/* * The copyright in this software is being made available under the 2-clauses * BSD License, included below. This software may be subject to other third * party and contributor rights, including patent rights, and no such rights * are granted under this license. * * Copyright (c) 2002-2014, Universite catholique de Louvain (UCL), Belgium * Copyright (c) 2002-2014, Professor Benoit Macq * Copyright (c) 2001-2003, David Janssens * Copyright (c) 2002-2003, Yannick Verschueren * Copyright (c) 2003-2007, Francois-Olivier Devaux * Copyright (c) 2003-2014, Antonin Descampe * Copyright (c) 2005, Herve Drolon, FreeImage Team * Copyright (c) 2008, Jerome Fimes, Communications & Systemes * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS `AS IS' * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include "opj_includes.h" /** @defgroup MQC MQC - Implementation of an MQ-Coder */ /*@{*/ /** @name Local static functions */ /*@{*/ /** Output a byte, doing bit-stuffing if necessary. After a 0xff byte, the next byte must be smaller than 0x90. @param mqc MQC handle */ static void opj_mqc_byteout(opj_mqc_t *mqc); /** Renormalize mqc->a and mqc->c while encoding, so that mqc->a stays between 0x8000 and 0x10000 @param mqc MQC handle */ static void opj_mqc_renorme(opj_mqc_t *mqc); /** Encode the most probable symbol @param mqc MQC handle */ static void opj_mqc_codemps(opj_mqc_t *mqc); /** Encode the most least symbol @param mqc MQC handle */ static void opj_mqc_codelps(opj_mqc_t *mqc); /** Fill mqc->c with 1's for flushing @param mqc MQC handle */ static void opj_mqc_setbits(opj_mqc_t *mqc); /** FIXME DOC @param mqc MQC handle @return */ static INLINE OPJ_INT32 opj_mqc_mpsexchange(opj_mqc_t *const mqc); /** FIXME DOC @param mqc MQC handle @return */ static INLINE OPJ_INT32 opj_mqc_lpsexchange(opj_mqc_t *const mqc); /** Input a byte @param mqc MQC handle */ static INLINE void opj_mqc_bytein(opj_mqc_t *const mqc); /** Renormalize mqc->a and mqc->c while decoding @param mqc MQC handle */ static INLINE void opj_mqc_renormd(opj_mqc_t *const mqc); /*@}*/ /*@}*/ /* */ /* This array defines all the possible states for a context. */ /* */ static opj_mqc_state_t mqc_states[47 * 2] = { {0x5601, 0, &mqc_states[2], &mqc_states[3]}, {0x5601, 1, &mqc_states[3], &mqc_states[2]}, {0x3401, 0, &mqc_states[4], &mqc_states[12]}, {0x3401, 1, &mqc_states[5], &mqc_states[13]}, {0x1801, 0, &mqc_states[6], &mqc_states[18]}, {0x1801, 1, &mqc_states[7], &mqc_states[19]}, {0x0ac1, 0, &mqc_states[8], &mqc_states[24]}, {0x0ac1, 1, &mqc_states[9], &mqc_states[25]}, {0x0521, 0, &mqc_states[10], &mqc_states[58]}, {0x0521, 1, &mqc_states[11], &mqc_states[59]}, {0x0221, 0, &mqc_states[76], &mqc_states[66]}, {0x0221, 1, &mqc_states[77], &mqc_states[67]}, {0x5601, 0, &mqc_states[14], &mqc_states[13]}, {0x5601, 