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// Copyright 2019 Joe Drago. All rights reserved.
// SPDX-License-Identifier: BSD-2-Clause
#ifndef AVIF_AVIF_H
#define AVIF_AVIF_H
#include <stddef.h>
#include <stdint.h>
#ifdef __cplusplus
extern "C" {
#endif
// ---------------------------------------------------------------------------
// Constants
#define AVIF_VERSION_MAJOR 0
#define AVIF_VERSION_MINOR 6
#define AVIF_VERSION_PATCH 0
#define AVIF_VERSION (AVIF_VERSION_MAJOR * 10000) + (AVIF_VERSION_MINOR * 100) + AVIF_VERSION_PATCH
typedef int avifBool;
#define AVIF_TRUE 1
#define AVIF_FALSE 0
#define AVIF_QUANTIZER_LOSSLESS 0
#define AVIF_QUANTIZER_BEST_QUALITY 0
#define AVIF_QUANTIZER_WORST_QUALITY 63
#define AVIF_PLANE_COUNT_YUV 3
#define AVIF_SPEED_DEFAULT -1
#define AVIF_SPEED_SLOWEST 0
#define AVIF_SPEED_FASTEST 10
enum avifPlanesFlags
{
AVIF_PLANES_YUV = (1 << 0),
AVIF_PLANES_A = (1 << 1),
AVIF_PLANES_ALL = 0xff
};
enum avifChannelIndex
{
// rgbPlanes
AVIF_CHAN_R = 0,
AVIF_CHAN_G = 1,
AVIF_CHAN_B = 2,
// yuvPlanes - These are always correct, even if UV is flipped when encoded (YV12)
AVIF_CHAN_Y = 0,
AVIF_CHAN_U = 1,
AVIF_CHAN_V = 2
};
// ---------------------------------------------------------------------------
// Version
const char * avifVersion(void);
void avifCodecVersions(char outBuffer[256]);
// ---------------------------------------------------------------------------
// Memory management
void * avifAlloc(size_t size);
void avifFree(void * p);
// ---------------------------------------------------------------------------
// avifResult
typedef enum avifResult
{
AVIF_RESULT_OK = 0,
AVIF_RESULT_UNKNOWN_ERROR,
AVIF_RESULT_INVALID_FTYP,
AVIF_RESULT_NO_CONTENT,
AVIF_RESULT_NO_YUV_FORMAT_SELECTED,
AVIF_RESULT_REFORMAT_FAILED,
AVIF_RESULT_UNSUPPORTED_DEPTH,
AVIF_RESULT_ENCODE_COLOR_FAILED,
AVIF_RESULT_ENCODE_ALPHA_FAILED,
AVIF_RESULT_BMFF_PARSE_FAILED,
AVIF_RESULT_NO_AV1_ITEMS_FOUND,
AVIF_RESULT_DECODE_COLOR_FAILED,
AVIF_RESULT_DECODE_ALPHA_FAILED,
AVIF_RESULT_COLOR_ALPHA_SIZE_MISMATCH,
AVIF_RESULT_ISPE_SIZE_MISMATCH,
AVIF_RESULT_NO_CODEC_AVAILABLE,
AVIF_RESULT_NO_IMAGES_REMAINING,
AVIF_RESULT_INVALID_EXIF_PAYLOAD,
AVIF_RESULT_INVALID_IMAGE_GRID
} avifResult;
const char * avifResultToString(avifResult result);
// ---------------------------------------------------------------------------
// avifROData/avifRWData: Generic raw memory storage
typedef struct avifROData
{
const uint8_t * data;
size_t size;
} avifROData;
// Note: Use avifRWDataFree() if any avif*() function populates one of these.
