diff options
Diffstat (limited to 'thirdparty/tinyexr/tinyexr.h')
-rw-r--r-- | thirdparty/tinyexr/tinyexr.h | 588 |
1 files changed, 424 insertions, 164 deletions
diff --git a/thirdparty/tinyexr/tinyexr.h b/thirdparty/tinyexr/tinyexr.h index bfc52b51a5..7e8956f7d3 100644 --- a/thirdparty/tinyexr/tinyexr.h +++ b/thirdparty/tinyexr/tinyexr.h @@ -105,6 +105,19 @@ extern "C" { // http://computation.llnl.gov/projects/floating-point-compression #endif +#ifndef TINYEXR_USE_THREAD +#define TINYEXR_USE_THREAD (0) // No threaded loading. +// http://computation.llnl.gov/projects/floating-point-compression +#endif + +#ifndef TINYEXR_USE_OPENMP +#ifdef _OPENMP +#define TINYEXR_USE_OPENMP (1) +#else +#define TINYEXR_USE_OPENMP (0) +#endif +#endif + #define TINYEXR_SUCCESS (0) #define TINYEXR_ERROR_INVALID_MAGIC_NUMBER (-1) #define TINYEXR_ERROR_INVALID_EXR_VERSION (-2) @@ -118,6 +131,7 @@ extern "C" { #define TINYEXR_ERROR_UNSUPPORTED_FEATURE (-10) #define TINYEXR_ERROR_CANT_WRITE_FILE (-11) #define TINYEXR_ERROR_SERIALZATION_FAILED (-12) +#define TINYEXR_ERROR_LAYER_NOT_FOUND (-13) // @note { OpenEXR file format: http://www.openexr.com/openexrfilelayout.pdf } @@ -263,7 +277,7 @@ typedef struct _DeepImage { int pad0; } DeepImage; -// @deprecated { to be removed. } +// @deprecated { For backward compatibility. Not recommended to use. } // Loads single-frame OpenEXR image. Assume EXR image contains A(single channel // alpha) or RGB(A) channels. // Application must free image data as returned by `out_rgba` @@ -273,6 +287,27 @@ typedef struct _DeepImage { extern int LoadEXR(float **out_rgba, int *width, int *height, const char *filename, const char **err); +// Loads single-frame OpenEXR image by specifing layer name. Assume EXR image contains A(single channel +// alpha) or RGB(A) channels. +// Application must free image data as returned by `out_rgba` +// Result image format is: float x RGBA x width x hight +// Returns negative value and may set error string in `err` when there's an +// error +// When the specified layer name is not found in the EXR file, the function will return `TINYEXR_ERROR_LAYER_NOT_FOUND`. +extern int LoadEXRWithLayer(float **out_rgba, int *width, int *height, + const char *filename, const char *layer_name, const char **err); + +// +// Get layer infos from EXR file. +// +// @param[out] layer_names List of layer names. Application must free memory after using this. +// @param[out] num_layers The number of layers +// @param[out] err Error string(wll be filled when the function returns error code). Free it using FreeEXRErrorMessage after using this value. +// +// @return TINYEXR_SUCCEES upon success. +// +extern int EXRLayers(const char *filename, const char **layer_names[], int *num_layers, const char **err); + // @deprecated { to be removed. } // Simple wrapper API for ParseEXRHeaderFromFile. // checking given file is a EXR file(by just look up header) @@ -472,7 +507,7 @@ extern int LoadEXRFromMemory(float **out_rgba, int *width, int *height, #include <cstring> #include <sstream> -//#include <iostream> // debug +// #include <iostream> // debug #include <limits> #include <string> @@ -481,9 +516,15 @@ extern int LoadEXRFromMemory(float **out_rgba, int *width, int *height, #if __cplusplus > 199711L // C++11 #include <cstdint> + +#if TINYEXR_USE_THREAD +#include <atomic> +#include <thread> +#endif + #endif // __cplusplus > 199711L -#ifdef _OPENMP +#if TINYEXR_USE_OPENMP #include <omp.h> #endif @@ -6917,6 +6958,10 @@ void *mz_zip_extract_archive_file_to_heap(const char *pZip_filename, } #endif +#ifdef _MSC_VER +#pragma warning(pop) +#endif + #endif // MINIZ_HEADER_FILE_ONLY /* @@ -6952,9 +6997,6 @@ void *mz_zip_extract_archive_file_to_heap(const char *pZip_filename, #pragma clang diagnostic pop #endif -#ifdef _MSC_VER -#pragma warning(pop) -#endif } // namespace miniz #else @@ -9954,9 +9996,9 @@ static bool DecodePixelData(/* out */ unsigned char **out_images, return false; } - if (!tinyexr::DecompressRle(reinterpret_cast<unsigned char *>(&outBuf.at(0)), - dstLen, data_ptr, - static_cast<unsigned long>(data_len))) { + if (!tinyexr::DecompressRle( + reinterpret_cast<unsigned char *>(&outBuf.at(0)), dstLen, data_ptr, + static_cast<unsigned long>(data_len))) { return false; } @@ -10272,7 +10314,7 @@ static bool DecodePixelData(/* out */ unsigned char **out_images, return true; } -static void DecodeTiledPixelData( +static bool DecodeTiledPixelData( unsigned char **out_images, int *width, int *height, const int *requested_pixel_types, const unsigned char *data_ptr, size_t data_len, int compression_type, int line_order, int data_width, @@ -10298,11 +10340,11 @@ static void DecodeTiledPixelData( } // Image size = tile size. - DecodePixelData(out_images, requested_pixel_types, data_ptr, data_len, - compression_type, line_order, (*width), tile_size_y, - /* stride */ tile_size_x, /* y */ 0, /* line_no */ 0, - (*height), pixel_data_size, num_attributes, attributes, - num_channels, channels, channel_offset_list); + return DecodePixelData(out_images, requested_pixel_types, data_ptr, data_len, + compression_type, line_order, (*width), tile_size_y, + /* stride */ tile_size_x, /* y */ 0, /* line_no */ 0, + (*height), pixel_data_size, num_attributes, attributes, + num_channels, channels, channel_offset_list); } static bool ComputeChannelLayout(std::vector<size_t> *channel_offset_list, @@ -10851,85 +10893,141 @@ static int DecodeChunk(EXRImage *exr_image, const EXRHeader *exr_header, exr_image->tiles = static_cast<EXRTile *>( calloc(sizeof(EXRTile), static_cast<size_t>(num_tiles))); + int err_code = TINYEXR_SUCCESS; + +#if (__cplusplus > 199711L) && (TINYEXR_USE_THREAD > 0) + + std::vector<std::thread> workers; + std::atomic<size_t> tile_count(0); + + int num_threads = std::max(1, int(std::thread::hardware_concurrency())); + if (num_threads > int(num_tiles)) { + num_threads = int(num_tiles); + } + + for (int t = 0; t < num_threads; t++) { + workers.emplace_back(std::thread([&]() { + size_t tile_idx = 0; + while ((tile_idx = tile_count++) < num_tiles) { + +#else for (size_t tile_idx = 0; tile_idx < num_tiles; tile_idx++) { - // Allocate memory for each tile. - exr_image->tiles[tile_idx].images = tinyexr::AllocateImage( - num_channels, exr_header->channels, exr_header->requested_pixel_types, - exr_header->tile_size_x, exr_header->tile_size_y); - - // 16 byte: tile coordinates - // 4 byte : data size - // ~ : data(uncompressed or compressed) - if (offsets[tile_idx] + sizeof(int) * 5 > size) { - if (err) { - (*err) += "Insufficient data size.