include/avif/internal.h - libavif - Git at Google

 // Copyright 2019 Joe Drago. All rights reserved.
 // SPDX-License-Identifier: BSD-2-Clause

 #ifndef AVIF_INTERNAL_H
 #define AVIF_INTERNAL_H

 #include "avif/avif.h"

 #ifdef __cplusplus
 extern "C" {
 #endif

 // Yes, clamp macros are nasty. Do not use them.
 #define AVIF_CLAMP(x, low, high) (((x) < (low)) ? (low) : (((high) < (x)) ? (high) : (x)))
 #define AVIF_MIN(a, b) (((a) < (b)) ? (a) : (b))
 #define AVIF_MAX(a, b) (((a) > (b)) ? (a) : (b))

 // Used by stream related things.
 #define CHECK(A)               \
     do {                       \
         if (!(A))              \
             return AVIF_FALSE; \
     } while (0)

 // Used instead of CHECK if needing to return a specific error on failure, instead of AVIF_FALSE
 #define CHECKERR(A, ERR) \
     do {                 \
         if (!(A))        \
             return ERR;  \
     } while (0)

 // ---------------------------------------------------------------------------
 // URNs and Content-Types

 #define URN_ALPHA0 "urn:mpeg:mpegB:cicp:systems:auxiliary:alpha"
 #define URN_ALPHA1 "urn:mpeg:hevc:2015:auxid:1"

 #define CONTENT_TYPE_XMP "application/rdf+xml"

 // ---------------------------------------------------------------------------
 // Utils

 float avifRoundf(float v);

 uint16_t avifHTONS(uint16_t s);
 uint16_t avifNTOHS(uint16_t s);
 uint32_t avifHTONL(uint32_t l);
 uint32_t avifNTOHL(uint32_t l);
 uint64_t avifHTON64(uint64_t l);
 uint64_t avifNTOH64(uint64_t l);

 void avifCalcYUVCoefficients(const avifImage * image, float * outR, float * outG, float * outB);

 #define AVIF_ARRAY_DECLARE(TYPENAME, ITEMSTYPE, ITEMSNAME) \
     typedef struct TYPENAME                                \
     {                                                      \
         ITEMSTYPE * ITEMSNAME;                             \
         uint32_t elementSize;                              \
         uint32_t count;                                    \
         uint32_t capacity;                                 \
     } TYPENAME
 void avifArrayCreate(void * arrayStruct, uint32_t elementSize, uint32_t initialCapacity);
 uint32_t avifArrayPushIndex(void * arrayStruct);
 void * avifArrayPushPtr(void * arrayStruct);
 void avifArrayPush(void * arrayStruct, void * element);
 void avifArrayDestroy(void * arrayStruct);

 AVIF_ARRAY_DECLARE(avifRODataArray, avifROData, raw);
 AVIF_ARRAY_DECLARE(avifRWDataArray, avifRWData, raw);

 typedef struct avifAlphaParams
 {
     uint32_t width;
     uint32_t height;

     uint32_t srcDepth;
     avifRange srcRange;
     uint8_t * srcPlane;
     uint32_t srcRowBytes;
     uint32_t srcOffsetBytes;
     uint32_t srcPixelBytes;

     uint32_t dstDepth;
     avifRange dstRange;
     uint8_t * dstPlane;
     uint32_t dstRowBytes;
     uint32_t dstOffsetBytes;
     uint32_t dstPixelBytes;

 } avifAlphaParams;

 avifBool avifFillAlpha(const avifAlphaParams * const params);
 avifBool avifReformatAlpha(const avifAlphaParams * const params);

 typedef enum avifReformatMode
 {
     AVIF_REFORMAT_MODE_YUV_COEFFICIENTS = 0, // Normal YUV conversion using coefficients
     AVIF_REFORMAT_MODE_IDENTITY,             // Pack GBR directly into YUV planes (AVIF_MATRIX_COEFFICIENTS_IDENTITY)
     AVIF_REFORMAT_MODE_YCGCO                 // YUV conversion using AVIF_MATRIX_COEFFICIENTS_YCGCO
 } avifReformatMode;

 typedef enum avifAlphaMultiplyMode {
     AVIF_ALPHA_MULTIPLY_MODE_NO_OP = 0,
     AVIF_ALPHA_MULTIPLY_MODE_MULTIPLY,
     AVIF_ALPHA_MULTIPLY_MODE_UNMULTIPLY
 } avifAlphaMultiplyMode;

