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// jpgd.h - C++ class for JPEG decompression.
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// Richard Geldreich <richgel99@gmail.com>
// See jpgd.cpp for license (Public Domain or Apache 2.0).
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# ifndef JPEG_DECODER_H
# define JPEG_DECODER_H
# include <stdlib.h>
# include <stdio.h>
# include <setjmp.h>
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# include <assert.h>
# include <stdint.h>
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# ifdef _MSC_VER
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# define JPGD_NORETURN __declspec(noreturn)
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# elif defined(__GNUC__)
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# define JPGD_NORETURN __attribute__ ((noreturn))
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# else
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# define JPGD_NORETURN
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# endif
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# define JPGD_HUFF_TREE_MAX_LENGTH 512
# define JPGD_HUFF_CODE_SIZE_MAX_LENGTH 256
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namespace jpgd
{
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typedef unsigned char uint8 ;
typedef signed short int16 ;
typedef unsigned short uint16 ;
typedef unsigned int uint ;
typedef signed int int32 ;
// Loads a JPEG image from a memory buffer or a file.
// req_comps can be 1 (grayscale), 3 (RGB), or 4 (RGBA).
// On return, width/height will be set to the image's dimensions, and actual_comps will be set to the either 1 (grayscale) or 3 (RGB).
// Notes: For more control over where and how the source data is read, see the decompress_jpeg_image_from_stream() function below, or call the jpeg_decoder class directly.
// Requesting a 8 or 32bpp image is currently a little faster than 24bpp because the jpeg_decoder class itself currently always unpacks to either 8 or 32bpp.
unsigned char * decompress_jpeg_image_from_memory ( const unsigned char * pSrc_data , int src_data_size , int * width , int * height , int * actual_comps , int req_comps , uint32_t flags = 0 ) ;
unsigned char * decompress_jpeg_image_from_file ( const char * pSrc_filename , int * width , int * height , int * actual_comps , int req_comps , uint32_t flags = 0 ) ;
// Success/failure error codes.
enum jpgd_status
{
JPGD_SUCCESS = 0 , JPGD_FAILED = - 1 , JPGD_DONE = 1 ,
JPGD_BAD_DHT_COUNTS = - 256 , JPGD_BAD_DHT_INDEX , JPGD_BAD_DHT_MARKER , JPGD_BAD_DQT_MARKER , JPGD_BAD_DQT_TABLE ,
JPGD_BAD_PRECISION , JPGD_BAD_HEIGHT , JPGD_BAD_WIDTH , JPGD_TOO_MANY_COMPONENTS ,
JPGD_BAD_SOF_LENGTH , JPGD_BAD_VARIABLE_MARKER , JPGD_BAD_DRI_LENGTH , JPGD_BAD_SOS_LENGTH ,
JPGD_BAD_SOS_COMP_ID , JPGD_W_EXTRA_BYTES_BEFORE_MARKER , JPGD_NO_ARITHMITIC_SUPPORT , JPGD_UNEXPECTED_MARKER ,
JPGD_NOT_JPEG , JPGD_UNSUPPORTED_MARKER , JPGD_BAD_DQT_LENGTH , JPGD_TOO_MANY_BLOCKS ,
JPGD_UNDEFINED_QUANT_TABLE , JPGD_UNDEFINED_HUFF_TABLE , JPGD_NOT_SINGLE_SCAN , JPGD_UNSUPPORTED_COLORSPACE ,
JPGD_UNSUPPORTED_SAMP_FACTORS , JPGD_DECODE_ERROR , JPGD_BAD_RESTART_MARKER ,
JPGD_BAD_SOS_SPECTRAL , JPGD_BAD_SOS_SUCCESSIVE , JPGD_STREAM_READ , JPGD_NOTENOUGHMEM , JPGD_TOO_MANY_SCANS
} ;
// Input stream interface.
// Derive from this class to read input data from sources other than files or memory. Set m_eof_flag to true when no more data is available.
// The decoder is rather greedy: it will keep on calling this method until its internal input buffer is full, or until the EOF flag is set.
// It the input stream contains data after the JPEG stream's EOI (end of image) marker it will probably be pulled into the internal buffer.
// Call the get_total_bytes_read() method to determine the actual size of the JPEG stream after successful decoding.
class jpeg_decoder_stream
{
public :
jpeg_decoder_stream ( ) { }
virtual ~ jpeg_decoder_stream ( ) { }
// The read() method is called when the internal input buffer is empty.
// Parameters:
// pBuf - input buffer
// max_bytes_to_read - maximum bytes that can be written to pBuf
// pEOF_flag - set this to true if at end of stream (no more bytes remaining)
// Returns -1 on error, otherwise return the number of bytes actually written to the buffer (which may be 0).
