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-rw-r--r--thirdparty/README.md2
-rw-r--r--thirdparty/tinyexr/tinyexr.h442
2 files changed, 315 insertions, 129 deletions
diff --git a/thirdparty/README.md b/thirdparty/README.md
index a6fbde5840..8ff64c4636 100644
--- a/thirdparty/README.md
+++ b/thirdparty/README.md
@@ -390,7 +390,7 @@ Files extracted from upstream source:
## tinyexr
- Upstream: https://github.com/syoyo/tinyexr
-- Version: 0.9.5+ (git a145d69)
+- Version: 0.9.5+ (git 9f784ca - 24 October 2017)
- License: BSD-3-Clause
Files extracted from upstream source:
diff --git a/thirdparty/tinyexr/tinyexr.h b/thirdparty/tinyexr/tinyexr.h
index 44cc287da7..606c19756a 100644
--- a/thirdparty/tinyexr/tinyexr.h
+++ b/thirdparty/tinyexr/tinyexr.h
@@ -259,7 +259,8 @@ typedef struct _DeepImage {
} DeepImage;
// @deprecated { to be removed. }
-// Loads single-frame OpenEXR image. Assume EXR image contains RGB(A) channels.
+// 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`
// 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
@@ -269,9 +270,14 @@ extern int LoadEXR(float **out_rgba, int *width, int *height,
// @deprecated { to be removed. }
// Saves single-frame OpenEXR image. Assume EXR image contains RGB(A) channels.
-// components must be 3(RGB) or 4(RGBA).
-// Result image format is: float x RGB(A) x width x hight
-extern int SaveEXR(const float *data, int width, int height, int components,
+// components must be 1(Grayscale), 3(RGB) or 4(RGBA).
+// Input image format is: `float x width x height`, or `float x RGB(A) x width x
+// hight`
+// Save image as fp16(HALF) format when `save_as_fp16` is positive non-zero
+// value.
+// Save image as fp32(FLOAT) format when `save_as_fp16` is 0.
+extern int SaveEXR(const float *data, const int width, const int height,
+ const int components, const int save_as_fp16,
const char *filename);
// Initialize EXRHeader struct
@@ -401,12 +407,11 @@ extern int LoadDeepEXR(DeepImage *out_image, const char *filename,
// For emscripten.
// Loads single-frame OpenEXR image from memory. Assume EXR image contains
// RGB(A) channels.
-// `out_rgba` must have enough memory(at least sizeof(float) x 4(RGBA) x width x
-// hight)
// Returns negative value and may set error string in `err` when there's an
// error
-extern int LoadEXRFromMemory(float *out_rgba, const unsigned char *memory,
- size_t size, const char **err);
+extern int LoadEXRFromMemory(float **out_rgba, int *width, int *height,
+ const unsigned char *memory, size_t size,
+ const char **err);
#ifdef __cplusplus
}
@@ -439,7 +444,8 @@ extern int LoadEXRFromMemory(float *out_rgba, const unsigned char *memory,
#if TINYEXR_USE_MINIZ
#else
-#include "zlib.h"
+// Issue #46. Please include your own zlib-compatible API header before including `tinyexr.h`
+//#include "zlib.h"
#endif
#if TINYEXR_USE_ZFP
@@ -478,13 +484,11 @@ namespace miniz {
#pragma clang diagnostic ignored "-Wsign-conversion"
#pragma clang diagnostic ignored "-Wc++11-extensions"
#pragma clang diagnostic ignored "-Wconversion"
-#ifdef __APPLE__
-#if __clang_major__ >= 8 && __clang__minor__ > 1
+#pragma clang diagnostic ignored "-Wunused-function"
+#if __has_warning("-Wcomma")
#pragma clang diagnostic ignored "-Wcomma"
#endif
#endif
-#pragma clang diagnostic ignored "-Wunused-function"
-#endif