typedef struct avifRWData
{
uint8_t * data;
size_t size;
} avifRWData;
// clang-format off
// Initialize avifROData/avifRWData on the stack with this
#define AVIF_DATA_EMPTY { NULL, 0 }
// clang-format on
void avifRWDataRealloc(avifRWData * raw, size_t newSize);
void avifRWDataSet(avifRWData * raw, const uint8_t * data, size_t len);
void avifRWDataFree(avifRWData * raw);
// ---------------------------------------------------------------------------
// avifPixelFormat
typedef enum avifPixelFormat
{
// No pixels are present
AVIF_PIXEL_FORMAT_NONE = 0,
AVIF_PIXEL_FORMAT_YUV444,
AVIF_PIXEL_FORMAT_YUV422,
AVIF_PIXEL_FORMAT_YUV420,
AVIF_PIXEL_FORMAT_YV12
} avifPixelFormat;
const char * avifPixelFormatToString(avifPixelFormat format);
typedef struct avifPixelFormatInfo
{
int chromaShiftX;
int chromaShiftY;
int aomIndexU; // maps U plane to AOM-side plane index
int aomIndexV; // maps V plane to AOM-side plane index
} avifPixelFormatInfo;
void avifGetPixelFormatInfo(avifPixelFormat format, avifPixelFormatInfo * info);
// ---------------------------------------------------------------------------
// avifNclxColorProfile
typedef enum avifNclxColourPrimaries
{
// This is actually reserved, but libavif uses it as a sentinel value.
AVIF_NCLX_COLOUR_PRIMARIES_UNKNOWN = 0,
AVIF_NCLX_COLOUR_PRIMARIES_BT709 = 1,
AVIF_NCLX_COLOUR_PRIMARIES_BT1361_0 = 1,
AVIF_NCLX_COLOUR_PRIMARIES_IEC61966_2_1 = 1,
AVIF_NCLX_COLOUR_PRIMARIES_SRGB = 1,
AVIF_NCLX_COLOUR_PRIMARIES_SYCC = 1,
AVIF_NCLX_COLOUR_PRIMARIES_IEC61966_2_4 = 1,
AVIF_NCLX_COLOUR_PRIMARIES_UNSPECIFIED = 2,
AVIF_NCLX_COLOUR_PRIMARIES_BT470_6M = 4,
AVIF_NCLX_COLOUR_PRIMARIES_BT601_7_625 = 5,
AVIF_NCLX_COLOUR_PRIMARIES_BT470_6G = 5,
AVIF_NCLX_COLOUR_PRIMARIES_BT601_7_525 = 6,
AVIF_NCLX_COLOUR_PRIMARIES_BT1358 = 6,
AVIF_NCLX_COLOUR_PRIMARIES_ST240 = 7,
AVIF_NCLX_COLOUR_PRIMARIES_GENERIC_FILM = 8,
AVIF_NCLX_COLOUR_PRIMARIES_BT2020 = 9,
AVIF_NCLX_COLOUR_PRIMARIES_BT2100 = 9,
AVIF_NCLX_COLOUR_PRIMARIES_XYZ = 10,
AVIF_NCLX_COLOUR_PRIMARIES_ST428 = 10,
AVIF_NCLX_COLOUR_PRIMARIES_RP431_2 = 11,
AVIF_NCLX_COLOUR_PRIMARIES_EG432_1 = 12,
AVIF_NCLX_COLOUR_PRIMARIES_P3 = 12,
AVIF_NCLX_COLOUR_PRIMARIES_EBU3213E = 22
} avifNclxColourPrimaries;
// outPrimaries: rX, rY, gX, gY, bX, bY, wX, wY
void avifNclxColourPrimariesGetValues(avifNclxColourPrimaries ancp, float outPrimaries[8]);
avifNclxColourPrimaries avifNclxColourPrimariesFind(float inPrimaries[8], const char ** outName);
typedef enum avifNclxTransferCharacteristics
{
// This is actually reserved, but libavif uses it as a sentinel value.