// Notes: This method will be called in a loop until you set *pEOF_flag to true or the internal buffer is full.
virtual int read ( uint8 * pBuf , int max_bytes_to_read , bool * pEOF_flag ) = 0 ;
} ;
// stdio FILE stream class.
class jpeg_decoder_file_stream : public jpeg_decoder_stream
{
jpeg_decoder_file_stream ( const jpeg_decoder_file_stream & ) ;
jpeg_decoder_file_stream & operator = ( const jpeg_decoder_file_stream & ) ;
FILE * m_pFile ;
bool m_eof_flag , m_error_flag ;
public :
jpeg_decoder_file_stream ( ) ;
virtual ~ jpeg_decoder_file_stream ( ) ;
bool open ( const char * Pfilename ) ;
void close ( ) ;
virtual int read ( uint8 * pBuf , int max_bytes_to_read , bool * pEOF_flag ) ;
} ;
// Memory stream class.
class jpeg_decoder_mem_stream : public jpeg_decoder_stream
{
const uint8 * m_pSrc_data ;
uint m_ofs , m_size ;
public :
jpeg_decoder_mem_stream ( ) : m_pSrc_data ( NULL ) , m_ofs ( 0 ) , m_size ( 0 ) { }
jpeg_decoder_mem_stream ( const uint8 * pSrc_data , uint size ) : m_pSrc_data ( pSrc_data ) , m_ofs ( 0 ) , m_size ( size ) { }
virtual ~ jpeg_decoder_mem_stream ( ) { }
bool open ( const uint8 * pSrc_data , uint size ) ;
void close ( ) { m_pSrc_data = NULL ; m_ofs = 0 ; m_size = 0 ; }
virtual int read ( uint8 * pBuf , int max_bytes_to_read , bool * pEOF_flag ) ;
} ;
// Loads JPEG file from a jpeg_decoder_stream.
unsigned char * decompress_jpeg_image_from_stream ( jpeg_decoder_stream * pStream , int * width , int * height , int * actual_comps , int req_comps , uint32_t flags = 0 ) ;
enum
{
JPGD_IN_BUF_SIZE = 8192 , JPGD_MAX_BLOCKS_PER_MCU = 10 , JPGD_MAX_HUFF_TABLES = 8 , JPGD_MAX_QUANT_TABLES = 4 ,
JPGD_MAX_COMPONENTS = 4 , JPGD_MAX_COMPS_IN_SCAN = 4 , JPGD_MAX_BLOCKS_PER_ROW = 16384 , JPGD_MAX_HEIGHT = 32768 , JPGD_MAX_WIDTH = 32768
} ;
typedef int16 jpgd_quant_t ;
typedef int16 jpgd_block_coeff_t ;
class jpeg_decoder
{
public :
enum
{
cFlagBoxChromaFiltering = 1 ,
cFlagDisableSIMD = 2
} ;
// Call get_error_code() after constructing to determine if the stream is valid or not. You may call the get_width(), get_height(), etc.
// methods after the constructor is called. You may then either destruct the object, or begin decoding the image by calling begin_decoding(), then decode() on each scanline.
jpeg_decoder ( jpeg_decoder_stream * pStream , uint32_t flags = 0 ) ;
~ jpeg_decoder ( ) ;
// Call this method after constructing the object to begin decompression.
// If JPGD_SUCCESS is returned you may then call decode() on each scanline.
int begin_decoding ( ) ;
// Returns the next scan line.
// For grayscale images, pScan_line will point to a buffer containing 8-bit pixels (get_bytes_per_pixel() will return 1).
// Otherwise, it will always point to a buffer containing 32-bit RGBA pixels (A will always be 255, and get_bytes_per_pixel() will return 4).
// Returns JPGD_SUCCESS if a scan line has been returned.
// Returns JPGD_DONE if all scan lines have been returned.
// Returns JPGD_FAILED if an error occurred. Call get_error_code() for a more info.
int decode ( const void * * pScan_line , uint * pScan_line_len ) ;
inline jpgd_status get_error_code ( ) const { return m_error_code ; }
inline int get_width ( ) const { return m_image_x_size ; }
inline int get_height ( ) const { return m_image_y_size ; }
inline int get_num_components ( ) const { return m_comps_in_frame ; }
inline int get_bytes_per_pixel ( ) const { return m_dest_bytes_per_pixel ; }
inline int get_bytes_per_scan_line ( ) const { return m_image_x_size * get_bytes_per_pixel ( ) ; }
// Returns the total number of bytes actually consumed by the decoder (which should equal the actual size of the JPEG file).