/* miniz.c v1.15 - public domain deflate/inflate, zlib-subset, ZIP
reading/writing/appending, PNG writing
@@ -1913,11 +1917,11 @@ static void def_free_func(void *opaque, void *address) {
(void)opaque, (void)address;
MZ_FREE(address);
}
-static void *def_realloc_func(void *opaque, void *address, size_t items,
- size_t size) {
- (void)opaque, (void)address, (void)items, (void)size;
- return MZ_REALLOC(address, items * size);
-}
+// static void *def_realloc_func(void *opaque, void *address, size_t items,
+// size_t size) {
+// (void)opaque, (void)address, (void)items, (void)size;
+// return MZ_REALLOC(address, items * size);
+//}
const char *mz_version(void) { return MZ_VERSION; }
@@ -2889,8 +2893,9 @@ void *tinfl_decompress_mem_to_heap(const void *pSrc_buf, size_t src_buf_len,
tinfl_status status = tinfl_decompress(
&decomp, (const mz_uint8 *)pSrc_buf + src_buf_ofs, &src_buf_size,
(mz_uint8 *)pBuf, pBuf ? (mz_uint8 *)pBuf + *pOut_len : NULL,
- &dst_buf_size, (flags & ~TINFL_FLAG_HAS_MORE_INPUT) |
- TINFL_FLAG_USING_NON_WRAPPING_OUTPUT_BUF);
+ &dst_buf_size,
+ (flags & ~TINFL_FLAG_HAS_MORE_INPUT) |
+ TINFL_FLAG_USING_NON_WRAPPING_OUTPUT_BUF);
if ((status < 0) || (status == TINFL_STATUS_NEEDS_MORE_INPUT)) {
MZ_FREE(pBuf);
*pOut_len = 0;
@@ -3537,9 +3542,10 @@ static int tdefl_flush_block(tdefl_compressor *d, int flush) {
mz_uint saved_bit_buf, saved_bits_in;
mz_uint8 *pSaved_output_buf;
mz_bool comp_block_succeeded = MZ_FALSE;
- int n, use_raw_block =
- ((d->m_flags & TDEFL_FORCE_ALL_RAW_BLOCKS) != 0) &&
- (d->m_lookahead_pos - d->m_lz_code_buf_dict_pos) <= d->m_dict_size;
+ int n,
+ use_raw_block =
+ ((d->m_flags & TDEFL_FORCE_ALL_RAW_BLOCKS) != 0) &&
+ (d->m_lookahead_pos - d->m_lz_code_buf_dict_pos) <= d->m_dict_size;
mz_uint8 *pOutput_buf_start =
((d->m_pPut_buf_func == NULL) &&
((*d->m_pOut_buf_size - d->m_out_buf_ofs) >= TDEFL_OUT_BUF_SIZE))
@@ -3569,8 +3575,9 @@ static int tdefl_flush_block(tdefl_compressor *d, int flush) {
if (!use_raw_block)
comp_block_succeeded =
- tdefl_compress_block(d, (d->m_flags & TDEFL_FORCE_ALL_STATIC_BLOCKS) ||
- (d->m_total_lz_bytes < 48));
+ tdefl_compress_block(d,
+ (d->m_flags & TDEFL_FORCE_ALL_STATIC_BLOCKS) ||
+ (d->m_total_lz_bytes < 48));
// If the block gets expanded, forget the current contents of the output
// buffer and send a raw block instead.
@@ -5215,9 +5222,10 @@ mz_bool mz_zip_reader_file_stat(mz_zip_archive *pZip, mz_uint file_index,
n = MZ_READ_LE16(p + MZ_ZIP_CDH_COMMENT_LEN_OFS);
n = MZ_MIN(n, MZ_ZIP_MAX_ARCHIVE_FILE_COMMENT_SIZE - 1);
pStat->m_comment_size = n;
- memcpy(pStat->m_comment, p + MZ_ZIP_CENTRAL_DIR_HEADER_SIZE +
- MZ_READ_LE16(p + MZ_ZIP_CDH_FILENAME_LEN_OFS) +
- MZ_READ_LE16(p + MZ_ZIP_CDH_EXTRA_LEN_OFS),
+ memcpy(pStat->m_comment,
+ p + MZ_ZIP_CENTRAL_DIR_HEADER_SIZE +
+ MZ_READ_LE16(p + MZ_ZIP_CDH_FILENAME_LEN_OFS) +
+ MZ_READ_LE16(p + MZ_ZIP_CDH_EXTRA_LEN_OFS),
n);
pStat->m_comment[n] = '\0';
@@ -6875,6 +6883,12 @@ void *mz_zip_extract_archive_file_to_heap(const char *pZip_filename,
#ifdef __clang__
#pragma clang diagnostic pop
#endif
+
+#ifdef _MSC_VER
+#pragma warning(pop)
+#endif
+
+
}
#else
@@ -7338,11 +7352,23 @@ static void CompressZip(unsigned char *dst,
compressedSize = outSize;
#endif
+
+ // Use uncompressed data when compressed data is larger than uncompressed.