\n"; - } - return TINYEXR_ERROR_INVALID_DATA; - } +#endif + // Allocate memory for each tile. + exr_image->tiles[tile_idx].images = tinyexr::AllocateImage( + num_channels, exr_header->channels, + exr_header->requested_pixel_types, exr_header->tile_size_x, + exr_header->tile_size_y); + + // 16 byte: tile coordinates + // 4 byte : data size + // ~ : data(uncompressed or compressed) + if (offsets[tile_idx] + sizeof(int) * 5 > size) { + // TODO(LTE): atomic + if (err) { + (*err) += "Insufficient data size.\n"; + } + err_code = TINYEXR_ERROR_INVALID_DATA; + break; + } - size_t data_size = size_t(size - (offsets[tile_idx] + sizeof(int) * 5)); - const unsigned char *data_ptr = - reinterpret_cast<const unsigned char *>(head + offsets[tile_idx]); + size_t data_size = + size_t(size - (offsets[tile_idx] + sizeof(int) * 5)); + const unsigned char *data_ptr = + reinterpret_cast<const unsigned char *>(head + offsets[tile_idx]); + + int tile_coordinates[4]; + memcpy(tile_coordinates, data_ptr, sizeof(int) * 4); + tinyexr::swap4( + reinterpret_cast<unsigned int *>(&tile_coordinates[0])); + tinyexr::swap4( + reinterpret_cast<unsigned int *>(&tile_coordinates[1])); + tinyexr::swap4( + reinterpret_cast<unsigned int *>(&tile_coordinates[2])); + tinyexr::swap4( + reinterpret_cast<unsigned int *>(&tile_coordinates[3])); + + // @todo{ LoD } + if (tile_coordinates[2] != 0) { + err_code = TINYEXR_ERROR_UNSUPPORTED_FEATURE; + break; + } + if (tile_coordinates[3] != 0) { + err_code = TINYEXR_ERROR_UNSUPPORTED_FEATURE; + break; + } - int tile_coordinates[4]; - memcpy(tile_coordinates, data_ptr, sizeof(int) * 4); - tinyexr::swap4(reinterpret_cast<unsigned int *>(&tile_coordinates[0])); - tinyexr::swap4(reinterpret_cast<unsigned int *>(&tile_coordinates[1])); - tinyexr::swap4(reinterpret_cast<unsigned int *>(&tile_coordinates[2])); - tinyexr::swap4(reinterpret_cast<unsigned int *>(&tile_coordinates[3])); + int data_len; + memcpy(&data_len, data_ptr + 16, + sizeof(int)); // 16 = sizeof(tile_coordinates) + tinyexr::swap4(reinterpret_cast<unsigned int *>(&data_len)); - // @todo{ LoD } - if (tile_coordinates[2] != 0) { - return TINYEXR_ERROR_UNSUPPORTED_FEATURE; - } - if (tile_coordinates[3] != 0) { - return TINYEXR_ERROR_UNSUPPORTED_FEATURE; - } + if (data_len < 4 || size_t(data_len) > data_size) { + // TODO(LTE): atomic + if (err) { + (*err) += "Insufficient data length.\n"; + } + err_code = TINYEXR_ERROR_INVALID_DATA; + break; + } - int data_len; - memcpy(&data_len, data_ptr + 16, - sizeof(int)); // 16 = sizeof(tile_coordinates) - tinyexr::swap4(reinterpret_cast<unsigned int *>(&data_len)); + // Move to data addr: 20 = 16 + 4; + data_ptr += 20; + + bool ret = tinyexr::DecodeTiledPixelData( + exr_image->tiles[tile_idx].images, + &(exr_image->tiles[tile_idx].width), + &(exr_image->tiles[tile_idx].height), + exr_header->requested_pixel_types, data_ptr, + static_cast<size_t>(data_len), exr_header->compression_type, + exr_header->line_order, data_width, data_height, + tile_coordinates[0], tile_coordinates[1], exr_header->tile_size_x, + exr_header->tile_size_y, static_cast<size_t>(pixel_data_size), + static_cast<size_t>(exr_header->num_custom_attributes), + exr_header->custom_attributes, + static_cast<size_t>(exr_header->num_channels), + exr_header->channels, channel_offset_list); + + if (!ret) { + // TODO(LTE): atomic + if (err) { + (*err) += "Failed to decode tile data.