 typedef struct avifReformatState
 {
     // YUV coefficients
     float kr;
     float kg;
     float kb;

     uint32_t yuvChannelBytes;
     uint32_t rgbChannelBytes;
     uint32_t rgbChannelCount;
     uint32_t rgbPixelBytes;
     uint32_t rgbOffsetBytesR;
     uint32_t rgbOffsetBytesG;
     uint32_t rgbOffsetBytesB;
     uint32_t rgbOffsetBytesA;

     uint32_t yuvDepth;
     avifRange yuvRange;
     int yuvMaxChannel;
     int rgbMaxChannel;
     float rgbMaxChannelF;
     float biasY;   // minimum Y value
     float biasUV;  // the value of 0.5 for the appropriate bit depth [128, 512, 2048]
     float biasA;   // minimum A value
     float rangeY;  // difference between max and min Y
     float rangeUV; // difference between max and min UV
     float rangeA;  // difference between max and min A

     avifPixelFormatInfo formatInfo;

     // LUTs for going from YUV limited/full unorm -> full range RGB FP32
     float unormFloatTableY[1 << 12];
     float unormFloatTableUV[1 << 12];

     avifReformatMode mode;
     avifAlphaMultiplyMode toRGBAlphaMode;
 } avifReformatState;

 // Returns:
 // * AVIF_RESULT_OK              - Converted successfully with libyuv
 // * AVIF_RESULT_NOT_IMPLEMENTED - The fast path for this combination is not implemented with libyuv, use built-in YUV conversion
 // * [any other error]           - Return error to caller
 avifResult avifImageYUVToRGBLibYUV(const avifImage * image, avifRGBImage * rgb);

 // Returns:
 // * AVIF_RESULT_OK              - (Un)Premultiply successfully with libyuv
 // * AVIF_RESULT_NOT_IMPLEMENTED - The fast path for this combination is not implemented with libyuv, use built-in (Un)Premultiply
 // * [any other error]           - Return error to caller
 avifResult avifRGBImagePremultiplyAlphaLibYUV(avifRGBImage * rgb);
 avifResult avifRGBImageUnpremultiplyAlphaLibYUV(avifRGBImage * rgb);

 // ---------------------------------------------------------------------------
 // avifCodecDecodeInput

 typedef struct avifDecodeSample
 {
     avifROData data;
     avifBool ownsData;
     avifBool partialData; // if true, data exists but doesn't have all of the sample in it

     uint32_t itemID; // if non-zero, data comes from a mergedExtents buffer in an avifDecoderItem, not a file offset
     uint64_t offset; // used only when itemID is zero, ignored and set to 0 when itemID is non-zero
     size_t size;
     avifBool sync; // is sync sample (keyframe)
 } avifDecodeSample;
 AVIF_ARRAY_DECLARE(avifDecodeSampleArray, avifDecodeSample, sample);

 typedef struct avifCodecDecodeInput
 {
     avifDecodeSampleArray samples;
     avifBool alpha; // if true, this is decoding an alpha plane
 } avifCodecDecodeInput;

 avifCodecDecodeInput * avifCodecDecodeInputCreate(void);
 void avifCodecDecodeInputDestroy(avifCodecDecodeInput * decodeInput);

 // ---------------------------------------------------------------------------
 // avifCodecEncodeOutput

 typedef struct avifEncodeSample
 {
     avifRWData data;
     avifBool sync; // is sync sample (keyframe)
 } avifEncodeSample;
 AVIF_ARRAY_DECLARE(avifEncodeSampleArray, avifEncodeSample, sample);

 typedef struct avifCodecEncodeOutput
 {
     avifEncodeSampleArray samples;
 } avifCodecEncodeOutput;

 avifCodecEncodeOutput * avifCodecEncodeOutputCreate(void);
 void avifCodecEncodeOutputAddSample(avifCodecEncodeOutput * encodeOutput, const uint8_t * data, size_t len, avifBool sync);
 void avifCodecEncodeOutputDestroy(avifCodecEncodeOutput * encodeOutput);