+ // (Issue 40)
+ if (compressedSize >= src_size) {
+ compressedSize = src_size;
+ memcpy(dst, src, src_size);
+ }
}
static void DecompressZip(unsigned char *dst,
unsigned long *uncompressed_size /* inout */,
const unsigned char *src, unsigned long src_size) {
+ if ((*uncompressed_size) == src_size) {
+ // Data is not compressed(Issue 40).
+ memcpy(dst, src, src_size);
+ return;
+ }
std::vector<unsigned char> tmpBuf(*uncompressed_size);
#if TINYEXR_USE_MINIZ
@@ -7402,6 +7428,22 @@ static void DecompressZip(unsigned char *dst,
#pragma clang diagnostic ignored "-Wsign-conversion"
#endif
+#ifdef _MSC_VER
+#pragma warning(push)
+#pragma warning(disable : 4204) // nonstandard extension used : non-constant
+ // aggregate initializer (also supported by GNU
+ // C and C99, so no big deal)
+#pragma warning(disable : 4244) // 'initializing': conversion from '__int64' to
+ // 'int', possible loss of data
+#pragma warning( \
+ disable : 4267) // 'argument': conversion from '__int64' to 'int',
+ // possible loss of data
+#pragma warning(disable : 4996) // 'strdup': The POSIX name for this item is
+ // deprecated. Instead, use the ISO C and C++
+ // conformant name: _strdup.
+#endif
+
+
const int MIN_RUN_LENGTH = 3;
const int MAX_RUN_LENGTH = 127;
@@ -7494,6 +7536,7 @@ static int rleUncompress(int inLength, int maxLength, const signed char in[],
#ifdef __clang__
#pragma clang diagnostic pop
#endif
+
// End of RLE code from OpenEXR -----------------------------------
static void CompressRle(unsigned char *dst,
@@ -7554,11 +7597,24 @@ static void CompressRle(unsigned char *dst,
assert(outSize > 0);
compressedSize = static_cast<tinyexr::tinyexr_uint64>(outSize);
+
+ // Use uncompressed data when compressed data is larger than uncompressed.
+ // (Issue 40)
+ if (compressedSize >= src_size) {
+ compressedSize = src_size;
+ memcpy(dst, src, src_size);
+ }
}
static void DecompressRle(unsigned char *dst,
const unsigned long uncompressed_size,
const unsigned char *src, unsigned long src_size) {
+ if (uncompressed_size == src_size) {
+ // Data is not compressed(Issue 40).
+ memcpy(dst, src, src_size);
+ return;
+ }
+
std::vector<unsigned char> tmpBuf(uncompressed_size);
int ret = rleUncompress(static_cast<int>(src_size),
@@ -8874,7 +8930,12 @@ static void applyLut(const unsigned short lut[USHORT_RANGE],
#pragma clang diagnostic pop
#endif // __clang__
-static bool CompressPiz(unsigned char *outPtr, unsigned int &outSize,
+#ifdef _MSC_VER
+#pragma warning(pop)
+#endif
+
+
+static bool CompressPiz(unsigned char *outPtr, unsigned int *outSize,
const unsigned char *inPtr, size_t inSize,
const std::vector<ChannelInfo> &channelInfo,
int data_width, int num_lines) {
@@ -8981,16 +9042,29 @@ static bool CompressPiz(unsigned char *outPtr, unsigned int &outSize,
hufCompress(&tmpBuffer.at(0), static_cast<int>(tmpBuffer.size()), buf);
memcpy(lengthPtr, &length, sizeof(int));
- outSize = static_cast<unsigned int>(
+ (*outSize) = static_cast<unsigned int>(
(reinterpret_cast<unsigned char *>(buf) - outPtr) +
static_cast<unsigned int>(length));
+
+ // Use uncompressed data when compressed data is larger than uncompressed.
+ // (Issue 40)
+ if ((*outSize) >= inSize) {
+ (*outSize) = static_cast<unsigned int>(inSize);
+ memcpy(outPtr, inPtr, inSize);
+ }
return true;
}
static bool DecompressPiz(unsigned char *outPtr, const unsigned char *inPtr,
- size_t tmpBufSize, int num_channels,
+ size_t tmpBufSize, size_t inLen, int num_channels,
const EXRChannelInfo *channels, int data_width,
int num_lines) {
+ if (inLen == tmpBufSize) {
+ // Data is not compressed(Issue 40).
+ memcpy(outPtr, inPtr, inLen);
+ return true;
+ }
+
unsigned char bitmap[BITMAP_SIZE];
unsigned short minNonZero;
unsigned short maxNonZero;
@@ -9165,6 +9239,11 @@ static bool DecompressZfp(float *dst, int dst_width, int dst_num_lines,
const ZFPCompressionParam &param) {
size_t uncompressed_size = dst_width * dst_num_lines * num_channels;
+ if (uncompressed_size == src_size) {
+ // Data is not compressed(Issue 40).
