parent
12ab5731ab
commit
d7905b3c0b
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@ -20,7 +20,7 @@ Files extracted from upstream source:
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## basis_universal
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## basis_universal
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- Upstream: https://github.com/BinomialLLC/basis_universal
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- Upstream: https://github.com/BinomialLLC/basis_universal
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- Version: git (1531cfaf9ed5232248a0a45736686a849ca3befc, 2022)
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- Version: git (a91e94c8495d7f470d3df326a364d49324cfd4a3, 2022)
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- License: Apache 2.0
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- License: Apache 2.0
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Files extracted from upstream source:
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Files extracted from upstream source:
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@ -1501,7 +1501,8 @@ namespace basisu
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if (m_params.m_compute_stats)
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if (m_params.m_compute_stats)
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{
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{
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printf("Slice: %u\n", slice_index);
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if (m_params.m_print_stats)
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printf("Slice: %u\n", slice_index);
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image_stats& s = m_stats[slice_index];
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image_stats& s = m_stats[slice_index];
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@ -1511,81 +1512,100 @@ namespace basisu
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// ---- .basis stats
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// ---- .basis stats
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked[slice_index], 0, 3);
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked[slice_index], 0, 3);
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em.print(".basis RGB Avg: ");
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if (m_params.m_print_stats)
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em.print(".basis RGB Avg: ");
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s.m_basis_rgb_avg_psnr = em.m_psnr;
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s.m_basis_rgb_avg_psnr = em.m_psnr;
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked[slice_index], 0, 4);
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked[slice_index], 0, 4);
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em.print(".basis RGBA Avg: ");
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if (m_params.m_print_stats)
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em.print(".basis RGBA Avg: ");
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s.m_basis_rgba_avg_psnr = em.m_psnr;
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s.m_basis_rgba_avg_psnr = em.m_psnr;
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked[slice_index], 0, 1);
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked[slice_index], 0, 1);
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em.print(".basis R Avg: ");
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if (m_params.m_print_stats)
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em.print(".basis R Avg: ");
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked[slice_index], 1, 1);
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked[slice_index], 1, 1);
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em.print(".basis G Avg: ");
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if (m_params.m_print_stats)
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em.print(".basis G Avg: ");
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked[slice_index], 2, 1);
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked[slice_index], 2, 1);
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em.print(".basis B Avg: ");
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if (m_params.m_print_stats)
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em.print(".basis B Avg: ");
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if (m_params.m_uastc)
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if (m_params.m_uastc)
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{
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{
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked[slice_index], 3, 1);
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked[slice_index], 3, 1);
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em.print(".basis A Avg: ");
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if (m_params.m_print_stats)
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em.print(".basis A Avg: ");
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s.m_basis_a_avg_psnr = em.m_psnr;
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s.m_basis_a_avg_psnr = em.m_psnr;
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}
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}
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked[slice_index], 0, 0);
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked[slice_index], 0, 0);
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em.print(".basis 709 Luma: ");
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if (m_params.m_print_stats)
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em.print(".basis 709 Luma: ");
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s.m_basis_luma_709_psnr = static_cast<float>(em.m_psnr);
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s.m_basis_luma_709_psnr = static_cast<float>(em.m_psnr);
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s.m_basis_luma_709_ssim = static_cast<float>(em.m_ssim);
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s.m_basis_luma_709_ssim = static_cast<float>(em.m_ssim);
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked[slice_index], 0, 0, true, true);
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked[slice_index], 0, 0, true, true);
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em.print(".basis 601 Luma: ");
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if (m_params.m_print_stats)
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em.print(".basis 601 Luma: ");
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s.m_basis_luma_601_psnr = static_cast<float>(em.m_psnr);
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s.m_basis_luma_601_psnr = static_cast<float>(em.m_psnr);