 // ---------------------------------------------------------------------------
 // avifCodecSpecificOptions (key/value string pairs for advanced tuning)

 typedef struct avifCodecSpecificOption
 {
     char * key;   // Must be a simple lowercase alphanumeric string
     char * value; // Free-form string to be interpreted by the codec
 } avifCodecSpecificOption;
 AVIF_ARRAY_DECLARE(avifCodecSpecificOptions, avifCodecSpecificOption, entries);
 avifCodecSpecificOptions * avifCodecSpecificOptionsCreate(void);
 void avifCodecSpecificOptionsDestroy(avifCodecSpecificOptions * csOptions);
 void avifCodecSpecificOptionsSet(avifCodecSpecificOptions * csOptions, const char * key, const char * value); // if(value==NULL), key is deleted

 // ---------------------------------------------------------------------------
 // avifCodec (abstraction layer to use different AV1 implementations)

 struct avifCodec;
 struct avifCodecInternal;

 typedef avifBool (*avifCodecOpenFunc)(struct avifCodec * codec, avifDecoder * decoder); // decode only
 typedef avifBool (*avifCodecGetNextImageFunc)(struct avifCodec * codec, const avifDecodeSample * sample, avifBool alpha, avifImage * image);
 // EncodeImage and EncodeFinish are not required to always emit a sample, but when all images are
 // encoded and EncodeFinish is called, the number of samples emitted must match the number of submitted frames.
 // avifCodecEncodeImageFunc may return AVIF_RESULT_UNKNOWN_ERROR to automatically emit the appropriate
 // AVIF_RESULT_ENCODE_COLOR_FAILED or AVIF_RESULT_ENCODE_ALPHA_FAILED depending on the alpha argument.
 typedef avifResult (*avifCodecEncodeImageFunc)(struct avifCodec * codec,
                                                avifEncoder * encoder,
                                                const avifImage * image,
                                                avifBool alpha,
                                                uint32_t addImageFlags,
                                                avifCodecEncodeOutput * output);
 typedef avifBool (*avifCodecEncodeFinishFunc)(struct avifCodec * codec, avifCodecEncodeOutput * output);
 typedef void (*avifCodecDestroyInternalFunc)(struct avifCodec * codec);

 typedef struct avifCodec
 {
     avifCodecSpecificOptions * csOptions; // Contains codec-specific key/value pairs for advanced tuning.
                                           // If a codec uses a value, it must mark it as used.
                                           // This array is NOT owned by avifCodec.
     struct avifCodecInternal * internal;  // up to each codec to use how it wants

     avifCodecOpenFunc open;
     avifCodecGetNextImageFunc getNextImage;
     avifCodecEncodeImageFunc encodeImage;
     avifCodecEncodeFinishFunc encodeFinish;
     avifCodecDestroyInternalFunc destroyInternal;
 } avifCodec;

 avifCodec * avifCodecCreate(avifCodecChoice choice, uint32_t requiredFlags);
 void avifCodecDestroy(avifCodec * codec);

 avifCodec * avifCodecCreateAOM(void);     // requires AVIF_CODEC_AOM (codec_aom.c)
 const char * avifCodecVersionAOM(void);   // requires AVIF_CODEC_AOM (codec_aom.c)
 avifCodec * avifCodecCreateDav1d(void);   // requires AVIF_CODEC_DAV1D (codec_dav1d.c)
 const char * avifCodecVersionDav1d(void); // requires AVIF_CODEC_DAV1D (codec_dav1d.c)
 avifCodec * avifCodecCreateGav1(void);    // requires AVIF_CODEC_LIBGAV1 (codec_libgav1.c)
 const char * avifCodecVersionGav1(void);  // requires AVIF_CODEC_LIBGAV1 (codec_libgav1.c)
 avifCodec * avifCodecCreateRav1e(void);   // requires AVIF_CODEC_RAV1E (codec_rav1e.c)
 const char * avifCodecVersionRav1e(void); // requires AVIF_CODEC_RAV1E (codec_rav1e.c)
 avifCodec * avifCodecCreateSvt(void);     // requires AVIF_CODEC_SVT (codec_svt.c)
 const char * avifCodecVersionSvt(void);   // requires AVIF_CODEC_SVT (codec_svt.c)