AVIF_NCLX_TRANSFER_CHARACTERISTICS_UNKNOWN = 0,
AVIF_NCLX_TRANSFER_CHARACTERISTICS_BT709 = 1,
AVIF_NCLX_TRANSFER_CHARACTERISTICS_BT1361 = 1,
AVIF_NCLX_TRANSFER_CHARACTERISTICS_UNSPECIFIED = 2,
AVIF_NCLX_TRANSFER_CHARACTERISTICS_GAMMA22 = 4,
AVIF_NCLX_TRANSFER_CHARACTERISTICS_GAMMA28 = 5,
AVIF_NCLX_TRANSFER_CHARACTERISTICS_BT601 = 6,
AVIF_NCLX_TRANSFER_CHARACTERISTICS_ST240 = 7,
AVIF_NCLX_TRANSFER_CHARACTERISTICS_LINEAR = 8,
AVIF_NCLX_TRANSFER_CHARACTERISTICS_LOG_100_1 = 9,
AVIF_NCLX_TRANSFER_CHARACTERISTICS_LOG_100_SQRT = 10,
AVIF_NCLX_TRANSFER_CHARACTERISTICS_IEC61966 = 11,
AVIF_NCLX_TRANSFER_CHARACTERISTICS_BT1361_EXTENDED = 12,
AVIF_NCLX_TRANSFER_CHARACTERISTICS_61966_2_1 = 13,
AVIF_NCLX_TRANSFER_CHARACTERISTICS_SRGB = 13,
AVIF_NCLX_TRANSFER_CHARACTERISTICS_SYCC = 13,
AVIF_NCLX_TRANSFER_CHARACTERISTICS_BT2020_10BIT = 14,
AVIF_NCLX_TRANSFER_CHARACTERISTICS_BT2020_12BIT = 15,
AVIF_NCLX_TRANSFER_CHARACTERISTICS_ST2084 = 16,
AVIF_NCLX_TRANSFER_CHARACTERISTICS_BT2100_PQ = 16,
AVIF_NCLX_TRANSFER_CHARACTERISTICS_ST428 = 17,
AVIF_NCLX_TRANSFER_CHARACTERISTICS_STD_B67 = 18,
AVIF_NCLX_TRANSFER_CHARACTERISTICS_BT2100_HLG = 18
} avifNclxTransferCharacteristics;
typedef enum avifNclxMatrixCoefficients
{
AVIF_NCLX_MATRIX_COEFFICIENTS_IDENTITY = 0,
AVIF_NCLX_MATRIX_COEFFICIENTS_BT709 = 1,
AVIF_NCLX_MATRIX_COEFFICIENTS_BT1361_0 = 1,
AVIF_NCLX_MATRIX_COEFFICIENTS_SRGB = 1,
AVIF_NCLX_MATRIX_COEFFICIENTS_SYCC = 1,
AVIF_NCLX_MATRIX_COEFFICIENTS_UNSPECIFIED = 2,
AVIF_NCLX_MATRIX_COEFFICIENTS_USFC_73682 = 4,
AVIF_NCLX_MATRIX_COEFFICIENTS_BT470_6B = 5,
AVIF_NCLX_MATRIX_COEFFICIENTS_BT601_7_625 = 5,
AVIF_NCLX_MATRIX_COEFFICIENTS_BT601_7_525 = 6,
AVIF_NCLX_MATRIX_COEFFICIENTS_BT1700_NTSC = 6,
AVIF_NCLX_MATRIX_COEFFICIENTS_ST170 = 6,
AVIF_NCLX_MATRIX_COEFFICIENTS_ST240 = 7,
AVIF_NCLX_MATRIX_COEFFICIENTS_BT2020_NCL = 9,
AVIF_NCLX_MATRIX_COEFFICIENTS_BT2100 = 9,
AVIF_NCLX_MATRIX_COEFFICIENTS_BT2020_CL = 10,
AVIF_NCLX_MATRIX_COEFFICIENTS_ST2085 = 11,
AVIF_NCLX_MATRIX_COEFFICIENTS_CHROMA_DERIVED_NCL = 12,
AVIF_NCLX_MATRIX_COEFFICIENTS_CHROMA_DERIVED_CL = 13,
AVIF_NCLX_MATRIX_COEFFICIENTS_ICTCP = 14
} avifNclxMatrixCoefficients;
// for fullRangeFlag
typedef enum avifNclxRangeFlag
{
AVIF_NCLX_LIMITED_RANGE = 0,
AVIF_NCLX_FULL_RANGE = 0x80
} avifNclxRangeFlag;
typedef struct avifNclxColorProfile
{
uint16_t colourPrimaries;
uint16_t transferCharacteristics;
uint16_t matrixCoefficients;
uint8_t fullRangeFlag;
} avifNclxColorProfile;
// ---------------------------------------------------------------------------
// avifRange
typedef enum avifRange
{
AVIF_RANGE_LIMITED = 0,
AVIF_RANGE_FULL,
} avifRange;
// ---------------------------------------------------------------------------
// avifProfileFormat
typedef enum avifProfileFormat
{
// No color profile present
AVIF_PROFILE_FORMAT_NONE = 0,
// icc represents an ICC profile chunk (inside a colr box)
