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270 lines
9.2 KiB
270 lines
9.2 KiB
/*
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* The copyright in this software is being made available under the 2-clauses
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* BSD License, included below. This software may be subject to other third
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* party and contributor rights, including patent rights, and no such rights
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* are granted under this license.
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*
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* Copyright (c) 2002-2014, Universite catholique de Louvain (UCL), Belgium
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* Copyright (c) 2002-2014, Professor Benoit Macq
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* Copyright (c) 2001-2003, David Janssens
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* Copyright (c) 2002-2003, Yannick Verschueren
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* Copyright (c) 2003-2007, Francois-Olivier Devaux
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* Copyright (c) 2003-2014, Antonin Descampe
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* Copyright (c) 2005, Herve Drolon, FreeImage Team
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* Copyright (c) 2012, Carl Hetherington
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* Copyright (c) 2017, IntoPIX SA <support@intopix.com>
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS `AS IS'
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* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
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* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
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* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
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* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
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* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
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* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
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* POSSIBILITY OF SUCH DAMAGE.
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*/
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#ifndef OPJ_T1_H
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#define OPJ_T1_H
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/**
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@file t1.h
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@brief Implementation of the tier-1 coding (coding of code-block coefficients) (T1)
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The functions in T1.C have for goal to realize the tier-1 coding operation. The functions
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in T1.C are used by some function in TCD.C.
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*/
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/** @defgroup T1 T1 - Implementation of the tier-1 coding */
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/*@{*/
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/* ----------------------------------------------------------------------- */
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#define T1_NMSEDEC_BITS 7
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#define T1_NUMCTXS_ZC 9
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#define T1_NUMCTXS_SC 5
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#define T1_NUMCTXS_MAG 3
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#define T1_NUMCTXS_AGG 1
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#define T1_NUMCTXS_UNI 1
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#define T1_CTXNO_ZC 0
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#define T1_CTXNO_SC (T1_CTXNO_ZC+T1_NUMCTXS_ZC)
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#define T1_CTXNO_MAG (T1_CTXNO_SC+T1_NUMCTXS_SC)
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#define T1_CTXNO_AGG (T1_CTXNO_MAG+T1_NUMCTXS_MAG)
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#define T1_CTXNO_UNI (T1_CTXNO_AGG+T1_NUMCTXS_AGG)
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#define T1_NUMCTXS (T1_CTXNO_UNI+T1_NUMCTXS_UNI)
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#define T1_NMSEDEC_FRACBITS (T1_NMSEDEC_BITS-1)
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#define T1_TYPE_MQ 0 /**< Normal coding using entropy coder */
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#define T1_TYPE_RAW 1 /**< No encoding the information is store under raw format in codestream (mode switch RAW)*/
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/* BEGINNING of flags that apply to opj_flag_t */
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/** We hold the state of individual data points for the T1 encoder using
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* a single 32-bit flags word to hold the state of 4 data points. This corresponds
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* to the 4-point-high columns that the data is processed in.
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*
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* These \#defines declare the layout of a 32-bit flags word.
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*
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* This is currently done for encoding only.
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* The values must NOT be changed, otherwise this is going to break a lot of
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* assumptions.
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*/
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/* SIGMA: significance state (3 cols x 6 rows)
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* CHI: state for negative sample value (1 col x 6 rows)
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* MU: state for visited in refinement pass (1 col x 4 rows)
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* PI: state for visited in significance pass (1 col * 4 rows)
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*/
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#define T1_SIGMA_0 (1U << 0)
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#define T1_SIGMA_1 (1U << 1)
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#define T1_SIGMA_2 (1U << 2)
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#define T1_SIGMA_3 (1U << 3)
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#define T1_SIGMA_4 (1U << 4)
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#define T1_SIGMA_5 (1U << 5)
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#define T1_SIGMA_6 (1U << 6)
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#define T1_SIGMA_7 (1U << 7)
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#define T1_SIGMA_8 (1U << 8)
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#define T1_SIGMA_9 (1U << 9)
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#define T1_SIGMA_10 (1U << 10)
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#define T1_SIGMA_11 (1U << 11)
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#define T1_SIGMA_12 (1U << 12)
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#define T1_SIGMA_13 (1U << 13)
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#define T1_SIGMA_14 (1U << 14)
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#define T1_SIGMA_15 (1U << 15)
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#define T1_SIGMA_16 (1U << 16)
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#define T1_SIGMA_17 (1U << 17)
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#define T1_CHI_0 (1U << 18)
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#define T1_CHI_0_I 18
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#define T1_CHI_1 (1U << 19)
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#define T1_CHI_1_I 19
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#define T1_MU_0 (1U << 20)
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#define T1_PI_0 (1U << 21)
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#define T1_CHI_2 (1U << 22)
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#define T1_CHI_2_I 22
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#define T1_MU_1 (1U << 23)
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#define T1_PI_1 (1U << 24)
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#define T1_CHI_3 (1U << 25)
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#define T1_MU_2 (1U << 26)
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#define T1_PI_2 (1U << 27)
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#define T1_CHI_4 (1U << 28)
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#define T1_MU_3 (1U << 29)
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#define T1_PI_3 (1U << 30)
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#define T1_CHI_5 (1U << 31)
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#define T1_CHI_5_I 31
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/** As an example, the bits T1_SIGMA_3, T1_SIGMA_4 and T1_SIGMA_5
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* indicate the significance state of the west neighbour of data point zero
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* of our four, the point itself, and its east neighbour respectively.