1, &mqc_states[15], &mqc_states[12]}, {0x5401, 0, &mqc_states[16], &mqc_states[28]}, {0x5401, 1, &mqc_states[17], &mqc_states[29]}, {0x4801, 0, &mqc_states[18], &mqc_states[28]}, {0x4801, 1, &mqc_states[19], &mqc_states[29]}, {0x3801, 0, &mqc_states[20], &mqc_states[28]}, {0x3801, 1, &mqc_states[21], &mqc_states[29]}, {0x3001, 0, &mqc_states[22], &mqc_states[34]}, {0x3001, 1, &mqc_states[23], &mqc_states[35]}, {0x2401, 0, &mqc_states[24], &mqc_states[36]}, {0x2401, 1, &mqc_states[25], &mqc_states[37]}, {0x1c01, 0, &mqc_states[26], &mqc_states[40]}, {0x1c01, 1, &mqc_states[27], &mqc_states[41]}, {0x1601, 0, &mqc_states[58], &mqc_states[42]}, {0x1601, 1, &mqc_states[59], &mqc_states[43]}, {0x5601, 0, &mqc_states[30], &mqc_states[29]}, {0x5601, 1, &mqc_states[31], &mqc_states[28]}, {0x5401, 0, &mqc_states[32], &mqc_states[28]}, {0x5401, 1, &mqc_states[33], &mqc_states[29]}, {0x5101, 0, &mqc_states[34], &mqc_states[30]}, {0x5101, 1, &mqc_states[35], &mqc_states[31]}, {0x4801, 0, &mqc_states[36], &mqc_states[32]}, {0x4801, 1, &mqc_states[37], &mqc_states[33]}, {0x3801, 0, &mqc_states[38], &mqc_states[34]}, {0x3801, 1, &mqc_states[39], &mqc_states[35]}, {0x3401, 0, &mqc_states[40], &mqc_states[36]}, {0x3401, 1, &mqc_states[41], &mqc_states[37]}, {0x3001, 0, &mqc_states[42], &mqc_states[38]}, {0x3001, 1, &mqc_states[43], &mqc_states[39]}, {0x2801, 0, &mqc_states[44], &mqc_states[38]}, {0x2801, 1, &mqc_states[45], &mqc_states[39]}, {0x2401, 0, &mqc_states[46], &mqc_states[40]}, {0x2401, 1, &mqc_states[47], &mqc_states[41]}, {0x2201, 0, &mqc_states[48], &mqc_states[42]}, {0x2201, 1, &mqc_states[49], &mqc_states[43]}, {0x1c01, 0, &mqc_states[50], &mqc_states[44]}, {0x1c01, 1, &mqc_states[51], &mqc_states[45]}, {0x1801, 0, &mqc_states[52], &mqc_states[46]}, {0x1801, 1, &mqc_states[53], &mqc_states[47]}, {0x1601, 0, &mqc_states[54], &mqc_states[48]}, {0x1601, 1, &mqc_states[55], &mqc_states[49]}, {0x1401, 0, &mqc_states[56], &mqc_states[50]}, {0x1401, 1, &mqc_states[57], &mqc_states[51]}, {0x1201, 0, &mqc_states[58], &mqc_states[52]}, {0x1201, 1, &mqc_states[59], &mqc_states[53]}, {0x1101, 0, &mqc_states[60], &mqc_states[54]}, {0x1101, 1, &mqc_states[61], &mqc_states[55]}, {0x0ac1, 0, &mqc_states[62], &mqc_states[56]}, {0x0ac1, 1, &mqc_states[63], &mqc_states[57]}, {0x09c1, 0, &mqc_states[64], &mqc_states[58]}, {0x09c1, 1, &mqc_states[65], &mqc_states[59]}, {0x08a1, 0, &mqc_states[66], &mqc_states[60]}, {0x08a1, 1, &mqc_states[67], &mqc_states[61]}, {0x0521, 0, &mqc_states[68], &mqc_states[62]}, {0x0521, 1, &mqc_states[69], &mqc_states[63]}, {0x0441, 0, &mqc_states[70], &mqc_states[64]}, {0x0441, 1, &mqc_states[71], &mqc_states[65]}, {0x02a1, 0, &mqc_states[72], &mqc_states[66]}, {0x02a1, 1, &mqc_states[73], &mqc_states[67]}, {0x0221, 0, &mqc_states[74], &mqc_states[68]}, {0x0221, 1, &mqc_states[75], &mqc_states[69]}, {0x0141, 