+ memcpy(dst, src, src_size);
+ }
+
zfp_stream *zfp = NULL;
zfp_field *field = NULL;
@@ -9309,12 +9388,11 @@ static void DecodePixelData(/* out */ unsigned char **out_images,
// Allocate original data size.
std::vector<unsigned char> outBuf(static_cast<size_t>(
static_cast<size_t>(width * num_lines) * pixel_data_size));
- size_t tmpBufLen = static_cast<size_t>(
- static_cast<size_t>(width * num_lines) * pixel_data_size);
+ size_t tmpBufLen = outBuf.size();
bool ret = tinyexr::DecompressPiz(
reinterpret_cast<unsigned char *>(&outBuf.at(0)), data_ptr, tmpBufLen,
- static_cast<int>(num_channels), channels, width, num_lines);
+ data_len, static_cast<int>(num_channels), channels, width, num_lines);
assert(ret);
(void)ret;
@@ -10039,8 +10117,7 @@ static int ParseEXRHeader(HeaderInfo *info, bool *empty_header,
} else if (attr_name.compare("compression") == 0) {
bool ok = false;
- if ((data[0] >= TINYEXR_COMPRESSIONTYPE_NONE) &&
- (data[0] < TINYEXR_COMPRESSIONTYPE_PIZ)) {
+ if (data[0] < TINYEXR_COMPRESSIONTYPE_PIZ) {
ok = true;
}
@@ -10150,9 +10227,14 @@ static int ParseEXRHeader(HeaderInfo *info, bool *empty_header,
// Custom attribute(up to TINYEXR_MAX_ATTRIBUTES)
if (info->attributes.size() < TINYEXR_MAX_ATTRIBUTES) {
EXRAttribute attrib;
+#ifdef _MSC_VER
+ strncpy_s(attrib.name, attr_name.c_str(), 255);
+ strncpy_s(attrib.type, attr_type.c_str(), 255);
+#else
strncpy(attrib.name, attr_name.c_str(), 255);
- attrib.name[255] = '\0';
strncpy(attrib.type, attr_type.c_str(), 255);
+#endif
+ attrib.name[255] = '\0';
attrib.type[255] = '\0';
attrib.size = static_cast<int>(data.size());
attrib.value = static_cast<unsigned char *>(malloc(data.size()));
@@ -10246,8 +10328,12 @@ static void ConvertHeader(EXRHeader *exr_header, const HeaderInfo &info) {
exr_header->channels = static_cast<EXRChannelInfo *>(malloc(
sizeof(EXRChannelInfo) * static_cast<size_t>(exr_header->num_channels)));
for (size_t c = 0; c < static_cast<size_t>(exr_header->num_channels); c++) {
+#ifdef _MSC_VER
+ strncpy_s(exr_header->channels[c].name, info.channels[c].name.c_str(), 255);
+#else
strncpy(exr_header->channels[c].name, info.channels[c].name.c_str(), 255);
- // manually add '\0' for safety.
+#endif
+ // manually add '\0' for safety.
exr_header->channels[c].name[255] = '\0';
exr_header->channels[c].pixel_type = info.channels[c].pixel_type;
@@ -10309,6 +10395,8 @@ static int DecodeChunk(EXRImage *exr_image, const EXRHeader *exr_header,
&channel_offset, num_channels,
exr_header->channels);
+ bool invalid_data = false;
+
if (exr_header->tiled) {
size_t num_tiles = offsets.size(); // = # of blocks
@@ -10403,18 +10491,26 @@ static int DecodeChunk(EXRImage *exr_image, const EXRHeader *exr_header,
// Adjust line_no with data_window.bmin.y
line_no -= exr_header->data_window[1];
- 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);
+ if (line_no < 0) {
+ invalid_data = true;
+ } else {
+ 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);
+ }
} // omp parallel
}
+ if (invalid_data) {
+ return TINYEXR_ERROR_INVALID_DATA;
+ }
+
// Overwrite `pixel_type` with `requested_pixel_type`.
{
for (int c = 0; c < exr_header->num_channels; c++) {
@@ -10633,46 +10729,63 @@ int LoadEXR(float **out_rgba, int *width, int *height, const char *filename,
}
}
- if (idxR == -1) {
- if (err) {
- (*err) = "R channel not found\n";
+ if ((idxA == 0) && (idxR == -1) && (idxG == -1) && (idxB == -1)) {
+ // Alpha channel only.
