Current File : //proc/thread-self/root/usr/include/libheif/heif.h
/*
* HEIF codec.
* Copyright (c) 2017 struktur AG, Dirk Farin <farin@struktur.de>
*
* This file is part of libheif.
*
* libheif is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as
* published by the Free Software Foundation, either version 3 of
* the License, or (at your option) any later version.
*
* libheif is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with libheif. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef LIBHEIF_HEIF_H
#define LIBHEIF_HEIF_H
#ifdef __cplusplus
extern "C" {
#endif
#include <stddef.h>
#include <stdint.h>
#include <libheif/heif_version.h>
// API versions table
//
// release depth.rep dec.options enc.options heif_reader heif_writer col.profile
// -----------------------------------------------------------------------------------------
// 1.0 1 1 N/A N/A N/A N/A
// 1.1 1 1 N/A N/A 1 N/A
// 1.3 1 1 1 1 1 N/A
// 1.4 1 1 1 1 1 1
// 1.7 1 2 1 1 1 1
// 1.9.2 1 2 2 1 1 1
// 1.10 1 2 3 1 1 1
// 1.11 1 2 4 1 1 1
#if defined(_MSC_VER) && !defined(LIBHEIF_STATIC_BUILD)
#ifdef LIBHEIF_EXPORTS
#define LIBHEIF_API __declspec(dllexport)
#else
#define LIBHEIF_API __declspec(dllimport)
#endif
#elif defined(HAVE_VISIBILITY) && HAVE_VISIBILITY
#ifdef LIBHEIF_EXPORTS
#define LIBHEIF_API __attribute__((__visibility__("default")))
#else
#define LIBHEIF_API
#endif
#else
#define LIBHEIF_API
#endif
#define heif_fourcc(a, b, c, d) ((a<<24) | (b<<16) | (c<<8) | d)
/* === version numbers === */
// Version string of linked libheif library.
LIBHEIF_API const char* heif_get_version(void);
// Numeric version of linked libheif library, encoded as 0xHHMMLL00 = HH.MM.LL.
LIBHEIF_API uint32_t heif_get_version_number(void);
// Numeric part "HH" from above.
LIBHEIF_API int heif_get_version_number_major(void);
// Numeric part "MM" from above.
LIBHEIF_API int heif_get_version_number_minor(void);
// Numeric part "LL" from above.
LIBHEIF_API int heif_get_version_number_maintenance(void);
// Helper macros to check for given versions of libheif at compile time.
#define LIBHEIF_MAKE_VERSION(h, m, l) ((h) << 24 | (m) << 16 | (l) << 8)
#define LIBHEIF_HAVE_VERSION(h, m, l) (LIBHEIF_NUMERIC_VERSION >= LIBHEIF_MAKE_VERSION(h, m, l))
struct heif_context;
struct heif_image_handle;
struct heif_image;
enum heif_error_code
{
// Everything ok, no error occurred.
heif_error_Ok = 0,
// Input file does not exist.
heif_error_Input_does_not_exist = 1,
// Error in input file. Corrupted or invalid content.
heif_error_Invalid_input = 2,
// Input file type is not supported.
heif_error_Unsupported_filetype = 3,
// Image requires an unsupported decoder feature.
heif_error_Unsupported_feature = 4,
// Library API has been used in an invalid way.
heif_error_Usage_error = 5,
// Could not allocate enough memory.
heif_error_Memory_allocation_error = 6,
// The decoder plugin generated an error
heif_error_Decoder_plugin_error = 7,
// The encoder plugin generated an error
heif_error_Encoder_plugin_error = 8,
// Error during encoding or when writing to the output
heif_error_Encoding_error = 9,
// Application has asked for a color profile type that does not exist
heif_error_Color_profile_does_not_exist = 10
};
enum heif_suberror_code
{
// no further information available
heif_suberror_Unspecified = 0,
// --- Invalid_input ---
// End of data reached unexpectedly.
heif_suberror_End_of_data = 100,
// Size of box (defined in header) is wrong
heif_suberror_Invalid_box_size = 101,
// Mandatory 'ftyp' box is missing
heif_suberror_No_ftyp_box = 102,
heif_suberror_No_idat_box = 103,
heif_suberror_No_meta_box = 104,
heif_suberror_No_hdlr_box = 105,
heif_suberror_No_hvcC_box = 106,
heif_suberror_No_pitm_box = 107,
heif_suberror_No_ipco_box = 108,
heif_suberror_No_ipma_box = 109,
heif_suberror_No_iloc_box = 110,
heif_suberror_No_iinf_box = 111,
heif_suberror_No_iprp_box = 112,
heif_suberror_No_iref_box = 113,
heif_suberror_No_pict_handler = 114,
// An item property referenced in the 'ipma' box is not existing in the 'ipco' container.
heif_suberror_Ipma_box_references_nonexisting_property = 115,
// No properties have been assigned to an item.
heif_suberror_No_properties_assigned_to_item = 116,
// Image has no (compressed) data
heif_suberror_No_item_data = 117,
// Invalid specification of image grid (tiled image)
heif_suberror_Invalid_grid_data = 118,
// Tile-images in a grid image are missing
heif_suberror_Missing_grid_images = 119,
heif_suberror_Invalid_clean_aperture = 120,
// Invalid specification of overlay image
heif_suberror_Invalid_overlay_data = 121,
// Overlay image completely outside of visible canvas area
heif_suberror_Overlay_image_outside_of_canvas = 122,
heif_suberror_Auxiliary_image_type_unspecified = 123,
heif_suberror_No_or_invalid_primary_item = 124,
heif_suberror_No_infe_box = 125,
heif_suberror_Unknown_color_profile_type = 126,
heif_suberror_Wrong_tile_image_chroma_format = 127,
heif_suberror_Invalid_fractional_number = 128,
heif_suberror_Invalid_image_size = 129,
heif_suberror_Invalid_pixi_box = 130,
heif_suberror_No_av1C_box = 131,
heif_suberror_Wrong_tile_image_pixel_depth = 132,
// --- Memory_allocation_error ---
// A security limit preventing unreasonable memory allocations was exceeded by the input file.