inline int get_total_bytes_read ( ) const { return m_total_bytes_read ; }
private :
jpeg_decoder ( const jpeg_decoder & ) ;
jpeg_decoder & operator = ( const jpeg_decoder & ) ;
typedef void ( * pDecode_block_func ) ( jpeg_decoder * , int , int , int ) ;
struct huff_tables
{
bool ac_table ;
uint look_up [ 256 ] ;
uint look_up2 [ 256 ] ;
uint8 code_size [ JPGD_HUFF_CODE_SIZE_MAX_LENGTH ] ;
uint tree [ JPGD_HUFF_TREE_MAX_LENGTH ] ;
} ;
struct coeff_buf
{
uint8 * pData ;
int block_num_x , block_num_y ;
int block_len_x , block_len_y ;
int block_size ;
} ;
struct mem_block
{
mem_block * m_pNext ;
size_t m_used_count ;
size_t m_size ;
char m_data [ 1 ] ;
} ;
jmp_buf m_jmp_state ;
uint32_t m_flags ;
mem_block * m_pMem_blocks ;
int m_image_x_size ;
int m_image_y_size ;
jpeg_decoder_stream * m_pStream ;
int m_progressive_flag ;
uint8 m_huff_ac [ JPGD_MAX_HUFF_TABLES ] ;
uint8 * m_huff_num [ JPGD_MAX_HUFF_TABLES ] ; // pointer to number of Huffman codes per bit size
uint8 * m_huff_val [ JPGD_MAX_HUFF_TABLES ] ; // pointer to Huffman codes per bit size
jpgd_quant_t * m_quant [ JPGD_MAX_QUANT_TABLES ] ; // pointer to quantization tables
int m_scan_type ; // Gray, Yh1v1, Yh1v2, Yh2v1, Yh2v2 (CMYK111, CMYK4114 no longer supported)
int m_comps_in_frame ; // # of components in frame
int m_comp_h_samp [ JPGD_MAX_COMPONENTS ] ; // component's horizontal sampling factor
int m_comp_v_samp [ JPGD_MAX_COMPONENTS ] ; // component's vertical sampling factor
int m_comp_quant [ JPGD_MAX_COMPONENTS ] ; // component's quantization table selector
int m_comp_ident [ JPGD_MAX_COMPONENTS ] ; // component's ID
int m_comp_h_blocks [ JPGD_MAX_COMPONENTS ] ;
int m_comp_v_blocks [ JPGD_MAX_COMPONENTS ] ;
int m_comps_in_scan ; // # of components in scan
int m_comp_list [ JPGD_MAX_COMPS_IN_SCAN ] ; // components in this scan
int m_comp_dc_tab [ JPGD_MAX_COMPONENTS ] ; // component's DC Huffman coding table selector
int m_comp_ac_tab [ JPGD_MAX_COMPONENTS ] ; // component's AC Huffman coding table selector
int m_spectral_start ; // spectral selection start
int m_spectral_end ; // spectral selection end
int m_successive_low ; // successive approximation low
int m_successive_high ; // successive approximation high
int m_max_mcu_x_size ; // MCU's max. X size in pixels
int m_max_mcu_y_size ; // MCU's max. Y size in pixels
int m_blocks_per_mcu ;
int m_max_blocks_per_row ;
int m_mcus_per_row , m_mcus_per_col ;
int m_mcu_org [ JPGD_MAX_BLOCKS_PER_MCU ] ;
int m_total_lines_left ; // total # lines left in image
int m_mcu_lines_left ; // total # lines left in this MCU
int m_num_buffered_scanlines ;
int m_real_dest_bytes_per_scan_line ;
int m_dest_bytes_per_scan_line ; // rounded up
int m_dest_bytes_per_pixel ; // 4 (RGB) or 1 (Y)
huff_tables * m_pHuff_tabs [ JPGD_MAX_HUFF_TABLES ] ;
coeff_buf * m_dc_coeffs [ JPGD_MAX_COMPONENTS ] ;
coeff_buf * m_ac_coeffs [ JPGD_MAX_COMPONENTS ] ;
int m_eob_run ;
int m_block_y_mcu [ JPGD_MAX_COMPONENTS ] ;
uint8 * m_pIn_buf_ofs ;
int m_in_buf_left ;
int m_tem_flag ;
uint8 m_in_buf_pad_start [ 64 ] ;
uint8 m_in_buf [ JPGD_IN_BUF_SIZE + 128 ] ;
uint8 m_in_buf_pad_end [ 64 ] ;
int m_bits_left ;
uint m_bit_buf ;
int m_restart_interval ;
int m_restarts_left ;
int m_next_restart_num ;
int m_max_mcus_per_row ;
int m_max_blocks_per_mcu ;
int m_max_mcus_per_col ;