AVIF_PROFILE_FORMAT_ICC,
// nclx represents a valid nclx colr box
AVIF_PROFILE_FORMAT_NCLX
} avifProfileFormat;
// ---------------------------------------------------------------------------
// Optional transformation structs
typedef enum avifTransformationFlags
{
AVIF_TRANSFORM_NONE = 0,
AVIF_TRANSFORM_PASP = (1 << 0),
AVIF_TRANSFORM_CLAP = (1 << 1),
AVIF_TRANSFORM_IROT = (1 << 2),
AVIF_TRANSFORM_IMIR = (1 << 3)
} avifTransformationFlags;
typedef struct avifPixelAspectRatioBox
{
// 'pasp' from ISO/IEC 14496-12:2015 12.1.4.3
// define the relative width and height of a pixel
uint32_t hSpacing;
uint32_t vSpacing;
} avifPixelAspectRatioBox;
typedef struct avifCleanApertureBox
{
// 'clap' from ISO/IEC 14496-12:2015 12.1.4.3
// a fractional number which defines the exact clean aperture width, in counted pixels, of the video image
uint32_t widthN;
uint32_t widthD;
// a fractional number which defines the exact clean aperture height, in counted pixels, of the video image
uint32_t heightN;
uint32_t heightD;
// a fractional number which defines the horizontal offset of clean aperture centre minus (width‐1)/2. Typically 0.
uint32_t horizOffN;
uint32_t horizOffD;
// a fractional number which defines the vertical offset of clean aperture centre minus (height‐1)/2. Typically 0.
uint32_t vertOffN;
uint32_t vertOffD;
} avifCleanApertureBox;
typedef struct avifImageRotation
{
// 'irot' from ISO/IEC 23008-12:2017 6.5.10
// angle * 90 specifies the angle (in anti-clockwise direction) in units of degrees.
uint8_t angle; // legal values: [0-3]
} avifImageRotation;
typedef struct avifImageMirror
{
// 'imir' from ISO/IEC 23008-12:2017 6.5.12
// axis specifies a vertical (axis = 0) or horizontal (axis = 1) axis for the mirroring operation.
uint8_t axis; // legal values: [0, 1]
} avifImageMirror;
// ---------------------------------------------------------------------------
// avifImage
typedef struct avifImage
{
// Image information
uint32_t width;
uint32_t height;
uint32_t depth; // all planes must share this depth; if depth>8, all planes are uint16_t internally
avifPixelFormat yuvFormat;
avifRange yuvRange;
uint8_t * yuvPlanes[AVIF_PLANE_COUNT_YUV];
uint32_t yuvRowBytes[AVIF_PLANE_COUNT_YUV];
avifBool decoderOwnsYUVPlanes;
avifRange alphaRange;
uint8_t * alphaPlane;
uint32_t alphaRowBytes;
avifBool decoderOwnsAlphaPlane;
// Profile information
avifProfileFormat profileFormat;
avifRWData icc;
avifNclxColorProfile nclx;
// Transformations - These metadata values are encoded/decoded when transformFlags are set
// appropriately, but do not impact/adjust the actual pixel buffers used (images won't be
// pre-cropped or mirrored upon decode). Basic explanations from the standards are offered in
// comments above, but for detailed explanations, please refer to the HEIF standard (ISO/IEC
// 23008-12:2017) and the BMFF standard (ISO/IEC 14496-12:2015).