// Please check whether the file is valid. If it is, contact us so that we could increase the
// security limits further.
heif_suberror_Security_limit_exceeded = 1000,
// --- Usage_error ---
// An item ID was used that is not present in the file.
heif_suberror_Nonexisting_item_referenced = 2000, // also used for Invalid_input
// An API argument was given a NULL pointer, which is not allowed for that function.
heif_suberror_Null_pointer_argument = 2001,
// Image channel referenced that does not exist in the image
heif_suberror_Nonexisting_image_channel_referenced = 2002,
// The version of the passed plugin is not supported.
heif_suberror_Unsupported_plugin_version = 2003,
// The version of the passed writer is not supported.
heif_suberror_Unsupported_writer_version = 2004,
// The given (encoder) parameter name does not exist.
heif_suberror_Unsupported_parameter = 2005,
// The value for the given parameter is not in the valid range.
heif_suberror_Invalid_parameter_value = 2006,
// --- Unsupported_feature ---
// Image was coded with an unsupported compression method.
heif_suberror_Unsupported_codec = 3000,
// Image is specified in an unknown way, e.g. as tiled grid image (which is supported)
heif_suberror_Unsupported_image_type = 3001,
heif_suberror_Unsupported_data_version = 3002,
// The conversion of the source image to the requested chroma / colorspace is not supported.
heif_suberror_Unsupported_color_conversion = 3003,
heif_suberror_Unsupported_item_construction_method = 3004,
// --- Encoder_plugin_error ---
heif_suberror_Unsupported_bit_depth = 4000,
// --- Encoding_error ---
heif_suberror_Cannot_write_output_data = 5000,
};
struct heif_error
{
// main error category
enum heif_error_code code;
// more detailed error code
enum heif_suberror_code subcode;
// textual error message (is always defined, you do not have to check for NULL)
const char* message;
};
typedef uint32_t heif_item_id;
// ========================= file type check ======================
enum heif_filetype_result
{
heif_filetype_no,
heif_filetype_yes_supported, // it is heif and can be read by libheif
heif_filetype_yes_unsupported, // it is heif, but cannot be read by libheif
heif_filetype_maybe // not sure whether it is an heif, try detection with more input data
};
// input data should be at least 12 bytes
LIBHEIF_API
enum heif_filetype_result heif_check_filetype(const uint8_t* data, int len);
// DEPRECATED, use heif_brand2 instead
enum heif_brand
{
heif_unknown_brand,
heif_heic, // the usual HEIF images
heif_heix, // 10bit images, or anything that uses h265 with range extension
heif_hevc, heif_hevx, // brands for image sequences
heif_heim, // multiview
heif_heis, // scalable
heif_hevm, // multiview sequence
heif_hevs, // scalable sequence
heif_mif1, // image, any coding algorithm
heif_msf1, // sequence, any coding algorithm
heif_avif,
heif_avis
};
// input data should be at least 12 bytes
// DEPRECATED, use heif_read_main_brand() instead
LIBHEIF_API
enum heif_brand heif_main_brand(const uint8_t* data, int len);
typedef uint32_t heif_brand2;
// input data should be at least 12 bytes
LIBHEIF_API
heif_brand2 heif_read_main_brand(const uint8_t* data, int len);
// 'brand_fourcc' must be 4 character long, but need not be 0-terminated
LIBHEIF_API
heif_brand2 heif_fourcc_to_brand(const char* brand_fourcc);
// the output buffer must be at least 4 bytes long
LIBHEIF_API
void heif_brand_to_fourcc(heif_brand2 brand, char* out_fourcc);
// 'brand_fourcc' must be 4 character long, but need not be 0-terminated
// returns 1 if file includes the brand, and 0 if it does not
// returns -1 if the provided data is not sufficient
// (you should input at least as many bytes as indicated in the first 4 bytes of the file, usually ~50 bytes will do)
// returns -2 on other errors
LIBHEIF_API
int heif_has_compatible_brand(const uint8_t* data, int len, const char* brand_fourcc);
// Returns an array of compatible brands. The array is allocated by this function and has to be freed with 'heif_free_list_of_compatible_brands()'.
// The number of entries is returned in out_size.
LIBHEIF_API
struct heif_error heif_list_compatible_brands(const uint8_t* data, int len, heif_brand2** out_brands, int* out_size);
LIBHEIF_API
void heif_free_list_of_compatible_brands(heif_brand2* brands_list);
// Returns one of these MIME types:
// - image/heic HEIF file using h265 compression
// - image/heif HEIF file using any other compression
// - image/heic-sequence HEIF image sequence using h265 compression
// - image/heif-sequence HEIF image sequence using any other compression
// - image/jpeg JPEG image
// - image/png PNG image
// If the format could not be detected, an empty string is returned.
//
// Provide at least 12 bytes of input. With less input, its format might not
// be detected. You may also provide more input to increase detection accuracy.
//
// Note that JPEG and PNG images cannot be decoded by libheif even though the
// formats are detected by this function.
LIBHEIF_API
const char* heif_get_file_mime_type(const uint8_t* data, int len);
// ========================= heif_context =========================
// A heif_context represents a HEIF file that has been read.
// In the future, you will also be able to add pictures to a heif_context
// and write it into a file again.
// Allocate a new context for reading HEIF files.
// Has to be freed again with heif_context_free().
LIBHEIF_API
struct heif_context* heif_context_alloc(void);
// Free a previously allocated HEIF context. You should not free a context twice.
LIBHEIF_API
void heif_context_free(struct heif_context*);
struct heif_reading_options;
enum heif_reader_grow_status
{
heif_reader_grow_status_size_reached, // requested size has been reached, we can read until this point
heif_reader_grow_status_timeout, // size has not been reached yet, but it may still grow further
heif_reader_grow_status_size_beyond_eof // size has not been reached and never will. The file has grown to its full size
};
struct heif_reader
{
// API version supported by this reader
int reader_api_version;
// --- version 1 functions ---
int64_t (* get_position)(void* userdata);
// The functions read(), and seek() return 0 on success.
// Generally, libheif will make sure that we do not read past the file size.
int (* read)(void* data,
size_t size,
void* userdata);
int (* seek)(int64_t position,
void* userdata);
// When calling this function, libheif wants to make sure that it can read the file
// up to 'target_size'. This is useful when the file is currently downloaded and may
// grow with time. You may, for example, extract the image sizes even before the actual
// compressed image data has been completely downloaded.
