/*
* Extract RAR archives
*
* Copyright (C) 2005-2006 trog@uncon.org
*
* This code is based on the work of Alexander L. Roshal (C)
*
* The unRAR sources may be used in any software to handle RAR
* archives without limitations free of charge, but cannot be used
* to re-create the RAR compression algorithm, which is proprietary.
* Distribution of modified unRAR sources in separate form or as a
* part of other software is permitted, provided that it is clearly
* stated in the documentation and source comments that the code may
* not be used to develop a RAR (WinRAR) compatible archiver.
*
*/
#ifndef UNRAR_PPM_H
#define UNRAR_PPM_H 1
#define N1 4
#define N2 4
#define N3 4
#define N4 26
#define N_INDEXES 38
typedef struct rar_mem_blk_tag
{
struct rar_mem_blk_tag *next, *prev;
uint16_t stamp, nu;
} rar_mem_blk_t;
struct rar_node
{
struct rar_node *next;
};
typedef struct sub_allocator_tag
{
uint8_t *ptext, *units_start, *heap_end, *fake_units_start;
uint8_t *heap_start, *lo_unit, *hi_unit;
long sub_allocator_size;
struct rar_node free_list[N_INDEXES];
int16_t indx2units[N_INDEXES], units2indx[128], glue_count;
} sub_allocator_t;
typedef struct range_coder_tag
{
unsigned int low, code, range;
unsigned int low_count, high_count, scale;
}range_coder_t;
struct ppm_context;
struct see2_context_tag
{
uint16_t summ;
uint8_t shift, count;
};
#ifndef HAVE_ATTRIB_PACKED
#define __attribute__(x)
#endif
#ifdef HAVE_PRAGMA_PACK
#pragma pack(1)
#endif
#ifdef HAVE_PRAGMA_PACK_HPPA
#pragma pack 1
#endif
struct state_tag
{
struct ppm_context *successor;
uint8_t symbol;
uint8_t freq;
} __attribute__((packed));
struct freq_data_tag
{
struct state_tag *stats;
uint16_t summ_freq;
} __attribute__((packed));
struct ppm_context {
struct ppm_context *suffix;
union {
struct freq_data_tag u;
struct state_tag one_state;
} con_ut;
uint16_t num_stats;
} __attribute__((packed));
#ifdef HAVE_PRAGMA_PACK
#pragma pack()
#endif
#ifdef HAVE_PRAGMA_PACK_HPPA
#pragma pack
#endif
typedef struct ppm_data_tag
{
struct state_tag *found_state;
struct ppm_context *min_context, *max_context;
struct see2_context_tag see2cont[25][16], dummy_sse2cont;
int num_masked;
sub_allocator_t sub_alloc;
range_coder_t coder;
int init_esc, order_fall, max_order, run_length, init_rl;
uint8_t char_mask[256], ns2indx[256], ns2bsindx[256], hb2flag[256];
uint16_t bin_summ[128][64];
uint8_t esc_count, prev_success, hi_bits_flag;
} ppm_data_t;
void ppm_cleanup(ppm_data_t *ppm_data);
int ppm_decode_init(ppm_data_t *ppm_data, int fd, struct unpack_data_tag *unpack_data, int *EscChar);
int ppm_decode_char(ppm_data_t *ppm_data, int fd, struct unpack_data_tag *unpack_data);
void ppm_constructor(ppm_data_t *ppm_data);
void ppm_destructor(ppm_data_t *ppm_data);
#endif