
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// Get supported compression formats.
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bool bptc_supported = RS::get_singleton()->has_os_feature("bptc");
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bool s3tc_supported = RS::get_singleton()->has_os_feature("s3tc");
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bool etc2_supported = RS::get_singleton()->has_os_feature("etc2");
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switch (*(uint32_t *)(src_ptr)) {
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case BASIS_DECOMPRESS_RG: {
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if (RS::get_singleton()->has_os_feature("rgtc")) {
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format = basist::transcoder_texture_format::cTFBC5; // get this from renderer
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imgfmt = Image::FORMAT_RGTC_RG;
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} else if (RS::get_singleton()->has_os_feature("etc2")) {
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//unfortunately, basis universal does not support
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//
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ERR_FAIL_V(image); //unimplemented here
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//format = basist::transcoder_texture_format::cTFETC1; // get this from renderer
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//imgfmt = Image::FORMAT_RGTC_RG;
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} else {
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// FIXME: There wasn't anything here, but then imgformat is used uninitialized.
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ERR_FAIL_V(image);
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}
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// RGTC transcoding is currently performed with RG_AS_RA, fail.
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ERR_FAIL_V(image);
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} break;
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case BASIS_DECOMPRESS_RGB: {
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if (RS::get_singleton()->has_os_feature("bptc")) {
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format = basist::transcoder_texture_format::cTFBC7_M6_OPAQUE_ONLY; // get this from renderer
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imgfmt = Image::FORMAT_BPTC_RGBA;
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} else if (RS::get_singleton()->has_os_feature("s3tc")) {
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format = basist::transcoder_texture_format::cTFBC1; // get this from renderer
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imgfmt = Image::FORMAT_DXT1;
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} else if (RS::get_singleton()->has_os_feature("etc2")) {
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format = basist::transcoder_texture_format::cTFETC1; // get this from renderer
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imgfmt = Image::FORMAT_ETC2_RGB8;
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if (bptc_supported) {
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basisu_format = basist::transcoder_texture_format::cTFBC7_M6_OPAQUE_ONLY;
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image_format = Image::FORMAT_BPTC_RGBA;
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} else if (s3tc_supported) {
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basisu_format = basist::transcoder_texture_format::cTFBC1;
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image_format = Image::FORMAT_DXT1;
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} else if (etc2_supported) {
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basisu_format = basist::transcoder_texture_format::cTFETC1;
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image_format = Image::FORMAT_ETC2_RGB8;
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} else {
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format = basist::transcoder_texture_format::cTFBGR565; // get this from renderer
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imgfmt = Image::FORMAT_RGB565;
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// No supported VRAM compression formats, decompress.
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basisu_format = basist::transcoder_texture_format::cTFRGBA32;
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image_format = Image::FORMAT_RGBA8;
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}
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} break;
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case BASIS_DECOMPRESS_RGBA: {
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if (RS::get_singleton()->has_os_feature("bptc")) {
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format = basist::transcoder_texture_format::cTFBC7_M5; // get this from renderer
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imgfmt = Image::FORMAT_BPTC_RGBA;
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} else if (RS::get_singleton()->has_os_feature("s3tc")) {
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format = basist::transcoder_texture_format::cTFBC3; // get this from renderer
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imgfmt = Image::FORMAT_DXT5;
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} else if (RS::get_singleton()->has_os_feature("etc2")) {
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format = basist::transcoder_texture_format::cTFETC2; // get this from renderer
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imgfmt = Image::FORMAT_ETC2_RGBA8;
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if (bptc_supported) {
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basisu_format = basist::transcoder_texture_format::cTFBC7_M5;
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image_format = Image::FORMAT_BPTC_RGBA;
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} else if (s3tc_supported) {
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basisu_format = basist::transcoder_texture_format::cTFBC3;
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image_format = Image::FORMAT_DXT5;
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} else if (etc2_supported) {
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basisu_format = basist::transcoder_texture_format::cTFETC2;
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image_format = Image::FORMAT_ETC2_RGBA8;
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} else {
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//opengl most likely
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format = basist::transcoder_texture_format::cTFRGBA4444; // get this from renderer
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imgfmt = Image::FORMAT_RGBA4444;
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// No supported VRAM compression formats, decompress.
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basisu_format = basist::transcoder_texture_format::cTFRGBA32;
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image_format = Image::FORMAT_RGBA8;
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}
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} break;
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case BASIS_DECOMPRESS_RG_AS_RA: {
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if (RS::get_singleton()->has_os_feature("s3tc")) {
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format = basist::transcoder_texture_format::cTFBC3; // get this from renderer
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imgfmt = Image::FORMAT_DXT5_RA_AS_RG;
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} else if (RS::get_singleton()->has_os_feature("etc2")) {
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format = basist::transcoder_texture_format::cTFETC2; // get this from renderer
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imgfmt = Image::FORMAT_ETC2_RA_AS_RG;
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if (s3tc_supported) {
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basisu_format = basist::transcoder_texture_format::cTFBC3;
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image_format = Image::FORMAT_DXT5_RA_AS_RG;
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} else if (etc2_supported) {
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basisu_format = basist::transcoder_texture_format::cTFETC2;
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image_format = Image::FORMAT_ETC2_RA_AS_RG;
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} else {
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//opengl most likely, bad for normal maps, nothing to do about this.