+
+ (*out_rgba) = reinterpret_cast<float *>(
+ malloc(4 * sizeof(float) * static_cast<size_t>(exr_image.width) *
+ static_cast<size_t>(exr_image.height)));
+ for (int i = 0; i < exr_image.width * exr_image.height; i++) {
+ const float val = reinterpret_cast<float **>(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 {
+ // Assume RGB(A)
- // @todo { free exr_image }
- return TINYEXR_ERROR_INVALID_DATA;
- }
+ if (idxR == -1) {
+ if (err) {
+ (*err) = "R channel not found\n";
+ }
- if (idxG == -1) {
- if (err) {
- (*err) = "G channel not found\n";
+ // @todo { free exr_image }
+ return TINYEXR_ERROR_INVALID_DATA;
}
- // @todo { free exr_image }
- return TINYEXR_ERROR_INVALID_DATA;
- }
- if (idxB == -1) {
- if (err) {
- (*err) = "B channel not found\n";
+ if (idxG == -1) {
+ if (err) {
+ (*err) = "G channel not found\n";
+ }
+ // @todo { free exr_image }
+ return TINYEXR_ERROR_INVALID_DATA;
}
- // @todo { free exr_image }
- return TINYEXR_ERROR_INVALID_DATA;
- }
- (*out_rgba) = reinterpret_cast<float *>(
- malloc(4 * sizeof(float) * static_cast<size_t>(exr_image.width) *
- static_cast<size_t>(exr_image.height)));
- for (int i = 0; i < exr_image.width * exr_image.height; i++) {
- (*out_rgba)[4 * i + 0] =
- reinterpret_cast<float **>(exr_image.images)[idxR][i];
- (*out_rgba)[4 * i + 1] =
- reinterpret_cast<float **>(exr_image.images)[idxG][i];
- (*out_rgba)[4 * i + 2] =
- reinterpret_cast<float **>(exr_image.images)[idxB][i];
- if (idxA != -1) {
- (*out_rgba)[4 * i + 3] =
- reinterpret_cast<float **>(exr_image.images)[idxA][i];
- } else {
- (*out_rgba)[4 * i + 3] = 1.0;
+ if (idxB == -1) {
+ if (err) {
+ (*err) = "B channel not found\n";
+ }
+ // @todo { free exr_image }
+ return TINYEXR_ERROR_INVALID_DATA;
+ }
+
+ (*out_rgba) = reinterpret_cast<float *>(
+ malloc(4 * sizeof(float) * static_cast<size_t>(exr_image.width) *
+ static_cast<size_t>(exr_image.height)));
+ for (int i = 0; i < exr_image.width * exr_image.height; i++) {
+ (*out_rgba)[4 * i + 0] =
+ reinterpret_cast<float **>(exr_image.images)[idxR][i];
+ (*out_rgba)[4 * i + 1] =
+ reinterpret_cast<float **>(exr_image.images)[idxG][i];
+ (*out_rgba)[4 * i + 2] =
+ reinterpret_cast<float **>(exr_image.images)[idxB][i];
+ if (idxA != -1) {
+ (*out_rgba)[4 * i + 3] =
+ reinterpret_cast<float **>(exr_image.images)[idxA][i];
+ } else {
+ (*out_rgba)[4 * i + 3] = 1.0;
+ }
}
}
@@ -10712,7 +10825,11 @@ int ParseEXRHeaderFromMemory(EXRHeader *exr_header, const EXRVersion *version,
if (ret != TINYEXR_SUCCESS) {
if (err && !err_str.empty()) {
+#ifdef _WIN32
+ (*err) = _strdup(err_str.c_str()); // May leak
+#else
(*err) = strdup(err_str.c_str()); // May leak
+#endif
}
}
@@ -10724,8 +10841,9 @@ int ParseEXRHeaderFromMemory(EXRHeader *exr_header, const EXRVersion *version,
return ret;
}
-int LoadEXRFromMemory(float *out_rgba, const unsigned char *memory, size_t size,
- const char **err) {
+int LoadEXRFromMemory(float **out_rgba, int *width, int *height,
+ const unsigned char *memory, size_t size,
+ const char **err) {
if (out_rgba == NULL || memory == NULL) {
if (err) {
(*err) = "Invalid argument.\n";
@@ -10748,6 +10866,13 @@ int LoadEXRFromMemory(float *out_rgba, const unsigned char *memory, size_t size,
if (ret != TINYEXR_SUCCESS) {
return ret;
}
+
+ // Read HALF channel as FLOAT.