//
// Even if your input files will not grow, you will have to implement at least
// detection whether the target_size is above the (fixed) file length
// (in this case, return 'size_beyond_eof').
enum heif_reader_grow_status (* wait_for_file_size)(int64_t target_size, void* userdata);
};
// Read a HEIF file from a named disk file.
// The heif_reading_options should currently be set to NULL.
LIBHEIF_API
struct heif_error heif_context_read_from_file(struct heif_context*, const char* filename,
const struct heif_reading_options*);
// Read a HEIF file stored completely in memory.
// The heif_reading_options should currently be set to NULL.
// DEPRECATED: use heif_context_read_from_memory_without_copy() instead.
LIBHEIF_API
struct heif_error heif_context_read_from_memory(struct heif_context*,
const void* mem, size_t size,
const struct heif_reading_options*);
// Same as heif_context_read_from_memory() except that the provided memory is not copied.
// That means, you will have to keep the memory area alive as long as you use the heif_context.
LIBHEIF_API
struct heif_error heif_context_read_from_memory_without_copy(struct heif_context*,
const void* mem, size_t size,
const struct heif_reading_options*);
LIBHEIF_API
struct heif_error heif_context_read_from_reader(struct heif_context*,
const struct heif_reader* reader,
void* userdata,
const struct heif_reading_options*);
// Number of top-level images in the HEIF file. This does not include the thumbnails or the
// tile images that are composed to an image grid. You can get access to the thumbnails via
// the main image handle.
LIBHEIF_API
int heif_context_get_number_of_top_level_images(struct heif_context* ctx);
LIBHEIF_API
int heif_context_is_top_level_image_ID(struct heif_context* ctx, heif_item_id id);
// Fills in image IDs into the user-supplied int-array 'ID_array', preallocated with 'count' entries.
// Function returns the total number of IDs filled into the array.
LIBHEIF_API
int heif_context_get_list_of_top_level_image_IDs(struct heif_context* ctx,
heif_item_id* ID_array,
int count);
LIBHEIF_API
struct heif_error heif_context_get_primary_image_ID(struct heif_context* ctx, heif_item_id* id);
// Get a handle to the primary image of the HEIF file.
// This is the image that should be displayed primarily when there are several images in the file.
LIBHEIF_API
struct heif_error heif_context_get_primary_image_handle(struct heif_context* ctx,
struct heif_image_handle**);
// Get the handle for a specific top-level image from an image ID.
LIBHEIF_API
struct heif_error heif_context_get_image_handle(struct heif_context* ctx,
heif_item_id id,
struct heif_image_handle**);
// Print information about the boxes of a HEIF file to file descriptor.
// This is for debugging and informational purposes only. You should not rely on
// the output having a specific format. At best, you should not use this at all.
LIBHEIF_API
void heif_context_debug_dump_boxes_to_file(struct heif_context* ctx, int fd);
LIBHEIF_API
void heif_context_set_maximum_image_size_limit(struct heif_context* ctx, int maximum_width);
// ========================= heif_image_handle =========================
// An heif_image_handle is a handle to a logical image in the HEIF file.
// To get the actual pixel data, you have to decode the handle to an heif_image.
// An heif_image_handle also gives you access to the thumbnails and Exif data
// associated with an image.
// Once you obtained an heif_image_handle, you can already release the heif_context,
// since it is internally ref-counted.
// Release image handle.
LIBHEIF_API
void heif_image_handle_release(const struct heif_image_handle*);
// Check whether the given image_handle is the primary image of the file.
LIBHEIF_API
int heif_image_handle_is_primary_image(const struct heif_image_handle* handle);
// Get the resolution of an image.
LIBHEIF_API
int heif_image_handle_get_width(const struct heif_image_handle* handle);
LIBHEIF_API
int heif_image_handle_get_height(const struct heif_image_handle* handle);
LIBHEIF_API
int heif_image_handle_has_alpha_channel(const struct heif_image_handle*);
LIBHEIF_API
int heif_image_handle_is_premultiplied_alpha(const struct heif_image_handle*);
// Returns -1 on error, e.g. if this information is not present in the image.
LIBHEIF_API
int heif_image_handle_get_luma_bits_per_pixel(const struct heif_image_handle*);
// Returns -1 on error, e.g. if this information is not present in the image.
LIBHEIF_API
int heif_image_handle_get_chroma_bits_per_pixel(const struct heif_image_handle*);
// Get the image width from the 'ispe' box. This is the original image size without
// any transformations applied to it. Do not use this unless you know exactly what
// you are doing.
LIBHEIF_API
int heif_image_handle_get_ispe_width(const struct heif_image_handle* handle);
LIBHEIF_API
int heif_image_handle_get_ispe_height(const struct heif_image_handle* handle);
// ------------------------- depth images -------------------------
LIBHEIF_API
int heif_image_handle_has_depth_image(const struct heif_image_handle*);
LIBHEIF_API
int heif_image_handle_get_number_of_depth_images(const struct heif_image_handle* handle);
LIBHEIF_API
int heif_image_handle_get_list_of_depth_image_IDs(const struct heif_image_handle* handle,
heif_item_id* ids, int count);
LIBHEIF_API
struct heif_error heif_image_handle_get_depth_image_handle(const struct heif_image_handle* handle,
heif_item_id depth_image_id,
struct heif_image_handle** out_depth_handle);
enum heif_depth_representation_type
{
heif_depth_representation_type_uniform_inverse_Z = 0,
heif_depth_representation_type_uniform_disparity = 1,
heif_depth_representation_type_uniform_Z = 2,
heif_depth_representation_type_nonuniform_disparity = 3
};
struct heif_depth_representation_info
{
uint8_t version;
// version 1 fields
uint8_t has_z_near;
uint8_t has_z_far;
uint8_t has_d_min;
uint8_t has_d_max;
double z_near;
double z_far;
double d_min;
double d_max;
enum heif_depth_representation_type depth_representation_type;
uint32_t disparity_reference_view;
uint32_t depth_nonlinear_representation_model_size;
uint8_t* depth_nonlinear_representation_model;
// version 2 fields below
};
LIBHEIF_API
void heif_depth_representation_info_free(const struct heif_depth_representation_info* info);
// Returns true when there is depth_representation_info available
// Note 1: depth_image_id is currently unused because we support only one depth channel per image, but
// you should still provide the correct ID for future compatibility.