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if (m_slice_descs.size() == 1)
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if (m_slice_descs.size() == 1)
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{
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{
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const uint32_t output_size = comp_size ? (uint32_t)comp_size : (uint32_t)comp_data.size();
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const uint32_t output_size = comp_size ? (uint32_t)comp_size : (uint32_t)comp_data.size();
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debug_printf(".basis RGB PSNR per bit/texel*10000: %3.3f\n", 10000.0f * s.m_basis_rgb_avg_psnr / ((output_size * 8.0f) / (slice_desc.m_orig_width * slice_desc.m_orig_height)));
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if (m_params.m_print_stats)
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debug_printf(".basis Luma 709 PSNR per bit/texel*10000: %3.3f\n", 10000.0f * s.m_basis_luma_709_psnr / ((output_size * 8.0f) / (slice_desc.m_orig_width * slice_desc.m_orig_height)));
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{
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debug_printf(".basis RGB PSNR per bit/texel*10000: %3.3f\n", 10000.0f * s.m_basis_rgb_avg_psnr / ((output_size * 8.0f) / (slice_desc.m_orig_width * slice_desc.m_orig_height)));
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debug_printf(".basis Luma 709 PSNR per bit/texel*10000: %3.3f\n", 10000.0f * s.m_basis_luma_709_psnr / ((output_size * 8.0f) / (slice_desc.m_orig_width * slice_desc.m_orig_height)));
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}
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}
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}
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if (m_decoded_output_textures_unpacked_bc7[slice_index].get_width())
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if (m_decoded_output_textures_unpacked_bc7[slice_index].get_width())
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{
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{
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// ---- BC7 stats
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// ---- BC7 stats
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked_bc7[slice_index], 0, 3);
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked_bc7[slice_index], 0, 3);
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em.print("BC7 RGB Avg: ");
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if (m_params.m_print_stats)
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em.print("BC7 RGB Avg: ");
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s.m_bc7_rgb_avg_psnr = em.m_psnr;
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s.m_bc7_rgb_avg_psnr = em.m_psnr;
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked_bc7[slice_index], 0, 4);
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked_bc7[slice_index], 0, 4);
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em.print("BC7 RGBA Avg: ");
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if (m_params.m_print_stats)
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em.print("BC7 RGBA Avg: ");
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s.m_bc7_rgba_avg_psnr = em.m_psnr;
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s.m_bc7_rgba_avg_psnr = em.m_psnr;
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked_bc7[slice_index], 0, 1);
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked_bc7[slice_index], 0, 1);
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em.print("BC7 R Avg: ");
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if (m_params.m_print_stats)
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em.print("BC7 R Avg: ");
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked_bc7[slice_index], 1, 1);
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked_bc7[slice_index], 1, 1);
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em.print("BC7 G Avg: ");
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if (m_params.m_print_stats)
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em.print("BC7 G Avg: ");
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked_bc7[slice_index], 2, 1);
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked_bc7[slice_index], 2, 1);
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em.print("BC7 B Avg: ");
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if (m_params.m_print_stats)
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em.print("BC7 B Avg: ");
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if (m_params.m_uastc)
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if (m_params.m_uastc)
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{
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{
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked_bc7[slice_index], 3, 1);
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked_bc7[slice_index], 3, 1);
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em.print("BC7 A Avg: ");
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if (m_params.m_print_stats)
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em.print("BC7 A Avg: ");
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s.m_bc7_a_avg_psnr = em.m_psnr;
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s.m_bc7_a_avg_psnr = em.m_psnr;
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}
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}
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked_bc7[slice_index], 0, 0);
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked_bc7[slice_index], 0, 0);
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em.print("BC7 709 Luma: ");
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if (m_params.m_print_stats)
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em.print("BC7 709 Luma: ");
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s.m_bc7_luma_709_psnr = static_cast<float>(em.m_psnr);
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s.m_bc7_luma_709_psnr = static_cast<float>(em.m_psnr);
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s.m_bc7_luma_709_ssim = static_cast<float>(em.m_ssim);
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s.m_bc7_luma_709_ssim = static_cast<float>(em.m_ssim);
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked_bc7[slice_index], 0, 0, true, true);
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em.calc(m_slice_images[slice_index], m_decoded_output_textures_unpacked_bc7[slice_index], 0, 0, true, true);
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em.print("BC7 601 Luma: ");
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if (m_params.m_print_stats)