+ for (int i = 0; i < exr_header.num_channels; i++) {
+ if (exr_header.pixel_types[i] == TINYEXR_PIXELTYPE_HALF) {
+ exr_header.requested_pixel_types[i] = TINYEXR_PIXELTYPE_FLOAT;
+ }
+ }
InitEXRImage(&exr_image);
ret = LoadEXRImageFromMemory(&exr_image, &exr_header, memory, size, err);
@@ -10797,19 +10922,32 @@ int LoadEXRFromMemory(float *out_rgba, const unsigned char *memory, size_t size,
return TINYEXR_ERROR_INVALID_DATA;
}
- // Assume `out_rgba` have enough memory allocated.
+ (*out_rgba) = reinterpret_cast<float *>(
+ malloc(4 * sizeof(float) * static_cast<size_t>(exr_image.width) *
+ static_cast<size_t>(exr_image.height)));
+
for (int i = 0; i < exr_image.width * exr_image.height; i++) {
- out_rgba[4 * i + 0] = reinterpret_cast<float **>(exr_image.images)[idxR][i];
- out_rgba[4 * i + 1] = reinterpret_cast<float **>(exr_image.images)[idxG][i];
- out_rgba[4 * i + 2] = reinterpret_cast<float **>(exr_image.images)[idxB][i];
- if (idxA > 0) {
- out_rgba[4 * i + 3] =
- reinterpret_cast<float **>(exr_image.images)[idxA][i];
- } else {
- out_rgba[4 * i + 3] = 1.0;
- }
+ (*out_rgba)[4 * i + 0] =
+ reinterpret_cast<float **>(exr_image.images)[idxR][i];
+ (*out_rgba)[4 * i + 1] =
+ reinterpret_cast<float **>(exr_image.images)[idxG][i];
+ (*out_rgba)[4 * i + 2] =
+ reinterpret_cast<float **>(exr_image.images)[idxB][i];
+ if (idxA != -1) {
+ (*out_rgba)[4 * i + 3] =
+ reinterpret_cast<float **>(exr_image.images)[idxA][i];
+ }
+ else {
+ (*out_rgba)[4 * i + 3] = 1.0;
+ }
}
+ (*width) = exr_image.width;
+ (*height) = exr_image.height;
+
+ FreeEXRHeader(&exr_header);
+ FreeEXRImage(&exr_image);
+
return TINYEXR_SUCCESS;
}
@@ -11304,7 +11442,7 @@ size_t SaveEXRImageToMemory(const EXRImage *exr_image,
std::vector<unsigned char> block(bufLen);
unsigned int outSize = static_cast<unsigned int>(block.size());
- CompressPiz(&block.at(0), outSize,
+ CompressPiz(&block.at(0), &outSize,
reinterpret_cast<const unsigned char *>(&buf.at(0)),
buf.size(), channels, exr_image->width, h);
@@ -11445,6 +11583,16 @@ int LoadDeepEXR(DeepImage *deep_image, const char *filename, const char **err) {
return TINYEXR_ERROR_INVALID_ARGUMENT;
}
+#ifdef _MSC_VER
+ FILE *fp = NULL;
+ errno_t errcode = fopen_s(&fp, filename, "rb");
+ if ((!errcode) || (!fp)) {
+ if (err) {
+ (*err) = "Cannot read file.";
+ }
+ return TINYEXR_ERROR_CANT_OPEN_FILE;
+ }
+#else
FILE *fp = fopen(filename, "rb");
if (!fp) {
if (err) {
@@ -11452,6 +11600,7 @@ int LoadDeepEXR(DeepImage *deep_image, const char *filename, const char **err) {
}
return TINYEXR_ERROR_CANT_OPEN_FILE;
}
+#endif
size_t filesize;
// Compute size
@@ -11521,6 +11670,7 @@ int LoadDeepEXR(DeepImage *deep_image, const char *filename, const char **err) {
if (0 == size) {
return TINYEXR_ERROR_INVALID_DATA;
} else if (marker[0] == '\0') {
+ marker++;
size--;
break;
}
@@ -11710,11 +11860,13 @@ int LoadDeepEXR(DeepImage *deep_image, const char *filename, const char **err) {
// decode sample data.
