/* * 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) 2007, Callum Lerwick * 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" #include "t1_luts.h" /* #define CONSISTENCY_CHECK */ /** @defgroup T1 T1 - Implementation of the tier-1 coding */ /*@{*/ /** @name Local static functions */ /*@{*/ static INLINE OPJ_BYTE opj_t1_getctxno_zc(opj_mqc_t *mqc, OPJ_UINT32 f); static OPJ_BYTE opj_t1_getctxno_sc(OPJ_UINT32 f); static INLINE OPJ_UINT32 opj_t1_getctxno_mag(OPJ_UINT32 f); static OPJ_BYTE opj_t1_getspb(OPJ_UINT32 f); static OPJ_INT16 opj_t1_getnmsedec_sig(OPJ_UINT32 x, OPJ_UINT32 bitpos); static OPJ_INT16 opj_t1_getnmsedec_ref(OPJ_UINT32 x, OPJ_UINT32 bitpos); static INLINE void opj_t1_updateflags(opj_flag_t *flagsp, OPJ_UINT32 s, OPJ_UINT32 stride); /** Encode significant pass */ static void opj_t1_enc_sigpass_step(opj_t1_t *t1, opj_flag_t *flagsp, OPJ_INT32 *datap, OPJ_INT32 bpno, OPJ_INT32 one, OPJ_INT32 *nmsedec, OPJ_BYTE type, OPJ_UINT32 vsc); /** Decode significant pass */ #if 0 static void opj_t1_dec_sigpass_step(opj_t1_t *t1, opj_flag_t *flagsp, OPJ_INT32 *datap, OPJ_UINT32 orient, OPJ_INT32 oneplushalf, OPJ_BYTE type, OPJ_UINT32 vsc); #endif static INLINE void opj_t1_dec_sigpass_step_raw( opj_t1_t *t1, opj_flag_t *flagsp, opj_colflag_t* colflagsp, OPJ_INT32 *datap, OPJ_INT32 oneplushalf, OPJ_INT32 vsc, OPJ_UINT32 row); static INLINE void opj_t1_dec_sigpass_step_mqc( opj_t1_t *t1, opj_flag_t *flagsp, opj_colflag_t* colflagsp, OPJ_INT32 *datap, OPJ_INT32 oneplushalf, OPJ_UINT32 row, OPJ_UINT32 flags_stride); static INLINE void opj_t1_dec_sigpass_step_mqc_vsc( opj_t1_t *t1, opj_flag_t *flagsp, opj_colflag_t* colflagsp, OPJ_INT32 *datap, OPJ_INT32 oneplushalf, OPJ_INT32 vsc, OPJ_UINT32 row); /** Encode significant pass */ static void opj_t1_enc_sigpass( opj_t1_t *t1, OPJ_INT32 bpno, OPJ_INT32 *nmsedec, OPJ_BYTE type, OPJ_UINT32 cblksty); /** Decode significant pass */ static void opj_t1_dec_sigpass_raw( opj_t1_t *t1, OPJ_INT32 bpno, OPJ_INT32 cblksty); static void opj_t1_dec_sigpass_mqc_vsc( opj_t1_t *t1, OPJ_INT32 bpno); /** Encode refinement pass */ static void opj_t1_enc_refpass_step(opj_t1_t *t1, opj_flag_t *flagsp, OPJ_INT32 *datap, OPJ_INT32 bpno, OPJ_INT32 one, OPJ_INT32 *nmsedec, OPJ_BYTE type, OPJ_UINT32 vsc); /** Encode refinement pass */ static void opj_t1_enc_refpass( opj_t1_t *t1, OPJ_INT32 bpno, OPJ_INT32 *nmsedec, OPJ_BYTE type, OPJ_UINT32 cblksty); /** Decode refinement pass */ static void opj_t1_dec_refpass_raw( opj_t1_t *t1, OPJ_INT32 bpno); static void opj_t1_dec_refpass_mqc_vsc( opj_t1_t *t1, OPJ_INT32 bpno); /** Decode refinement pass */ #if 0 static void opj_t1_dec_refpass_step(opj_t1_t *t1, opj_flag_t *flagsp, OPJ_INT32 *datap, OPJ_INT32 poshalf, OPJ_INT32 neghalf, OPJ_BYTE type, OPJ_UINT32 vsc); #endif static INLINE void opj_t1_dec_refpass_step_raw( opj_t1_t *t1, opj_colflag_t *colflagsp, OPJ_INT32 *datap, OPJ_INT32 poshalf, OPJ_INT32 neghalf, OPJ_UINT32 row); static INLINE void opj_t1_dec_refpass_step_mqc( opj_t1_t *t1, opj_flag_t *flagsp, opj_colflag_t *colflagsp, OPJ_INT32 *datap, OPJ_INT32 poshalf, OPJ_INT32 neghalf, OPJ_UINT32 row); static INLINE void opj_t1_dec_refpass_step_mqc_vsc( opj_t1_t *t1, opj_flag_t *flagsp, opj_colflag_t *colflagsp, OPJ_INT32 *datap, OPJ_INT32 poshalf, OPJ_INT32 neghalf, OPJ_INT32 vsc, OPJ_UINT32 row); /** Encode clean-up pass */ static void opj_t1_enc_clnpass_step( opj_t1_t *t1, opj_flag_t *flagsp, OPJ_INT32 *datap, OPJ_INT32 bpno, OPJ_INT32 one, OPJ_INT32 *nmsedec, OPJ_UINT32 partial, OPJ_UINT32 vsc); /** Decode clean-up pass */ static void opj_t1_dec_clnpass_step_partial( opj_t1_t *t1, opj_flag_t *flagsp, opj_colflag_t *colflagsp, OPJ_INT32 *datap, OPJ_INT32 oneplushalf, OPJ_UINT32 row); static void opj_t1_dec_clnpass_step( opj_t1_t *t1, opj_flag_t *flagsp, opj_colflag_t *colflagsp, OPJ_INT32 *datap, OPJ_INT32 oneplushalf, OPJ_UINT32 row); static void opj_t1_dec_clnpass_step_vsc( opj_t1_t *t1, opj_flag_t *flagsp, opj_colflag_t *colflagsp, OPJ_INT32 *datap, OPJ_INT32 oneplushalf, OPJ_INT32 partial, OPJ_INT32 vsc, OPJ_UINT32 row); /** Encode clean-up pass */ static void opj_t1_enc_clnpass( opj_t1_t *t1, OPJ_INT32 bpno, OPJ_INT32 *nmsedec, OPJ_UINT32 cblksty); static OPJ_FLOAT64 opj_t1_getwmsedec( OPJ_INT32 nmsedec, OPJ_UINT32 compno, OPJ_UINT32 level, OPJ_UINT32 orient, OPJ_INT32 bpno, OPJ_UINT32 qmfbid, OPJ_FLOAT64 stepsize, OPJ_UINT32 numcomps, const OPJ_FLOAT64 * mct_norms, OPJ_UINT32 mct_numcomps); static void opj_t1_encode_cblk( opj_t1_t *t1, opj_tcd_cblk_enc_t* cblk, OPJ_UINT32 orient, OPJ_UINT32 compno, OPJ_UINT32 level, OPJ_UINT32 qmfbid, OPJ_FLOAT64 stepsize, OPJ_UINT32 cblksty, OPJ_UINT32 numcomps, opj_tcd_tile_t * tile, const OPJ_FLOAT64 * mct_norms, OPJ_UINT32 mct_numcomps); /** Decode 1 code-block @param t1 T1 handle @param cblk Code-block coding parameters @param orient @param roishift Region of interest shifting value @param cblksty Code-block style */ static OPJ_BOOL opj_t1_decode_cblk( opj_t1_t *t1, opj_tcd_cblk_dec_t* cblk, OPJ_UINT32 orient, OPJ_UINT32 roishift, OPJ_UINT32 cblksty); static OPJ_BOOL opj_t1_allocate_buffers( opj_t1_t *t1, OPJ_UINT32 w, OPJ_UINT32 h); /*@}*/ /*@}*/ /* ----------------------------------------------------------------------- */ static OPJ_BYTE opj_t1_getctxno_zc(opj_mqc_t *mqc, OPJ_UINT32 f) { return mqc->lut_ctxno_zc_orient[(f & T1_SIG_OTH)]; } static OPJ_BYTE opj_t1_getctxno_sc(OPJ_UINT32 f) { return lut_ctxno_sc[(f & (T1_SIG_PRIM | T1_SGN)) >> 4]; } static OPJ_UINT32 opj_t1_getctxno_mag(OPJ_UINT32 f) { OPJ_UINT32 tmp1 = (f & T1_SIG_OTH) ? T1_CTXNO_MAG + 1 : T1_CTXNO_MAG; OPJ_UINT32 tmp2 = (f & T1_REFINE) ? T1_CTXNO_MAG + 2 : tmp1; return (tmp2); } static OPJ_BYTE opj_t1_getspb(OPJ_UINT32 f) { return lut_spb[(f & (T1_SIG_PRIM | T1_SGN)) >> 4]; } static OPJ_INT16 opj_t1_getnmsedec_sig(OPJ_UINT32 x, OPJ_UINT32 bitpos) { if (bitpos > 0) { return lut_nmsedec_sig[(x >> (bitpos)) & ((1 << T1_NMSEDEC_BITS) - 1)]; } return lut_nmsedec_sig0[x & ((1 << T1_NMSEDEC_BITS) - 1)]; } static OPJ_INT16 opj_t1_getnmsedec_ref(OPJ_UINT32 x, OPJ_UINT32 bitpos) { if (bitpos > 0) { return lut_nmsedec_ref[(x >> (bitpos)) & ((1 << T1_NMSEDEC_BITS) - 1)]; } return lut_nmsedec_ref0[x & ((1 << T1_NMSEDEC_BITS) - 1)]; } static INLINE void opj_t1_updateflags(opj_flag_t *flagsp, OPJ_UINT32 s, OPJ_UINT32 stride) { opj_flag_t *np = flagsp - stride; opj_flag_t *sp = flagsp + stride; /* We strongly rely on (T1_SGN_N == 0x0100) == (T1_SIG_N == 0x0010) << 4 */ /* and T1_SIG_E == T1_SIG_N << 1, T1_SIG_W == T1_SIG_N << 2 and T1_SIG_S == T1_SIG_N << 2 */ /* and T1_SGN_E == T1_SGN_N << 1, T1_SGN_W == T1_SGN_N << 2 and T1_SGN_S == T1_SGN_N << 2 */ unsigned int flag_N = T1_SIG_N | ((unsigned int)T1_SIG_N << (4U * s)); np[-1] |= T1_SIG_SE; np[0] |= (opj_flag_t)(flag_N << 2U); np[1] |= T1_SIG_SW; flagsp[-1] |= (opj_flag_t)(flag_N << 1U); flagsp[0] |= T1_SIG; flagsp[1] |= (opj_flag_t)(flag_N << 3U); sp[-1] |= T1_SIG_NE; sp[0] |= (opj_flag_t)flag_N; sp[1] |= T1_SIG_NW; } static INLINE void opj_t1_updateflagscolflags(opj_flag_t *flagsp, opj_colflag_t *colflagsp, OPJ_UINT32 s, OPJ_UINT32 stride, OPJ_UINT32 row) { opj_t1_updateflags(flagsp, s, stride); if( row == 0U ) { *colflagsp |= (opj_colflag_t)((T1_COLFLAG_SIG_ROW_0 << (T1_COLFLAG_RBS * row)) | (T1_COLFLAG_SIG_OTHER_ROW_0 << (T1_COLFLAG_RBS * (row+1U)))); *(colflagsp - 1) |= (opj_colflag_t)((T1_COLFLAG_SIG_OTHER_ROW_0 << (T1_COLFLAG_RBS * row)) | (T1_COLFLAG_SIG_OTHER_ROW_0 << (T1_COLFLAG_RBS * (row+1U)))); *(colflagsp + 1) |= (opj_colflag_t)((T1_COLFLAG_SIG_OTHER_ROW_0 << (T1_COLFLAG_RBS * row)) | (T1_COLFLAG_SIG_OTHER_ROW_0 << (T1_COLFLAG_RBS * (row+1U)))); *(colflagsp - stride - 1) |= (T1_COLFLAG_SIG_OTHER_ROW_3); *(colflagsp - stride) |= (T1_COLFLAG_SIG_OTHER_ROW_3); *(colflagsp - stride + 1) |= (T1_COLFLAG_SIG_OTHER_ROW_3); } else if( row == 3U ) { *colflagsp |= (opj_colflag_t)((T1_COLFLAG_SIG_ROW_0 << (T1_COLFLAG_RBS * row)) | (T1_COLFLAG_SIG_OTHER_ROW_0 << (T1_COLFLAG_RBS * (row-1U)))); *(colflagsp - 1) |= (opj_colflag_t)((T1_COLFLAG_SIG_OTHER_ROW_0 << (T1_COLFLAG_RBS * row)) | (T1_COLFLAG_SIG_OTHER_ROW_0 << (T1_COLFLAG_RBS * (row-1U)))); *(colflagsp + 1) |= (opj_colflag_t)((T1_COLFLAG_SIG_OTHER_ROW_0 << (T1_COLFLAG_RBS * row)) | (T1_COLFLAG_SIG_OTHER_ROW_0 << (T1_COLFLAG_RBS* (row-1)))); *(colflagsp + stride - 1) |= (T1_COLFLAG_SIG_OTHER_ROW_0); *(colflagsp + stride) |= (T1_COLFLAG_SIG_OTHER_ROW_0); *(colflagsp + stride + 1) |= (T1_COLFLAG_SIG_OTHER_ROW_0); } else { *(colflagsp - 1) |= (opj_colflag_t)((T1_COLFLAG_SIG_OTHER_ROW_0 << (T1_COLFLAG_RBS * row)) | (T1_COLFLAG_SIG_OTHER_ROW_0 << (T1_COLFLAG_RBS * (row-1U))) | (T1_COLFLAG_SIG_OTHER_ROW_0 << (T1_COLFLAG_RBS * (row+1U)))); *colflagsp |= (opj_colflag_t)((T1_COLFLAG_SIG_ROW_0 << (T1_COLFLAG_RBS * row)) | (T1_COLFLAG_SIG_OTHER_ROW_0 << (T1_COLFLAG_RBS * (row-1U))) | (T1_COLFLAG_SIG_OTHER_ROW_0 << (T1_COLFLAG_RBS * (row+1U)))); *(colflagsp + 1) |= (opj_colflag_t)((T1_COLFLAG_SIG_OTHER_ROW_0 << (T1_COLFLAG_RBS * row)) | (T1_COLFLAG_SIG_OTHER_ROW_0 << (T1_COLFLAG_RBS * (row-1U))) | (T1_COLFLAG_SIG_OTHER_ROW_0 << (T1_COLFLAG_RBS * (row+1U)))); } } static void opj_t1_enc_sigpass_step( opj_t1_t *t1, opj_flag_t *flagsp, OPJ_INT32 *datap, OPJ_INT32 bpno, OPJ_INT32 one, OPJ_INT32 *nmsedec, OPJ_BYTE type, OPJ_UINT32 vsc ) { OPJ_INT32 v; OPJ_UINT32 flag; opj_mqc_t *mqc = t1->mqc; /* MQC component */ flag = vsc ? (OPJ_UINT32)((*flagsp) & (~(T1_SIG_S | T1_SIG_SE | T1_SIG_SW | T1_SGN_S))) : (OPJ_UINT32)(*flagsp); if ((flag & T1_SIG_OTH) && !(flag & (T1_SIG | T1_VISIT))) { v = (opj_int_abs(*datap) & one) ? 1 : 0; opj_mqc_setcurctx(mqc, opj_t1_getctxno_zc(mqc, flag)); /* ESSAI */ if (type == T1_TYPE_RAW) { /* BYPASS/LAZY MODE */ opj_mqc_bypass_enc(mqc, (OPJ_UINT32)v); } else { opj_mqc_encode(mqc, (OPJ_UINT32)v); } if (v) { v = *datap < 0 ? 1 : 0; *nmsedec += opj_t1_getnmsedec_sig((OPJ_UINT32)opj_int_abs(*datap), (OPJ_UINT32)(bpno)); opj_mqc_setcurctx(mqc, opj_t1_getctxno_sc(flag)); /* ESSAI */ if (type == T1_TYPE_RAW) { /* BYPASS/LAZY MODE */ opj_mqc_bypass_enc(mqc, (OPJ_UINT32)v); } else { opj_mqc_encode(mqc, (OPJ_UINT32)(v ^ opj_t1_getspb((OPJ_UINT32)flag))); } opj_t1_updateflags(flagsp, (OPJ_UINT32)v, t1->flags_stride); } *flagsp |= T1_VISIT; } } static INLINE void opj_t1_dec_sigpass_step_raw( opj_t1_t *t1, opj_flag_t *flagsp, opj_colflag_t* colflagsp, OPJ_INT32 *datap, OPJ_INT32 oneplushalf, OPJ_INT32 vsc, OPJ_UINT32 row) { OPJ_UINT32 v, flag; opj_raw_t *raw = t1->raw; /* RAW component */ flag = vsc ? ((*flagsp) & (~(T1_SIG_S | T1_SIG_SE | T1_SIG_SW | T1_SGN_S))) : (*flagsp); if ((flag & T1_SIG_OTH) && !(*colflagsp & ((T1_COLFLAG_SIG_ROW_0 | T1_COLFLAG_VISIT_ROW_0) << (T1_COLFLAG_RBS * row)))) { if (opj_raw_decode(raw)) { v = opj_raw_decode(raw); /* ESSAI */ *datap = v ? -oneplushalf : oneplushalf; opj_t1_updateflagscolflags(flagsp, colflagsp, v, t1->flags_stride, row); } #ifdef CONSISTENCY_CHECK *flagsp |= T1_VISIT; #endif *colflagsp |= (opj_colflag_t)(T1_COLFLAG_VISIT_ROW_0 << (T1_COLFLAG_RBS * row)); } } static INLINE void opj_t1_dec_sigpass_step_mqc( opj_t1_t *t1, opj_flag_t *flagsp, opj_colflag_t* colflagsp, OPJ_INT32 *datap, OPJ_INT32 oneplushalf, OPJ_UINT32 row, OPJ_UINT32 flags_stride) { OPJ_INT32 v, flag; opj_mqc_t *mqc = t1->mqc; /* MQC component */ #ifdef CONSISTENCY_CHECK assert( ((*flagsp & T1_SIG_OTH) && !(*flagsp & (T1_SIG | T1_VISIT))) == ((*colflagsp & ((T1_COLFLAG_SIG_ROW_0 | T1_COLFLAG_VISIT_ROW_0 | T1_COLFLAG_SIG_OTHER_ROW_0) << (T1_COLFLAG_RBS * row))) == (T1_COLFLAG_SIG_OTHER_ROW_0 << (T1_COLFLAG_RBS * row))) ); #endif if( (*colflagsp & ((T1_COLFLAG_SIG_ROW_0 | T1_COLFLAG_VISIT_ROW_0 | T1_COLFLAG_SIG_OTHER_ROW_0) << (T1_COLFLAG_RBS * row))) == (T1_COLFLAG_SIG_OTHER_ROW_0 << (T1_COLFLAG_RBS * row)) ) { flag = *flagsp; opj_mqc_setcurctx(mqc, opj_t1_getctxno_zc(mqc, (OPJ_UINT32)flag)); if (opj_mqc_decode(mqc)) { opj_mqc_setcurctx(mqc, opj_t1_getctxno_sc((OPJ_UINT32)flag)); v = opj_mqc_decode(mqc) ^ opj_t1_getspb((OPJ_UINT32)flag); *datap = v ? -oneplushalf : oneplushalf; opj_t1_updateflagscolflags(flagsp, colflagsp, (OPJ_UINT32)v, flags_stride, row); } #ifdef CONSISTENCY_CHECK *flagsp |= T1_VISIT; #endif *colflagsp |= (opj_colflag_t)(T1_COLFLAG_VISIT_ROW_0 << (T1_COLFLAG_RBS * row)); } } /* VSC and BYPASS by Antonin */ static INLINE void opj_t1_dec_sigpass_step_mqc_vsc( opj_t1_t *t1, opj_flag_t *flagsp, opj_colflag_t* colflagsp, OPJ_INT32 *datap, OPJ_INT32 oneplushalf, OPJ_INT32 vsc, OPJ_UINT32 row) { OPJ_UINT32 v, flag; opj_mqc_t *mqc = t1->mqc; /* MQC component */ flag = vsc ? ((*flagsp) & (~(T1_SIG_S | T1_SIG_SE | T1_SIG_SW | T1_SGN_S))) : (*flagsp); if ((flag & T1_SIG_OTH) && !(*colflagsp & ((T1_COLFLAG_SIG_ROW_0 | T1_COLFLAG_VISIT_ROW_0) << (T1_COLFLAG_RBS * row)))) { opj_mqc_setcurctx(mqc, opj_t1_getctxno_zc(mqc, flag)); if (opj_mqc_decode(mqc)) { opj_mqc_setcurctx(mqc, opj_t1_getctxno_sc(flag)); v = (OPJ_UINT32)opj_mqc_decode(mqc) ^ opj_t1_getspb(flag); *datap = v ? -oneplushalf : oneplushalf; opj_t1_updateflagscolflags(flagsp, colflagsp, v, t1->flags_stride, row); } #ifdef CONSISTENCY_CHECK *flagsp |= T1_VISIT; #endif *colflagsp |= (opj_colflag_t)(T1_COLFLAG_VISIT_ROW_0 << (T1_COLFLAG_RBS * row)); } } /* VSC and BYPASS by Antonin */ static void opj_t1_enc_sigpass(opj_t1_t *t1, OPJ_INT32 bpno, OPJ_INT32 *nmsedec, OPJ_BYTE type, OPJ_UINT32 cblksty ) { OPJ_UINT32 i, j, k, vsc; OPJ_INT32 one; *nmsedec = 0; one = 1 << (bpno + T1_NMSEDEC_FRACBITS); for (k = 0; k < t1->h; k += 4) { for (i = 0; i < t1->w; ++i) { for (j = k; j < k + 4 && j < t1->h; ++j) { vsc = ((cblksty & J2K_CCP_CBLKSTY_VSC) && (j == k + 3 || j == t1->h - 1)) ? 1 : 0; opj_t1_enc_sigpass_step( t1, &t1->flags[((j+1) * t1->flags_stride) + i + 1], &t1->data[(j * t1->data_stride) + i], bpno, one, nmsedec, type, vsc); } } } } static void opj_t1_dec_sigpass_raw( opj_t1_t *t1, OPJ_INT32 bpno, OPJ_INT32 cblksty) { OPJ_INT32 one, half, oneplushalf, vsc; OPJ_UINT32 i, j, k; opj_colflag_t *colflags1 = &t1->colflags[t1->flags_stride + 1]; one = 1 << bpno; half = one >> 1; oneplushalf = one | half; for (k = 0; k < t1->h; k += 4) { for (i = 0; i < t1->w; ++i) { opj_colflag_t *colflags2 = colflags1 + i; for (j = k; j < k + 4 && j < t1->h; ++j) { vsc = ((cblksty & J2K_CCP_CBLKSTY_VSC) && (j == k + 3 || j == t1->h - 1)) ? 