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em.print("BC7 601 Luma: ");
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s.m_bc7_luma_601_psnr = static_cast<float>(em.m_psnr);
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s.m_bc7_luma_601_psnr = static_cast<float>(em.m_psnr);
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}
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}
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@ -1593,16 +1613,19 @@ namespace basisu
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{
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{
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// ---- Nearly best possible ETC1S stats
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// ---- Nearly best possible ETC1S stats
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em.calc(m_slice_images[slice_index], m_best_etc1s_images_unpacked[slice_index], 0, 3);
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em.calc(m_slice_images[slice_index], m_best_etc1s_images_unpacked[slice_index], 0, 3);
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em.print("Unquantized ETC1S RGB Avg: ");
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if (m_params.m_print_stats)
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em.print("Unquantized ETC1S RGB Avg: ");
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s.m_best_etc1s_rgb_avg_psnr = static_cast<float>(em.m_psnr);
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s.m_best_etc1s_rgb_avg_psnr = static_cast<float>(em.m_psnr);
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em.calc(m_slice_images[slice_index], m_best_etc1s_images_unpacked[slice_index], 0, 0);
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em.calc(m_slice_images[slice_index], m_best_etc1s_images_unpacked[slice_index], 0, 0);
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em.print("Unquantized ETC1S 709 Luma: ");
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if (m_params.m_print_stats)
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em.print("Unquantized ETC1S 709 Luma: ");
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s.m_best_etc1s_luma_709_psnr = static_cast<float>(em.m_psnr);
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s.m_best_etc1s_luma_709_psnr = static_cast<float>(em.m_psnr);
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s.m_best_etc1s_luma_709_ssim = static_cast<float>(em.m_ssim);
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s.m_best_etc1s_luma_709_ssim = static_cast<float>(em.m_ssim);
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em.calc(m_slice_images[slice_index], m_best_etc1s_images_unpacked[slice_index], 0, 0, true, true);
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em.calc(m_slice_images[slice_index], m_best_etc1s_images_unpacked[slice_index], 0, 0, true, true);
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em.print("Unquantized ETC1S 601 Luma: ");
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if (m_params.m_print_stats)
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em.print("Unquantized ETC1S 601 Luma: ");
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s.m_best_etc1s_luma_601_psnr = static_cast<float>(em.m_psnr);
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s.m_best_etc1s_luma_601_psnr = static_cast<float>(em.m_psnr);
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}
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}
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}
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}
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@ -2311,6 +2334,8 @@ namespace basisu
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}
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}
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comp_params.m_compute_stats = (pStats != nullptr);
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comp_params.m_compute_stats = (pStats != nullptr);
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comp_params.m_print_stats = (flags_and_quality & cFlagPrintStats) != 0;
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comp_params.m_status_output = (flags_and_quality & cFlagPrintStatus) != 0;
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// Create the compressor, initialize it, and process the input
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// Create the compressor, initialize it, and process the input
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basis_compressor comp;
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basis_compressor comp;
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@ -2328,6 +2353,11 @@ namespace basisu
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return nullptr;
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return nullptr;
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}
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}
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if ((pStats) && (comp.get_opencl_failed()))
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{
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pStats->m_opencl_failed = true;
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}
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// Get the output file data and return it to the caller
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// Get the output file data and return it to the caller
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void* pFile_data = nullptr;
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void* pFile_data = nullptr;
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const uint8_vec* pFile_data_vec = comp_params.m_create_ktx2_file ? &comp.get_output_ktx2_file() : &comp.get_output_basis_file();
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const uint8_vec* pFile_data_vec = comp_params.m_create_ktx2_file ? &comp.get_output_ktx2_file() : &comp.get_output_basis_file();
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@ -2388,4 +2418,108 @@ namespace basisu
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free(p);
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free(p);
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}
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}
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bool basis_benchmark_etc1s_opencl(bool* pOpenCL_failed)
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{
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if (pOpenCL_failed)
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*pOpenCL_failed = false;
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if (!opencl_is_available())
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{
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error_printf("basis_benchmark_etc1s_opencl: OpenCL support must be enabled first!\n");