//
// To encode any of these boxes, set the values in the associated box, then enable the flag in
// transformFlags. On decode, only honor the values in boxes with the associated transform flag set.
uint32_t transformFlags;
avifPixelAspectRatioBox pasp;
avifCleanApertureBox clap;
avifImageRotation irot;
avifImageMirror imir;
// Metadata - set with avifImageSetMetadata*() before write, check .size>0 for existence after read
avifRWData exif;
avifRWData xmp;
} avifImage;
avifImage * avifImageCreate(int width, int height, int depth, avifPixelFormat yuvFormat);
avifImage * avifImageCreateEmpty(void); // helper for making an image to decode into
void avifImageCopy(avifImage * dstImage, avifImage * srcImage); // deep copy
void avifImageDestroy(avifImage * image);
void avifImageSetProfileNone(avifImage * image);
void avifImageSetProfileICC(avifImage * image, const uint8_t * icc, size_t iccSize);
void avifImageSetProfileNCLX(avifImage * image, avifNclxColorProfile * nclx);
// Warning: If the Exif payload is set and invalid, avifEncoderWrite() may return AVIF_RESULT_INVALID_EXIF_PAYLOAD
void avifImageSetMetadataExif(avifImage * image, const uint8_t * exif, size_t exifSize);
void avifImageSetMetadataXMP(avifImage * image, const uint8_t * xmp, size_t xmpSize);
void avifImageAllocatePlanes(avifImage * image, uint32_t planes); // Ignores any pre-existing planes
void avifImageFreePlanes(avifImage * image, uint32_t planes); // Ignores already-freed planes
void avifImageStealPlanes(avifImage * dstImage, avifImage * srcImage, uint32_t planes);
// ---------------------------------------------------------------------------
// Optional YUV<->RGB support
// To convert to/from RGB, create an avifRGBImage on the stack, call avifRGBImageSetDefaults() on
// it, and then tweak the values inside of it accordingly. At a minimum, you should populate
// ->pixels and ->rowBytes with an appropriately sized pixel buffer, which should be at least
// (->rowBytes * ->height) bytes, where ->rowBytes is at least (->width * avifRGBImagePixelSize()).
// If you don't want to supply your own pixel buffer, you can use the
// avifRGBImageAllocatePixels()/avifRGBImageFreePixels() convenience functions.
// avifImageRGBToYUV() and avifImageYUVToRGB() will perform depth rescaling and limited<->full range
// conversion, if necessary. Pixels in an avifRGBImage buffer are always full range, and conversion
// routines will fail if the width and height don't match the associated avifImage.
typedef enum avifRGBFormat
{
AVIF_RGB_FORMAT_RGB = 0,
AVIF_RGB_FORMAT_RGBA,
AVIF_RGB_FORMAT_ARGB,
AVIF_RGB_FORMAT_BGR,
AVIF_RGB_FORMAT_BGRA,
AVIF_RGB_FORMAT_ABGR
} avifRGBFormat;
uint32_t avifRGBFormatChannelCount(avifRGBFormat format);
avifBool avifRGBFormatHasAlpha(avifRGBFormat format);
typedef struct avifRGBImage
{
uint32_t width; // must match associated avifImage
uint32_t height; // must match associated avifImage
uint32_t depth; // legal depths [8, 10, 12, 16]. if depth>8, pixels must be uint16_t internally
avifRGBFormat format; // all channels are always full range
uint8_t * pixels;
uint32_t rowBytes;
} avifRGBImage;
void avifRGBImageSetDefaults(avifRGBImage * rgb, avifImage * image);
uint32_t avifRGBImagePixelSize(avifRGBImage * rgb);
// Convenience functions. If you supply your own pixels/rowBytes, you do not need to use these.