 // ---------------------------------------------------------------------------
 // avifStream

 typedef size_t avifBoxMarker;

 typedef struct avifBoxHeader
 {
     size_t size;
     uint8_t type[4];
 } avifBoxHeader;

 typedef struct avifROStream
 {
     avifROData * raw;
     size_t offset;
 } avifROStream;

 const uint8_t * avifROStreamCurrent(avifROStream * stream);
 void avifROStreamStart(avifROStream * stream, avifROData * raw);
 size_t avifROStreamOffset(const avifROStream * stream);
 void avifROStreamSetOffset(avifROStream * stream, size_t offset);

 avifBool avifROStreamHasBytesLeft(const avifROStream * stream, size_t byteCount);
 size_t avifROStreamRemainingBytes(const avifROStream * stream);
 avifBool avifROStreamSkip(avifROStream * stream, size_t byteCount);
 avifBool avifROStreamRead(avifROStream * stream, uint8_t * data, size_t size);
 avifBool avifROStreamReadU16(avifROStream * stream, uint16_t * v);
 avifBool avifROStreamReadU32(avifROStream * stream, uint32_t * v);
 avifBool avifROStreamReadUX8(avifROStream * stream, uint64_t * v, uint64_t factor); // Reads a factor*8 sized uint, saves in v
 avifBool avifROStreamReadU64(avifROStream * stream, uint64_t * v);
 avifBool avifROStreamReadString(avifROStream * stream, char * output, size_t outputSize);
 avifBool avifROStreamReadBoxHeader(avifROStream * stream, avifBoxHeader * header); // This fails if the size reported by the header cannot fit in the stream
 avifBool avifROStreamReadBoxHeaderPartial(avifROStream * stream, avifBoxHeader * header); // This doesn't require that the full box can fit in the stream
 avifBool avifROStreamReadVersionAndFlags(avifROStream * stream, uint8_t * version, uint32_t * flags); // version and flags ptrs are both optional
 avifBool avifROStreamReadAndEnforceVersion(avifROStream * stream, uint8_t enforcedVersion); // currently discards flags

 typedef struct avifRWStream
 {
     avifRWData * raw;
     size_t offset;
 } avifRWStream;

 uint8_t * avifRWStreamCurrent(avifRWStream * stream);
 void avifRWStreamStart(avifRWStream * stream, avifRWData * raw);
 size_t avifRWStreamOffset(const avifRWStream * stream);
 void avifRWStreamSetOffset(avifRWStream * stream, size_t offset);

 void avifRWStreamFinishWrite(avifRWStream * stream);
 void avifRWStreamWrite(avifRWStream * stream, const void * data, size_t size);
 void avifRWStreamWriteChars(avifRWStream * stream, const char * chars, size_t size);
 avifBoxMarker avifRWStreamWriteBox(avifRWStream * stream, const char * type, size_t contentSize);
 avifBoxMarker avifRWStreamWriteFullBox(avifRWStream * stream, const char * type, size_t contentSize, int version, uint32_t flags);
 void avifRWStreamFinishBox(avifRWStream * stream, avifBoxMarker marker);
 void avifRWStreamWriteU8(avifRWStream * stream, uint8_t v);
 void avifRWStreamWriteU16(avifRWStream * stream, uint16_t v);
 void avifRWStreamWriteU32(avifRWStream * stream, uint32_t v);
 void avifRWStreamWriteU64(avifRWStream * stream, uint64_t v);
 void avifRWStreamWriteZeros(avifRWStream * stream, size_t byteCount);

 // This is to make it clear that the box size is currently unknown, and will be determined later (with a call to avifRWStreamFinishBox)
 #define AVIF_BOX_SIZE_TBD 0

 typedef struct avifSequenceHeader
 {
     uint32_t maxWidth;
     uint32_t maxHeight;
     uint32_t bitDepth;
     avifPixelFormat yuvFormat;
     avifChromaSamplePosition chromaSamplePosition;
     avifColorPrimaries colorPrimaries;
     avifTransferCharacteristics transferCharacteristics;
     avifMatrixCoefficients matrixCoefficients;
     avifRange range;
     avifCodecConfigurationBox av1C;
 } avifSequenceHeader;
 avifBool avifSequenceHeaderParse(avifSequenceHeader * header, const avifROData * sample);

 // A maximum image size to avoid out-of-memory errors or integer overflow in
 // (32-bit) int or unsigned int arithmetic operations.
 #define AVIF_MAX_IMAGE_SIZE (16384 * 16384)