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return false;
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}
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const uint32_t W = 1024, H = 1024;
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basisu::vector<image> images;
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image& img = images.enlarge(1)->resize(W, H);
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const uint32_t NUM_RAND_LETTERS = 6000;// 40000;
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rand r;
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r.seed(200);
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for (uint32_t i = 0; i < NUM_RAND_LETTERS; i++)
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{
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uint32_t x = r.irand(0, W - 1), y = r.irand(0, H - 1);
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uint32_t sx = r.irand(1, 4), sy = r.irand(1, 4);
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color_rgba c(r.byte(), r.byte(), r.byte(), 255);
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img.debug_text(x, y, sx, sy, c, nullptr, false, "%c", static_cast<char>(r.irand(32, 127)));
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}
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//save_png("test.png", img);
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image_stats stats;
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uint32_t flags_and_quality = cFlagSRGB | cFlagThreaded | 255;
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size_t comp_size = 0;
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double best_cpu_time = 1e+9f, best_gpu_time = 1e+9f;
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const uint32_t TIMES_TO_ENCODE = 2;
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interval_timer tm;
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for (uint32_t i = 0; i < TIMES_TO_ENCODE; i++)
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{
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tm.start();
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void* pComp_data = basis_compress(
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images,
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flags_and_quality, 1.0f,
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&comp_size,
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&stats);
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double cpu_time = tm.get_elapsed_secs();
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if (!pComp_data)
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{
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error_printf("basis_benchmark_etc1s_opencl: basis_compress() failed (CPU)!\n");
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return false;
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}
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best_cpu_time = minimum(best_cpu_time, cpu_time);
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basis_free_data(pComp_data);
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}
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printf("Best CPU time: %3.3f\n", best_cpu_time);
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for (uint32_t i = 0; i < TIMES_TO_ENCODE; i++)
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{
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tm.start();
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void* pComp_data = basis_compress(
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images,
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flags_and_quality | cFlagUseOpenCL, 1.0f,
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&comp_size,
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&stats);
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if (stats.m_opencl_failed)
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{
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error_printf("basis_benchmark_etc1s_opencl: OpenCL failed!\n");
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basis_free_data(pComp_data);
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if (pOpenCL_failed)
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*pOpenCL_failed = true;
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return false;
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}
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double gpu_time = tm.get_elapsed_secs();
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if (!pComp_data)
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{
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||||||
|
error_printf("basis_benchmark_etc1s_opencl: basis_compress() failed (GPU)!\n");
|
||||||
|
return false;
|
||||||
|
}
|
||||||
|
|
||||||
|
best_gpu_time = minimum(best_gpu_time, gpu_time);
|
||||||
|
|
||||||
|
basis_free_data(pComp_data);
|
||||||
|
}
|
||||||
|
|
||||||
|
printf("Best GPU time: %3.3f\n", best_gpu_time);
|
||||||
|
|
||||||
|
return best_gpu_time < best_cpu_time;
|
||||||
|
}
|
||||||
|
|
||||||
} // namespace basisu
|
} // namespace basisu
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
|
|
|
@ -92,6 +92,8 @@ namespace basisu
|
||||||
m_best_etc1s_luma_709_psnr = 0.0f;
|
m_best_etc1s_luma_709_psnr = 0.0f;
|
||||||
m_best_etc1s_luma_601_psnr = 0.0f;
|
m_best_etc1s_luma_601_psnr = 0.0f;
|
||||||
m_best_etc1s_luma_709_ssim = 0.0f;
|
m_best_etc1s_luma_709_ssim = 0.0f;
|
||||||
|
|
||||||
|
m_opencl_failed = false;
|
||||||
}
|
}
|
||||||
|
|
||||||
std::string m_filename;
|
std::string m_filename;
|
||||||
|
@ -119,6 +121,8 @@ namespace basisu
|
||||||
float m_best_etc1s_luma_709_psnr;
|
float m_best_etc1s_luma_709_psnr;
|
||||||
float m_best_etc1s_luma_601_psnr;
|
float m_best_etc1s_luma_601_psnr;
|
||||||
float m_best_etc1s_luma_709_ssim;
|
float m_best_etc1s_luma_709_ssim;
|
||||||
|
|
||||||
|
bool m_opencl_failed;
|
||||||
};
|
};
|
||||||
|
|
||||||
template<bool def>
|
template<bool def>
|
||||||
|
@ -255,6 +259,7 @@ namespace basisu
|
||||||
m_write_output_basis_files.clear();
|
m_write_output_basis_files.clear();
|
||||||
m_compression_level.clear();
|
m_compression_level.clear();
|
||||||
m_compute_stats.clear();
|
m_compute_stats.clear();
|
||||||
|
m_print_stats.clear();
|
||||||
m_check_for_alpha.clear();
|
m_check_for_alpha.clear();
|
||||||
m_force_alpha.clear();
|
m_force_alpha.clear();
|
||||||
m_multithreading.clear();
|
m_multithreading.clear();
|
||||||
|
@ -373,6 +378,9 @@ namespace basisu
|
||||||
|
|
||||||
// Compute and display image metrics
|
// Compute and display image metrics
|
||||||
bool_param<false> m_compute_stats;
|
bool_param<false> m_compute_stats;
|
||||||
|
|
||||||
|
// Print stats to stdout, if m_compute_stats is true.