\n"; + } + err_code = TINYEXR_ERROR_INVALID_DATA; + } - if (data_len < 4 || size_t(data_len) > data_size) { - if (err) { - (*err) += "Insufficient data length.\n"; + exr_image->tiles[tile_idx].offset_x = tile_coordinates[0]; + exr_image->tiles[tile_idx].offset_y = tile_coordinates[1]; + exr_image->tiles[tile_idx].level_x = tile_coordinates[2]; + exr_image->tiles[tile_idx].level_y = tile_coordinates[3]; + +#if (__cplusplus > 199711L) && (TINYEXR_USE_THREAD > 0) } - return TINYEXR_ERROR_INVALID_DATA; - } + })); + } // num_thread loop - // Move to data addr: 20 = 16 + 4; - data_ptr += 20; - - tinyexr::DecodeTiledPixelData( - exr_image->tiles[tile_idx].images, - &(exr_image->tiles[tile_idx].width), - &(exr_image->tiles[tile_idx].height), - exr_header->requested_pixel_types, data_ptr, - static_cast<size_t>(data_len), exr_header->compression_type, - exr_header->line_order, data_width, data_height, tile_coordinates[0], - tile_coordinates[1], exr_header->tile_size_x, exr_header->tile_size_y, - static_cast<size_t>(pixel_data_size), - static_cast<size_t>(exr_header->num_custom_attributes), - exr_header->custom_attributes, - static_cast<size_t>(exr_header->num_channels), exr_header->channels, - channel_offset_list); - - exr_image->tiles[tile_idx].offset_x = tile_coordinates[0]; - exr_image->tiles[tile_idx].offset_y = tile_coordinates[1]; - exr_image->tiles[tile_idx].level_x = tile_coordinates[2]; - exr_image->tiles[tile_idx].level_y = tile_coordinates[3]; - - exr_image->num_tiles = static_cast<int>(num_tiles); + for (auto &t : workers) { + t.join(); } + +#else + } +#endif + + if (err_code != TINYEXR_SUCCESS) { + return err_code; + } + + exr_image->num_tiles = static_cast<int>(num_tiles); } else { // scanline format // Don't allow too large image(256GB * pixel_data_size or more). Workaround // for #104. size_t total_data_len = size_t(data_width) * size_t(data_height) * size_t(num_channels); - const bool total_data_len_overflown = sizeof(void*) == 8 ? (total_data_len >= 0x4000000000) : false; - if ((total_data_len == 0) || total_data_len_overflown ) { + const bool total_data_len_overflown = + sizeof(void *) == 8 ? (total_data_len >= 0x4000000000) : false; + if ((total_data_len == 0) || total_data_len_overflown) { if (err) { std::stringstream ss; ss << "Image data size is zero or too large: width = " << data_width @@ -10944,85 +11042,118 @@ static int DecodeChunk(EXRImage *exr_image, const EXRHeader *exr_header, num_channels, exr_header->channels, exr_header->requested_pixel_types, data_width, data_height); -#ifdef _OPENMP +#if (__cplusplus > 199711L) && (TINYEXR_USE_THREAD > 0) + std::vector<std::thread> workers; + std::atomic<int> y_count(0); + + int num_threads = std::max(1, int(std::thread::hardware_concurrency())); + if (num_threads > int(num_blocks)) { + num_threads = int(num_blocks); + } + + for (int t = 0; t < num_threads; t++) { + workers.emplace_back(std::thread([&]() { + int y = 0; + while ((y = y_count++) < int(num_blocks)) { + +#else + +#if TINYEXR_USE_OPENMP #pragma omp parallel for #endif for (int y = 0; y < static_cast<int>(num_blocks); y++) { - size_t y_idx = static_cast<size_t>(y); - - if (offsets[y_idx] + sizeof(int) * 