src/codec_libgav1.c - libavif - Git at Google

 // Copyright 2020 Google LLC
 // SPDX-License-Identifier: BSD-2-Clause

 #include "avif/internal.h"

 #include "gav1/decoder.h"

 #include <string.h>

 struct avifCodecInternal
 {
     Libgav1DecoderSettings gav1Settings;
     Libgav1Decoder * gav1Decoder;
     const Libgav1DecoderBuffer * gav1Image;
     avifRange colorRange;
 };

 static void gav1CodecDestroyInternal(avifCodec * codec)
 {
     if (codec->internal->gav1Decoder != NULL) {
         Libgav1DecoderDestroy(codec->internal->gav1Decoder);
     }
     avifFree(codec->internal);
 }

 static avifBool gav1CodecGetNextImage(struct avifCodec * codec,
                                       struct avifDecoder * decoder,
                                       const avifDecodeSample * sample,
                                       avifBool alpha,
                                       avifBool * isLimitedRangeAlpha,
                                       avifImage * image)
 {
     if (codec->internal->gav1Decoder == NULL) {
         codec->internal->gav1Settings.threads = decoder->maxThreads;
         codec->internal->gav1Settings.operating_point = codec->operatingPoint;
         codec->internal->gav1Settings.output_all_layers = codec->allLayers;

         if (Libgav1DecoderCreate(&codec->internal->gav1Settings, &codec->internal->gav1Decoder) != kLibgav1StatusOk) {
             return AVIF_FALSE;
         }
     }

     if (Libgav1DecoderEnqueueFrame(codec->internal->gav1Decoder,
                                    sample->data.data,
                                    sample->data.size,
                                    /*user_private_data=*/0,
                                    /*buffer_private_data=*/NULL) != kLibgav1StatusOk) {
         return AVIF_FALSE;
     }
     // Each Libgav1DecoderDequeueFrame() call invalidates the output frame
     // returned by the previous Libgav1DecoderDequeueFrame() call. Clear
     // our pointer to the previous output frame.
     codec->internal->gav1Image = NULL;

     const Libgav1DecoderBuffer * nextFrame = NULL;
     for (;;) {
         if (Libgav1DecoderDequeueFrame(codec->internal->gav1Decoder, &nextFrame) != kLibgav1StatusOk) {
             return AVIF_FALSE;
         }
         if (nextFrame && (sample->spatialID != AVIF_SPATIAL_ID_UNSET) && (nextFrame->spatial_id != sample->spatialID)) {
             nextFrame = NULL;
         } else {
             break;
         }
     }
     // Got an image!

     if (nextFrame) {
         codec->internal->gav1Image = nextFrame;
         codec->internal->colorRange = (nextFrame->color_range == kLibgav1ColorRangeStudio) ? AVIF_RANGE_LIMITED : AVIF_RANGE_FULL;
     } else {
         if (alpha && codec->internal->gav1Image) {
             // Special case: reuse last alpha frame
         } else {
             return AVIF_FALSE;
         }
     }

     const Libgav1DecoderBuffer * gav1Image = codec->internal->gav1Image;
     avifBool isColor = !alpha;
     if (isColor) {
         // Color (YUV) planes - set image to correct size / format, fill color

         avifPixelFormat yuvFormat = AVIF_PIXEL_FORMAT_NONE;
         switch (gav1Image->image_format) {
             case kLibgav1ImageFormatMonochrome400:
                 yuvFormat = AVIF_PIXEL_FORMAT_YUV400;
                 break;
             case kLibgav1ImageFormatYuv420:
                 yuvFormat = AVIF_PIXEL_FORMAT_YUV420;
                 break;
             case kLibgav1ImageFormatYuv422:
                 yuvFormat = AVIF_PIXEL_FORMAT_YUV422;
                 break;
             case kLibgav1ImageFormatYuv444:
                 yuvFormat = AVIF_PIXEL_FORMAT_YUV444;
                 break;
         }

         if (image->width && image->height) {
             if ((image->width != (uint32_t)gav1Image->displayed_width[0]) ||
                 (image->height != (uint32_t)gav1Image->displayed_height[0]) || (image->depth != (uint32_t)gav1Image->bitdepth) ||
                 (image->yuvFormat != yuvFormat)) {
                 // Throw it all out
                 avifImageFreePlanes(image, AVIF_PLANES_ALL);
             }
         }
         image->width = gav1Image->displayed_width[0];
         image->height = gav1Image->displayed_height[0];
         image->depth = gav1Image->bitdepth;

         image->yuvFormat = yuvFormat;
         image->yuvRange = codec->internal->colorRange;
         image->yuvChromaSamplePosition = (avifChromaSamplePosition)gav1Image->chroma_sample_position;

         image->colorPrimaries = (avifColorPrimaries)gav1Image->color_primary;
         image->transferCharacteristics = (avifTransferCharacteristics)gav1Image->transfer_characteristics;
         image->matrixCoefficients = (avifMatrixCoefficients)gav1Image->matrix_coefficients;