 #ifdef __cplusplus
 } // extern "C"
 #endif

 #endif // ifndef AVIF_INTERNAL_H
	// Copyright 2019 Joe Drago. All rights reserved.
	// SPDX-License-Identifier: BSD-2-Clause

	#ifndef AVIF_INTERNAL_H
	#define AVIF_INTERNAL_H

	#include "avif/avif.h"

	#ifdef __cplusplus
	extern "C" {
	#endif

	// Yes, clamp macros are nasty. Do not use them.
	#define AVIF_CLAMP(x, low, high) (((x) < (low)) ? (low) : (((high) < (x)) ? (high) : (x)))
	#define AVIF_MIN(a, b) (((a) < (b)) ? (a) : (b))
	#define AVIF_MAX(a, b) (((a) > (b)) ? (a) : (b))

	// Used by stream related things.
	#define CHECK(A) \
	do { \
	if (!(A)) \
	return AVIF_FALSE; \
	} while (0)

	// Used instead of CHECK if needing to return a specific error on failure, instead of AVIF_FALSE
	#define CHECKERR(A, ERR) \
	do { \
	if (!(A)) \
	return ERR; \
	} while (0)

	// ---------------------------------------------------------------------------
	// URNs and Content-Types

	#define URN_ALPHA0 "urn:mpeg:mpegB:cicp:systems:auxiliary:alpha"
	#define URN_ALPHA1 "urn:mpeg:hevc:2015:auxid:1"

	#define CONTENT_TYPE_XMP "application/rdf+xml"

	// ---------------------------------------------------------------------------
	// Utils

	float avifRoundf(float v);

	uint16_t avifHTONS(uint16_t s);
	uint16_t avifNTOHS(uint16_t s);
	uint32_t avifHTONL(uint32_t l);
	uint32_t avifNTOHL(uint32_t l);
	uint64_t avifHTON64(uint64_t l);
	uint64_t avifNTOH64(uint64_t l);

	void avifCalcYUVCoefficients(const avifImage * image, float * outR, float * outG, float * outB);

	#define AVIF_ARRAY_DECLARE(TYPENAME, ITEMSTYPE, ITEMSNAME) \
	typedef struct TYPENAME \
	{ \
	ITEMSTYPE * ITEMSNAME; \
	uint32_t elementSize; \
	uint32_t count; \
	uint32_t capacity; \
	} TYPENAME
	void avifArrayCreate(void * arrayStruct, uint32_t elementSize, uint32_t initialCapacity);
	uint32_t avifArrayPushIndex(void * arrayStruct);
	void * avifArrayPushPtr(void * arrayStruct);
	void avifArrayPush(void * arrayStruct, void * element);
	void avifArrayDestroy(void * arrayStruct);

	AVIF_ARRAY_DECLARE(avifRODataArray, avifROData, raw);
	AVIF_ARRAY_DECLARE(avifRWDataArray, avifRWData, raw);

	typedef struct avifAlphaParams
	{
	uint32_t width;
	uint32_t height;

	uint32_t srcDepth;
	avifRange srcRange;
	uint8_t * srcPlane;
	uint32_t srcRowBytes;
	uint32_t srcOffsetBytes;
	uint32_t srcPixelBytes;

	uint32_t dstDepth;
	avifRange dstRange;
	uint8_t * dstPlane;
	uint32_t dstRowBytes;
	uint32_t dstOffsetBytes;
	uint32_t dstPixelBytes;

	} avifAlphaParams;

	avifBool avifFillAlpha(const avifAlphaParams * const params);
	avifBool avifReformatAlpha(const avifAlphaParams * const params);

	typedef enum avifReformatMode
	{
	AVIF_REFORMAT_MODE_YUV_COEFFICIENTS = 0, // Normal YUV conversion using coefficients
	AVIF_REFORMAT_MODE_IDENTITY, // Pack GBR directly into YUV planes (AVIF_MATRIX_COEFFICIENTS_IDENTITY)
	AVIF_REFORMAT_MODE_YCGCO // YUV conversion using AVIF_MATRIX_COEFFICIENTS_YCGCO
	} avifReformatMode;

	typedef enum avifAlphaMultiplyMode {
	AVIF_ALPHA_MULTIPLY_MODE_NO_OP = 0,
	AVIF_ALPHA_MULTIPLY_MODE_MULTIPLY,
	AVIF_ALPHA_MULTIPLY_MODE_UNMULTIPLY
	} avifAlphaMultiplyMode;