1 : 0; opj_t1_dec_sigpass_step_raw( t1, &t1->flags[((j+1) * t1->flags_stride) + i + 1], colflags2, &t1->data[(j * t1->w) + i], oneplushalf, vsc, j - k); } } colflags1 += t1->flags_stride; } } /* VSC and BYPASS by Antonin */ #define opj_t1_dec_sigpass_mqc_internal(t1, bpno, w, h, flags_stride) \ { \ OPJ_INT32 one, half, oneplushalf; \ OPJ_UINT32 i, j, k; \ OPJ_INT32 *data1 = t1->data; \ opj_flag_t *flags1 = &t1->flags[1]; \ opj_colflag_t *colflags1 = &t1->colflags[flags_stride + 1]; \ one = 1 << bpno; \ half = one >> 1; \ oneplushalf = one | half; \ for (k = 0; k < (h & ~3u); k += 4) { \ for (i = 0; i < w; ++i) { \ OPJ_INT32 *data2 = data1 + i; \ opj_flag_t *flags2 = flags1 + i; \ opj_colflag_t *colflags2 = colflags1 + i; \ if( *colflags2 == 0 ) continue; \ flags2 += flags_stride; \ opj_t1_dec_sigpass_step_mqc(t1, flags2, colflags2, data2, oneplushalf, 0U, flags_stride); \ data2 += w; \ flags2 += flags_stride; \ opj_t1_dec_sigpass_step_mqc(t1, flags2, colflags2, data2, oneplushalf, 1U, flags_stride); \ data2 += w; \ flags2 += flags_stride; \ opj_t1_dec_sigpass_step_mqc(t1, flags2, colflags2, data2, oneplushalf, 2U, flags_stride); \ data2 += w; \ flags2 += flags_stride; \ opj_t1_dec_sigpass_step_mqc(t1, flags2, colflags2, data2, oneplushalf, 3U, flags_stride); \ data2 += w; \ } \ data1 += w << 2; \ flags1 += flags_stride << 2; \ colflags1 += flags_stride; \ } \ for (i = 0; i < w; ++i) { \ OPJ_INT32 *data2 = data1 + i; \ opj_flag_t *flags2 = flags1 + i; \ opj_colflag_t *colflags2 = colflags1 + i; \ for (j = k; j < h; ++j) { \ flags2 += flags_stride; \ opj_t1_dec_sigpass_step_mqc(t1, flags2, colflags2, data2, oneplushalf, j - k, flags_stride); \ data2 += w; \ } \ } \ } static void opj_t1_dec_sigpass_mqc_64x64( opj_t1_t *t1, OPJ_INT32 bpno) { opj_t1_dec_sigpass_mqc_internal(t1, bpno, 64, 64, 66); } static void opj_t1_dec_sigpass_mqc_generic( opj_t1_t *t1, OPJ_INT32 bpno) { opj_t1_dec_sigpass_mqc_internal(t1, bpno, t1->w, t1->h, t1->flags_stride); } /* VSC and BYPASS by Antonin */ static void opj_t1_dec_sigpass_mqc_vsc( opj_t1_t *t1, OPJ_INT32 bpno) { OPJ_INT32 one, half, oneplushalf, vsc; OPJ_UINT32 i, j, k; OPJ_INT32 *data1 = t1->data; opj_flag_t *flags1 = &t1->flags[1]; opj_colflag_t *colflags1 = &t1->colflags[t1->flags_stride + 1]; one = 1 << bpno; half = one >> 1; oneplushalf = one | half; for (k = 0; k < (t1->h & ~(OPJ_UINT32)3); k += 4U) { for (i = 0; i < t1->w; ++i) { OPJ_INT32 *data2 = data1 + i; opj_flag_t *flags2 = flags1 + i; opj_colflag_t *colflags2 = colflags1 + i; flags2 += t1->flags_stride; opj_t1_dec_sigpass_step_mqc_vsc(t1, flags2, colflags2, data2, oneplushalf, 0, 0U); data2 += t1->w; flags2 += t1->flags_stride; opj_t1_dec_sigpass_step_mqc_vsc(t1, flags2, colflags2, data2, oneplushalf, 0, 1U); data2 += t1->w; flags2 += t1->flags_stride; opj_t1_dec_sigpass_step_mqc_vsc(t1, flags2, colflags2, data2, oneplushalf, 0, 2U); data2 += t1->w; flags2 += t1->flags_stride; opj_t1_dec_sigpass_step_mqc_vsc(t1, flags2, colflags2, data2, oneplushalf, 1, 3U); data2 += t1->w; } data1 += t1->w << 2; flags1 += t1->flags_stride << 2; colflags1 += t1->flags_stride; } for (i = 0; i < t1->w; ++i) { opj_colflag_t *colflags2 = colflags1 + i; for (j = k; j < t1->h; ++j) { vsc = (j == t1->h - 1) ? 1 : 0; opj_t1_dec_sigpass_step_mqc_vsc( t1, &t1->flags[((j+1) * t1->flags_stride) + i + 1], colflags2, &t1->data[(j * t1->w) + i], oneplushalf, vsc, j - k); } } } /* VSC and BYPASS by Antonin */ static void opj_t1_enc_refpass_step( opj_t1_t *t1, opj_flag_t *flagsp, OPJ_INT32 *datap, OPJ_INT32 bpno, OPJ_INT32 one, OPJ_INT32 *nmsedec, OPJ_BYTE type, OPJ_UINT32 vsc) { OPJ_INT32 v; OPJ_UINT32 flag; opj_mqc_t *mqc = t1->mqc; /* MQC component */ flag = vsc ? (OPJ_UINT32)((*flagsp) & (~(T1_SIG_S | T1_SIG_SE | T1_SIG_SW | T1_SGN_S))) : (OPJ_UINT32)(*flagsp); if ((flag & (T1_SIG | T1_VISIT)) == T1_SIG) { *nmsedec += opj_t1_getnmsedec_ref((OPJ_UINT32)opj_int_abs(*datap), (OPJ_UINT32)(bpno)); v = (opj_int_abs(*datap) & one) ? 1 : 0; opj_mqc_setcurctx(mqc, opj_t1_getctxno_mag(flag)); /* ESSAI */ if (type == T1_TYPE_RAW) { /* BYPASS/LAZY MODE */ opj_mqc_bypass_enc(mqc, (OPJ_UINT32)v); } else { opj_mqc_encode(mqc, (OPJ_UINT32)v); } *flagsp |= T1_REFINE; } } static INLINE void opj_t1_dec_refpass_step_raw( opj_t1_t *t1, opj_colflag_t *colflagsp, OPJ_INT32 *datap, OPJ_INT32 poshalf, OPJ_INT32 neghalf, OPJ_UINT32 row) { OPJ_INT32 v, t; opj_raw_t *raw = t1->raw; /* RAW component */ if ((*colflagsp & ((T1_COLFLAG_SIG_ROW_0 | T1_COLFLAG_VISIT_ROW_0) << (T1_COLFLAG_RBS * row))) == ((T1_COLFLAG_SIG_ROW_0) << (T1_COLFLAG_RBS * row))) { v = (OPJ_INT32)opj_raw_decode(raw); t = v ? poshalf : neghalf; *datap += *datap < 0 ? -t : t; *colflagsp |= (opj_colflag_t)(T1_COLFLAG_REFINE_ROW_0 << (T1_COLFLAG_RBS * row)); } } /* VSC and BYPASS by Antonin */ static INLINE void opj_t1_dec_refpass_step_mqc( opj_t1_t *t1, #ifdef CONSISTENCY_CHECK opj_flag_t *flagsp, #else opj_flag_t *flagsp_unused, #endif opj_colflag_t *colflagsp, OPJ_INT32 *datap, OPJ_INT32 poshalf, OPJ_INT32 neghalf, OPJ_UINT32 row) { OPJ_INT32 v, t; opj_mqc_t *mqc = t1->mqc; /* MQC component */ #ifdef CONSISTENCY_CHECK assert( ((*flagsp & (T1_SIG | T1_VISIT)) == T1_SIG) == ((*colflagsp & ((T1_COLFLAG_SIG_ROW_0 | T1_COLFLAG_VISIT_ROW_0) << (T1_COLFLAG_RBS * row))) == ((T1_COLFLAG_SIG_ROW_0) << (T1_COLFLAG_RBS * row))) ); #else (void)flagsp_unused; #endif if ((*colflagsp & ((T1_COLFLAG_SIG_ROW_0 | T1_COLFLAG_VISIT_ROW_0) << (T1_COLFLAG_RBS * row))) == ((T1_COLFLAG_SIG_ROW_0) << (T1_COLFLAG_RBS * row))) { OPJ_UINT32 tmp1 = (*colflagsp & (T1_COLFLAG_SIG_OTHER_ROW_0 << (T1_COLFLAG_RBS * row))) ? T1_CTXNO_MAG + 1 : T1_CTXNO_MAG; OPJ_UINT32 tmp2 = (*colflagsp & (T1_COLFLAG_REFINE_ROW_0 << (T1_COLFLAG_RBS * row))) ? T1_CTXNO_MAG + 2 : tmp1; opj_mqc_setcurctx(mqc, tmp2); /* ESSAI */ v = opj_mqc_decode(mqc); t = v ? poshalf : neghalf; *datap += *datap < 0 ? -t : t; *colflagsp |= (opj_colflag_t)(T1_COLFLAG_REFINE_ROW_0 << (T1_COLFLAG_RBS * row)); } } /* VSC and BYPASS by Antonin */ static INLINE void opj_t1_dec_refpass_step_mqc_vsc( opj_t1_t *t1, opj_flag_t *flagsp, opj_colflag_t *colflagsp, OPJ_INT32 *datap, OPJ_INT32 poshalf, OPJ_INT32 neghalf, OPJ_INT32 vsc, OPJ_UINT32 row) { OPJ_UINT32 v; OPJ_INT32 t; opj_mqc_t *mqc = t1->mqc; /* MQC component */ if ((*colflagsp & ((T1_COLFLAG_SIG_ROW_0 | T1_COLFLAG_VISIT_ROW_0) << (T1_COLFLAG_RBS * row))) == ((T1_COLFLAG_SIG_ROW_0) << (T1_COLFLAG_RBS * row))) { OPJ_UINT32 flag = vsc ? ((*flagsp) & (~(T1_SIG_S | T1_SIG_SE | T1_SIG_SW | T1_SGN_S))) : (*flagsp); OPJ_UINT32 tmp1 = (flag & T1_SIG_OTH) ? T1_CTXNO_MAG + 1 : T1_CTXNO_MAG; OPJ_UINT32 tmp2 = (*colflagsp & (T1_COLFLAG_REFINE_ROW_0 << (T1_COLFLAG_RBS * row))) ? T1_CTXNO_MAG + 2U : tmp1; opj_mqc_setcurctx(mqc, tmp2); /* ESSAI */ v = (OPJ_UINT32)opj_mqc_decode(mqc); t = v ? poshalf : neghalf; *datap += *datap < 0 ? -t : t; *colflagsp |= (opj_colflag_t)(T1_COLFLAG_REFINE_ROW_0 << (T1_COLFLAG_RBS * row)); } } /* VSC and BYPASS by Antonin */ static void opj_t1_enc_refpass( opj_t1_t *t1, OPJ_INT32 bpno, OPJ_INT32 *nmsedec, OPJ_BYTE type, OPJ_UINT32 cblksty) { OPJ_UINT32 i, j, k, vsc; OPJ_INT32 one; *nmsedec = 0; one = 1 << (bpno + T1_NMSEDEC_FRACBITS); for (k = 0; k < t1->h; k += 4) { for (i = 0; i < t1->w; ++i) { for (j = k; j < k + 4 && j < t1->h; ++j) { vsc = ((cblksty & J2K_CCP_CBLKSTY_VSC) && (j == k + 3 || j == t1->h - 1)) ? 