         // Steal the pointers from the decoder's image directly
         avifImageFreePlanes(image, AVIF_PLANES_YUV);
         int yuvPlaneCount = (yuvFormat == AVIF_PIXEL_FORMAT_YUV400) ? 1 : 3;
         for (int yuvPlane = 0; yuvPlane < yuvPlaneCount; ++yuvPlane) {
             image->yuvPlanes[yuvPlane] = gav1Image->plane[yuvPlane];
             image->yuvRowBytes[yuvPlane] = gav1Image->stride[yuvPlane];
         }
         image->imageOwnsYUVPlanes = AVIF_FALSE;
     } else {
         // Alpha plane - ensure image is correct size, fill color

         if (image->width && image->height) {
             if ((image->width != (uint32_t)gav1Image->displayed_width[0]) ||
                 (image->height != (uint32_t)gav1Image->displayed_height[0]) || (image->depth != (uint32_t)gav1Image->bitdepth)) {
                 // Alpha plane doesn't match previous alpha plane decode, bail out
                 return AVIF_FALSE;
             }
         }
         image->width = gav1Image->displayed_width[0];
         image->height = gav1Image->displayed_height[0];
         image->depth = gav1Image->bitdepth;

         avifImageFreePlanes(image, AVIF_PLANES_A);
         image->alphaPlane = gav1Image->plane[0];
         image->alphaRowBytes = gav1Image->stride[0];
         *isLimitedRangeAlpha = (codec->internal->colorRange == AVIF_RANGE_LIMITED);
         image->imageOwnsAlphaPlane = AVIF_FALSE;
     }

     return AVIF_TRUE;
 }

 const char * avifCodecVersionGav1(void)
 {
     return Libgav1GetVersionString();
 }

 avifCodec * avifCodecCreateGav1(void)
 {
     avifCodec * codec = (avifCodec *)avifAlloc(sizeof(avifCodec));
     memset(codec, 0, sizeof(struct avifCodec));
     codec->getNextImage = gav1CodecGetNextImage;
     codec->destroyInternal = gav1CodecDestroyInternal;

     codec->internal = (struct avifCodecInternal *)avifAlloc(sizeof(struct avifCodecInternal));
     memset(codec->internal, 0, sizeof(struct avifCodecInternal));
     Libgav1DecoderSettingsInitDefault(&codec->internal->gav1Settings);
     return codec;
 }
	// Copyright 2020 Google LLC
	// SPDX-License-Identifier: BSD-2-Clause

	#include "avif/internal.h"

	#include "gav1/decoder.h"

	#include <string.h>

	struct avifCodecInternal
	{
	Libgav1DecoderSettings gav1Settings;
	Libgav1Decoder * gav1Decoder;
	const Libgav1DecoderBuffer * gav1Image;
	avifRange colorRange;
	};

	static void gav1CodecDestroyInternal(avifCodec * codec)
	{
	if (codec->internal->gav1Decoder != NULL) {
	Libgav1DecoderDestroy(codec->internal->gav1Decoder);
	}
	avifFree(codec->internal);
	}

	static avifBool gav1CodecGetNextImage(struct avifCodec * codec,
	struct avifDecoder * decoder,
	const avifDecodeSample * sample,
	avifBool alpha,
	avifBool * isLimitedRangeAlpha,
	avifImage * image)
	{
	if (codec->internal->gav1Decoder == NULL) {
	codec->internal->gav1Settings.threads = decoder->maxThreads;
	codec->internal->gav1Settings.operating_point = codec->operatingPoint;
	codec->internal->gav1Settings.output_all_layers = codec->allLayers;

	if (Libgav1DecoderCreate(&codec->internal->gav1Settings, &codec->internal->gav1Decoder) != kLibgav1StatusOk) {
	return AVIF_FALSE;
	}
	}

	if (Libgav1DecoderEnqueueFrame(codec->internal->gav1Decoder,
	sample->data.data,
	sample->data.size,
	/user_private_data=/0,
	/buffer_private_data=/NULL) != kLibgav1StatusOk) {
	return AVIF_FALSE;
	}
	// Each Libgav1DecoderDequeueFrame() call invalidates the output frame
	// returned by the previous Libgav1DecoderDequeueFrame() call. Clear
	// our pointer to the previous output frame.
	codec->internal->gav1Image = NULL;

	const Libgav1DecoderBuffer * nextFrame = NULL;
	for (;;) {
	if (Libgav1DecoderDequeueFrame(codec->internal->gav1Decoder, &nextFrame) != kLibgav1StatusOk) {
	return AVIF_FALSE;
	}
	if (nextFrame && (sample->spatialID != AVIF_SPATIAL_ID_UNSET) && (nextFrame->spatial_id != sample->spatialID)) {
	nextFrame = NULL;
	} else {
	break;
	}
	}
	// Got an image!