	typedef struct avifReformatState
	{
	// YUV coefficients
	float kr;
	float kg;
	float kb;

	uint32_t yuvChannelBytes;
	uint32_t rgbChannelBytes;
	uint32_t rgbChannelCount;
	uint32_t rgbPixelBytes;
	uint32_t rgbOffsetBytesR;
	uint32_t rgbOffsetBytesG;
	uint32_t rgbOffsetBytesB;
	uint32_t rgbOffsetBytesA;

	uint32_t yuvDepth;
	avifRange yuvRange;
	int yuvMaxChannel;
	int rgbMaxChannel;
	float rgbMaxChannelF;
	float biasY; // minimum Y value
	float biasUV; // the value of 0.5 for the appropriate bit depth [128, 512, 2048]
	float biasA; // minimum A value
	float rangeY; // difference between max and min Y
	float rangeUV; // difference between max and min UV
	float rangeA; // difference between max and min A

	avifPixelFormatInfo formatInfo;

	// LUTs for going from YUV limited/full unorm -> full range RGB FP32
	float unormFloatTableY[1 << 12];
	float unormFloatTableUV[1 << 12];

	avifReformatMode mode;
	avifAlphaMultiplyMode toRGBAlphaMode;
	} avifReformatState;

	// Returns:
	// * AVIF_RESULT_OK - Converted successfully with libyuv
	// * AVIF_RESULT_NOT_IMPLEMENTED - The fast path for this combination is not implemented with libyuv, use built-in YUV conversion
	// * [any other error] - Return error to caller
	avifResult avifImageYUVToRGBLibYUV(const avifImage * image, avifRGBImage * rgb);

	// Returns:
	// * AVIF_RESULT_OK - (Un)Premultiply successfully with libyuv
	// * AVIF_RESULT_NOT_IMPLEMENTED - The fast path for this combination is not implemented with libyuv, use built-in (Un)Premultiply
	// * [any other error] - Return error to caller
	avifResult avifRGBImagePremultiplyAlphaLibYUV(avifRGBImage * rgb);
	avifResult avifRGBImageUnpremultiplyAlphaLibYUV(avifRGBImage * rgb);

	// ---------------------------------------------------------------------------
	// avifCodecDecodeInput

	typedef struct avifDecodeSample
	{
	avifROData data;
	avifBool ownsData;
	avifBool partialData; // if true, data exists but doesn't have all of the sample in it

	uint32_t itemID; // if non-zero, data comes from a mergedExtents buffer in an avifDecoderItem, not a file offset
	uint64_t offset; // used only when itemID is zero, ignored and set to 0 when itemID is non-zero
	size_t size;
	avifBool sync; // is sync sample (keyframe)
	} avifDecodeSample;
	AVIF_ARRAY_DECLARE(avifDecodeSampleArray, avifDecodeSample, sample);

	typedef struct avifCodecDecodeInput
	{
	avifDecodeSampleArray samples;
	avifBool alpha; // if true, this is decoding an alpha plane
	} avifCodecDecodeInput;

	avifCodecDecodeInput * avifCodecDecodeInputCreate(void);
	void avifCodecDecodeInputDestroy(avifCodecDecodeInput * decodeInput);

	// ---------------------------------------------------------------------------
	// avifCodecEncodeOutput

	typedef struct avifEncodeSample
	{
	avifRWData data;
	avifBool sync; // is sync sample (keyframe)
	} avifEncodeSample;
	AVIF_ARRAY_DECLARE(avifEncodeSampleArray, avifEncodeSample, sample);

	typedef struct avifCodecEncodeOutput
	{
	avifEncodeSampleArray samples;
	} avifCodecEncodeOutput;

	avifCodecEncodeOutput * avifCodecEncodeOutputCreate(void);
	void avifCodecEncodeOutputAddSample(avifCodecEncodeOutput * encodeOutput, const uint8_t * data, size_t len, avifBool sync);
	void avifCodecEncodeOutputDestroy(avifCodecEncodeOutput * encodeOutput);