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format = basist::transcoder_texture_format::cTFRGBA32;
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imgfmt = Image::FORMAT_RGBA8;
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// No supported VRAM compression formats, decompress.
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basisu_format = basist::transcoder_texture_format::cTFRGBA32;
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image_format = Image::FORMAT_RGBA8;
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}
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} break;
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}
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ptr += 4;
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size -= 4;
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src_ptr += 4;
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src_size -= 4;
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basist::basisu_transcoder tr;
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basist::basisu_transcoder transcoder;
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ERR_FAIL_COND_V(!transcoder.validate_header(src_ptr, src_size), image);
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ERR_FAIL_COND_V(!tr.validate_header(ptr, size), image);
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transcoder.start_transcoding(src_ptr, src_size);
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tr.start_transcoding(ptr, size);
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basist::basisu_image_info basisu_info;
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transcoder.get_image_info(src_ptr, src_size, basisu_info, 0);
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basist::basisu_image_info info;
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tr.get_image_info(ptr, size, info, 0);
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Vector<uint8_t> gpudata;
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gpudata.resize(Image::get_image_data_size(info.m_width, info.m_height, imgfmt, info.m_total_levels > 1));
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Vector<uint8_t> out_data;
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out_data.resize(Image::get_image_data_size(basisu_info.m_width, basisu_info.m_height, image_format, basisu_info.m_total_levels > 1));
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uint8_t *w = gpudata.ptrw();
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uint8_t *dst = w;
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for (int i = 0; i < gpudata.size(); i++) {
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dst[i] = 0x00;
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}
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uint32_t mip_count = Image::get_image_required_mipmaps(info.m_orig_width, info.m_orig_height, imgfmt);
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for (uint32_t level_i = 0; level_i <= mip_count; level_i++) {
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basist::basisu_image_level_info level;
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tr.get_image_level_info(ptr, size, level, 0, level_i);
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int ofs = Image::get_image_mipmap_offset(info.m_width, info.m_height, imgfmt, level_i);
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bool ret = tr.transcode_image_level(ptr, size, 0, level_i, dst + ofs, level.m_total_blocks, format);
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if (!ret) {
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print_line(vformat("Basis universal cannot unpack level %d.", level_i));
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uint8_t *dst = out_data.ptrw();
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memset(dst, 0, out_data.size());
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uint32_t mip_count = Image::get_image_required_mipmaps(basisu_info.m_orig_width, basisu_info.m_orig_height, image_format);
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for (uint32_t i = 0; i <= mip_count; i++) {
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basist::basisu_image_level_info basisu_level;
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transcoder.get_image_level_info(src_ptr, src_size, basisu_level, 0, i);
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int ofs = Image::get_image_mipmap_offset(basisu_info.m_width, basisu_info.m_height, image_format, i);
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bool result = transcoder.transcode_image_level(src_ptr, src_size, 0, i, dst + ofs, basisu_level.m_total_blocks, basisu_format);
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if (!result) {
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print_line(vformat("BasisUniversal cannot unpack level %d.", i));
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break;
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};
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}
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}
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image = Image::create_from_data(info.m_width, info.m_height, info.m_total_levels > 1, imgfmt, gpudata);
|
||||
image = Image::create_from_data(basisu_info.m_width, basisu_info.m_height, basisu_info.m_total_levels > 1, image_format, out_data);
|
||||
|
||||
return image;
|
||||
}
|
||||
|
||||
Ref<Image> basis_universal_unpacker(const Vector<uint8_t> &p_buffer) {
|
||||
Ref<Image> image;
|
||||
|
||||
const uint8_t *r = p_buffer.ptr();
|
||||
int size = p_buffer.size();
|
||||
return basis_universal_unpacker_ptr(r, size);
|
||||
return basis_universal_unpacker_ptr(p_buffer.ptr(), p_buffer.size());
|
||||
}
|
||||
|
@ -37,7 +37,7 @@ enum BasisDecompressFormat {
|
||||
BASIS_DECOMPRESS_RG,
|
||||
BASIS_DECOMPRESS_RGB,
|
||||
BASIS_DECOMPRESS_RGBA,
|
||||
BASIS_DECOMPRESS_RG_AS_RA
|
||||
BASIS_DECOMPRESS_RG_AS_RA,
|
||||
};
|
||||
|
||||
void basis_universal_init();
|
||||
|
Loading…
Reference in New Issue
Block a user