	if (nextFrame) {
	codec->internal->gav1Image = nextFrame;
	codec->internal->colorRange = (nextFrame->color_range == kLibgav1ColorRangeStudio) ? AVIF_RANGE_LIMITED : AVIF_RANGE_FULL;
	} else {
	if (alpha && codec->internal->gav1Image) {
	// Special case: reuse last alpha frame
	} else {
	return AVIF_FALSE;
	}
	}

	const Libgav1DecoderBuffer * gav1Image = codec->internal->gav1Image;
	avifBool isColor = !alpha;
	if (isColor) {
	// Color (YUV) planes - set image to correct size / format, fill color

	avifPixelFormat yuvFormat = AVIF_PIXEL_FORMAT_NONE;
	switch (gav1Image->image_format) {
	case kLibgav1ImageFormatMonochrome400:
	yuvFormat = AVIF_PIXEL_FORMAT_YUV400;
	break;
	case kLibgav1ImageFormatYuv420:
	yuvFormat = AVIF_PIXEL_FORMAT_YUV420;
	break;
	case kLibgav1ImageFormatYuv422:
	yuvFormat = AVIF_PIXEL_FORMAT_YUV422;
	break;
	case kLibgav1ImageFormatYuv444:
	yuvFormat = AVIF_PIXEL_FORMAT_YUV444;
	break;
	}

	if (image->width && image->height) {
	if ((image->width != (uint32_t)gav1Image->displayed_width[0]) \|\|
	(image->height != (uint32_t)gav1Image->displayed_height[0]) \|\| (image->depth != (uint32_t)gav1Image->bitdepth) \|\|
	(image->yuvFormat != yuvFormat)) {
	// Throw it all out
	avifImageFreePlanes(image, AVIF_PLANES_ALL);
	}
	}
	image->width = gav1Image->displayed_width[0];
	image->height = gav1Image->displayed_height[0];
	image->depth = gav1Image->bitdepth;

	image->yuvFormat = yuvFormat;
	image->yuvRange = codec->internal->colorRange;
	image->yuvChromaSamplePosition = (avifChromaSamplePosition)gav1Image->chroma_sample_position;

	image->colorPrimaries = (avifColorPrimaries)gav1Image->color_primary;
	image->transferCharacteristics = (avifTransferCharacteristics)gav1Image->transfer_characteristics;
	image->matrixCoefficients = (avifMatrixCoefficients)gav1Image->matrix_coefficients;

	// Steal the pointers from the decoder's image directly
	avifImageFreePlanes(image, AVIF_PLANES_YUV);
	int yuvPlaneCount = (yuvFormat == AVIF_PIXEL_FORMAT_YUV400) ? 1 : 3;
	for (int yuvPlane = 0; yuvPlane < yuvPlaneCount; ++yuvPlane) {
	image->yuvPlanes[yuvPlane] = gav1Image->plane[yuvPlane];
	image->yuvRowBytes[yuvPlane] = gav1Image->stride[yuvPlane];
	}
	image->imageOwnsYUVPlanes = AVIF_FALSE;
	} else {
	// Alpha plane - ensure image is correct size, fill color

	if (image->width && image->height) {
	if ((image->width != (uint32_t)gav1Image->displayed_width[0]) \|\|
	(image->height != (uint32_t)gav1Image->displayed_height[0]) \|\| (image->depth != (uint32_t)gav1Image->bitdepth)) {
	// Alpha plane doesn't match previous alpha plane decode, bail out
	return AVIF_FALSE;
	}
	}
	image->width = gav1Image->displayed_width[0];
	image->height = gav1Image->displayed_height[0];
	image->depth = gav1Image->bitdepth;

	avifImageFreePlanes(image, AVIF_PLANES_A);
	image->alphaPlane = gav1Image->plane[0];
	image->alphaRowBytes = gav1Image->stride[0];
	*isLimitedRangeAlpha = (codec->internal->colorRange == AVIF_RANGE_LIMITED);
	image->imageOwnsAlphaPlane = AVIF_FALSE;
	}

	return AVIF_TRUE;
	}

	const char * avifCodecVersionGav1(void)
	{
	return Libgav1GetVersionString();
	}

	avifCodec * avifCodecCreateGav1(void)
	{
	avifCodec * codec = (avifCodec *)avifAlloc(sizeof(avifCodec));
	memset(codec, 0, sizeof(struct avifCodec));
	codec->getNextImage = gav1CodecGetNextImage;
	codec->destroyInternal = gav1CodecDestroyInternal;

	codec->internal = (struct avifCodecInternal *)avifAlloc(sizeof(struct avifCodecInternal));
	memset(codec->internal, 0, sizeof(struct avifCodecInternal));
	Libgav1DecoderSettingsInitDefault(&codec->internal->gav1Settings);
	return codec;
	}