	// ---------------------------------------------------------------------------
	// avifCodecSpecificOptions (key/value string pairs for advanced tuning)

	typedef struct avifCodecSpecificOption
	{
	char * key; // Must be a simple lowercase alphanumeric string
	char * value; // Free-form string to be interpreted by the codec
	} avifCodecSpecificOption;
	AVIF_ARRAY_DECLARE(avifCodecSpecificOptions, avifCodecSpecificOption, entries);
	avifCodecSpecificOptions * avifCodecSpecificOptionsCreate(void);
	void avifCodecSpecificOptionsDestroy(avifCodecSpecificOptions * csOptions);
	void avifCodecSpecificOptionsSet(avifCodecSpecificOptions * csOptions, const char * key, const char * value); // if(value==NULL), key is deleted

	// ---------------------------------------------------------------------------
	// avifCodec (abstraction layer to use different AV1 implementations)

	struct avifCodec;
	struct avifCodecInternal;

	typedef avifBool (avifCodecOpenFunc)(struct avifCodec codec, avifDecoder * decoder); // decode only
	typedef avifBool (avifCodecGetNextImageFunc)(struct avifCodec codec, const avifDecodeSample * sample, avifBool alpha, avifImage * image);
	// EncodeImage and EncodeFinish are not required to always emit a sample, but when all images are
	// encoded and EncodeFinish is called, the number of samples emitted must match the number of submitted frames.
	// avifCodecEncodeImageFunc may return AVIF_RESULT_UNKNOWN_ERROR to automatically emit the appropriate
	// AVIF_RESULT_ENCODE_COLOR_FAILED or AVIF_RESULT_ENCODE_ALPHA_FAILED depending on the alpha argument.
	typedef avifResult (avifCodecEncodeImageFunc)(struct avifCodec codec,
	avifEncoder * encoder,
	const avifImage * image,
	avifBool alpha,
	uint32_t addImageFlags,
	avifCodecEncodeOutput * output);
	typedef avifBool (avifCodecEncodeFinishFunc)(struct avifCodec codec, avifCodecEncodeOutput * output);
	typedef void (avifCodecDestroyInternalFunc)(struct avifCodec codec);

	typedef struct avifCodec
	{
	avifCodecSpecificOptions * csOptions; // Contains codec-specific key/value pairs for advanced tuning.
	// If a codec uses a value, it must mark it as used.
	// This array is NOT owned by avifCodec.
	struct avifCodecInternal * internal; // up to each codec to use how it wants

	avifCodecOpenFunc open;
	avifCodecGetNextImageFunc getNextImage;
	avifCodecEncodeImageFunc encodeImage;
	avifCodecEncodeFinishFunc encodeFinish;
	avifCodecDestroyInternalFunc destroyInternal;
	} avifCodec;

	avifCodec * avifCodecCreate(avifCodecChoice choice, uint32_t requiredFlags);
	void avifCodecDestroy(avifCodec * codec);

	avifCodec * avifCodecCreateAOM(void); // requires AVIF_CODEC_AOM (codec_aom.c)
	const char * avifCodecVersionAOM(void); // requires AVIF_CODEC_AOM (codec_aom.c)
	avifCodec * avifCodecCreateDav1d(void); // requires AVIF_CODEC_DAV1D (codec_dav1d.c)
	const char * avifCodecVersionDav1d(void); // requires AVIF_CODEC_DAV1D (codec_dav1d.c)
	avifCodec * avifCodecCreateGav1(void); // requires AVIF_CODEC_LIBGAV1 (codec_libgav1.c)
	const char * avifCodecVersionGav1(void); // requires AVIF_CODEC_LIBGAV1 (codec_libgav1.c)
	avifCodec * avifCodecCreateRav1e(void); // requires AVIF_CODEC_RAV1E (codec_rav1e.c)
	const char * avifCodecVersionRav1e(void); // requires AVIF_CODEC_RAV1E (codec_rav1e.c)
	avifCodec * avifCodecCreateSvt(void); // requires AVIF_CODEC_SVT (codec_svt.c)
	const char * avifCodecVersionSvt(void); // requires AVIF_CODEC_SVT (codec_svt.c)