{
unsigned long dstLen = static_cast<unsigned long>(unpackedSampleDataSize);
- tinyexr::DecompressZip(
- reinterpret_cast<unsigned char *>(&sample_data.at(0)), &dstLen,
- data_ptr + 28 + packedOffsetTableSize,
- static_cast<unsigned long>(packedSampleDataSize));
- assert(dstLen == static_cast<unsigned long>(unpackedSampleDataSize));
+ if (dstLen) {
+ tinyexr::DecompressZip(
+ reinterpret_cast<unsigned char *>(&sample_data.at(0)), &dstLen,
+ data_ptr + 28 + packedOffsetTableSize,
+ static_cast<unsigned long>(packedSampleDataSize));
+ assert(dstLen == static_cast<unsigned long>(unpackedSampleDataSize));
+ }
}
// decode sample
@@ -11760,7 +11912,7 @@ int LoadDeepEXR(DeepImage *deep_image, const char *filename, const char **err) {
if (channels[c].pixel_type == 0) { // UINT
for (size_t x = 0; x < static_cast<size_t>(samples_per_line); x++) {
unsigned int ui = *reinterpret_cast<unsigned int *>(
- &sample_data.at(data_offset + x * sizeof(int)));
+ &sample_data.at(size_t(data_offset) + x * sizeof(int)));
deep_image->image[c][y][x] = static_cast<float>(ui); // @fixme
}
data_offset +=
@@ -11769,7 +11921,7 @@ int LoadDeepEXR(DeepImage *deep_image, const char *filename, const char **err) {
for (size_t x = 0; x < static_cast<size_t>(samples_per_line); x++) {
tinyexr::FP16 f16;
f16.u = *reinterpret_cast<unsigned short *>(
- &sample_data.at(data_offset + x * sizeof(short)));
+ &sample_data.at(size_t(data_offset) + x * sizeof(short)));
tinyexr::FP32 f32 = half_to_float(f16);
deep_image->image[c][y][x] = f32.f;
}
@@ -11777,7 +11929,7 @@ int LoadDeepEXR(DeepImage *deep_image, const char *filename, const char **err) {
} else { // float
for (size_t x = 0; x < static_cast<size_t>(samples_per_line); x++) {
float f = *reinterpret_cast<float *>(
- &sample_data.at(data_offset + x * sizeof(float)));
+ &sample_data.at(size_t(data_offset) + x * sizeof(float)));
deep_image->image[c][y][x] = f;
}
data_offset += sizeof(float) * static_cast<size_t>(samples_per_line);
@@ -11961,7 +12113,11 @@ int ParseEXRMultipartHeaderFromMemory(EXRHeader ***exr_headers,
if (ret != TINYEXR_SUCCESS) {
if (err) {
+#ifdef _WIN32
+ (*err) = _strdup(err_str.c_str()); // may leak
+#else
(*err) = strdup(err_str.c_str()); // may leak
+#endif
}
return ret;
}
@@ -12287,8 +12443,8 @@ int LoadEXRMultipartImageFromFile(EXRImage *exr_images,
}
int SaveEXR(const float *data, int width, int height, int components,
- const char *outfilename) {
- if (components == 3 || components == 4) {
+ const int save_as_fp16, const char *outfilename) {
+ if ((components == 1) || components == 3 || components == 4) {
// OK
} else {
return TINYEXR_ERROR_INVALID_ARGUMENT;
@@ -12307,18 +12463,24 @@ int SaveEXR(const float *data, int width, int height, int components,
image.num_channels = components;
std::vector<float> images[4];
- images[0].resize(static_cast<size_t>(width * height));
- images[1].resize(static_cast<size_t>(width * height));
- images[2].resize(static_cast<size_t>(width * height));
- images[3].resize(static_cast<size_t>(width * height));
- // Split RGB(A)RGB(A)RGB(A)... into R, G and B(and A) layers
- for (size_t i = 0; i < static_cast<size_t>(width * height); i++) {
- images[0][i] = data[static_cast<size_t>(components) * i + 0];
- images[1][i] = data[static_cast<size_t>(components) * i + 1];
- images[2][i] = data[static_cast<size_t>(components) * i + 2];
- if (components == 4) {
- images[3][i] = data[static_cast<size_t>(components) * i + 3];
+ if (components == 1) {
+ images[0].resize(static_cast<size_t>(width * height));
+ memcpy(images[0].data(), data, sizeof(float) * size_t(width * height));
+ } else {
+ images[0].resize(static_cast<size_t>(width * height));
+ images[1].resize(static_cast<size_t>(width * height));