// Note 2: Because of an API bug before v1.11.0, the function also works when 'handle' is the handle of the depth image.
// However, you should pass the handle of the main image. Please adapt your code if needed.
LIBHEIF_API
int heif_image_handle_get_depth_image_representation_info(const struct heif_image_handle* handle,
heif_item_id depth_image_id,
const struct heif_depth_representation_info** out);
// ------------------------- thumbnails -------------------------
// List the number of thumbnails assigned to this image handle. Usually 0 or 1.
LIBHEIF_API
int heif_image_handle_get_number_of_thumbnails(const struct heif_image_handle* handle);
LIBHEIF_API
int heif_image_handle_get_list_of_thumbnail_IDs(const struct heif_image_handle* handle,
heif_item_id* ids, int count);
// Get the image handle of a thumbnail image.
LIBHEIF_API
struct heif_error heif_image_handle_get_thumbnail(const struct heif_image_handle* main_image_handle,
heif_item_id thumbnail_id,
struct heif_image_handle** out_thumbnail_handle);
// ------------------------- auxiliary images -------------------------
#define LIBHEIF_AUX_IMAGE_FILTER_OMIT_ALPHA (1UL<<1)
#define LIBHEIF_AUX_IMAGE_FILTER_OMIT_DEPTH (2UL<<1)
// List the number of auxiliary images assigned to this image handle.
LIBHEIF_API
int heif_image_handle_get_number_of_auxiliary_images(const struct heif_image_handle* handle,
int aux_filter);
LIBHEIF_API
int heif_image_handle_get_list_of_auxiliary_image_IDs(const struct heif_image_handle* handle,
int aux_filter,
heif_item_id* ids, int count);
// You are responsible to deallocate the returned buffer with heif_image_handle_free_auxiliary_types().
LIBHEIF_API
struct heif_error heif_image_handle_get_auxiliary_type(const struct heif_image_handle* handle,
const char** out_type);
LIBHEIF_API
void heif_image_handle_free_auxiliary_types(const struct heif_image_handle* handle,
const char** out_type);
// Get the image handle of an auxiliary image.
LIBHEIF_API
struct heif_error heif_image_handle_get_auxiliary_image_handle(const struct heif_image_handle* main_image_handle,
heif_item_id auxiliary_id,
struct heif_image_handle** out_auxiliary_handle);
// ------------------------- metadata (Exif / XMP) -------------------------
// How many metadata blocks are attached to an image. Usually, the only metadata is
// an "Exif" block.
LIBHEIF_API
int heif_image_handle_get_number_of_metadata_blocks(const struct heif_image_handle* handle,
const char* type_filter);
// 'type_filter' can be used to get only metadata of specific types, like "Exif".
// If 'type_filter' is NULL, it will return all types of metadata IDs.
LIBHEIF_API
int heif_image_handle_get_list_of_metadata_block_IDs(const struct heif_image_handle* handle,
const char* type_filter,
heif_item_id* ids, int count);
// Return a string indicating the type of the metadata, as specified in the HEIF file.
// Exif data will have the type string "Exif".
// This string will be valid until the next call to a libheif function.
// You do not have to free this string.
LIBHEIF_API
const char* heif_image_handle_get_metadata_type(const struct heif_image_handle* handle,
heif_item_id metadata_id);
LIBHEIF_API
const char* heif_image_handle_get_metadata_content_type(const struct heif_image_handle* handle,
heif_item_id metadata_id);
// Get the size of the raw metadata, as stored in the HEIF file.
LIBHEIF_API
size_t heif_image_handle_get_metadata_size(const struct heif_image_handle* handle,
heif_item_id metadata_id);
// 'out_data' must point to a memory area of the size reported by heif_image_handle_get_metadata_size().
// The data is returned exactly as stored in the HEIF file.
// For Exif data, you probably have to skip the first four bytes of the data, since they
// indicate the offset to the start of the TIFF header of the Exif data.
LIBHEIF_API
struct heif_error heif_image_handle_get_metadata(const struct heif_image_handle* handle,
heif_item_id metadata_id,
void* out_data);
enum heif_color_profile_type
{
heif_color_profile_type_not_present = 0,
heif_color_profile_type_nclx = heif_fourcc('n', 'c', 'l', 'x'),
heif_color_profile_type_rICC = heif_fourcc('r', 'I', 'C', 'C'),
heif_color_profile_type_prof = heif_fourcc('p', 'r', 'o', 'f')
};
// Returns 'heif_color_profile_type_not_present' if there is no color profile.
// If there is an ICC profile and an NCLX profile, the ICC profile is returned.
// TODO: we need a new API for this function as images can contain both NCLX and ICC at the same time.
// However, you can still use heif_image_handle_get_raw_color_profile() and
// heif_image_handle_get_nclx_color_profile() to access both profiles.
LIBHEIF_API
enum heif_color_profile_type heif_image_handle_get_color_profile_type(const struct heif_image_handle* handle);
LIBHEIF_API
size_t heif_image_handle_get_raw_color_profile_size(const struct heif_image_handle* handle);
// Returns 'heif_error_Color_profile_does_not_exist' when there is no ICC profile.