void avifRGBImageAllocatePixels(avifRGBImage * rgb);
void avifRGBImageFreePixels(avifRGBImage * rgb);
// The main conversion functions
avifResult avifImageRGBToYUV(avifImage * image, avifRGBImage * rgb);
avifResult avifImageYUVToRGB(avifImage * image, avifRGBImage * rgb);
// ---------------------------------------------------------------------------
// YUV Utils
int avifFullToLimitedY(int depth, int v);
int avifFullToLimitedUV(int depth, int v);
int avifLimitedToFullY(int depth, int v);
int avifLimitedToFullUV(int depth, int v);
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;
avifPixelFormatInfo formatInfo;
} avifReformatState;
avifBool avifPrepareReformatState(avifImage * image, avifRGBImage * rgb, avifReformatState * state);
// ---------------------------------------------------------------------------
// Codec selection
typedef enum avifCodecChoice
{
AVIF_CODEC_CHOICE_AUTO = 0,
AVIF_CODEC_CHOICE_AOM,
AVIF_CODEC_CHOICE_DAV1D, // Decode only
AVIF_CODEC_CHOICE_LIBGAV1, // Decode only
AVIF_CODEC_CHOICE_RAV1E // Encode only
} avifCodecChoice;
typedef enum avifCodecFlags
{
AVIF_CODEC_FLAG_CAN_DECODE = (1 << 0),
AVIF_CODEC_FLAG_CAN_ENCODE = (1 << 1)
} avifCodecFlags;
// If this returns NULL, the codec choice/flag combination is unavailable
const char * avifCodecName(avifCodecChoice choice, uint32_t requiredFlags);
avifCodecChoice avifCodecChoiceFromName(const char * name);
// ---------------------------------------------------------------------------
// avifDecoder
// Useful stats related to a read/write
typedef struct avifIOStats
{
size_t colorOBUSize;
size_t alphaOBUSize;
} avifIOStats;
struct avifData;
typedef enum avifDecoderSource
{
// If a moov box is present in the .avif(s), use the tracks in it, otherwise decode the primary item.
AVIF_DECODER_SOURCE_AUTO = 0,
// Use the primary item and the aux (alpha) item in the avif(s).
// This is where single-image avifs store their image.
AVIF_DECODER_SOURCE_PRIMARY_ITEM,
// Use the chunks inside primary/aux tracks in the moov block.
// This is where avifs image sequences store their images.
AVIF_DECODER_SOURCE_TRACKS,
// Decode the thumbnail item. Currently unimplemented.
// AVIF_DECODER_SOURCE_THUMBNAIL_ITEM
} avifDecoderSource;
// Information about the timing of a single image in an image sequence
typedef struct avifImageTiming
{
uint64_t timescale; // timescale of the media (Hz)
double pts; // presentation timestamp in seconds (ptsInTimescales / timescale)
uint64_t ptsInTimescales; // presentation timestamp in "timescales"
double duration; // in seconds (durationInTimescales / timescale)
uint64_t durationInTimescales; // duration in "timescales"
} avifImageTiming;
typedef struct avifDecoder
{
// Defaults to AVIF_CODEC_CHOICE_AUTO: Preference determined by order in availableCodecs table (avif.c)
avifCodecChoice codecChoice;
// avifs can have multiple sets of images in them. This specifies which to decode.
// Set this via avifDecoderSetSource().
avifDecoderSource requestedSource;
// The current decoded image, owned by the decoder. Can be NULL if the decoder hasn't run or has run
// out of images. The YUV and A contents of this image are likely owned by the decoder, so be
// sure to copy any data inside of this image before advancing to the next image or reusing the
// decoder. It is legal to call avifImageYUVToRGB() on this in between calls to avifDecoderNextImage(),
// but use avifImageCopy() if you want to make a permanent copy of this image's contents.
avifImage * image;
// Counts and timing for the current image in an image sequence. Uninteresting for single image files.
int imageIndex; // 0-based
int imageCount; // Always 1 for non-sequences
avifImageTiming imageTiming; //
uint64_t timescale; // timescale of the media (Hz)
double duration; // in seconds (durationInTimescales / timescale)
uint64_t durationInTimescales; // duration in "timescales"
// The width and height as reported by the AVIF container, if any. There is no guarantee
// these match the decoded images; they are merely reporting what is independently offered
// from the container's boxes.
// * If decoding an "item" and the item is associated with an ImageSpatialExtentsBox,
// it will use the box's width/height
// * Else if decoding tracks, these will be the integer portions of the TrackHeaderBox width/height
// * Else both will be set to 0.
uint32_t containerWidth;
uint32_t containerHeight;
// The bit depth as reported by the AVIF container, if any. There is no guarantee
// this matches the decoded images; it is merely reporting what is independently offered
// from the container's boxes.
// * If decoding an "item" and the item is associated with an av1C property,
// it will use the box's depth flags.