0, &mqc_states[76], &mqc_states[70]}, {0x0141, 1, &mqc_states[77], &mqc_states[71]}, {0x0111, 0, &mqc_states[78], &mqc_states[72]}, {0x0111, 1, &mqc_states[79], &mqc_states[73]}, {0x0085, 0, &mqc_states[80], &mqc_states[74]}, {0x0085, 1, &mqc_states[81], &mqc_states[75]}, {0x0049, 0, &mqc_states[82], &mqc_states[76]}, {0x0049, 1, &mqc_states[83], &mqc_states[77]}, {0x0025, 0, &mqc_states[84], &mqc_states[78]}, {0x0025, 1, &mqc_states[85], &mqc_states[79]}, {0x0015, 0, &mqc_states[86], &mqc_states[80]}, {0x0015, 1, &mqc_states[87], &mqc_states[81]}, {0x0009, 0, &mqc_states[88], &mqc_states[82]}, {0x0009, 1, &mqc_states[89], &mqc_states[83]}, {0x0005, 0, &mqc_states[90], &mqc_states[84]}, {0x0005, 1, &mqc_states[91], &mqc_states[85]}, {0x0001, 0, &mqc_states[90], &mqc_states[86]}, {0x0001, 1, &mqc_states[91], &mqc_states[87]}, {0x5601, 0, &mqc_states[92], &mqc_states[92]}, {0x5601, 1, &mqc_states[93], &mqc_states[93]}, }; /* ========================================================== local functions ========================================================== */ void opj_mqc_byteout(opj_mqc_t *mqc) { if (*mqc->bp == 0xff) { mqc->bp++; *mqc->bp = (OPJ_BYTE)(mqc->c >> 20); mqc->c &= 0xfffff; mqc->ct = 7; } else { if ((mqc->c & 0x8000000) == 0) { /* ((mqc->c&0x8000000)==0) CHANGE */ mqc->bp++; *mqc->bp = (OPJ_BYTE)(mqc->c >> 19); mqc->c &= 0x7ffff; mqc->ct = 8; } else { (*mqc->bp)++; if (*mqc->bp == 0xff) { mqc->c &= 0x7ffffff; mqc->bp++; *mqc->bp = (OPJ_BYTE)(mqc->c >> 20); mqc->c &= 0xfffff; mqc->ct = 7; } else { mqc->bp++; *mqc->bp = (OPJ_BYTE)(mqc->c >> 19); mqc->c &= 0x7ffff; mqc->ct = 8; } } } } void opj_mqc_renorme(opj_mqc_t *mqc) { do { mqc->a <<= 1; mqc->c <<= 1; mqc->ct--; if (mqc->ct == 0) { opj_mqc_byteout(mqc); } } while ((mqc->a & 0x8000) == 0); } void opj_mqc_codemps(opj_mqc_t *mqc) { mqc->a -= (*mqc->curctx)->qeval; if ((mqc->a & 0x8000) == 0) { if (mqc->a < (*mqc->curctx)->qeval) { mqc->a = (*mqc->curctx)->qeval; } else { mqc->c += (*mqc->curctx)->qeval; } *mqc->curctx = (*mqc->curctx)->nmps; opj_mqc_renorme(mqc); } else { mqc->c += (*mqc->curctx)->qeval; } } void opj_mqc_codelps(opj_mqc_t *mqc) { mqc->a -= (*mqc->curctx)->qeval; if (mqc->a < (*mqc->curctx)->qeval) { mqc->c += (*mqc->curctx)->qeval; } else { mqc->a = (*mqc->curctx)->qeval; } *mqc->curctx = (*mqc->curctx)->nlps; opj_mqc_renorme(mqc); } void opj_mqc_setbits(opj_mqc_t *mqc) { OPJ_UINT32 tempc = mqc->c + mqc->a; mqc->c |= 0xffff; if (mqc->c >= tempc) { mqc->c -= 0x8000; } } static INLINE OPJ_INT32 opj_mqc_mpsexchange(opj_mqc_t *const mqc) { OPJ_INT32 d; if (mqc->a < (*mqc->curctx)->qeval) { d = (OPJ_INT32)(1 - (*mqc->curctx)->mps); *mqc->curctx = (*mqc->curctx)->nlps; } else { d = (OPJ_INT32)(*mqc->curctx)->mps; *mqc->curctx = (*mqc->curctx)->nmps; } return d; } static INLINE OPJ_INT32 