LIBHEIF_API
struct heif_error heif_image_handle_get_raw_color_profile(const struct heif_image_handle* handle,
void* out_data);
enum heif_color_primaries
{
heif_color_primaries_ITU_R_BT_709_5 = 1, // g=0.3;0.6, b=0.15;0.06, r=0.64;0.33, w=0.3127,0.3290
heif_color_primaries_unspecified = 2,
heif_color_primaries_ITU_R_BT_470_6_System_M = 4,
heif_color_primaries_ITU_R_BT_470_6_System_B_G = 5,
heif_color_primaries_ITU_R_BT_601_6 = 6,
heif_color_primaries_SMPTE_240M = 7,
heif_color_primaries_generic_film = 8,
heif_color_primaries_ITU_R_BT_2020_2_and_2100_0 = 9,
heif_color_primaries_SMPTE_ST_428_1 = 10,
heif_color_primaries_SMPTE_RP_431_2 = 11,
heif_color_primaries_SMPTE_EG_432_1 = 12,
heif_color_primaries_EBU_Tech_3213_E = 22
};
enum heif_transfer_characteristics
{
heif_transfer_characteristic_ITU_R_BT_709_5 = 1,
heif_transfer_characteristic_unspecified = 2,
heif_transfer_characteristic_ITU_R_BT_470_6_System_M = 4,
heif_transfer_characteristic_ITU_R_BT_470_6_System_B_G = 5,
heif_transfer_characteristic_ITU_R_BT_601_6 = 6,
heif_transfer_characteristic_SMPTE_240M = 7,
heif_transfer_characteristic_linear = 8,
heif_transfer_characteristic_logarithmic_100 = 9,
heif_transfer_characteristic_logarithmic_100_sqrt10 = 10,
heif_transfer_characteristic_IEC_61966_2_4 = 11,
heif_transfer_characteristic_ITU_R_BT_1361 = 12,
heif_transfer_characteristic_IEC_61966_2_1 = 13,
heif_transfer_characteristic_ITU_R_BT_2020_2_10bit = 14,
heif_transfer_characteristic_ITU_R_BT_2020_2_12bit = 15,
heif_transfer_characteristic_ITU_R_BT_2100_0_PQ = 16,
heif_transfer_characteristic_SMPTE_ST_428_1 = 17,
heif_transfer_characteristic_ITU_R_BT_2100_0_HLG = 18
};
enum heif_matrix_coefficients
{
heif_matrix_coefficients_RGB_GBR = 0,
heif_matrix_coefficients_ITU_R_BT_709_5 = 1, // TODO: or 709-6 according to h.273
heif_matrix_coefficients_unspecified = 2,
heif_matrix_coefficients_US_FCC_T47 = 4,
heif_matrix_coefficients_ITU_R_BT_470_6_System_B_G = 5,
heif_matrix_coefficients_ITU_R_BT_601_6 = 6, // TODO: or 601-7 according to h.273
heif_matrix_coefficients_SMPTE_240M = 7,
heif_matrix_coefficients_YCgCo = 8,
heif_matrix_coefficients_ITU_R_BT_2020_2_non_constant_luminance = 9,
heif_matrix_coefficients_ITU_R_BT_2020_2_constant_luminance = 10,
heif_matrix_coefficients_SMPTE_ST_2085 = 11,
heif_matrix_coefficients_chromaticity_derived_non_constant_luminance = 12,
heif_matrix_coefficients_chromaticity_derived_constant_luminance = 13,
heif_matrix_coefficients_ICtCp = 14
};
struct heif_color_profile_nclx
{
// === version 1 fields
uint8_t version;
enum heif_color_primaries color_primaries;
enum heif_transfer_characteristics transfer_characteristics;
enum heif_matrix_coefficients matrix_coefficients;
uint8_t full_range_flag;
// --- decoded values (not used when saving nclx)
float color_primary_red_x, color_primary_red_y;
float color_primary_green_x, color_primary_green_y;
float color_primary_blue_x, color_primary_blue_y;
float color_primary_white_x, color_primary_white_y;
};
// Returns 'heif_error_Color_profile_does_not_exist' when there is no NCLX profile.
// TODO: This function does currently not return an NCLX profile if it is stored in the image bitstream.
// Only NCLX profiles stored as colr boxes are returned. This may change in the future.
LIBHEIF_API
struct heif_error heif_image_handle_get_nclx_color_profile(const struct heif_image_handle* handle,
struct heif_color_profile_nclx** out_data);
// Returned color profile has 'version' field set to the maximum allowed.
// Do not fill values for higher versions as these might be outside the allocated structure size.
// May return NULL.
LIBHEIF_API
struct heif_color_profile_nclx* heif_nclx_color_profile_alloc();
LIBHEIF_API
void heif_nclx_color_profile_free(struct heif_color_profile_nclx* nclx_profile);
LIBHEIF_API
enum heif_color_profile_type heif_image_get_color_profile_type(const struct heif_image* image);
LIBHEIF_API
size_t heif_image_get_raw_color_profile_size(const struct heif_image* image);
LIBHEIF_API
struct heif_error heif_image_get_raw_color_profile(const struct heif_image* image,
void* out_data);
LIBHEIF_API
struct heif_error heif_image_get_nclx_color_profile(const struct heif_image* image,
struct heif_color_profile_nclx** out_data);
// ========================= heif_image =========================
// An heif_image contains a decoded pixel image in various colorspaces, chroma formats,
// and bit depths.
// Note: when converting images to an interleaved chroma format, the resulting
// image contains only a single channel of type channel_interleaved with, e.g., 3 bytes per pixel,
// containing the interleaved R,G,B values.
// Planar RGB images are specified as heif_colorspace_RGB / heif_chroma_444.
enum heif_compression_format
{
heif_compression_undefined = 0,
heif_compression_HEVC = 1,
heif_compression_AVC = 2,
heif_compression_JPEG = 3,
heif_compression_AV1 = 4
};
enum heif_chroma
{
heif_chroma_undefined = 99,
heif_chroma_monochrome = 0,
heif_chroma_420 = 1,
heif_chroma_422 = 2,
heif_chroma_444 = 3,
heif_chroma_interleaved_RGB = 10,
heif_chroma_interleaved_RGBA = 11,
heif_chroma_interleaved_RRGGBB_BE = 12,
heif_chroma_interleaved_RRGGBBAA_BE = 13,
heif_chroma_interleaved_RRGGBB_LE = 14,
heif_chroma_interleaved_RRGGBBAA_LE = 15
};
// DEPRECATED ENUM NAMES
#define heif_chroma_interleaved_24bit heif_chroma_interleaved_RGB
#define heif_chroma_interleaved_32bit heif_chroma_interleaved_RGBA
enum heif_colorspace
{
heif_colorspace_undefined = 99,
heif_colorspace_YCbCr = 0,
heif_colorspace_RGB = 1,
heif_colorspace_monochrome = 2
};
enum heif_channel
{
heif_channel_Y = 0,
heif_channel_Cb = 1,
heif_channel_Cr = 2,
heif_channel_R = 3,
heif_channel_G = 4,
heif_channel_B = 5,
heif_channel_Alpha = 6,
heif_channel_interleaved = 10
};
enum heif_progress_step
{
heif_progress_step_total = 0,
heif_progress_step_load_tile = 1
};
struct heif_decoding_options
{
uint8_t version;
// version 1 options
// Ignore geometric transformations like cropping, rotation, mirroring.