1 : 0; opj_t1_enc_refpass_step( t1, &t1->flags[((j+1) * t1->flags_stride) + i + 1], &t1->data[(j * t1->data_stride) + i], bpno, one, nmsedec, type, vsc); } } } } static void opj_t1_dec_refpass_raw( opj_t1_t *t1, OPJ_INT32 bpno) { OPJ_INT32 one, poshalf, neghalf; OPJ_UINT32 i, j, k; opj_colflag_t *colflags1 = &t1->colflags[t1->flags_stride + 1]; one = 1 << bpno; poshalf = one >> 1; neghalf = bpno > 0 ? -poshalf : -1; for (k = 0; k < t1->h; k += 4) { for (i = 0; i < t1->w; ++i) { opj_colflag_t *colflags2 = colflags1 + i; for (j = k; j < k + 4 && j < t1->h; ++j) { opj_t1_dec_refpass_step_raw( t1, colflags2, &t1->data[(j * t1->w) + i], poshalf, neghalf, j - k); } } colflags1 += t1->flags_stride; } } /* VSC and BYPASS by Antonin */ #define opj_t1_dec_refpass_mqc_internal(t1, bpno, w, h, flags_stride) \ { \ OPJ_INT32 one, poshalf, neghalf; \ OPJ_UINT32 i, j, k; \ OPJ_INT32 *data1 = t1->data; \ opj_flag_t *flags1 = &t1->flags[1]; \ opj_colflag_t *colflags1 = &t1->colflags[flags_stride + 1]; \ one = 1 << bpno; \ poshalf = one >> 1; \ neghalf = bpno > 0 ? -poshalf : -1; \ for (k = 0; k < (h & ~3u); k += 4) { \ for (i = 0; i < w; ++i) { \ OPJ_INT32 *data2 = data1 + i; \ opj_flag_t *flags2 = flags1 + i; \ opj_colflag_t *colflags2 = colflags1 + i; \ if( *colflags2 == 0 ) continue; \ flags2 += flags_stride; \ opj_t1_dec_refpass_step_mqc(t1, flags2, colflags2, data2, poshalf, neghalf, 0U); \ data2 += w; \ flags2 += flags_stride; \ opj_t1_dec_refpass_step_mqc(t1, flags2, colflags2, data2, poshalf, neghalf, 1U); \ data2 += w; \ flags2 += flags_stride; \ opj_t1_dec_refpass_step_mqc(t1, flags2, colflags2, data2, poshalf, neghalf, 2U); \ data2 += w; \ flags2 += flags_stride; \ opj_t1_dec_refpass_step_mqc(t1, flags2, colflags2, data2, poshalf, neghalf, 3U); \ data2 += w; \ } \ data1 += w << 2; \ flags1 += flags_stride << 2; \ colflags1 += flags_stride; \ } \ for (i = 0; i < w; ++i) { \ OPJ_INT32 *data2 = data1 + i; \ opj_flag_t *flags2 = flags1 + i; \ opj_colflag_t *colflags2 = colflags1 + i; \ for (j = k; j < h; ++j) { \ flags2 += flags_stride; \ opj_t1_dec_refpass_step_mqc(t1, flags2, colflags2, data2, poshalf, neghalf, j - k); \ data2 += w; \ } \ } \ } static void opj_t1_dec_refpass_mqc_64x64( opj_t1_t *t1, OPJ_INT32 bpno) { opj_t1_dec_refpass_mqc_internal(t1, bpno, 64, 64, 66); } static void opj_t1_dec_refpass_mqc_generic( opj_t1_t *t1, OPJ_INT32 bpno) { opj_t1_dec_refpass_mqc_internal(t1, bpno, t1->w, t1->h, t1->flags_stride); } /* VSC and BYPASS by Antonin */ static void opj_t1_dec_refpass_mqc_vsc( opj_t1_t *t1, OPJ_INT32 bpno) { OPJ_INT32 one, poshalf, neghalf; OPJ_UINT32 i, j, k; OPJ_INT32 vsc; OPJ_INT32 *data1 = t1->data; opj_flag_t *flags1 = &t1->flags[1]; opj_colflag_t *colflags1 = &t1->colflags[t1->flags_stride + 1]; one = 1 << bpno; poshalf = one >> 1; neghalf = bpno > 0 ? -poshalf : -1; for (k = 0; k < (t1->h & ~(OPJ_UINT32)3U); k += 4U) { for (i = 0; i < t1->w; ++i) { OPJ_INT32 *data2 = data1 + i; opj_flag_t *flags2 = flags1 + i; opj_colflag_t *colflags2 = colflags1 + i; flags2 += t1->flags_stride; opj_t1_dec_refpass_step_mqc_vsc(t1, flags2, colflags2, data2, poshalf, neghalf, 0, 0U); data2 += t1->w; flags2 += t1->flags_stride; opj_t1_dec_refpass_step_mqc_vsc(t1, flags2, colflags2, data2, poshalf, neghalf, 0, 1U); data2 += t1->w; flags2 += t1->flags_stride; opj_t1_dec_refpass_step_mqc_vsc(t1, flags2, colflags2, data2, poshalf, neghalf, 0, 2U); data2 += t1->w; flags2 += t1->flags_stride; opj_t1_dec_refpass_step_mqc_vsc(t1, flags2, colflags2, data2, poshalf, neghalf, 1, 3U); data2 += t1->w; } data1 += t1->w << 2; flags1 += t1->flags_stride << 2; colflags1 += t1->flags_stride; } for (i = 0; i < t1->w; ++i) { opj_colflag_t *colflags2 = colflags1 + i; for (j = k; j < t1->h; ++j) { vsc = (j == t1->h - 1) ? 1 : 0; opj_t1_dec_refpass_step_mqc_vsc( t1, &t1->flags[((j+1) * t1->flags_stride) + i + 1], colflags2, &t1->data[(j * t1->w) + i], poshalf, neghalf, vsc, j - k); } } } /* VSC and BYPASS by Antonin */ static void opj_t1_enc_clnpass_step( opj_t1_t *t1, opj_flag_t *flagsp, OPJ_INT32 *datap, OPJ_INT32 bpno, OPJ_INT32 one, OPJ_INT32 *nmsedec, OPJ_UINT32 partial, OPJ_UINT32 vsc) { OPJ_INT32 v; OPJ_UINT32 flag; opj_mqc_t *mqc = t1->mqc; /* MQC component */ flag = vsc ? (OPJ_UINT32)((*flagsp) & (~(T1_SIG_S | T1_SIG_SE | T1_SIG_SW | T1_SGN_S))) : (OPJ_UINT32)(*flagsp); if (partial) { goto LABEL_PARTIAL; } if (!(*flagsp & (T1_SIG | T1_VISIT))) { opj_mqc_setcurctx(mqc, opj_t1_getctxno_zc(mqc, flag)); v = (opj_int_abs(*datap) & one) ? 1 : 0; opj_mqc_encode(mqc, (OPJ_UINT32)v); if (v) { LABEL_PARTIAL: *nmsedec += opj_t1_getnmsedec_sig((OPJ_UINT32)opj_int_abs(*datap), (OPJ_UINT32)(bpno)); opj_mqc_setcurctx(mqc, opj_t1_getctxno_sc(flag)); v = *datap < 0 ? 1 : 0; opj_mqc_encode(mqc, (OPJ_UINT32)(v ^ opj_t1_getspb((OPJ_UINT32)flag))); opj_t1_updateflags(flagsp, (OPJ_UINT32)v, t1->flags_stride); } } *flagsp &= (opj_flag_t)~T1_VISIT; } static void opj_t1_dec_clnpass_step_partial( opj_t1_t *t1, opj_flag_t *flagsp, opj_colflag_t *colflagsp, OPJ_INT32 *datap, OPJ_INT32 oneplushalf, OPJ_UINT32 row) { OPJ_INT32 v, flag; opj_mqc_t *mqc = t1->mqc; /* MQC component */ flag = *flagsp; opj_mqc_setcurctx(mqc, opj_t1_getctxno_sc((OPJ_UINT32)flag)); v = opj_mqc_decode(mqc) ^ opj_t1_getspb((OPJ_UINT32)flag); *datap = v ? -oneplushalf : oneplushalf; opj_t1_updateflagscolflags(flagsp, colflagsp, (OPJ_UINT32)v, t1->flags_stride, row); #ifdef CONSISTENCY_CHECK *flagsp &= ~T1_VISIT; #endif } /* VSC and BYPASS by Antonin */ static void opj_t1_dec_clnpass_step( opj_t1_t *t1, opj_flag_t *flagsp, opj_colflag_t *colflagsp, OPJ_INT32 *datap, OPJ_INT32 oneplushalf, OPJ_UINT32 row) { OPJ_INT32 v, flag; opj_mqc_t *mqc = t1->mqc; /* MQC component */ #ifdef CONSISTENCY_CHECK assert( (!(*flagsp & (T1_SIG | T1_VISIT))) == (!(*colflagsp & ((T1_COLFLAG_SIG_ROW_0 | T1_COLFLAG_VISIT_ROW_0) << (4*row)))) ); #endif if (!(*colflagsp & ((T1_COLFLAG_SIG_ROW_0 | T1_COLFLAG_VISIT_ROW_0) << (4*row)))) { flag = *flagsp; opj_mqc_setcurctx(mqc, opj_t1_getctxno_zc(mqc, (OPJ_UINT32)flag)); if (opj_mqc_decode(mqc)) { opj_mqc_setcurctx(mqc, opj_t1_getctxno_sc((OPJ_UINT32)flag)); v = opj_mqc_decode(mqc) ^ opj_t1_getspb((OPJ_UINT32)flag); *datap = v ? -oneplushalf : oneplushalf; opj_t1_updateflagscolflags(flagsp, colflagsp, (OPJ_UINT32)v, t1->flags_stride, row); } } #ifdef CONSISTENCY_CHECK *flagsp &= ~T1_VISIT; #endif } /* VSC and BYPASS by Antonin */ static void opj_t1_dec_clnpass_step_only_if_flag_not_sig_visit( opj_t1_t *t1, opj_flag_t *flagsp, opj_colflag_t *colflagsp, OPJ_INT32 *datap, OPJ_INT32 oneplushalf, OPJ_UINT32 row, OPJ_UINT32 flags_stride) { OPJ_INT32 v; OPJ_INT32 flag; opj_mqc_t *mqc = t1->mqc; /* MQC component */ flag = *flagsp; /*if (!(flag & (T1_SIG | T1_VISIT)))*/ { opj_mqc_setcurctx(mqc, opj_t1_getctxno_zc(mqc, (OPJ_UINT32)flag)); if (opj_mqc_decode(mqc)) { opj_mqc_setcurctx(mqc, opj_t1_getctxno_sc((OPJ_UINT32)flag)); v = opj_mqc_decode(mqc) ^ opj_t1_getspb((OPJ_UINT32)flag); *datap = v ? -oneplushalf : oneplushalf; opj_t1_updateflagscolflags(flagsp, colflagsp, (OPJ_UINT32)v, flags_stride, row); } } /*flagsp &= ~T1_VISIT;*/ } static void opj_t1_dec_clnpass_step_vsc( opj_t1_t *t1, opj_flag_t *flagsp, opj_colflag_t *colflagsp, OPJ_INT32 *datap, OPJ_INT32 oneplushalf, OPJ_INT32 partial, OPJ_INT32 vsc, OPJ_UINT32 row) { OPJ_UINT32 v, flag; opj_mqc_t *mqc = t1->mqc; /* MQC component */ flag = vsc ? ((*flagsp) & (~(T1_SIG_S | T1_SIG_SE | T1_SIG_SW | T1_SGN_S))) : (*flagsp); if (partial) { goto LABEL_PARTIAL; } if (!