From 9ce6588466a84d66cf652b05f8c67d953d245425 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?R=C3=A9mi=20Verschelde?= Date: Mon, 4 Mar 2019 14:33:42 +0100 Subject: [PATCH] tinyexr: Sync with upstream 65f9859 --- thirdparty/README.md | 2 +- thirdparty/tinyexr/tinyexr.h | 222 +++++++++++++++++++++++++---------- 2 files changed, 161 insertions(+), 63 deletions(-) diff --git a/thirdparty/README.md b/thirdparty/README.md index 994a320122b..1a5771a60c6 100644 --- a/thirdparty/README.md +++ b/thirdparty/README.md @@ -506,7 +506,7 @@ changes are marked with `// -- GODOT --` comments. ## tinyexr - Upstream: https://github.com/syoyo/tinyexr -- Version: git (5ae30aa, 2018) +- Version: git (65f9859, 2018) - License: BSD-3-Clause Files extracted from upstream source: diff --git a/thirdparty/tinyexr/tinyexr.h b/thirdparty/tinyexr/tinyexr.h index b3a7ee00c2f..3c193918505 100644 --- a/thirdparty/tinyexr/tinyexr.h +++ b/thirdparty/tinyexr/tinyexr.h @@ -273,6 +273,12 @@ typedef struct _DeepImage { extern int LoadEXR(float **out_rgba, int *width, int *height, const char *filename, const char **err); +// @deprecated { to be removed. } +// Simple wrapper API for ParseEXRHeaderFromFile. +// checking given file is a EXR file(by just look up header) +// @return TINYEXR_SUCCEES for EXR image, TINYEXR_ERROR_INVALID_HEADER for others +extern int IsEXR(const char *filename); + // @deprecated { to be removed. } // Saves single-frame OpenEXR image. Assume EXR image contains RGB(A) channels. // components must be 1(Grayscale), 3(RGB) or 4(RGBA). @@ -6998,6 +7004,10 @@ static void swap2(unsigned short *val) { #endif } +#ifdef __clang__ +#pragma clang diagnostic push +#pragma clang diagnostic ignored "-Wunused-function" +#endif static void cpy4(int *dst_val, const int *src_val) { unsigned char *dst = reinterpret_cast(dst_val); const unsigned char *src = reinterpret_cast(src_val); @@ -7028,6 +7038,10 @@ static void cpy4(float *dst_val, const float *src_val) { dst[3] = src[3]; } +#ifdef __clang__ +#pragma clang diagnostic pop +#endif + static void swap4(unsigned int *val) { #ifdef MINIZ_LITTLE_ENDIAN (void)val; @@ -8840,7 +8854,8 @@ static bool getCode(int po, int rlc, long long &c, int &lc, const char *&in, if (out + cs > oe) return false; // Bounds check for safety - if ((out - 1) <= ob) return false; + // Issue 100. + if ((out - 1) < ob) return false; unsigned short s = out[-1]; while (cs-- > 0) *out++ = s; @@ -10721,6 +10736,15 @@ static int DecodeChunk(EXRImage *exr_image, const EXRHeader *exr_header, int data_width = exr_header->data_window[2] - exr_header->data_window[0] + 1; int data_height = exr_header->data_window[3] - exr_header->data_window[1] + 1; + if ((data_width < 0) || (data_height < 0)) { + if (err) { + std::stringstream ss; + ss << "Invalid data width or data height: " << data_width << ", " << data_height << std::endl; + (*err) += ss.str(); + } + return TINYEXR_ERROR_INVALID_DATA; + } + size_t num_blocks = offsets.size(); std::vector channel_offset_list; @@ -10816,6 +10840,17 @@ static int DecodeChunk(EXRImage *exr_image, const EXRHeader *exr_header, } } else { // scanline format + // Don't allow too large image(256GB * pixel_data_size or more). Workaround for #104. + size_t data_len = size_t(data_width) * size_t(data_height) * size_t(num_channels); + if ((data_len == 0) || (data_len >= 0x4000000000)) { + if (err) { + std::stringstream ss; + ss << "Image data size is zero or too large: width = " << data_width << ", height = " << data_height << ", channels = " << num_channels << std::endl; + (*err) += ss.str(); + } + return TINYEXR_ERROR_INVALID_DATA; + } + exr_image->images = tinyexr::AllocateImage( num_channels, exr_header->channels, exr_header->requested_pixel_types, data_width, data_height); @@ -11155,7 +11190,6 @@ int LoadEXR(float **out_rgba, int *width, int *height, const char *filename, static_cast(exr_image.height))); if (exr_header.tiled) { - // todo.implement this for (int it = 0; it < exr_image.num_tiles; it++) { for (int j = 0; j < exr_header.tile_size_y; j++) { @@ -11284,6 +11318,17 @@ int LoadEXR(float **out_rgba, int *width, int *height, const char *filename, return TINYEXR_SUCCESS; } +int IsEXR(const char *filename) { + EXRVersion exr_version; + + int ret = ParseEXRVersionFromFile(&exr_version, filename); + if (ret != TINYEXR_SUCCESS) { + return TINYEXR_ERROR_INVALID_HEADER; + } + + return TINYEXR_SUCCESS; +} + int ParseEXRHeaderFromMemory(EXRHeader *exr_header, const EXRVersion *version, const unsigned char *memory, size_t size, const char **err) { @@ -11380,75 +11425,128 @@ int LoadEXRFromMemory(float **out_rgba, int *width, int *height, } } - if (idxR == -1) { - tinyexr::SetErrorMessage("R channel not found", err); + // TODO(syoyo): Refactor removing same code as used in LoadEXR(). + if (exr_header.num_channels == 1) { + // Grayscale channel only. - // @todo { free exr_image } - return TINYEXR_ERROR_INVALID_DATA; - } + (*out_rgba) = reinterpret_cast( + malloc(4 * sizeof(float) * static_cast(exr_image.width) * + static_cast(exr_image.height))); - if (idxG == -1) { - tinyexr::SetErrorMessage("G channel not found", err); - // @todo { free exr_image } - return TINYEXR_ERROR_INVALID_DATA; - } + if (exr_header.tiled) { - if (idxB == -1) { - tinyexr::SetErrorMessage("B channel not found", err); - // @todo { free exr_image } - return TINYEXR_ERROR_INVALID_DATA; - } + for (int it = 0; it < exr_image.num_tiles; it++) { + for (int j = 0; j < exr_header.tile_size_y; j++) { + for (int i = 0; i < exr_header.tile_size_x; i++) { + const int ii = + exr_image.tiles[it].offset_x * exr_header.tile_size_x + i; + const int jj = + exr_image.tiles[it].offset_y * exr_header.tile_size_y + j; + const int idx = ii + jj * exr_image.width; - (*out_rgba) = reinterpret_cast( - malloc(4 * sizeof(float) * static_cast(exr_image.width) * - static_cast(exr_image.height))); - - if (exr_header.tiled) { - for (int it = 0; it < exr_image.num_tiles; it++) { - for (int j = 0; j < exr_header.tile_size_y; j++) - for (int i = 0; i < exr_header.tile_size_x; i++) { - const int ii = - exr_image.tiles[it].offset_x * exr_header.tile_size_x + i; - const int jj = - exr_image.tiles[it].offset_y * exr_header.tile_size_y + j; - const int idx = ii + jj * exr_image.width; - - // out of region check. - if (ii >= exr_image.width) { - continue; - } - if (jj >= exr_image.height) { - continue; - } - 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(src)[idxR][srcIdx]; - (*out_rgba)[4 * idx + 