|
||||||
|
bool_param<true> m_print_stats;
|
||||||
|
|
||||||
// Check to see if any input image has an alpha channel, if so then the output basis file will have alpha channels
|
// Check to see if any input image has an alpha channel, if so then the output basis file will have alpha channels
|
||||||
bool_param<true> m_check_for_alpha;
|
bool_param<true> m_check_for_alpha;
|
||||||
|
@ -583,11 +591,16 @@ namespace basisu
|
||||||
cFlagYFlip = 1 << 16, // flip source image on Y axis before compression
|
cFlagYFlip = 1 << 16, // flip source image on Y axis before compression
|
||||||
|
|
||||||
cFlagUASTC = 1 << 17, // use UASTC compression vs. ETC1S
|
cFlagUASTC = 1 << 17, // use UASTC compression vs. ETC1S
|
||||||
cFlagUASTCRDO = 1 << 18 // use RDO postprocessing when generating UASTC files (must set uastc_rdo_quality to the quality scalar)
|
cFlagUASTCRDO = 1 << 18, // use RDO postprocessing when generating UASTC files (must set uastc_rdo_quality to the quality scalar)
|
||||||
|
|
||||||
|
cFlagPrintStats = 1 << 19, // print image stats to stdout
|
||||||
|
cFlagPrintStatus = 1 << 20 // print status to stdout
|
||||||
};
|
};
|
||||||
|
|
||||||
// This function accepts an array of source images.
|
// This function accepts an array of source images.
|
||||||
// If more than one image is provided, it's assumed the images form a mipmap pyramid and automatic mipmap generation is disabled.
|
// If more than one image is provided, it's assumed the images form a mipmap pyramid and automatic mipmap generation is disabled.
|
||||||
|
// Returns a pointer to the compressed .basis or .ktx2 file data. *pSize is the size of the compressed data. The returned block must be freed using basis_free_data().
|
||||||
|
// basisu_encoder_init() MUST be called first!
|
||||||
void* basis_compress(
|
void* basis_compress(
|
||||||
const basisu::vector<image> &source_images,
|
const basisu::vector<image> &source_images,
|
||||||
uint32_t flags_and_quality, float uastc_rdo_quality,
|
uint32_t flags_and_quality, float uastc_rdo_quality,
|
||||||
|
@ -604,6 +617,12 @@ namespace basisu
|
||||||
// Frees the dynamically allocated file data returned by basis_compress().
|
// Frees the dynamically allocated file data returned by basis_compress().
|
||||||
void basis_free_data(void* p);
|
void basis_free_data(void* p);
|
||||||
|
|
||||||
|
// Runs a short benchmark using synthetic image data to time OpenCL encoding vs. CPU encoding, with multithreading enabled.
|
||||||
|
// Returns true if opencl is worth using on this system, otherwise false.
|
||||||
|
// If pOpenCL_failed is not null, it will be set to true if OpenCL encoding failed *on this particular machine/driver/BasisU version* and the encoder falled back to CPU encoding.
|
||||||
|
// basisu_encoder_init() MUST be called first. If OpenCL support wasn't enabled this always returns false.