// Default: false (do not ignore).
uint8_t ignore_transformations;
void (* start_progress)(enum heif_progress_step step, int max_progress, void* progress_user_data);
void (* on_progress)(enum heif_progress_step step, int progress, void* progress_user_data);
void (* end_progress)(enum heif_progress_step step, void* progress_user_data);
void* progress_user_data;
// version 2 options
uint8_t convert_hdr_to_8bit;
};
// Allocate decoding options and fill with default values.
// Note: you should always get the decoding options through this function since the
// option structure may grow in size in future versions.
LIBHEIF_API
struct heif_decoding_options* heif_decoding_options_alloc();
LIBHEIF_API
void heif_decoding_options_free(struct heif_decoding_options*);
// Decode an heif_image_handle into the actual pixel image and also carry out
// all geometric transformations specified in the HEIF file (rotation, cropping, mirroring).
//
// If colorspace or chroma is set to heif_colorspace_undefined or heif_chroma_undefined,
// respectively, the original colorspace is taken.
// Decoding options may be NULL. If you want to supply options, always use
// heif_decoding_options_alloc() to get the structure.
LIBHEIF_API
struct heif_error heif_decode_image(const struct heif_image_handle* in_handle,
struct heif_image** out_img,
enum heif_colorspace colorspace,
enum heif_chroma chroma,
const struct heif_decoding_options* options);
// Get the colorspace format of the image.
LIBHEIF_API
enum heif_colorspace heif_image_get_colorspace(const struct heif_image*);
// Get the chroma format of the image.
LIBHEIF_API
enum heif_chroma heif_image_get_chroma_format(const struct heif_image*);
// Get width of the given image channel in pixels. Returns -1 if a non-existing
// channel was given.
LIBHEIF_API
int heif_image_get_width(const struct heif_image*, enum heif_channel channel);
// Get height of the given image channel in pixels. Returns -1 if a non-existing
// channel was given.
LIBHEIF_API
int heif_image_get_height(const struct heif_image*, enum heif_channel channel);
// Get the width of the main channel (Y in YCbCr, or any in RGB).
LIBHEIF_API
int heif_image_get_primary_width(const struct heif_image*);
LIBHEIF_API
int heif_image_get_primary_height(const struct heif_image*);
LIBHEIF_API
struct heif_error heif_image_crop(struct heif_image* img,
int left, int right, int top, int bottom);
// Get the number of bits per pixel in the given image channel. Returns -1 if
// a non-existing channel was given.
// Note that the number of bits per pixel may be different for each color channel.
// This function returns the number of bits used for storage of each pixel.
// Especially for HDR images, this is probably not what you want. Have a look at
// heif_image_get_bits_per_pixel_range() instead.
LIBHEIF_API
int heif_image_get_bits_per_pixel(const struct heif_image*, enum heif_channel channel);
// Get the number of bits per pixel in the given image channel. This function returns
// the number of bits used for representing the pixel value, which might be smaller
// than the number of bits used in memory.
// For example, in 12bit HDR images, this function returns '12', while still 16 bits
// are reserved for storage. For interleaved RGBA with 12 bit, this function also returns
// '12', not '48' or '64' (heif_image_get_bits_per_pixel returns 64 in this case).
LIBHEIF_API
int heif_image_get_bits_per_pixel_range(const struct heif_image*, enum heif_channel channel);
LIBHEIF_API
int heif_image_has_channel(const struct heif_image*, enum heif_channel channel);
// Get a pointer to the actual pixel data.
// The 'out_stride' is returned as "bytes per line".
// When out_stride is NULL, no value will be written.
// Returns NULL if a non-existing channel was given.
LIBHEIF_API
const uint8_t* heif_image_get_plane_readonly(const struct heif_image*,
enum heif_channel channel,
int* out_stride);
LIBHEIF_API
uint8_t* heif_image_get_plane(struct heif_image*,
enum heif_channel channel,
int* out_stride);
struct heif_scaling_options;
// Currently, heif_scaling_options is not defined yet. Pass a NULL pointer.
LIBHEIF_API
struct heif_error heif_image_scale_image(const struct heif_image* input,
struct heif_image** output,
int width, int height,
const struct heif_scaling_options* options);
// The color profile is not attached to the image handle because we might need it
// for color space transform and encoding.
LIBHEIF_API
struct heif_error heif_image_set_raw_color_profile(struct heif_image* image,
const char* profile_type_fourcc_string,
const void* profile_data,
const size_t profile_size);
LIBHEIF_API
struct heif_error heif_image_set_nclx_color_profile(struct heif_image* image,
const struct heif_color_profile_nclx* color_profile);
// TODO: this function does not make any sense yet, since we currently cannot modify existing HEIF files.
//LIBHEIF_API
//void heif_image_remove_color_profile(struct heif_image* image);
// Release heif_image.
LIBHEIF_API
void heif_image_release(const struct heif_image*);
// ====================================================================================================
// Encoding API
LIBHEIF_API
struct heif_error heif_context_write_to_file(struct heif_context*,
const char* filename);
struct heif_writer
{
// API version supported by this writer
int writer_api_version;
// --- version 1 functions ---
struct heif_error (* write)(struct heif_context* ctx, // TODO: why do we need this parameter?
const void* data,
size_t size,
void* userdata);
};
LIBHEIF_API
struct heif_error heif_context_write(struct heif_context*,
struct heif_writer* writer,
void* userdata);
// ----- encoder -----
// The encoder used for actually encoding an image.
struct heif_encoder;
// A description of the encoder's capabilities and name.
struct heif_encoder_descriptor;
// A configuration parameter of the encoder. Each encoder implementation may have a different
// set of parameters. For the most common settings (e.q. quality), special functions to set
// the parameters are provided.
struct heif_encoder_parameter;
// Get a list of available encoders. You can filter the encoders by compression format and name.
// Use format_filter==heif_compression_undefined and name_filter==NULL as wildcards.
// The returned list of encoders is sorted by their priority (which is a plugin property).
// Note: to get the actual encoder from the descriptors returned here, use heif_context_get_encoder().
LIBHEIF_API
int heif_context_get_encoder_descriptors(struct heif_context*, // TODO: why do we need this parameter?
enum heif_compression_format format_filter,
const char* name_filter,
const struct heif_encoder_descriptor** out_encoders,
int count);
// Return a long, descriptive name of the encoder (including version information).