2 > size) { - invalid_data = true; - } else { - // 4 byte: scan line - // 4 byte: data size - // ~ : pixel data(uncompressed or compressed) - size_t data_size = size_t(size - (offsets[y_idx] + sizeof(int) * 2)); - const unsigned char *data_ptr = - reinterpret_cast<const unsigned char *>(head + offsets[y_idx]); - - int line_no; - memcpy(&line_no, data_ptr, sizeof(int)); - int data_len; - memcpy(&data_len, data_ptr + 4, sizeof(int)); - tinyexr::swap4(reinterpret_cast<unsigned int *>(&line_no)); - tinyexr::swap4(reinterpret_cast<unsigned int *>(&data_len)); - - if (size_t(data_len) > data_size) { - invalid_data = true; - - } else if ((line_no > (2 << 20)) || (line_no < -(2 << 20))) { - // Too large value. Assume this is invalid - // 2**20 = 1048576 = heuristic value. - invalid_data = true; - } else if (data_len == 0) { - // TODO(syoyo): May be ok to raise the threshold for example `data_len - // < 4` - invalid_data = true; - } else { - // line_no may be negative. - int end_line_no = (std::min)(line_no + num_scanline_blocks, - (exr_header->data_window[3] + 1)); - int num_lines = end_line_no - line_no; +#endif + size_t y_idx = static_cast<size_t>(y); - if (num_lines <= 0) { + if (offsets[y_idx] + sizeof(int) * 2 > size) { invalid_data = true; } else { - // Move to data addr: 8 = 4 + 4; - data_ptr += 8; - - // Adjust line_no with data_window.bmin.y - - // overflow check - tinyexr_int64 lno = static_cast<tinyexr_int64>(line_no) - static_cast<tinyexr_int64>(exr_header->data_window[1]); - if (lno > std::numeric_limits<int>::max()) { - line_no = -1; // invalid - } else if (lno < -std::numeric_limits<int>::max()) { - line_no = -1; // invalid - } else { - line_no -= exr_header->data_window[1]; - } + // 4 byte: scan line + // 4 byte: data size + // ~ : pixel data(uncompressed or compressed) + size_t data_size = + size_t(size - (offsets[y_idx] + sizeof(int) * 2)); + const unsigned char *data_ptr = + reinterpret_cast<const unsigned char *>(head + offsets[y_idx]); + + int line_no; + memcpy(&line_no, data_ptr, sizeof(int)); + int data_len; + memcpy(&data_len, data_ptr + 4, sizeof(int)); + tinyexr::swap4(reinterpret_cast<unsigned int *>(&line_no)); + tinyexr::swap4(reinterpret_cast<unsigned int *>(&data_len)); + + if (size_t(data_len) > data_size) { + invalid_data = true; - if (line_no < 0) { + } else if ((line_no > (2 << 20)) || (line_no < -(2 << 20))) { + // Too large value. Assume this is invalid + // 2**20 = 1048576 = heuristic value. + invalid_data = true; + } else if (data_len == 0) { + // TODO(syoyo): May be ok to raise the threshold for example + // `data_len < 4` invalid_data = true; } else { - if (!tinyexr::DecodePixelData( - exr_image->images, exr_header->requested_pixel_types, - data_ptr, static_cast<size_t>(data_len), - exr_header->compression_type, exr_header->line_order, - data_width, data_height, data_width, y, line_no, - num_lines, static_cast<size_t>(pixel_data_size), - static_cast<size_t>(exr_header->num_custom_attributes), - exr_header->custom_attributes, - static_cast<size_t>(exr_header->num_channels), - exr_header->channels, channel_offset_list)) { + // line_no may be negative. + int end_line_no = (std::min)(line_no + num_scanline_blocks, + (exr_header->data_window[3] + 1)); + + int num_lines = end_line_no - line_no; + + if (num_lines <= 0) { invalid_data = true; + } else { + // Move to data addr: 8 = 4 + 4; + data_ptr += 8; + + // Adjust line_no with data_window.bmin.y + + // overflow check + tinyexr_int64 lno = + static_cast<tinyexr_int64>(line_no) - + static_cast<tinyexr_int64>(exr_header->data_window[1]); + if (lno > std::numeric_limits<int>::max()) { + line_no = -1; // invalid + } else if (lno < -std::numeric_limits<int>::max()) { + line_no = -1; // invalid + } else { + line_no -= exr_header->data_window[1]; + } + + if (line_no < 0) { + invalid_data = true; + } else { + if (!tinyexr::DecodePixelData( + exr_image->images, exr_header->requested_pixel_types, + data_ptr, static_cast<size_t>(data_len), + exr_header->compression_type, exr_header->line_order, + data_width, data_height, data_width, y, line_no, + num_lines, static_cast<size_t>(pixel_data_size), + static_cast<size_t>( + exr_header->num_custom_attributes), + exr_header->custom_attributes, + static_cast<size_t>(exr_header->num_channels), + exr_header->channels, channel_offset_list)) { + invalid_data = true; + } + } } } } + +#if (__cplusplus > 199711L) && (TINYEXR_USE_THREAD > 0) } - } + })); + } + + for (auto &t : workers) { + t.join(); + } +#else } // omp parallel +#endif } if (invalid_data) { @@ -11219,6 +11350,9 @@ static int DecodeEXRImage(EXRImage *exr_image, const EXRHeader *exr_header, tinyexr::SetErrorMessage(e, err); } +#if 1 + FreeEXRImage(exr_image); +#else // release memory(if exists) if ((exr_header->num_channels > 0) && exr_image && exr_image->images) { for (size_t c = 0; c < size_t(exr_header->num_channels); c++) { @@ -11230,16 +11364,114 @@ static int DecodeEXRImage(EXRImage *exr_image, const EXRHeader *exr_header, free(exr_image->images); exr_image->images = NULL; } +#endif } return ret; } } +static void GetLayers(const EXRHeader& exr_header, std::vector<std::string>& layer_names) { + // Naive implementation + // Group channels by layers + // go over all channel names, split by periods + // collect unique names + layer_names.clear(); + for (int c = 0; c < exr_header.num_channels; c++) { + std::string full_name(exr_header.channels[c].name); + const size_t pos = full_name.find_last_of('.'); + if (pos != std::string::npos && pos != 0 && pos + 1 < full_name.size()) { + full_name.erase(pos); + if (std::find(layer_names.begin(), layer_names.end(), full_name) == layer_names.end()) + layer_names.push_back(full_name); + } + } +} + +struct LayerChannel { + explicit LayerChannel (size_t i, std::string n) + : index(i) + , name(n) + {} + size_t index; + std::string name; +}; + +static void ChannelsInLayer(const EXRHeader& exr_header, const std::string layer_name, std::vector<LayerChannel>& channels) { + channels.clear(); + for (int c = 0; c < exr_header.num_channels; c++) { + std::string ch_name(exr_header.channels[c].name); + if (layer_name.empty()) { + const size_t pos = ch_name.find_last_of('.'); + if (pos != std::string::npos && pos < ch_name.size()) { + ch_name = ch_name.substr(pos + 1); + } + } else { + const size_t pos = ch_name.find(layer_name + '.'); + if (pos == std::string::npos) + continue; + if (pos == 0) { + ch_name = ch_name.substr(layer_name.size() + 1); + } + } + LayerChannel ch(size_t(c), ch_name); + channels.push_back(ch); + } +} + } // namespace