|
||||||
|
bool basis_benchmark_etc1s_opencl(bool *pOpenCL_failed = nullptr);
|
||||||
|
|
||||||
// Parallel compression API
|
// Parallel compression API
|
||||||
struct parallel_results
|
struct parallel_results
|
||||||
{
|
{
|
||||||
|
|
|
@ -187,6 +187,8 @@ namespace basisu
|
||||||
opencl_init(opencl_force_serialization);
|
opencl_init(opencl_force_serialization);
|
||||||
}
|
}
|
||||||
|
|
||||||
|
interval_timer::init(); // make sure interval_timer globals are initialized from main thread to avoid TSAN reports
|
||||||
|
|
||||||
g_library_initialized = true;
|
g_library_initialized = true;
|
||||||
}
|
}
|
||||||
|
|
||||||
|
@ -227,7 +229,7 @@ namespace basisu
|
||||||
{
|
{
|
||||||
QueryPerformanceFrequency(reinterpret_cast<LARGE_INTEGER*>(pTicks));
|
QueryPerformanceFrequency(reinterpret_cast<LARGE_INTEGER*>(pTicks));
|
||||||
}
|
}
|
||||||
#elif defined(__APPLE__) || defined(__FreeBSD__) || defined(__OpenBSD__)
|
#elif defined(__APPLE__) || defined(__FreeBSD__) || defined(__OpenBSD__) || defined(__EMSCRIPTEN__)
|
||||||
#include <sys/time.h>
|
#include <sys/time.h>
|
||||||
inline void query_counter(timer_ticks* pTicks)
|
inline void query_counter(timer_ticks* pTicks)
|
||||||
{
|
{
|
||||||
|
|
|
@ -2328,8 +2328,6 @@ namespace basisu
|
||||||
|
|
||||||
m_optimized_cluster_selectors.resize(total_selector_clusters);
|
m_optimized_cluster_selectors.resize(total_selector_clusters);
|
||||||
|
|
||||||
uint32_t total_clusters_processed = 0;
|
|
||||||
|
|
||||||
// For each selector codebook entry, and for each of the 4x4 selectors, determine which selector minimizes the error across all the blocks that use that quantized selector.
|
// For each selector codebook entry, and for each of the 4x4 selectors, determine which selector minimizes the error across all the blocks that use that quantized selector.
|
||||||
const uint32_t N = 256;
|
const uint32_t N = 256;
|
||||||
for (uint32_t cluster_index_iter = 0; cluster_index_iter < total_selector_clusters; cluster_index_iter += N)
|
for (uint32_t cluster_index_iter = 0; cluster_index_iter < total_selector_clusters; cluster_index_iter += N)
|
||||||
|
@ -2338,7 +2336,7 @@ namespace basisu
|
||||||
const uint32_t last_index = minimum<uint32_t>((uint32_t)total_selector_clusters, cluster_index_iter + N);
|
const uint32_t last_index = minimum<uint32_t>((uint32_t)total_selector_clusters, cluster_index_iter + N);
|
||||||
|
|
||||||
#ifndef __EMSCRIPTEN__
|
#ifndef __EMSCRIPTEN__
|
||||||
m_params.m_pJob_pool->add_job([this, first_index, last_index, &total_clusters_processed, &total_selector_clusters] {
|
m_params.m_pJob_pool->add_job([this, first_index, last_index] {
|
||||||
#endif
|
#endif
|
||||||
|
|
||||||
for (uint32_t cluster_index = first_index; cluster_index < last_index; cluster_index++)
|
for (uint32_t cluster_index = first_index; cluster_index < last_index; cluster_index++)
|
||||||
|
|
|
@ -16867,7 +16867,7 @@ namespace basist
|
||||||
{
|
{
|
||||||
m_format = basist::basis_tex_format::cETC1S;
|
m_format = basist::basis_tex_format::cETC1S;
|
||||||
|
|
||||||
// 3.10.2: "Whether the image has 1 or 2 slices can be determined from the DFD’s sample count."
|
// 3.10.2: "Whether the image has 1 or 2 slices can be determined from the DFD's sample count."
|
||||||
// If m_has_alpha is true it may be 2-channel RRRG or 4-channel RGBA, but we let the caller deal with that.
|
// If m_has_alpha is true it may be 2-channel RRRG or 4-channel RGBA, but we let the caller deal with that.
|
||||||
m_has_alpha = (m_header.m_dfd_byte_length == 60);
|
m_has_alpha = (m_header.m_dfd_byte_length == 60);
|
||||||
|
|
||||||
|
|
Loading…
Reference in New Issue