// * Else if decoding tracks and there is a SampleDescriptionBox of type av01 containing an av1C box,
// it will use the box's depth flags.
// * Else it will be set to 0.
uint32_t containerDepth;
// stats from the most recent read, possibly 0s if reading an image sequence
avifIOStats ioStats;
// Internals used by the decoder
struct avifData * data;
} avifDecoder;
avifDecoder * avifDecoderCreate(void);
void avifDecoderDestroy(avifDecoder * decoder);
// Simple interface to decode a single image, independent of the decoder afterwards (decoder may be deestroyed).
avifResult avifDecoderRead(avifDecoder * decoder, avifImage * image, avifROData * input);
// Multi-function alternative to avifDecoderRead() for image sequences and gaining direct access
// to the decoder's YUV buffers (for performance's sake). Data passed into avifDecoderParse() is NOT
// copied, so it must continue to exist until the decoder is destroyed.
//
// Usage / function call order is:
// * avifDecoderCreate()
// * avifDecoderSetSource() - optional
// * avifDecoderParse()
// * avifDecoderNextImage() - in a loop, using decoder->image after each successful call
// * avifDecoderDestroy()
//
// You can use avifDecoderReset() any time after a successful call to avifDecoderParse()
// to reset the internal decoder back to before the first frame.
avifResult avifDecoderSetSource(avifDecoder * decoder, avifDecoderSource source);
avifResult avifDecoderParse(avifDecoder * decoder, avifROData * input);
avifResult avifDecoderNextImage(avifDecoder * decoder);
avifResult avifDecoderNthImage(avifDecoder * decoder, uint32_t frameIndex);
avifResult avifDecoderReset(avifDecoder * decoder);
// Keyframe information
// frameIndex - 0-based, matching avifDecoder->imageIndex, bound by avifDecoder->imageCount
// "nearest" keyframe means the keyframe prior to this frame index (returns frameIndex if it is a keyframe)
avifBool avifDecoderIsKeyframe(avifDecoder * decoder, uint32_t frameIndex);
uint32_t avifDecoderNearestKeyframe(avifDecoder * decoder, uint32_t frameIndex);
// ---------------------------------------------------------------------------
// avifEncoder
// Notes:
// * If avifEncoderWrite() returns AVIF_RESULT_OK, output must be freed with avifRWDataFree()
// * If (maxThreads < 2), multithreading is disabled
// * Quality range: [AVIF_QUANTIZER_BEST_QUALITY - AVIF_QUANTIZER_WORST_QUALITY]
// * To enable tiling, set tileRowsLog2 > 0 and/or tileColsLog2 > 0.
// Tiling values range [0-6], where the value indicates a request for 2^n tiles in that dimension.
// * Speed range: [AVIF_SPEED_SLOWEST - AVIF_SPEED_FASTEST]. Slower should make for a better quality
// image in less bytes. AVIF_SPEED_DEFAULT means "Leave the AV1 codec to its default speed settings"./
// If avifEncoder uses rav1e, the speed value is directly passed through (0-10). If libaom is used,
// a combination of settings are tweaked to simulate this speed range.
typedef struct avifEncoder
{
// Defaults to AVIF_CODEC_CHOICE_AUTO: Preference determined by order in availableCodecs table (avif.c)
avifCodecChoice codecChoice;
// settings (see Notes above)
int maxThreads;
int minQuantizer;
int maxQuantizer;
int minQuantizerAlpha;
int maxQuantizerAlpha;
int tileRowsLog2;
int tileColsLog2;
int speed;
// stats from the most recent write
avifIOStats ioStats;
} avifEncoder;
avifEncoder * avifEncoderCreate(void);
avifResult avifEncoderWrite(avifEncoder * encoder, avifImage * image, avifRWData * output);
void avifEncoderDestroy(avifEncoder * encoder);
// Helpers
avifBool avifImageUsesU16(avifImage * image);
// Returns AVIF_TRUE if input begins with a valid FileTypeBox (ftyp) that supports
// either the brand 'avif' or 'avis' (or both), without performing any allocations.
avifBool avifPeekCompatibleFileType(avifROData * input);
#ifdef __cplusplus
} // extern "C"
#endif
#endif // ifndef AVIF_AVIF_H