tinyexr +int EXRLayers(const char *filename, const char **layer_names[], int *num_layers, const char **err) { + EXRVersion exr_version; + EXRHeader exr_header; + InitEXRHeader(&exr_header); + + { + int ret = ParseEXRVersionFromFile(&exr_version, filename); + if (ret != TINYEXR_SUCCESS) { + tinyexr::SetErrorMessage("Invalid EXR header.", err); + return ret; + } + + if (exr_version.multipart || exr_version.non_image) { + tinyexr::SetErrorMessage( + "Loading multipart or DeepImage is not supported in LoadEXR() API", + err); + return TINYEXR_ERROR_INVALID_DATA; // @fixme. + } + } + + int ret = ParseEXRHeaderFromFile(&exr_header, &exr_version, filename, err); + if (ret != TINYEXR_SUCCESS) { + FreeEXRHeader(&exr_header); + return ret; + } + + std::vector<std::string> layer_vec; + tinyexr::GetLayers(exr_header, layer_vec); + + (*num_layers) = int(layer_vec.size()); + (*layer_names) = static_cast<const char **>( + malloc(sizeof(const char *) * static_cast<size_t>(layer_vec.size()))); + for (size_t c = 0; c < static_cast<size_t>(layer_vec.size()); c++) { +#ifdef _MSC_VER + (*layer_names)[c] = _strdup(layer_vec[c].c_str()); +#else + (*layer_names)[c] = strdup(layer_vec[c].c_str()); +#endif + } + + FreeEXRHeader(&exr_header); + return TINYEXR_SUCCESS; +} + int LoadEXR(float **out_rgba, int *width, int *height, const char *filename, const char **err) { + return LoadEXRWithLayer(out_rgba, width, height, filename, /* layername */NULL, err); +} + +int LoadEXRWithLayer(float **out_rgba, int *width, int *height, const char *filename, const char *layername, + const char **err) { if (out_rgba == NULL) { tinyexr::SetErrorMessage("Invalid argument for LoadEXR()", err); return TINYEXR_ERROR_INVALID_ARGUMENT; @@ -11254,7 +11486,9 @@ int LoadEXR(float **out_rgba, int *width, int *height, const char *filename, { int ret = ParseEXRVersionFromFile(&exr_version, filename); if (ret != TINYEXR_SUCCESS) { - tinyexr::SetErrorMessage("Invalid EXR header.", err); + std::stringstream ss; + ss << "Failed to open EXR file or read version info from EXR file. code(" << ret << ")"; + tinyexr::SetErrorMessage(ss.str(), err); return ret; } @@ -11281,6 +11515,7 @@ int LoadEXR(float **out_rgba, int *width, int *height, const char *filename, } } + // TODO: Probably limit loading to layers (channels) selected by layer index { int ret = LoadEXRImageFromFile(&exr_image, &exr_header, filename, err); if (ret != TINYEXR_SUCCESS) { @@ -11294,19 +11529,40 @@ int LoadEXR(float **out_rgba, int *width, int *height, const char *filename, int idxG = -1; int idxB = -1; int idxA = -1; - for (int c = 0; c < exr_header.num_channels; c++) { - if (strcmp(exr_header.channels[c].name, "R") == 0) { - idxR = c; - } else if (strcmp(exr_header.channels[c].name, "G") == 0) { - idxG = c; - } else if (strcmp(exr_header.channels[c].name, "B") == 0) { - idxB = c; - } else if (strcmp(exr_header.channels[c].name, "A") == 0) { - idxA = c; + + std::vector<std::string> layer_names; + tinyexr::GetLayers(exr_header, layer_names); + + std::vector<tinyexr::LayerChannel> channels; + tinyexr::ChannelsInLayer(exr_header, layername == NULL ? "" : std::string(layername), channels); + + if (channels.size() < 1) { + tinyexr::SetErrorMessage("Layer Not Found", err); + FreeEXRHeader(&exr_header); + FreeEXRImage(&exr_image); + return