+ images[2].resize(static_cast<size_t>(width * height));
+ images[3].resize(static_cast<size_t>(width * height));
+
+ // Split RGB(A)RGB(A)RGB(A)... into R, G and B(and A) layers
+ for (size_t i = 0; i < static_cast<size_t>(width * height); i++) {
+ images[0][i] = data[static_cast<size_t>(components) * i + 0];
+ images[1][i] = data[static_cast<size_t>(components) * i + 1];
+ images[2][i] = data[static_cast<size_t>(components) * i + 2];
+ if (components == 4) {
+ images[3][i] = data[static_cast<size_t>(components) * i + 3];
+ }
}
}
@@ -12328,10 +12490,12 @@ int SaveEXR(const float *data, int width, int height, int components,
image_ptr[1] = &(images[2].at(0)); // B
image_ptr[2] = &(images[1].at(0)); // G
image_ptr[3] = &(images[0].at(0)); // R
- } else {
+ } else if (components == 3) {
image_ptr[0] = &(images[2].at(0)); // B
image_ptr[1] = &(images[1].at(0)); // G
image_ptr[2] = &(images[0].at(0)); // R
+ } else if (components == 1) {
+ image_ptr[0] = &(images[0].at(0)); // A
}
image.images = reinterpret_cast<unsigned char **>(image_ptr);
@@ -12343,21 +12507,41 @@ int SaveEXR(const float *data, int width, int height, int components,
sizeof(EXRChannelInfo) * static_cast<size_t>(header.num_channels)));
// Must be (A)BGR order, since most of EXR viewers expect this channel order.
if (components == 4) {
+#ifdef _MSC_VER
+ strncpy_s(header.channels[0].name, "A", 255);
+ strncpy_s(header.channels[1].name, "B", 255);
+ strncpy_s(header.channels[2].name, "G", 255);
+ strncpy_s(header.channels[3].name, "R", 255);
+#else
strncpy(header.channels[0].name, "A", 255);
- header.channels[0].name[strlen("A")] = '\0';
strncpy(header.channels[1].name, "B", 255);
- header.channels[1].name[strlen("B")] = '\0';
strncpy(header.channels[2].name, "G", 255);
- header.channels[2].name[strlen("G")] = '\0';
strncpy(header.channels[3].name, "R", 255);
+#endif
+ header.channels[0].name[strlen("A")] = '\0';
+ header.channels[1].name[strlen("B")] = '\0';
+ header.channels[2].name[strlen("G")] = '\0';
header.channels[3].name[strlen("R")] = '\0';
- } else {
+ } else if (components == 3) {
+#ifdef _MSC_VER
+ strncpy_s(header.channels[0].name, "B", 255);
+ strncpy_s(header.channels[1].name, "G", 255);
+ strncpy_s(header.channels[2].name, "R", 255);
+#else
strncpy(header.channels[0].name, "B", 255);
- header.channels[0].name[strlen("B")] = '\0';
strncpy(header.channels[1].name, "G", 255);
- header.channels[1].name[strlen("G")] = '\0';
strncpy(header.channels[2].name, "R", 255);
+#endif
+ header.channels[0].name[strlen("B")] = '\0';
+ header.channels[1].name[strlen("G")] = '\0';
header.channels[2].name[strlen("R")] = '\0';
+ } else {
+#ifdef _MSC_VER
+ strncpy_s(header.channels[0].name, "A", 255);
+#else
+ strncpy(header.channels[0].name, "A", 255);
+#endif
+ header.channels[0].name[strlen("A")] = '\0';
}
header.pixel_types = static_cast<int *>(
@@ -12367,9 +12551,15 @@ int SaveEXR(const float *data, int width, int height, int components,
for (int i = 0; i < header.num_channels; i++) {
header.pixel_types[i] =
TINYEXR_PIXELTYPE_FLOAT; // pixel type of input image
- header.requested_pixel_types[i] =
- TINYEXR_PIXELTYPE_HALF; // pixel type of output image to be stored in
- // .EXR
+
+ if (save_as_fp16 > 0) {
+ header.requested_pixel_types[i] =
+ TINYEXR_PIXELTYPE_HALF; // save with half(fp16) pixel format
+ } else {
+ header.requested_pixel_types[i] =
+ TINYEXR_PIXELTYPE_FLOAT; // save with float(fp32) pixel format(i.e.
+ // no precision reduction)
+ }
}
const char *err;
@@ -12385,9 +12575,5 @@ int SaveEXR(const float *data, int width, int height, int components,
return ret;
}
-#ifdef _MSC_VER
-#pragma warning(pop)
-#endif
-
#endif // TINYEXR_IMPLEMENTATION_DEIFNED
#endif // TINYEXR_IMPLEMENTATION