uint m_last_dc_val [ JPGD_MAX_COMPONENTS ] ;
jpgd_block_coeff_t * m_pMCU_coefficients ;
int m_mcu_block_max_zag [ JPGD_MAX_BLOCKS_PER_MCU ] ;
uint8 * m_pSample_buf ;
uint8 * m_pSample_buf_prev ;
int m_crr [ 256 ] ;
int m_cbb [ 256 ] ;
int m_crg [ 256 ] ;
int m_cbg [ 256 ] ;
uint8 * m_pScan_line_0 ;
uint8 * m_pScan_line_1 ;
jpgd_status m_error_code ;
int m_total_bytes_read ;
bool m_ready_flag ;
bool m_eof_flag ;
bool m_sample_buf_prev_valid ;
bool m_has_sse2 ;
inline int check_sample_buf_ofs ( int ofs ) const { assert ( ofs > = 0 ) ; assert ( ofs < m_max_blocks_per_row * 64 ) ; return ofs ; }
void free_all_blocks ( ) ;
JPGD_NORETURN void stop_decoding ( jpgd_status status ) ;
void * alloc ( size_t n , bool zero = false ) ;
void * alloc_aligned ( size_t nSize , uint32_t align = 16 , bool zero = false ) ;
void word_clear ( void * p , uint16 c , uint n ) ;
void prep_in_buffer ( ) ;
void read_dht_marker ( ) ;
void read_dqt_marker ( ) ;
void read_sof_marker ( ) ;
void skip_variable_marker ( ) ;
void read_dri_marker ( ) ;
void read_sos_marker ( ) ;
int next_marker ( ) ;
int process_markers ( ) ;
void locate_soi_marker ( ) ;
void locate_sof_marker ( ) ;
int locate_sos_marker ( ) ;
void init ( jpeg_decoder_stream * pStream , uint32_t flags ) ;
void create_look_ups ( ) ;
void fix_in_buffer ( ) ;
void transform_mcu ( int mcu_row ) ;
coeff_buf * coeff_buf_open ( int block_num_x , int block_num_y , int block_len_x , int block_len_y ) ;
inline jpgd_block_coeff_t * coeff_buf_getp ( coeff_buf * cb , int block_x , int block_y ) ;
void load_next_row ( ) ;
void decode_next_row ( ) ;
void make_huff_table ( int index , huff_tables * pH ) ;
void check_quant_tables ( ) ;
void check_huff_tables ( ) ;
bool calc_mcu_block_order ( ) ;
int init_scan ( ) ;
void init_frame ( ) ;
void process_restart ( ) ;
void decode_scan ( pDecode_block_func decode_block_func ) ;
void init_progressive ( ) ;
void init_sequential ( ) ;
void decode_start ( ) ;
void decode_init ( jpeg_decoder_stream * pStream , uint32_t flags ) ;
void H2V2Convert ( ) ;
uint32_t H2V2ConvertFiltered ( ) ;
void H2V1Convert ( ) ;
void H2V1ConvertFiltered ( ) ;
void H1V2Convert ( ) ;
void H1V2ConvertFiltered ( ) ;
void H1V1Convert ( ) ;
void gray_convert ( ) ;
void find_eoi ( ) ;
inline uint get_char ( ) ;
inline uint get_char ( bool * pPadding_flag ) ;
inline void stuff_char ( uint8 q ) ;
inline uint8 get_octet ( ) ;
inline uint get_bits ( int num_bits ) ;
inline uint get_bits_no_markers ( int numbits ) ;
inline int huff_decode ( huff_tables * pH ) ;
inline int huff_decode ( huff_tables * pH , int & extrabits ) ;
// Clamps a value between 0-255.
static inline uint8 clamp ( int i )
{
if ( static_cast < uint > ( i ) > 255 )
i = ( ( ( ~ i ) > > 31 ) & 0xFF ) ;
return static_cast < uint8 > ( i ) ;
}
int decode_next_mcu_row ( ) ;
static void decode_block_dc_first ( jpeg_decoder * pD , int component_id , int block_x , int block_y ) ;
static void decode_block_dc_refine ( jpeg_decoder * pD , int component_id , int block_x , int block_y ) ;
static void decode_block_ac_first ( jpeg_decoder * pD , int component_id , int block_x , int block_y ) ;
static void decode_block_ac_refine ( jpeg_decoder * pD , int component_id , int block_x , int block_y ) ;
} ;
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} // namespace jpgd
# endif // JPEG_DECODER_H