(*colflagsp & ((T1_COLFLAG_SIG_ROW_0 | T1_COLFLAG_VISIT_ROW_0) << (T1_COLFLAG_RBS * row)))) { opj_mqc_setcurctx(mqc, opj_t1_getctxno_zc(mqc, flag)); if (opj_mqc_decode(mqc)) { LABEL_PARTIAL: opj_mqc_setcurctx(mqc, opj_t1_getctxno_sc(flag)); v = (OPJ_UINT32)opj_mqc_decode(mqc) ^ opj_t1_getspb(flag); *datap = v ? -oneplushalf : oneplushalf; opj_t1_updateflagscolflags(flagsp, colflagsp, v, t1->flags_stride, row); } } #ifdef CONSISTENCY_CHECK *flagsp &= ~T1_VISIT; #endif } static void opj_t1_enc_clnpass( opj_t1_t *t1, OPJ_INT32 bpno, OPJ_INT32 *nmsedec, OPJ_UINT32 cblksty) { OPJ_UINT32 i, j, k; OPJ_INT32 one; OPJ_UINT32 agg, runlen, vsc; opj_mqc_t *mqc = t1->mqc; /* MQC component */ *nmsedec = 0; one = 1 << (bpno + T1_NMSEDEC_FRACBITS); for (k = 0; k < t1->h; k += 4) { for (i = 0; i < t1->w; ++i) { if (k + 3 < t1->h) { if (cblksty & J2K_CCP_CBLKSTY_VSC) { agg = !(MACRO_t1_flags(1 + k,1 + i) & (T1_SIG | T1_VISIT | T1_SIG_OTH) || MACRO_t1_flags(1 + k + 1,1 + i) & (T1_SIG | T1_VISIT | T1_SIG_OTH) || MACRO_t1_flags(1 + k + 2,1 + i) & (T1_SIG | T1_VISIT | T1_SIG_OTH) || (MACRO_t1_flags(1 + k + 3,1 + i) & (~(T1_SIG_S | T1_SIG_SE | T1_SIG_SW | T1_SGN_S))) & (T1_SIG | T1_VISIT | T1_SIG_OTH)); } else { agg = !((MACRO_t1_flags(1 + k,1 + i) | MACRO_t1_flags(1 + k + 1,1 + i) | MACRO_t1_flags(1 + k + 2,1 + i) | MACRO_t1_flags(1 + k + 3,1 + i)) & (T1_SIG | T1_VISIT | T1_SIG_OTH)); } } else { agg = 0; } if (agg) { for (runlen = 0; runlen < 4; ++runlen) { if (opj_int_abs(t1->data[((k + runlen)*t1->data_stride) + i]) & one) break; } opj_mqc_setcurctx(mqc, T1_CTXNO_AGG); opj_mqc_encode(mqc, runlen != 4); if (runlen == 4) { continue; } opj_mqc_setcurctx(mqc, T1_CTXNO_UNI); opj_mqc_encode(mqc, runlen >> 1); opj_mqc_encode(mqc, runlen & 1); } else { runlen = 0; } for (j = k + runlen; j < k + 4 && j < t1->h; ++j) { vsc = ((cblksty & J2K_CCP_CBLKSTY_VSC) && (j == k + 3 || j == t1->h - 1)) ? 1 : 0; opj_t1_enc_clnpass_step( t1, &t1->flags[((j+1) * t1->flags_stride) + i + 1], &t1->data[(j * t1->data_stride) + i], bpno, one, nmsedec, agg && (j == k + runlen), vsc); } } } } #define MACRO_t1_flags_internal(x,y,flags_stride) t1->flags[((x)*(flags_stride))+(y)] #define opj_t1_dec_clnpass_internal(consistency_check, t1, bpno, cblksty, w, h, flags_stride) \ { \ OPJ_INT32 one, half, oneplushalf, agg, runlen, vsc; \ OPJ_UINT32 i, j, k; \ OPJ_INT32 segsym = cblksty & J2K_CCP_CBLKSTY_SEGSYM; \ \ opj_mqc_t *mqc = t1->mqc; /* MQC component */ \ \ one = 1 << bpno; \ half = one >> 1; \ oneplushalf = one | half; \ if (cblksty & J2K_CCP_CBLKSTY_VSC) { \ opj_colflag_t *colflags1 = &t1->colflags[flags_stride + 1]; \ for (k = 0; k < h; k += 4) { \ for (i = 0; i < w; ++i) { \ opj_colflag_t *colflags2 = colflags1 + i; \ if (k + 3 < h) { \ agg = !((*colflags2 & (T1_COLFLAG_SIG_ROW_0 | T1_COLFLAG_VISIT_ROW_0 | T1_COLFLAG_SIG_OTHER_ROW_0 | \ T1_COLFLAG_SIG_ROW_1 | T1_COLFLAG_VISIT_ROW_1 | T1_COLFLAG_SIG_OTHER_ROW_1 | \ T1_COLFLAG_SIG_ROW_2 | T1_COLFLAG_VISIT_ROW_2 | T1_COLFLAG_SIG_OTHER_ROW_2 | \ T1_COLFLAG_SIG_ROW_3 | T1_COLFLAG_VISIT_ROW_3)) || \ ((MACRO_t1_flags_internal(1 + k + 3,1 + i,flags_stride) \ & ((~(T1_SIG_S | T1_SIG_SE | T1_SIG_SW | T1_SGN_S))) & (T1_SIG_OTH)))); \ } else { \ agg = 0; \ } \ if (agg) { \ opj_mqc_setcurctx(mqc, T1_CTXNO_AGG); \ if (!opj_mqc_decode(mqc)) { \ continue; \ } \ opj_mqc_setcurctx(mqc, T1_CTXNO_UNI); \ runlen = opj_mqc_decode(mqc); \ runlen = (runlen << 1) | opj_mqc_decode(mqc); \ } else { \ runlen = 0; \ } \ for (j = k + (OPJ_UINT32)runlen; j < k + 4 && j < h; ++j) { \ vsc = (j == k + 3 || j == h - 1) ? 1 : 0; \ opj_t1_dec_clnpass_step_vsc( \ t1, \ &t1->flags[((j+1) * flags_stride) + i + 1], \ colflags2, \ &t1->data[(j * w) + i], \ oneplushalf, \ agg && (j == k + (OPJ_UINT32)runlen), \ vsc, j - k); \ } \ *colflags2 &= (opj_colflag_t)~(T1_COLFLAG_VISIT_ROW_0 | T1_COLFLAG_VISIT_ROW_1 | T1_COLFLAG_VISIT_ROW_2 | T1_COLFLAG_VISIT_ROW_3); \ } \ colflags1 += flags_stride; \ } \ } else { \ OPJ_INT32 *data1 = t1->data; \ opj_flag_t *flags1 = &t1->flags[1]; \ opj_colflag_t *colflags1 = &t1->colflags[flags_stride + 1]; \ for (k = 0; k < (h & ~3u); k += 4) { \ for (i = 0; i < w; ++i) { \ OPJ_INT32 *data2 = data1 + i; \ opj_flag_t *flags2 = flags1 + i; \ opj_colflag_t *colflags2 = colflags1 + i; \ opj_colflag_t colflags = *colflags2; \ agg = !(colflags & (T1_COLFLAG_SIG_ROW_0 | T1_COLFLAG_VISIT_ROW_0 | T1_COLFLAG_SIG_OTHER_ROW_0 | \ T1_COLFLAG_SIG_ROW_1 | T1_COLFLAG_VISIT_ROW_1 | T1_COLFLAG_SIG_OTHER_ROW_1 | \ T1_COLFLAG_SIG_ROW_2 | T1_COLFLAG_VISIT_ROW_2 | T1_COLFLAG_SIG_OTHER_ROW_2 | \ T1_COLFLAG_SIG_ROW_3 | T1_COLFLAG_VISIT_ROW_3 | T1_COLFLAG_SIG_OTHER_ROW_3)); \ if( consistency_check ) { \ assert( agg == !((MACRO_t1_flags_internal(1 + k, 1 + i,flags_stride) | \ MACRO_t1_flags_internal(1 + k + 1, 1 + i,flags_stride) | \ MACRO_t1_flags_internal(1 + k + 2, 1 + i,flags_stride) | \ MACRO_t1_flags_internal(1 + k + 3, 1 + i,flags_stride)) & (T1_SIG | T1_VISIT | T1_SIG_OTH)) ); \ } \ if (agg) { \ opj_mqc_setcurctx(mqc, T1_CTXNO_AGG); \ if (!opj_mqc_decode(mqc)) { \ continue; \ } \ opj_mqc_setcurctx(mqc, T1_CTXNO_UNI); \ runlen = opj_mqc_decode(mqc); \ runlen = (runlen << 1) | opj_mqc_decode(mqc); \ flags2 += (OPJ_UINT32)runlen * flags_stride; \ data2 += (OPJ_UINT32)runlen * w; \ for (j = (OPJ_UINT32)runlen; j < 4; ++j) { \ flags2 += flags_stride; \ if (j == (OPJ_UINT32)runlen) { \ opj_t1_dec_clnpass_step_partial(t1, flags2, colflags2, data2, oneplushalf, j); \ } else { \ opj_t1_dec_clnpass_step(t1, flags2, colflags2, data2, oneplushalf, j); \ } \ data2 += w; \ } \ } else { \ flags2 += flags_stride; \ if( consistency_check ) { assert( (!(colflags & (T1_COLFLAG_SIG_ROW_0 | T1_COLFLAG_VISIT_ROW_0))) == (!(*flags2 & (T1_SIG | T1_VISIT))) ); } \ if (!(colflags & (T1_COLFLAG_SIG_ROW_0 | T1_COLFLAG_VISIT_ROW_0))) {\ opj_t1_dec_clnpass_step_only_if_flag_not_sig_visit(t1, flags2, colflags2, data2, oneplushalf, 0U, flags_stride); \ } \ if( consistency_check ) *flags2 &= (opj_flag_t)~T1_VISIT; \ data2 += w; \ flags2 += flags_stride; \ if( consistency_check ) { assert( (!(colflags & (T1_COLFLAG_SIG_ROW_1 | T1_COLFLAG_VISIT_ROW_1))) == (!(*flags2 & (T1_SIG | T1_VISIT))) ); } \ if (!(colflags & (T1_COLFLAG_SIG_ROW_1 | T1_COLFLAG_VISIT_ROW_1))) {\ opj_t1_dec_clnpass_step_only_if_flag_not_sig_visit(t1, flags2, colflags2, data2, oneplushalf, 1U, flags_stride); \ } \ if( consistency_check ) *flags2 &= (opj_flag_t)~T1_VISIT; \ data2 += w; \ flags2 += flags_stride; \ if( consistency_check ) { assert( (!(colflags & (T1_COLFLAG_SIG_ROW_2 | T1_COLFLAG_VISIT_ROW_2))) == (!(*flags2 & (T1_SIG | T1_VISIT))) ); } \ if (!(colflags & (T1_COLFLAG_SIG_ROW_2 | T1_COLFLAG_VISIT_ROW_2))) {\ opj_t1_dec_clnpass_step_only_if_flag_not_sig_visit(t1, flags2, colflags2, data2, oneplushalf, 2U, flags_stride); \ } \ if( consistency_check ) *flags2 &= (opj_flag_t)~T1_VISIT; \ data2 += w; \ flags2 += flags_stride; \ if( consistency_check ) { assert( (!(colflags & (T1_COLFLAG_SIG_ROW_3 | T1_COLFLAG_VISIT_ROW_3))) == (!(*flags2 & (T1_SIG | T1_VISIT))) ); } \ if (!