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// Copyright (c) the JPEG XL Project Authors. All rights reserved.
//
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
#ifndef LIB_JPEGLI_ENCODE_INTERNAL_H_
#define LIB_JPEGLI_ENCODE_INTERNAL_H_
#include <stdint.h>
#include "lib/jpegli/bit_writer.h"
#include "lib/jpegli/common.h"
#include "lib/jpegli/common_internal.h"
#include "lib/jpegli/encode.h"
namespace jpegli {
constexpr unsigned char kICCSignature[12] = {
0x49, 0x43, 0x43, 0x5F, 0x50, 0x52, 0x4F, 0x46, 0x49, 0x4C, 0x45, 0x00};
constexpr int kICCMarker = JPEG_APP0 + 2;
constexpr int kDefaultProgressiveLevel = 0;
typedef int16_t coeff_t;
struct HuffmanCodeTable {
int depth[256];
int code[256];
};
struct Token {
uint8_t context;
uint8_t symbol;
uint16_t bits;
Token(int c, int s, int b) : context(c), symbol(s), bits(b) {}
};
struct TokenArray {
Token* tokens;
size_t num_tokens;
};
struct RefToken {
uint8_t symbol;
uint8_t refbits;
};
struct ScanTokenInfo {
RefToken* tokens;
size_t num_tokens;
uint8_t* refbits;
uint16_t* eobruns;
size_t* restarts;
size_t num_restarts;
size_t num_nonzeros;
size_t num_future_nonzeros;
size_t token_offset;
size_t restart_interval;
size_t MCUs_per_row;
size_t MCU_rows_in_scan;
size_t blocks_in_MCU;
size_t num_blocks;
};
} // namespace jpegli
struct jpeg_comp_master {
jpegli::RowBuffer<float> input_buffer[jpegli::kMaxComponents];
jpegli::RowBuffer<float>* smooth_input[jpegli::kMaxComponents];
jpegli::RowBuffer<float>* raw_data[jpegli::kMaxComponents];
bool force_baseline;
bool xyb_mode;
uint8_t cicp_transfer_function;
bool use_std_tables;
bool use_adaptive_quantization;
int progressive_level;
size_t xsize_blocks;
size_t ysize_blocks;
size_t blocks_per_iMCU_row;
jpegli::ScanTokenInfo* scan_token_info;
JpegliDataType data_type;
JpegliEndianness endianness;
void (*input_method)(const uint8_t* row_in, size_t len,
float* row_out[jpegli::kMaxComponents]);
void (*color_transform)(float* row[jpegli::kMaxComponents], size_t len);
void (*downsample_method[jpegli::kMaxComponents])(
float* rows_in[MAX_SAMP_FACTOR], size_t len, float* row_out);
float* quant_mul[jpegli::kMaxComponents];
float* zero_bias_offset[jpegli::kMaxComponents];
float* zero_bias_mul[jpegli::kMaxComponents];
int h_factor[jpegli::kMaxComponents];
int v_factor[jpegli::kMaxComponents];
// Array of Huffman tables that will be encoded in one or more DHT segments.
// In progressive mode we compute all Huffman tables that will be used in any
// of the scans, thus we can have more than 4 tables here.
JHUFF_TBL* huffman_tables;
size_t num_huffman_tables;
// Array of num_huffman_tables slot ids, where the ith element is the slot id
// of the ith Huffman table, as it appears in the DHT segment. The range of
// the slot ids is 0..3 for DC and 16..19 for AC Huffman codes.
uint8_t* slot_id_map;
// Maps context ids to an index in the huffman_tables array. Each component in
// each scan has a DC and AC context id, which are defined as follows:
// - DC context id is the component index (relative to cinfo->comp_info) of
// the scan component
// - AC context ids start at 4 and are increased for each component of each
// scan that have AC components (i.e. Se > 0)
uint8_t* context_map;
size_t num_contexts;
// Array of cinfo->num_scans context ids, where the ith element is the context
// id of the first AC component of the ith scan.
uint8_t* ac_ctx_offset;
// Array of num_huffman tables derived coding tables.
jpegli::HuffmanCodeTable* coding_tables;
float* diff_buffer;
jpegli::RowBuffer<float> fuzzy_erosion_tmp;
jpegli::RowBuffer<float> pre_erosion;
jpegli::RowBuffer<float> quant_field;
jvirt_barray_ptr* coeff_buffers;
size_t next_input_row;
size_t next_iMCU_row;
size_t next_dht_index;
size_t last_restart_interval;
JCOEF last_dc_coeff[MAX_COMPS_IN_SCAN];
jpegli::JpegBitWriter bw;
float* dct_buffer;
int32_t* block_tmp;
jpegli::TokenArray* token_arrays;
size_t cur_token_array;
jpegli::Token* next_token;
size_t num_tokens;
size_t total_num_tokens;
jpegli::RefToken* next_refinement_token;
uint8_t* next_refinement_bit;
float psnr_target;
float psnr_tolerance;
float min_distance;
float max_distance;
};
#endif // LIB_JPEGLI_ENCODE_INTERNAL_H_