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* Many of the bits are arranged so that given a flags word, you can
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* look at the values for the data point 0, then shift the flags
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* word right by 3 bits and look at the same bit positions to see the
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* values for data point 1.
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*
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* The \#defines below help a bit with this; say you have a flags word
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* f, you can do things like
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*
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* (f & T1_SIGMA_THIS)
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*
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* to see the significance bit of data point 0, then do
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*
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* ((f >> 3) & T1_SIGMA_THIS)
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*
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* to see the significance bit of data point 1.
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*/
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#define T1_SIGMA_NW T1_SIGMA_0
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#define T1_SIGMA_N T1_SIGMA_1
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#define T1_SIGMA_NE T1_SIGMA_2
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#define T1_SIGMA_W T1_SIGMA_3
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#define T1_SIGMA_THIS T1_SIGMA_4
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#define T1_SIGMA_E T1_SIGMA_5
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#define T1_SIGMA_SW T1_SIGMA_6
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#define T1_SIGMA_S T1_SIGMA_7
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#define T1_SIGMA_SE T1_SIGMA_8
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#define T1_SIGMA_NEIGHBOURS (T1_SIGMA_NW | T1_SIGMA_N | T1_SIGMA_NE | T1_SIGMA_W | T1_SIGMA_E | T1_SIGMA_SW | T1_SIGMA_S | T1_SIGMA_SE)
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#define T1_CHI_THIS T1_CHI_1
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#define T1_CHI_THIS_I T1_CHI_1_I
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#define T1_MU_THIS T1_MU_0
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#define T1_PI_THIS T1_PI_0
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#define T1_CHI_S T1_CHI_2
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#define T1_LUT_SGN_W (1U << 0)
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#define T1_LUT_SIG_N (1U << 1)
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#define T1_LUT_SGN_E (1U << 2)
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#define T1_LUT_SIG_W (1U << 3)
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#define T1_LUT_SGN_N (1U << 4)
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#define T1_LUT_SIG_E (1U << 5)
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#define T1_LUT_SGN_S (1U << 6)
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#define T1_LUT_SIG_S (1U << 7)
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/* END of flags that apply to opj_flag_t */
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/* ----------------------------------------------------------------------- */
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/** Flags for 4 consecutive rows of a column */
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typedef OPJ_UINT32 opj_flag_t;
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/**
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Tier-1 coding (coding of code-block coefficients)
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*/
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typedef struct opj_t1 {
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/** MQC component */
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opj_mqc_t mqc;
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OPJ_INT32 *data;
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/** Flags used by decoder and encoder.
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* Such that flags[1+0] is for state of col=0,row=0..3,
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flags[1+1] for col=1, row=0..3, flags[1+flags_stride] for col=0,row=4..7, ...
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This array avoids too much cache trashing when processing by 4 vertical samples
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as done in the various decoding steps. */
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opj_flag_t *flags;
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OPJ_UINT32 w;
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OPJ_UINT32 h;
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OPJ_UINT32 datasize;
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OPJ_UINT32 flagssize;
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OPJ_UINT32 data_stride;
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OPJ_BOOL encoder;
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/* Thre 3 variables below are only used by the decoder */
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/* set to TRUE in multithreaded context */
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OPJ_BOOL mustuse_cblkdatabuffer;
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/* Temporary buffer to concatenate all chunks of a codebock */
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OPJ_BYTE *cblkdatabuffer;
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/* Maximum size available in cblkdatabuffer */
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OPJ_UINT32 cblkdatabuffersize;
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} opj_t1_t;
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/** @name Exported functions */
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/*@{*/
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/* ----------------------------------------------------------------------- */
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/**
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Encode the code-blocks of a tile
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@param t1 T1 handle
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@param tile The tile to encode
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@param tcp Tile coding parameters
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@param mct_norms FIXME DOC
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@param mct_numcomps Number of components used for MCT
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*/
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OPJ_BOOL opj_t1_encode_cblks(opj_t1_t *t1,
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opj_tcd_tile_t *tile,
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opj_tcp_t *tcp,
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const OPJ_FLOAT64 * mct_norms,
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OPJ_UINT32 mct_numcomps);
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/**
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Decode the code-blocks of a tile
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@param tcd TCD handle
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@param pret Pointer to return value
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@param tilec The tile to decode
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@param tccp Tile coding parameters
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@param p_manager the event manager
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@param p_manager_mutex mutex for the event manager
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@param check_pterm whether PTERM correct termination should be checked
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*/
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void opj_t1_decode_cblks(opj_tcd_t* tcd,
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volatile OPJ_BOOL* pret,
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opj_tcd_tilecomp_t* tilec,
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opj_tccp_t* tccp,
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opj_event_mgr_t *p_manager,
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opj_mutex_t* p_manager_mutex,
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OPJ_BOOL check_pterm);
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/**
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* Creates a new Tier 1 handle
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* and initializes the look-up tables of the Tier-1 coder/decoder
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* @return a new T1 handle if successful, returns NULL otherwise
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*/
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opj_t1_t* opj_t1_create(OPJ_BOOL isEncoder);
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/**
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* Destroys a previously created T1 handle
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*
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* @param p_t1 Tier 1 handle to destroy
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*/
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void opj_t1_destroy(opj_t1_t *p_t1);
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/* ----------------------------------------------------------------------- */
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/*@}*/
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/*@}*/
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#endif /* OPJ_T1_H */
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