(colflags & (T1_COLFLAG_SIG_ROW_3 | T1_COLFLAG_VISIT_ROW_3))) {\ opj_t1_dec_clnpass_step_only_if_flag_not_sig_visit(t1, flags2, colflags2, data2, oneplushalf, 3U, flags_stride); \ } \ if( consistency_check ) *flags2 &= (opj_flag_t)~T1_VISIT; \ data2 += w; \ } \ *colflags2 &= (opj_colflag_t)~(T1_COLFLAG_VISIT_ROW_0 | T1_COLFLAG_VISIT_ROW_1 | T1_COLFLAG_VISIT_ROW_2 | T1_COLFLAG_VISIT_ROW_3); \ } \ data1 += w << 2; \ flags1 += flags_stride << 2; \ colflags1 += flags_stride; \ } \ for (i = 0; i < w; ++i) { \ OPJ_INT32 *data2 = data1 + i; \ opj_flag_t *flags2 = flags1 + i; \ opj_colflag_t *colflags2 = colflags1 + i; \ for (j = k; j < h; ++j) { \ flags2 += flags_stride; \ opj_t1_dec_clnpass_step(t1, flags2, colflags2, data2, oneplushalf, j - k); \ data2 += w; \ } \ *colflags2 &= (opj_colflag_t)~(T1_COLFLAG_VISIT_ROW_0 | T1_COLFLAG_VISIT_ROW_1 | T1_COLFLAG_VISIT_ROW_2 | T1_COLFLAG_VISIT_ROW_3); \ } \ } \ \ if (segsym) { \ OPJ_INT32 v = 0; \ opj_mqc_setcurctx(mqc, T1_CTXNO_UNI); \ v = opj_mqc_decode(mqc); \ v = (v << 1) | opj_mqc_decode(mqc); \ v = (v << 1) | opj_mqc_decode(mqc); \ v = (v << 1) | opj_mqc_decode(mqc); \ /* \ if (v!=0xa) { \ opj_event_msg(t1->cinfo, EVT_WARNING, "Bad segmentation symbol %x\n", v); \ } \ */ \ } \ } /* VSC and BYPASS by Antonin */ static void opj_t1_dec_clnpass_64x64( opj_t1_t *t1, OPJ_INT32 bpno, OPJ_INT32 cblksty) { #ifdef CONSISTENCY_CHECK opj_t1_dec_clnpass_internal(OPJ_TRUE, t1, bpno, cblksty, 64, 64, 66); #else opj_t1_dec_clnpass_internal(OPJ_FALSE, t1, bpno, cblksty, 64, 64, 66); #endif } static void opj_t1_dec_clnpass_generic( opj_t1_t *t1, OPJ_INT32 bpno, OPJ_INT32 cblksty) { #ifdef CONSISTENCY_CHECK opj_t1_dec_clnpass_internal(OPJ_TRUE, t1, bpno, cblksty, t1->w, t1->h, t1->flags_stride); #else opj_t1_dec_clnpass_internal(OPJ_FALSE, t1, bpno, cblksty, t1->w, t1->h, t1->flags_stride); #endif } /** mod fixed_quality */ static OPJ_FLOAT64 opj_t1_getwmsedec( OPJ_INT32 nmsedec, OPJ_UINT32 compno, OPJ_UINT32 level, OPJ_UINT32 orient, OPJ_INT32 bpno, OPJ_UINT32 qmfbid, OPJ_FLOAT64 stepsize, OPJ_UINT32 numcomps, const OPJ_FLOAT64 * mct_norms, OPJ_UINT32 mct_numcomps) { OPJ_FLOAT64 w1 = 1, w2, wmsedec; OPJ_ARG_NOT_USED(numcomps); if (mct_norms && (compno < mct_numcomps)) { w1 = mct_norms[compno]; } if (qmfbid == 1) { w2 = opj_dwt_getnorm(level, orient); } else { /* if (qmfbid == 0) */ w2 = opj_dwt_getnorm_real(level, orient); } wmsedec = w1 * w2 * stepsize * (1 << bpno); wmsedec *= wmsedec * nmsedec / 8192.0; return wmsedec; } static OPJ_BOOL opj_t1_allocate_buffers( opj_t1_t *t1, OPJ_UINT32 w, OPJ_UINT32 h) { /* encoder uses tile buffer, so no need to allocate */ if (!t1->encoder) { size_t datasize; #if (SIZE_MAX / 0xFFFFFFFFU) < 0xFFFFFFFFU /* UINT32_MAX */ /* Overflow check */ if ((w > 0U) && ((size_t)h > (SIZE_MAX / (size_t)w))) { /* FIXME event manager error callback */ return OPJ_FALSE; } #endif datasize = (size_t)w * h; /* Overflow check */ if (datasize > (SIZE_MAX / sizeof(OPJ_INT32))) { /* FIXME event manager error callback */ return OPJ_FALSE; } if(datasize > (size_t)t1->datasize){ opj_aligned_free(t1->data); t1->data = (OPJ_INT32*) opj_aligned_malloc(datasize * sizeof(OPJ_INT32)); if(!t1->data){ /* FIXME event manager error callback */ return OPJ_FALSE; } #if SIZE_MAX > 0xFFFFFFFFU /* UINT32_MAX */ /* TODO remove this if t1->datasize type changes to size_t */ /* Overflow check */ if (datasize > (size_t)0xFFFFFFFFU /* UINT32_MAX */) { /* FIXME event manager error callback */ return OPJ_FALSE; } #endif t1->datasize = (OPJ_UINT32)datasize; } /* memset first arg is declared to never be null by gcc */ if (t1->data != NULL) { memset(t1->data, 0, datasize * sizeof(OPJ_INT32)); } } { size_t flagssize; /* Overflow check */ if (w > (0xFFFFFFFFU /* UINT32_MAX */ - 2U)) { /* FIXME event manager error callback */ return OPJ_FALSE; } t1->flags_stride = w + 2U; /* can't be 0U */ #if (SIZE_MAX - 3U) < 0xFFFFFFFFU /* UINT32_MAX */ /* Overflow check */ if (h > (0xFFFFFFFFU /* UINT32_MAX */ - 3U)) { /* FIXME event manager error callback */ return OPJ_FALSE; } #endif flagssize = (size_t)h + 3U; /* Overflow check */ if (flagssize > (SIZE_MAX / (size_t)t1->flags_stride)) { /* FIXME event manager error callback */ return OPJ_FALSE; } flagssize *= (size_t)t1->flags_stride; if(flagssize > (size_t)t1->flagssize){ /* Overflow check */ if (flagssize > (SIZE_MAX / sizeof(opj_flag_t))) { /* FIXME event manager error callback */ return OPJ_FALSE; } opj_aligned_free(t1->flags); t1->flags = (opj_flag_t*) opj_aligned_malloc(flagssize * sizeof(opj_flag_t)); if(!t1->flags){ /* FIXME event manager error callback */ return OPJ_FALSE; } #if SIZE_MAX > 0xFFFFFFFFU /* UINT32_MAX */ /* TODO remove this if t1->flagssize type changes to size_t */ /* Overflow check */ if (flagssize > (size_t)0xFFFFFFFFU /* UINT32_MAX */) { /* FIXME event manager error callback */ return OPJ_FALSE; } #endif t1->flagssize = (OPJ_UINT32)flagssize; } memset(t1->flags, 0, flagssize * sizeof(opj_flag_t)); } if (!t1->encoder) { size_t colflags_size = ((((size_t)h + 3U) / 4U) + 2U); /* Can't overflow, h checked against UINT32_MAX - 3U */ /* Overflow check */ if (colflags_size > (SIZE_MAX / (size_t)t1->flags_stride)) { /* FIXME event manager error callback */ return OPJ_FALSE; } colflags_size *= (size_t)t1->flags_stride; if(colflags_size > (size_t)t1->colflags_size){ /* Overflow check */ if ((size_t)colflags_size > (SIZE_MAX / sizeof(opj_colflag_t))) { /* FIXME event manager error callback */ return OPJ_FALSE; } opj_aligned_free(t1->colflags); t1->colflags = (opj_colflag_t*) opj_aligned_malloc(colflags_size * sizeof(opj_colflag_t)); if(!t1->colflags){ /* FIXME event manager error callback */ return OPJ_FALSE; } #if SIZE_MAX > 0xFFFFFFFFU /* UINT32_MAX */ /* TODO remove this if t1->colflags_size type changes to size_t */ /* Overflow check */ if (colflags_size > (size_t)0xFFFFFFFFU /* UINT32_MAX */) { /* FIXME event manager error callback */ return OPJ_FALSE; } #endif t1->colflags_size = (OPJ_UINT32)colflags_size; } memset(t1->colflags, 0, colflags_size * sizeof(opj_colflag_t)); } t1->w = w; t1->h = h; return OPJ_TRUE; } /* ----------------------------------------------------------------------- */ /* ----------------------------------------------------------------------- */ /** * Creates a new Tier 1 handle * and initializes the look-up tables of the Tier-1 coder/decoder * @return a new T1 handle if successful, returns NULL otherwise */ opj_t1_t* opj_t1_create(OPJ_BOOL isEncoder) { opj_t1_t *l_t1 = 00; l_t1 = (opj_t1_t*) opj_calloc(1,sizeof(opj_t1_t)); if (!l_t1) { return 00; } /* create MQC and RAW handles */ l_t1->mqc = opj_mqc_create(); if (! l_t1->mqc) { opj_t1_destroy(l_t1); return 00; } l_t1->raw = opj_raw_create(); if (! l_t1->raw) { opj_t1_destroy(l_t1); return 00; } l_t1->encoder = isEncoder; return l_t1; } /** * Destroys a previously created T1 handle * * @param p_t1 Tier 1 handle to destroy */ void opj_t1_destroy(opj_t1_t *p_t1) { if (! p_t1) { return; } /* destroy MQC and RAW handles */ opj_mqc_destroy(p_t1->mqc); p_t1->mqc = 00; opj_raw_destroy(p_t1->raw); p_t1->raw = 00; /* encoder uses tile buffer, so no need to free */ if (!p_t1->encoder && p_t1->data) { opj_aligned_free(p_t1->data); p_t1->data = 00; } if (p_t1->flags) { opj_aligned_free(p_t1->flags); p_t1->flags = 00; } if (p_t1->colflags) { opj_aligned_free(p_t1->colflags); p_t1->colflags = 00; } opj_free(p_t1); } typedef struct { OPJ_UINT32 resno; opj_tcd_cblk_dec_t* cblk; opj_tcd_band_t* band; opj_tcd_tilecomp_t* tilec; opj_tccp_t* tccp; volatile OPJ_BOOL* pret; } opj_t1_cblk_decode_processing_job_t; static void opj_t1_destroy_wrapper(void* t1) { opj_t1_destroy( (opj_t1_t*) t1 ); } static void opj_t1_clbl_decode_processor(void* user_data, opj_tls_t* tls) { opj_tcd_cblk_dec_t* cblk; opj_tcd_band_t* band; opj_tcd_tilecomp_t* tilec; opj_tccp_t* tccp; OPJ_INT32* OPJ_RESTRICT datap; OPJ_UINT32 cblk_w, cblk_h; OPJ_INT32 x, y; OPJ_UINT32 i, j; opj_t1_cblk_decode_processing_job_t* job; opj_t1_t* t1; OPJ_UINT32 resno; OPJ_UINT32 tile_w; job = (opj_t1_cblk_decode_processing_job_t*) user_data; resno = job->resno; cblk = job->cblk; band = job->band; tilec = job->tilec; tccp = job->tccp; tile_w = (OPJ_UINT32)(tilec->x1 - tilec->x0); if( !