	// ---------------------------------------------------------------------------
	// avifStream

	typedef size_t avifBoxMarker;

	typedef struct avifBoxHeader
	{
	size_t size;
	uint8_t type[4];
	} avifBoxHeader;

	typedef struct avifROStream
	{
	avifROData * raw;
	size_t offset;
	} avifROStream;

	const uint8_t * avifROStreamCurrent(avifROStream * stream);
	void avifROStreamStart(avifROStream * stream, avifROData * raw);
	size_t avifROStreamOffset(const avifROStream * stream);
	void avifROStreamSetOffset(avifROStream * stream, size_t offset);

	avifBool avifROStreamHasBytesLeft(const avifROStream * stream, size_t byteCount);
	size_t avifROStreamRemainingBytes(const avifROStream * stream);
	avifBool avifROStreamSkip(avifROStream * stream, size_t byteCount);
	avifBool avifROStreamRead(avifROStream * stream, uint8_t * data, size_t size);
	avifBool avifROStreamReadU16(avifROStream * stream, uint16_t * v);
	avifBool avifROStreamReadU32(avifROStream * stream, uint32_t * v);
	avifBool avifROStreamReadUX8(avifROStream * stream, uint64_t * v, uint64_t factor); // Reads a factor*8 sized uint, saves in v
	avifBool avifROStreamReadU64(avifROStream * stream, uint64_t * v);
	avifBool avifROStreamReadString(avifROStream * stream, char * output, size_t outputSize);
	avifBool avifROStreamReadBoxHeader(avifROStream * stream, avifBoxHeader * header); // This fails if the size reported by the header cannot fit in the stream
	avifBool avifROStreamReadBoxHeaderPartial(avifROStream * stream, avifBoxHeader * header); // This doesn't require that the full box can fit in the stream
	avifBool avifROStreamReadVersionAndFlags(avifROStream * stream, uint8_t * version, uint32_t * flags); // version and flags ptrs are both optional
	avifBool avifROStreamReadAndEnforceVersion(avifROStream * stream, uint8_t enforcedVersion); // currently discards flags

	typedef struct avifRWStream
	{
	avifRWData * raw;
	size_t offset;
	} avifRWStream;

	uint8_t * avifRWStreamCurrent(avifRWStream * stream);
	void avifRWStreamStart(avifRWStream * stream, avifRWData * raw);
	size_t avifRWStreamOffset(const avifRWStream * stream);
	void avifRWStreamSetOffset(avifRWStream * stream, size_t offset);

	void avifRWStreamFinishWrite(avifRWStream * stream);
	void avifRWStreamWrite(avifRWStream * stream, const void * data, size_t size);
	void avifRWStreamWriteChars(avifRWStream * stream, const char * chars, size_t size);
	avifBoxMarker avifRWStreamWriteBox(avifRWStream * stream, const char * type, size_t contentSize);
	avifBoxMarker avifRWStreamWriteFullBox(avifRWStream * stream, const char * type, size_t contentSize, int version, uint32_t flags);
	void avifRWStreamFinishBox(avifRWStream * stream, avifBoxMarker marker);
	void avifRWStreamWriteU8(avifRWStream * stream, uint8_t v);
	void avifRWStreamWriteU16(avifRWStream * stream, uint16_t v);
	void avifRWStreamWriteU32(avifRWStream * stream, uint32_t v);
	void avifRWStreamWriteU64(avifRWStream * stream, uint64_t v);
	void avifRWStreamWriteZeros(avifRWStream * stream, size_t byteCount);

	// This is to make it clear that the box size is currently unknown, and will be determined later (with a call to avifRWStreamFinishBox)
	#define AVIF_BOX_SIZE_TBD 0

	typedef struct avifSequenceHeader
	{
	uint32_t maxWidth;
	uint32_t maxHeight;
	uint32_t bitDepth;
	avifPixelFormat yuvFormat;
	avifChromaSamplePosition chromaSamplePosition;
	avifColorPrimaries colorPrimaries;
	avifTransferCharacteristics transferCharacteristics;
	avifMatrixCoefficients matrixCoefficients;
	avifRange range;
	avifCodecConfigurationBox av1C;
	} avifSequenceHeader;
	avifBool avifSequenceHeaderParse(avifSequenceHeader * header, const avifROData * sample);

	// A maximum image size to avoid out-of-memory errors or integer overflow in
	// (32-bit) int or unsigned int arithmetic operations.
	#define AVIF_MAX_IMAGE_SIZE (16384 * 16384)

	#ifdef __cplusplus
	} // extern "C"
	#endif

	#endif // ifndef AVIF_INTERNAL_H