1] = - reinterpret_cast(src)[idxG][srcIdx]; - (*out_rgba)[4 * idx + 2] = - reinterpret_cast(src)[idxB][srcIdx]; - if (idxA != -1) { + // out of region check. + if (ii >= exr_image.width) { + continue; + } + if (jj >= exr_image.height) { + continue; + } + 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(src)[0][srcIdx]; + (*out_rgba)[4 * idx + 1] = + reinterpret_cast(src)[0][srcIdx]; + (*out_rgba)[4 * idx + 2] = + reinterpret_cast(src)[0][srcIdx]; (*out_rgba)[4 * idx + 3] = - reinterpret_cast(src)[idxA][srcIdx]; - } else { - (*out_rgba)[4 * idx + 3] = 1.0; + reinterpret_cast(src)[0][srcIdx]; } } + } + } else { + for (int i = 0; i < exr_image.width * exr_image.height; i++) { + const float val = reinterpret_cast(exr_image.images)[0][i]; + (*out_rgba)[4 * i + 0] = val; + (*out_rgba)[4 * i + 1] = val; + (*out_rgba)[4 * i + 2] = val; + (*out_rgba)[4 * i + 3] = val; + } } + } else { - for (int i = 0; i < exr_image.width * exr_image.height; i++) { - (*out_rgba)[4 * i + 0] = - reinterpret_cast(exr_image.images)[idxR][i]; - (*out_rgba)[4 * i + 1] = - reinterpret_cast(exr_image.images)[idxG][i]; - (*out_rgba)[4 * i + 2] = - reinterpret_cast(exr_image.images)[idxB][i]; - if (idxA != -1) { - (*out_rgba)[4 * i + 3] = - reinterpret_cast(exr_image.images)[idxA][i]; - } else { - (*out_rgba)[4 * i + 3] = 1.0; + // TODO(syoyo): Support non RGBA image. + + if (idxR == -1) { + tinyexr::SetErrorMessage("R channel not found", err); + + // @todo { free exr_image } + return TINYEXR_ERROR_INVALID_DATA; + } + + if (idxG == -1) { + tinyexr::SetErrorMessage("G channel not found", err); + // @todo { free exr_image } + return TINYEXR_ERROR_INVALID_DATA; + } + + if (idxB == -1) { + tinyexr::SetErrorMessage("B channel not found", err); + // @todo { free exr_image } + return TINYEXR_ERROR_INVALID_DATA; + } + + (*out_rgba) = reinterpret_cast( + malloc(4 * sizeof(float) * static_cast(exr_image.width) * + static_cast(exr_image.height))); + + if (exr_header.tiled) { + for (int it = 0; it < exr_image.num_tiles; it++) { + for (int j = 0; j < exr_header.tile_size_y; j++) + for (int i = 0; i < exr_header.tile_size_x; i++) { + const int ii = + exr_image.tiles[it].offset_x * exr_header.tile_size_x + i; + const int jj = + exr_image.tiles[it].offset_y * exr_header.tile_size_y + j; + const int idx = ii + jj * exr_image.width; + + // out of region check. + if (ii >= exr_image.width) { + continue; + } + if (jj >= exr_image.height) { + continue; + } + 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(src)[idxR][srcIdx]; + (*out_rgba)[4 * idx + 1] = + reinterpret_cast(src)[idxG][srcIdx]; + (*out_rgba)[4 * idx + 2] = + reinterpret_cast(src)[idxB][srcIdx]; + if (idxA != -1) { + (*out_rgba)[4 * idx + 3] = + reinterpret_cast(src)[idxA][srcIdx]; + } else { + (*out_rgba)[4 * idx + 3] = 1.0; + } + } + } + } else { + for (int i = 0; i < exr_image.width * exr_image.height; i++) { + (*out_rgba)[4 * i + 0] = + reinterpret_cast(exr_image.images)[idxR][i]; + (*out_rgba)[4 * i + 1] = + reinterpret_cast(exr_image.images)[idxG][i]; + (*out_rgba)[4 * i + 2] = + reinterpret_cast(exr_image.images)[idxB][i]; + if (idxA != -1) { + (*out_rgba)[4 * i + 3] = + reinterpret_cast(exr_image.images)[idxA][i]; + } else { + (*out_rgba)[4 * i + 3] = 1.0; + } } } }