LIBHEIF_API
const char* heif_encoder_descriptor_get_name(const struct heif_encoder_descriptor*);
// Return a short, symbolic name for identifying the encoder.
// This name should stay constant over different encoder versions.
LIBHEIF_API
const char* heif_encoder_descriptor_get_id_name(const struct heif_encoder_descriptor*);
LIBHEIF_API
enum heif_compression_format
heif_encoder_descriptor_get_compression_format(const struct heif_encoder_descriptor*);
LIBHEIF_API
int heif_encoder_descriptor_supports_lossy_compression(const struct heif_encoder_descriptor*);
LIBHEIF_API
int heif_encoder_descriptor_supports_lossless_compression(const struct heif_encoder_descriptor*);
// Get an encoder instance that can be used to actually encode images from a descriptor.
LIBHEIF_API
struct heif_error heif_context_get_encoder(struct heif_context* context,
const struct heif_encoder_descriptor*,
struct heif_encoder** out_encoder);
// Quick check whether there is a decoder available for the given format.
// Note that the decoder still may not be able to decode all variants of that format.
// You will have to query that further (todo) or just try to decode and check the returned error.
LIBHEIF_API
int heif_have_decoder_for_format(enum heif_compression_format format);
// Quick check whether there is an enoder available for the given format.
// Note that the encoder may be limited to a certain subset of features (e.g. only 8 bit, only lossy).
// You will have to query the specific capabilities further.
LIBHEIF_API
int heif_have_encoder_for_format(enum heif_compression_format format);
// Get an encoder for the given compression format. If there are several encoder plugins
// for this format, the encoder with the highest plugin priority will be returned.
LIBHEIF_API
struct heif_error heif_context_get_encoder_for_format(struct heif_context* context,
enum heif_compression_format format,
struct heif_encoder**);
// You have to release the encoder after use.
LIBHEIF_API
void heif_encoder_release(struct heif_encoder*);
// Get the encoder name from the encoder itself.
LIBHEIF_API
const char* heif_encoder_get_name(const struct heif_encoder*);
// --- Encoder Parameters ---
// Libheif supports settings parameters through specialized functions and through
// generic functions by parameter name. Sometimes, the same parameter can be set
// in both ways.
// We consider it best practice to use the generic parameter functions only in
// dynamically generated user interfaces, as no guarantees are made that some specific
// parameter names are supported by all plugins.
// Set a 'quality' factor (0-100). How this is mapped to actual encoding parameters is
// encoder dependent.
LIBHEIF_API
struct heif_error heif_encoder_set_lossy_quality(struct heif_encoder*, int quality);
LIBHEIF_API
struct heif_error heif_encoder_set_lossless(struct heif_encoder*, int enable);
// level should be between 0 (= none) to 4 (= full)
LIBHEIF_API
struct heif_error heif_encoder_set_logging_level(struct heif_encoder*, int level);
// Get a generic list of encoder parameters.
// Each encoder may define its own, additional set of parameters.
// You do not have to free the returned list.
LIBHEIF_API
const struct heif_encoder_parameter* const* heif_encoder_list_parameters(struct heif_encoder*);
// Return the parameter name.
LIBHEIF_API
const char* heif_encoder_parameter_get_name(const struct heif_encoder_parameter*);
enum heif_encoder_parameter_type
{
heif_encoder_parameter_type_integer = 1,
heif_encoder_parameter_type_boolean = 2,
heif_encoder_parameter_type_string = 3
};
// Return the parameter type.
LIBHEIF_API
enum heif_encoder_parameter_type heif_encoder_parameter_get_type(const struct heif_encoder_parameter*);
// DEPRECATED. Use heif_encoder_parameter_get_valid_integer_values() instead.
LIBHEIF_API
struct heif_error heif_encoder_parameter_get_valid_integer_range(const struct heif_encoder_parameter*,
int* have_minimum_maximum,
int* minimum, int* maximum);
// If integer is limited by a range, have_minimum and/or have_maximum will be != 0 and *minimum, *maximum is set.
// If integer is limited by a fixed set of values, *num_valid_values will be >0 and *out_integer_array is set.
LIBHEIF_API
struct heif_error heif_encoder_parameter_get_valid_integer_values(const struct heif_encoder_parameter*,
int* have_minimum, int* have_maximum,
int* minimum, int* maximum,
int* num_valid_values,
const int** out_integer_array);
LIBHEIF_API
struct heif_error heif_encoder_parameter_get_valid_string_values(const struct heif_encoder_parameter*,
const char* const** out_stringarray);
LIBHEIF_API
struct heif_error heif_encoder_set_parameter_integer(struct heif_encoder*,
const char* parameter_name,
int value);
LIBHEIF_API
struct heif_error heif_encoder_get_parameter_integer(struct heif_encoder*,
const char* parameter_name,
int* value);
// TODO: name should be changed to heif_encoder_get_valid_integer_parameter_range
LIBHEIF_API // DEPRECATED.
struct heif_error heif_encoder_parameter_integer_valid_range(struct heif_encoder*,
const char* parameter_name,
int* have_minimum_maximum,
int* minimum, int* maximum);
LIBHEIF_API
struct heif_error heif_encoder_set_parameter_boolean(struct heif_encoder*,
const char* parameter_name,
int value);
LIBHEIF_API
struct heif_error heif_encoder_get_parameter_boolean(struct heif_encoder*,
const char* parameter_name,
int* value);
LIBHEIF_API
struct heif_error heif_encoder_set_parameter_string(struct heif_encoder*,
const char* parameter_name,
const char* value);
LIBHEIF_API
struct heif_error heif_encoder_get_parameter_string(struct heif_encoder*,
const char* parameter_name,
char* value, int value_size);
// returns a NULL-terminated list of valid strings or NULL if all values are allowed
LIBHEIF_API
struct heif_error heif_encoder_parameter_string_valid_values(struct heif_encoder*,
const char* parameter_name,
const char* const** out_stringarray);
LIBHEIF_API
struct heif_error heif_encoder_parameter_integer_valid_values(struct heif_encoder*,
const char* parameter_name,
int* have_minimum, int* have_maximum,
int* minimum, int* maximum,
int* num_valid_values,
const int** out_integer_array);
// Set a parameter of any type to the string value.
// Integer values are parsed from the string.