*(job->pret) ) { opj_free(job); return; } t1 = (opj_t1_t*) opj_tls_get(tls, OPJ_TLS_KEY_T1); if( t1 == NULL ) { t1 = opj_t1_create( OPJ_FALSE ); opj_tls_set( tls, OPJ_TLS_KEY_T1, t1, opj_t1_destroy_wrapper ); } if (OPJ_FALSE == opj_t1_decode_cblk( t1, cblk, band->bandno, (OPJ_UINT32)tccp->roishift, tccp->cblksty)) { *(job->pret) = OPJ_FALSE; opj_free(job); return; } x = cblk->x0 - band->x0; y = cblk->y0 - band->y0; if (band->bandno & 1) { opj_tcd_resolution_t* pres = &tilec->resolutions[resno - 1]; x += pres->x1 - pres->x0; } if (band->bandno & 2) { opj_tcd_resolution_t* pres = &tilec->resolutions[resno - 1]; y += pres->y1 - pres->y0; } datap=t1->data; cblk_w = t1->w; cblk_h = t1->h; if (tccp->roishift) { OPJ_INT32 thresh = 1 << tccp->roishift; for (j = 0; j < cblk_h; ++j) { for (i = 0; i < cblk_w; ++i) { OPJ_INT32 val = datap[(j * cblk_w) + i]; OPJ_INT32 mag = abs(val); if (mag >= thresh) { mag >>= tccp->roishift; datap[(j * cblk_w) + i] = val < 0 ? -mag : mag; } } } } if (tccp->qmfbid == 1) { OPJ_INT32* OPJ_RESTRICT tiledp = &tilec->data[(OPJ_UINT32)y * tile_w + (OPJ_UINT32)x]; for (j = 0; j < cblk_h; ++j) { i = 0; for (; i < (cblk_w & ~(OPJ_UINT32)3U); i += 4U) { OPJ_INT32 tmp0 = datap[(j * cblk_w) + i + 0U]; OPJ_INT32 tmp1 = datap[(j * cblk_w) + i + 1U]; OPJ_INT32 tmp2 = datap[(j * cblk_w) + i + 2U]; OPJ_INT32 tmp3 = datap[(j * cblk_w) + i + 3U]; ((OPJ_INT32*)tiledp)[(j * tile_w) + i + 0U] = tmp0 / 2; ((OPJ_INT32*)tiledp)[(j * tile_w) + i + 1U] = tmp1 / 2; ((OPJ_INT32*)tiledp)[(j * tile_w) + i + 2U] = tmp2 / 2; ((OPJ_INT32*)tiledp)[(j * tile_w) + i + 3U] = tmp3 / 2; } for (; i < cblk_w; ++i) { OPJ_INT32 tmp = datap[(j * cblk_w) + i]; ((OPJ_INT32*)tiledp)[(j * tile_w) + i] = tmp / 2; } } } else { /* if (tccp->qmfbid == 0) */ OPJ_FLOAT32* OPJ_RESTRICT tiledp = (OPJ_FLOAT32*) &tilec->data[(OPJ_UINT32)y * tile_w + (OPJ_UINT32)x]; for (j = 0; j < cblk_h; ++j) { OPJ_FLOAT32* OPJ_RESTRICT tiledp2 = tiledp; for (i = 0; i < cblk_w; ++i) { OPJ_FLOAT32 tmp = (OPJ_FLOAT32)*datap * band->stepsize; *tiledp2 = tmp; datap++; tiledp2++; } tiledp += tile_w; } } opj_free(job); } void opj_t1_decode_cblks( opj_thread_pool_t* tp, volatile OPJ_BOOL* pret, opj_tcd_tilecomp_t* tilec, opj_tccp_t* tccp ) { OPJ_UINT32 resno, bandno, precno, cblkno; for (resno = 0; resno < tilec->minimum_num_resolutions; ++resno) { opj_tcd_resolution_t* res = &tilec->resolutions[resno]; for (bandno = 0; bandno < res->numbands; ++bandno) { opj_tcd_band_t* OPJ_RESTRICT band = &res->bands[bandno]; for (precno = 0; precno < res->pw * res->ph; ++precno) { opj_tcd_precinct_t* precinct = &band->precincts[precno]; for (cblkno = 0; cblkno < precinct->cw * precinct->ch; ++cblkno) { opj_tcd_cblk_dec_t* cblk = &precinct->cblks.dec[cblkno]; opj_t1_cblk_decode_processing_job_t* job; job = (opj_t1_cblk_decode_processing_job_t*) opj_calloc(1, sizeof(opj_t1_cblk_decode_processing_job_t)); if( !job ) { *pret = OPJ_FALSE; return; } job->resno = resno; job->cblk = cblk; job->band = band; job->tilec = tilec; job->tccp = tccp; job->pret = pret; opj_thread_pool_submit_job( tp, opj_t1_clbl_decode_processor, job ); if( !(*pret) ) return; } /* cblkno */ } /* precno */ } /* bandno */ } /* resno */ return; } static OPJ_BOOL opj_t1_decode_cblk(opj_t1_t *t1, opj_tcd_cblk_dec_t* cblk, OPJ_UINT32 orient, OPJ_UINT32 roishift, OPJ_UINT32 cblksty) { opj_raw_t *raw = t1->raw; /* RAW component */ opj_mqc_t *mqc = t1->mqc; /* MQC component */ OPJ_INT32 bpno_plus_one; OPJ_UINT32 passtype; OPJ_UINT32 segno, passno; OPJ_BYTE type = T1_TYPE_MQ; /* BYPASS mode */ mqc->lut_ctxno_zc_orient = lut_ctxno_zc + orient * 256; if(!opj_t1_allocate_buffers( t1, (OPJ_UINT32)(cblk->x1 - cblk->x0), (OPJ_UINT32)(cblk->y1 - cblk->y0))) { return OPJ_FALSE; } bpno_plus_one = (OPJ_INT32)(roishift + cblk->numbps); passtype = 2; 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); for (segno = 0; segno < cblk->real_num_segs; ++segno) { opj_tcd_seg_t *seg = &cblk->segs[segno]; /* BYPASS mode */ type = ((bpno_plus_one <= ((OPJ_INT32) (cblk->numbps)) - 4) && (passtype < 2) && (cblksty & J2K_CCP_CBLKSTY_LAZY)) ? T1_TYPE_RAW : T1_TYPE_MQ; /* FIXME: slviewer gets here with a null pointer. Why? Partially downloaded and/or corrupt textures? */ if(seg->data == 00){ continue; } if (type == T1_TYPE_RAW) { opj_raw_init_dec(raw, (*seg->data) + seg->dataindex, seg->len); } else { if (OPJ_FALSE == opj_mqc_init_dec(mqc, (*seg->data) + seg->dataindex, seg->len)) { return OPJ_FALSE; } } if( t1->w == 64 && t1->h == 64 ) { for (passno = 0; (passno < seg->real_num_passes) && (bpno_plus_one >= 1); ++passno) { switch (passtype) { case 0: if (type == T1_TYPE_RAW) { opj_t1_dec_sigpass_raw(t1, bpno_plus_one, (OPJ_INT32)cblksty); } else { if (cblksty & J2K_CCP_CBLKSTY_VSC) { opj_t1_dec_sigpass_mqc_vsc(t1, bpno_plus_one); } else { opj_t1_dec_sigpass_mqc_64x64(t1, bpno_plus_one); } } break; case 1: if (type == T1_TYPE_RAW) { opj_t1_dec_refpass_raw(t1, bpno_plus_one); } else { if (cblksty & J2K_CCP_CBLKSTY_VSC) { opj_t1_dec_refpass_mqc_vsc(t1, bpno_plus_one); } else { opj_t1_dec_refpass_mqc_64x64(t1, bpno_plus_one); } } break; case 2: opj_t1_dec_clnpass_64x64(t1, bpno_plus_one, (OPJ_INT32)cblksty); break; } if ((cblksty & J2K_CCP_CBLKSTY_RESET) && type == T1_TYPE_MQ) { 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); } if (++passtype == 3) { passtype = 0; bpno_plus_one--; } } } else { for (passno = 0; (passno < seg->real_num_passes) && (bpno_plus_one >= 1); ++passno) { switch (passtype) { case 0: if (type == T1_TYPE_RAW) { opj_t1_dec_sigpass_raw(t1, bpno_plus_one, (OPJ_INT32)cblksty); } else { if (cblksty & J2K_CCP_CBLKSTY_VSC) { opj_t1_dec_sigpass_mqc_vsc(t1, bpno_plus_one); } else { opj_t1_dec_sigpass_mqc_generic(t1, bpno_plus_one); } } break; case 1: if (type == T1_TYPE_RAW) { opj_t1_dec_refpass_raw(t1, bpno_plus_one); } else { if (cblksty & J2K_CCP_CBLKSTY_VSC) { opj_t1_dec_refpass_mqc_vsc(t1, bpno_plus_one); } else { opj_t1_dec_refpass_mqc_generic(t1, bpno_plus_one); } } break; case 2: opj_t1_dec_clnpass_generic(t1, bpno_plus_one, (OPJ_INT32)cblksty); break; } if ((cblksty & J2K_CCP_CBLKSTY_RESET) && type == T1_TYPE_MQ) { 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); } if (++passtype == 3) { passtype = 0; bpno_plus_one--; } } } } return OPJ_TRUE; } OPJ_BOOL opj_t1_encode_cblks( opj_t1_t *t1, opj_tcd_tile_t *tile, opj_tcp_t *tcp, const OPJ_FLOAT64 * mct_norms, OPJ_UINT32 mct_numcomps ) { OPJ_UINT32 compno, resno, bandno, precno, cblkno; tile->distotile = 0; /* fixed_quality */ for (compno = 0; compno < tile->numcomps; ++compno) { opj_tcd_tilecomp_t* tilec = &tile->comps[compno]; opj_tccp_t* tccp = &tcp->tccps[compno]; OPJ_UINT32 tile_w = (OPJ_UINT32)(tilec->x1 - tilec->x0); for (resno = 0; resno < tilec->numresolutions; ++resno) { opj_tcd_resolution_t *res = &tilec->resolutions[resno]; for (bandno = 0; bandno < res->numbands; ++bandno) { opj_tcd_band_t* OPJ_RESTRICT band = &res->bands[bandno]; OPJ_INT32 bandconst = 8192 * 8192 / ((OPJ_INT32) floor(band->stepsize * 8192)); for (precno = 0; precno < res->pw * res->ph; ++precno) { opj_tcd_precinct_t *prc = &band->precincts[precno]; for (cblkno = 0; cblkno < prc->cw * prc->ch; ++cblkno) { opj_tcd_cblk_enc_t* cblk = &prc->cblks.enc[cblkno]; OPJ_INT32* OPJ_RESTRICT tiledp; OPJ_UINT32 cblk_w; OPJ_UINT32 cblk_h; OPJ_UINT32 i, j, tileIndex=0, tileLineAdvance; OPJ_INT32 x = cblk->x0 - band->x0; OPJ_INT32 y = cblk->y0 - band->y0; if (band->bandno & 1) { opj_tcd_resolution_t *pres = &tilec->resolutions[resno - 1]; x += pres->x1 - pres->x0; } if (band->bandno & 2) { opj_tcd_resolution_t *pres = &tilec->resolutions[resno - 1]; y += pres->y1 - pres->y0; } if(!opj_t1_allocate_buffers( t1, (OPJ_UINT32)(cblk->x1 - cblk->x0), (OPJ_UINT32)(cblk->y1 - cblk->y0))) { return OPJ_FALSE; } cblk_w = t1->w; cblk_h = t1->h; tileLineAdvance = tile_w - cblk_w; tiledp=&tilec->data[(OPJ_UINT32)y * tile_w + (OPJ_UINT32)x]; t1->data = tiledp; t1->data_stride = tile_w; if (tccp->qmfbid == 1) { for (j = 0; j < cblk_h; ++j) { for (i = 0; i < cblk_w; ++i) { tiledp[tileIndex] *= (1 << T1_NMSEDEC_FRACBITS); tileIndex++; } tileIndex += tileLineAdvance; } } else { /* if (tccp->qmfbid == 0) */ for (j = 0; j < cblk_h; ++j) { for (i = 0; i < cblk_w; ++i) { OPJ_INT32 tmp = tiledp[tileIndex]; tiledp[tileIndex] = opj_int_fix_mul_t1( tmp, bandconst); tileIndex++; } tileIndex += tileLineAdvance; } } opj_t1_encode_cblk( t1, cblk, band->bandno, compno, tilec->numresolutions - 1 - resno, tccp->qmfbid, band->stepsize, tccp->cblksty, tile->numcomps, tile, mct_norms, mct_numcomps); } /* cblkno */ } /* precno */ } /* bandno */ } /* resno */ } /* compno */ return OPJ_TRUE; } /** mod fixed_quality */ static void opj_t1_encode_cblk(opj_t1_t *t1, opj_tcd_cblk_enc_t* cblk, OPJ_UINT32 orient, OPJ_UINT32 compno, OPJ_UINT32 level, OPJ_UINT32 qmfbid, OPJ_FLOAT64 stepsize, OPJ_UINT32 cblksty, OPJ_UINT32 numcomps, opj_tcd_tile_t * tile, const OPJ_FLOAT64 * mct_norms, OPJ_UINT32 mct_numcomps) { OPJ_FLOAT64 cumwmsedec = 0.0; opj_mqc_t *mqc = t1->mqc; /* MQC component */ OPJ_UINT32 passno; OPJ_INT32 bpno; OPJ_UINT32 passtype; OPJ_INT32 nmsedec = 0; OPJ_INT32 max; OPJ_UINT32 i, j; OPJ_BYTE type = T1_TYPE_MQ; OPJ_FLOAT64 tempwmsedec; mqc->lut_ctxno_zc_orient = lut_ctxno_zc + orient * 256; max = 0; for (i = 0; i < t1->w; ++i) { for (j = 0; j < t1->h; ++j) { OPJ_INT32 tmp = abs(t1->data[i + j*t1->data_stride]); max = opj_int_max(max, tmp); } } cblk->numbps = max ? (OPJ_UINT32)((opj_int_floorlog2(max) + 1) - T1_NMSEDEC_FRACBITS) : 0; bpno = (OPJ_INT32)(cblk->numbps - 1); passtype = 2; 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_mqc_init_enc(mqc, cblk->data); for (passno = 0; bpno >= 0; ++passno) { opj_tcd_pass_t *pass = &cblk->passes[passno]; OPJ_UINT32 correction = 3; type = ((bpno < ((OPJ_INT32) (cblk->numbps) - 4)) && (passtype < 2) && (cblksty & J2K_CCP_CBLKSTY_LAZY)) ? T1_TYPE_RAW : T1_TYPE_MQ; switch (passtype) { case 0: opj_t1_enc_sigpass(t1, bpno, &nmsedec, type, cblksty); break; case 1: opj_t1_enc_refpass(t1, bpno, &nmsedec, type, cblksty); break; case 2: opj_t1_enc_clnpass(t1, bpno, &nmsedec, cblksty); /* code switch SEGMARK (i.e. SEGSYM) */ if (cblksty & J2K_CCP_CBLKSTY_SEGSYM) opj_mqc_segmark_enc(mqc); break; } /* fixed_quality */ tempwmsedec = opj_t1_getwmsedec(nmsedec, compno, level, orient, bpno, qmfbid, stepsize, numcomps,mct_norms, mct_numcomps) ; cumwmsedec += tempwmsedec; tile->distotile += tempwmsedec; /* Code switch "RESTART" (i.e. TERMALL) */ if ((cblksty & J2K_CCP_CBLKSTY_TERMALL) && !((passtype == 2) && (bpno - 1 < 0))) { if (type == T1_TYPE_RAW) { /*opj_mqc_flush(mqc);*/ opj_mqc_bypass_flush_enc(mqc); correction = 1; } else { /* correction = mqc_restart_enc(); */ opj_mqc_flush(mqc); correction = 1; } pass->term = 1; } else { if (((bpno < ((OPJ_INT32) (cblk->numbps) - 4) && (passtype > 0)) || ((bpno == ((OPJ_INT32)cblk->numbps - 4)) && (passtype == 2))) && (cblksty & J2K_CCP_CBLKSTY_LAZY)) { if (type == T1_TYPE_RAW) { /*opj_mqc_flush(mqc);*/ opj_mqc_bypass_flush_enc(mqc); correction = 1; } else { /* correction = mqc_restart_enc(); */ opj_mqc_flush(mqc); correction = 1; } pass->term = 1; } else { pass->term = 0; } } if (++passtype == 3) { passtype = 0; bpno--; } /*if (pass->term && bpno > 0) {*/ if (pass->term && (bpno > 0 || (bpno == 0 && passtype < 2))) { type = ((bpno < ((OPJ_INT32) (cblk->numbps) - 4)) && (passtype < 2) && (cblksty & J2K_CCP_CBLKSTY_LAZY)) ? T1_TYPE_RAW : T1_TYPE_MQ; if (type == T1_TYPE_RAW) opj_mqc_bypass_init_enc(mqc); else opj_mqc_restart_init_enc(mqc); } pass->distortiondec = cumwmsedec; pass->rate = opj_mqc_numbytes(mqc) + correction; /* FIXME */ /* Code-switch "RESET" */ if (cblksty & J2K_CCP_CBLKSTY_RESET) opj_mqc_reset_enc(mqc); } /* Code switch "ERTERM" (i.e. PTERM) */ if (cblksty & J2K_CCP_CBLKSTY_PTERM) opj_mqc_erterm_enc(mqc); else /* Default coding */ if (!(cblksty & J2K_CCP_CBLKSTY_LAZY)) opj_mqc_flush(mqc); cblk->totalpasses = passno; for (passno = 0; passnototalpasses; passno++) { opj_tcd_pass_t *pass = &cblk->passes[passno]; if (pass->rate > opj_mqc_numbytes(mqc)) pass->rate = opj_mqc_numbytes(mqc); /*Preventing generation of FF as last data byte of a pass*/ if((pass->rate>1) && (cblk->data[pass->rate - 1] == 0xFF)){ pass->rate--; } pass->len = pass->rate - (passno == 0 ? 0 : cblk->passes[passno - 1].rate); } } #if 0 static void opj_t1_dec_refpass_step( opj_t1_t *t1, opj_flag_t *flagsp, OPJ_INT32 *datap, OPJ_INT32 poshalf, OPJ_INT32 neghalf, OPJ_BYTE type, OPJ_UINT32 vsc) { OPJ_INT32 t; OPJ_UINT32 v,flag; opj_mqc_t *mqc = t1->mqc; /* MQC component */ opj_raw_t *raw = t1->raw; /* RAW component */ flag = vsc ? ((*flagsp) & (~(T1_SIG_S | T1_SIG_SE | T1_SIG_SW | T1_SGN_S))) : (*flagsp); if ((flag & (T1_SIG | T1_VISIT)) == T1_SIG) { opj_mqc_setcurctx(mqc, opj_t1_getctxno_mag(flag)); /* ESSAI */ if (type == T1_TYPE_RAW) { v = opj_raw_decode(raw); } else { v = opj_mqc_decode(mqc); } t = v ? poshalf : neghalf; *datap += *datap < 0 ? -t : t; *flagsp |= T1_REFINE; } } /* VSC and BYPASS by Antonin */ #endif #if 0 static void opj_t1_dec_sigpass_step( opj_t1_t *t1, opj_flag_t *flagsp, OPJ_INT32 *datap, OPJ_UINT32 orient, OPJ_INT32 oneplushalf, OPJ_BYTE type, OPJ_UINT32 vsc) { OPJ_UINT32 v, flag; opj_raw_t *raw = t1->raw; /* RAW component */ opj_mqc_t *mqc = t1->mqc; /* MQC component */ flag = vsc ? ((*flagsp) & (~(T1_SIG_S | T1_SIG_SE | T1_SIG_SW | T1_SGN_S))) : (*flagsp); if ((flag & T1_SIG_OTH) && !(flag & (T1_SIG | T1_VISIT))) { if (type == T1_TYPE_RAW) { if (opj_raw_decode(raw)) { v = opj_raw_decode(raw); /* ESSAI */ *datap = v ? -oneplushalf : oneplushalf; opj_t1_updateflags(flagsp, v, t1->flags_stride); } } else { opj_mqc_setcurctx(mqc, opj_t1_getctxno_zc(flag, orient)); if (opj_mqc_decode(mqc)) { opj_mqc_setcurctx(mqc, opj_t1_getctxno_sc(flag)); v = opj_mqc_decode(mqc) ^ opj_t1_getspb(flag); *datap = v ? -oneplushalf : oneplushalf; opj_t1_updateflags(flagsp, v, t1->flags_stride); } } *flagsp |= T1_VISIT; } } /* VSC and BYPASS by Antonin */ #endif