TINYEXR_ERROR_LAYER_NOT_FOUND; + } + + size_t ch_count = channels.size() < 4 ? channels.size() : 4; + for (size_t c = 0; c < ch_count; c++) { + const tinyexr::LayerChannel &ch = channels[c]; + + if (ch.name == "R") { + idxR = int(ch.index); + } + else if (ch.name == "G") { + idxG = int(ch.index); + } + else if (ch.name == "B") { + idxB = int(ch.index); + } + else if (ch.name == "A") { + idxA = int(ch.index); } } - if (exr_header.num_channels == 1) { + if (channels.size() == 1) { + int chIdx = int(channels.front().index); // Grayscale channel only. (*out_rgba) = reinterpret_cast<float *>( @@ -11333,19 +11589,19 @@ int LoadEXR(float **out_rgba, int *width, int *height, const char *filename, const int srcIdx = i + j * exr_header.tile_size_x; unsigned char **src = exr_image.tiles[it].images; (*out_rgba)[4 * idx + 0] = - reinterpret_cast<float **>(src)[0][srcIdx]; + reinterpret_cast<float **>(src)[chIdx][srcIdx]; (*out_rgba)[4 * idx + 1] = - reinterpret_cast<float **>(src)[0][srcIdx]; + reinterpret_cast<float **>(src)[chIdx][srcIdx]; (*out_rgba)[4 * idx + 2] = - reinterpret_cast<float **>(src)[0][srcIdx]; + reinterpret_cast<float **>(src)[chIdx][srcIdx]; (*out_rgba)[4 * idx + 3] = - reinterpret_cast<float **>(src)[0][srcIdx]; + reinterpret_cast<float **>(src)[chIdx][srcIdx]; } } } } else { for (int i = 0; i < exr_image.width * exr_image.height; i++) { - const float val = reinterpret_cast<float **>(exr_image.images)[0][i]; + const float val = reinterpret_cast<float **>(exr_image.images)[chIdx][i]; (*out_rgba)[4 * i + 0] = val; (*out_rgba)[4 * i + 1] = val; (*out_rgba)[4 * i + 2] = val; @@ -11358,22 +11614,22 @@ int LoadEXR(float **out_rgba, int *width, int *height, const char *filename, if (idxR == -1) { tinyexr::SetErrorMessage("R channel not found", err); - // @todo { free exr_image } FreeEXRHeader(&exr_header); + FreeEXRImage(&exr_image); return TINYEXR_ERROR_INVALID_DATA; } if (idxG == -1) { tinyexr::SetErrorMessage("G channel not found", err); - // @todo { free exr_image } FreeEXRHeader(&exr_header); + FreeEXRImage(&exr_image); return TINYEXR_ERROR_INVALID_DATA; } if (idxB == -1) { tinyexr::SetErrorMessage("B channel not found", err); - // @todo { free exr_image } FreeEXRHeader(&exr_header); + FreeEXRImage(&exr_image); return TINYEXR_ERROR_INVALID_DATA; } @@ -11446,7 +11702,7 @@ int IsEXR(const char *filename) { int ret = ParseEXRVersionFromFile(&exr_version, filename); if (ret != TINYEXR_SUCCESS) { - return TINYEXR_ERROR_INVALID_HEADER; + return ret; } return TINYEXR_SUCCESS; @@ -11509,7 +11765,9 @@ int LoadEXRFromMemory(float **out_rgba, int *width, int *height, int ret = ParseEXRVersionFromMemory(&exr_version, memory, size); if (ret != TINYEXR_SUCCESS) { - tinyexr::SetErrorMessage("Failed to parse EXR version", err); + std::stringstream ss; + ss << "Failed to parse EXR version. code(" << ret << ")"; + tinyexr::SetErrorMessage(ss.str(), err); return ret; } @@ -11967,9 +12225,11 @@ size_t SaveEXRImageToMemory(const EXRImage *exr_image, } #endif + // TOOD(LTE): C++11 thread + // Use signed int since some OpenMP compiler doesn't allow unsigned type for // `parallel for` -#ifdef _OPENMP +#if TINYEXR_USE_OPENMP #pragma omp parallel for #endif for (int i = 0; i < num_blocks; i++) { |