// Boolean values can be "true"/"false"/"1"/"0"
//
// x265 encoder specific note:
// When using the x265 encoder, you may pass any of its parameters by
// prefixing the parameter name with 'x265:'. Hence, to set the 'ctu' parameter,
// you will have to set 'x265:ctu' in libheif.
// Note that there is no checking for valid parameters when using the prefix.
LIBHEIF_API
struct heif_error heif_encoder_set_parameter(struct heif_encoder*,
const char* parameter_name,
const char* value);
// Get the current value of a parameter of any type as a human readable string.
// The returned string is compatible with heif_encoder_set_parameter().
LIBHEIF_API
struct heif_error heif_encoder_get_parameter(struct heif_encoder*,
const char* parameter_name,
char* value_ptr, int value_size);
// Query whether a specific parameter has a default value.
LIBHEIF_API
int heif_encoder_has_default(struct heif_encoder*,
const char* parameter_name);
struct heif_encoding_options
{
uint8_t version;
// version 1 options
uint8_t save_alpha_channel; // default: true
// version 2 options
// Crops heif images with a grid wrapper instead of a 'clap' transform.
// Results in slightly larger file size.
// Default: on.
uint8_t macOS_compatibility_workaround;
// version 3 options
uint8_t save_two_colr_boxes_when_ICC_and_nclx_available; // default: false
// version 4 options
// Set this to the NCLX parameters to be used in the output image or set to NULL
// when the same parameters as in the input image should be used.
struct heif_color_profile_nclx* output_nclx_profile;
uint8_t macOS_compatibility_workaround_no_nclx_profile;
};
LIBHEIF_API
struct heif_encoding_options* heif_encoding_options_alloc();
LIBHEIF_API
void heif_encoding_options_free(struct heif_encoding_options*);
// Compress the input image.
// Returns a handle to the coded image in 'out_image_handle' unless out_image_handle = NULL.
// 'options' should be NULL for now.
// The first image added to the context is also automatically set the primary image, but
// you can change the primary image later with heif_context_set_primary_image().
LIBHEIF_API
struct heif_error heif_context_encode_image(struct heif_context*,
const struct heif_image* image,
struct heif_encoder* encoder,
const struct heif_encoding_options* options,
struct heif_image_handle** out_image_handle);
LIBHEIF_API
struct heif_error heif_context_set_primary_image(struct heif_context*,
struct heif_image_handle* image_handle);
// Encode the 'image' as a scaled down thumbnail image.
// The image is scaled down to fit into a square area of width 'bbox_size'.
// If the input image is already so small that it fits into this bounding box, no thumbnail
// image is encoded and NULL is returned in 'out_thumb_image_handle'.
// No error is returned in this case.
// The encoded thumbnail is automatically assigned to the 'master_image_handle'. Hence, you
// do not have to call heif_context_assign_thumbnail().
LIBHEIF_API
struct heif_error heif_context_encode_thumbnail(struct heif_context*,
const struct heif_image* image,
const struct heif_image_handle* master_image_handle,
struct heif_encoder* encoder,
const struct heif_encoding_options* options,
int bbox_size,
struct heif_image_handle** out_thumb_image_handle);
// Assign 'thumbnail_image' as the thumbnail image of 'master_image'.
LIBHEIF_API
struct heif_error heif_context_assign_thumbnail(struct heif_context*,
const struct heif_image_handle* master_image,
const struct heif_image_handle* thumbnail_image);
// Add EXIF metadata to an image.
LIBHEIF_API
struct heif_error heif_context_add_exif_metadata(struct heif_context*,
const struct heif_image_handle* image_handle,
const void* data, int size);
// Add XMP metadata to an image.
LIBHEIF_API
struct heif_error heif_context_add_XMP_metadata(struct heif_context*,
const struct heif_image_handle* image_handle,
const void* data, int size);
// Add generic, proprietary metadata to an image. You have to specify an 'item_type' that will
// identify your metadata. 'content_type' can be an additional type, or it can be NULL.
// For example, this function can be used to add IPTC metadata (IIM stream, not XMP) to an image.
// Even not standard, we propose to store IPTC data with item type="iptc", content_type=NULL.
LIBHEIF_API
struct heif_error heif_context_add_generic_metadata(struct heif_context* ctx,
const struct heif_image_handle* image_handle,
const void* data, int size,
const char* item_type, const char* content_type);
// --- heif_image allocation
// Create a new image of the specified resolution and colorspace.
// Note: no memory for the actual image data is reserved yet. You have to use
// heif_image_add_plane() to add the image planes required by your colorspace/chroma.
LIBHEIF_API
struct heif_error heif_image_create(int width, int height,
enum heif_colorspace colorspace,
enum heif_chroma chroma,
struct heif_image** out_image);
// The indicated bit_depth corresponds to the bit depth per channel.
// I.e. for interleaved formats like RRGGBB, the bit_depth would be, e.g., 10 bit instead
// of 30 bits or 3*16=48 bits.
// For backward compatibility, one can also specify 24bits for RGB and 32bits for RGBA,
// instead of the preferred 8 bits.
LIBHEIF_API
struct heif_error heif_image_add_plane(struct heif_image* image,
enum heif_channel channel,
int width, int height, int bit_depth);
// Signal that the image is premultiplied by the alpha pixel values.
LIBHEIF_API
void heif_image_set_premultiplied_alpha(struct heif_image* image,
int is_premultiplied_alpha);
LIBHEIF_API
int heif_image_is_premultiplied_alpha(struct heif_image* image);
// --- register plugins
struct heif_decoder_plugin;
struct heif_encoder_plugin;
// DEPRECATED. Use heif_register_decoder_plugin(const struct heif_decoder_plugin*) instead.
LIBHEIF_API
struct heif_error heif_register_decoder(struct heif_context* heif, const struct heif_decoder_plugin*);
LIBHEIF_API
struct heif_error heif_register_decoder_plugin(const struct heif_decoder_plugin*);
LIBHEIF_API
struct heif_error heif_register_encoder_plugin(const struct heif_encoder_plugin*);
// DEPRECATED, typo in function name
LIBHEIF_API
int heif_encoder_descriptor_supportes_lossy_compression(const struct heif_encoder_descriptor*);
// DEPRECATED, typo in function name
LIBHEIF_API
int heif_encoder_descriptor_supportes_lossless_compression(const struct heif_encoder_descriptor*);
#ifdef __cplusplus
}
#endif
#endif
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