opj_mqc_lpsexchange(opj_mqc_t *const mqc) { OPJ_INT32 d; if (mqc->a < (*mqc->curctx)->qeval) { mqc->a = (*mqc->curctx)->qeval; d = (OPJ_INT32)(*mqc->curctx)->mps; *mqc->curctx = (*mqc->curctx)->nmps; } else { mqc->a = (*mqc->curctx)->qeval; d = (OPJ_INT32)(1 - (*mqc->curctx)->mps); *mqc->curctx = (*mqc->curctx)->nlps; } return d; } #ifdef MQC_PERF_OPT static INLINE void opj_mqc_bytein(opj_mqc_t *const mqc) { unsigned int i = *((unsigned int *) mqc->bp); mqc->c += i & 0xffff00; mqc->ct = i & 0x0f; mqc->bp += (i >> 2) & 0x04; } #else static void opj_mqc_bytein(opj_mqc_t *const mqc) { if (mqc->bp != mqc->end) { OPJ_UINT32 c; if (mqc->bp + 1 != mqc->end) { c = *(mqc->bp + 1); } else { c = 0xff; } if (*mqc->bp == 0xff) { if (c > 0x8f) { mqc->c += 0xff00; mqc->ct = 8; } else { mqc->bp++; mqc->c += c << 9; mqc->ct = 7; } } else { mqc->bp++; mqc->c += c << 8; mqc->ct = 8; } } else { mqc->c += 0xff00; mqc->ct = 8; } } #endif static INLINE void opj_mqc_renormd(opj_mqc_t *const mqc) { do { if (mqc->ct == 0) { opj_mqc_bytein(mqc); } mqc->a <<= 1; mqc->c <<= 1; mqc->ct--; } while (mqc->a < 0x8000); } /* ========================================================== MQ-Coder interface ========================================================== */ opj_mqc_t* opj_mqc_create(void) { opj_mqc_t *mqc = (opj_mqc_t*)opj_malloc(sizeof(opj_mqc_t)); #ifdef MQC_PERF_OPT mqc->buffer = NULL; #endif return mqc; } void opj_mqc_destroy(opj_mqc_t *mqc) { if(mqc) { #ifdef MQC_PERF_OPT opj_free(mqc->buffer); #endif opj_free(mqc); } } OPJ_UINT32 opj_mqc_numbytes(opj_mqc_t *mqc) { const ptrdiff_t diff = mqc->bp - mqc->start; #if 0 assert( diff <= 0xffffffff && diff >= 0 ); /* UINT32_MAX */ #endif return (OPJ_UINT32)diff; } void opj_mqc_init_enc(opj_mqc_t *mqc, OPJ_BYTE *bp) { /* TODO MSD: need to take a look to the v2 version */ opj_mqc_setcurctx(mqc, 0); mqc->a = 0x8000; mqc->c = 0; mqc->bp = bp - 1; mqc->ct = 12; if (*mqc->bp == 0xff) { mqc->ct = 13; } mqc->start = bp; } void opj_mqc_encode(opj_mqc_t *mqc, OPJ_UINT32 d) { if ((*mqc->curctx)->mps == d) { opj_mqc_codemps(mqc); } else { opj_mqc_codelps(mqc); } } void opj_mqc_flush(opj_mqc_t *mqc) { opj_mqc_setbits(mqc); mqc->c <<= mqc->ct; opj_mqc_byteout(mqc); mqc->c <<= mqc->ct; opj_mqc_byteout(mqc); if (*mqc->bp != 0xff) { mqc->bp++; } } void opj_mqc_bypass_init_enc(opj_mqc_t *mqc) { mqc->c = 0; mqc->ct = 8; /*if (*mqc->bp == 0xff) { mqc->ct = 7; } */ } void opj_mqc_bypass_enc(opj_mqc_t *mqc, OPJ_UINT32 d) { mqc->ct--; mqc->c = mqc->c + (d << mqc->ct); if (mqc->ct == 0) { mqc->bp++; *mqc->bp = (OPJ_BYTE)mqc->c; mqc->ct = 8; if (*mqc->bp == 0xff) { mqc->ct = 7; } mqc->c = 0; } } OPJ_UINT32 opj_mqc_bypass_flush_enc(opj_mqc_t *mqc) { OPJ_BYTE bit_padding; bit_padding = 0; if (mqc->ct != 0) { while (mqc->ct > 0) { mqc->ct--; mqc->c += (OPJ_UINT32)(bit_padding << mqc->ct); bit_padding = (bit_padding + 1) & 0x01; } mqc->bp++; *mqc->bp = (OPJ_BYTE)mqc->c; mqc->ct = 8; mqc->c = 0; } return 1; } void opj_mqc_reset_enc(opj_mqc_t *mqc) { opj_mqc_resetstates(mqc); opj_mqc_setstate(mqc, T1_CTXNO_UNI, 0, 46); opj_mqc_setstate(mqc, T1_CTXNO_AGG, 0, 3); opj_mqc_setstate(mqc, T1_CTXNO_ZC, 0, 4); } OPJ_UINT32 opj_mqc_restart_enc(opj_mqc_t *mqc) { OPJ_UINT32 correction = 1; /* */ OPJ_INT32 n = (OPJ_INT32)(27 - 15 - mqc->ct); mqc->c <<= mqc->ct; while (n > 0) { opj_mqc_byteout(mqc); n -= (OPJ_INT32)mqc->ct; mqc->c <<= mqc->ct; } opj_mqc_byteout(mqc); return correction; } void opj_mqc_restart_init_enc(opj_mqc_t *mqc) { /* */ opj_mqc_setcurctx(mqc, 0); mqc->a = 0x8000; mqc->c = 0; mqc->ct = 12; mqc->bp--; if (*mqc->bp == 0xff) { mqc->ct = 13; } } void opj_mqc_erterm_enc(opj_mqc_t *mqc) { OPJ_INT32 k = (OPJ_INT32)(11 - mqc->ct + 1); while (k > 0) { mqc->c <<= mqc->ct; mqc->ct = 0; opj_mqc_byteout(mqc); k -= (OPJ_INT32)mqc->ct; } if (*mqc->bp != 0xff) { opj_mqc_byteout(mqc); } } void opj_mqc_segmark_enc(opj_mqc_t *mqc) { OPJ_UINT32 i; opj_mqc_setcurctx(mqc, 18); for (i = 1; i < 5; i++) { opj_mqc_encode(mqc, i % 2); } } OPJ_BOOL opj_mqc_init_dec(opj_mqc_t *mqc, OPJ_BYTE *bp, OPJ_UINT32 len) { opj_mqc_setcurctx(mqc, 0); mqc->start = bp; mqc->end = bp + len; mqc->bp = bp; if (len==0) mqc->c = 0xff << 16; else mqc->c = (OPJ_UINT32)(*mqc->bp << 16); #ifdef MQC_PERF_OPT /* TODO_MSD: check this option and put in experimental */ { OPJ_UINT32 c; OPJ_UINT32 *ip; OPJ_BYTE *end = mqc->end - 1; void* new_buffer = opj_realloc(mqc->buffer, (len + 1) * sizeof(OPJ_UINT32)); if (! new_buffer) { opj_free(mqc->buffer); mqc->buffer = NULL; return OPJ_FALSE; } mqc->buffer = new_buffer; ip = (OPJ_UINT32 *) mqc->buffer; while (bp < end) { c = *(bp + 1); if (*bp == 0xff) { if (c > 0x8f) { break; } else { *ip = 0x00000017 | (c << 9); } } else { *ip = 0x00000018 | (c << 8); } bp++; ip++; } /* Handle last byte of data */ c = 0xff; if (*bp == 0xff) { *ip = 0x0000ff18; } else { bp++; *ip = 0x00000018 | (c << 8); } ip++; *ip = 0x0000ff08; mqc->bp = mqc->buffer; } #endif opj_mqc_bytein(mqc); mqc->c <<= 7; mqc->ct -= 7; mqc->a = 0x8000; return OPJ_TRUE; } OPJ_INT32 opj_mqc_decode(opj_mqc_t *const mqc) { OPJ_INT32 d; mqc->a -= (*mqc->curctx)->qeval; if ((mqc->c >> 16) < (*mqc->curctx)->qeval) { d = opj_mqc_lpsexchange(mqc); opj_mqc_renormd(mqc); } else { mqc->c -= (*mqc->curctx)->qeval << 16; if ((mqc->a & 0x8000) == 0) { d = opj_mqc_mpsexchange(mqc); opj_mqc_renormd(mqc); } else { d = (OPJ_INT32)(*mqc->curctx)->mps; } } return d; } void opj_mqc_resetstates(opj_mqc_t *mqc) { OPJ_UINT32 i; for (i = 0; i < MQC_NUMCTXS; i++) { mqc->ctxs[i] = mqc_states; } } void opj_mqc_setstate(opj_mqc_t *mqc, OPJ_UINT32 ctxno, OPJ_UINT32 msb, OPJ_INT32 prob) { mqc->ctxs[ctxno] = &mqc_states[msb + (OPJ_UINT32)(prob << 1)]; }