cmslut.c 50.3 KB
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/*
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
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 * published by the Free Software Foundation.  Oracle designates this
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 * particular file as subject to the "Classpath" exception as provided
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 * by Oracle in the LICENSE file that accompanied this code.
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 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 *
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 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
 * or visit www.oracle.com if you need additional information or have any
 * questions.
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 */

// This file is available under and governed by the GNU General Public
// License version 2 only, as published by the Free Software Foundation.
// However, the following notice accompanied the original version of this
// file:
//
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//---------------------------------------------------------------------------------
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//
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//  Little Color Management System
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//  Copyright (c) 1998-2012 Marti Maria Saguer
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//
// Permission is hereby granted, free of charge, to any person obtaining
// a copy of this software and associated documentation files (the "Software"),
// to deal in the Software without restriction, including without limitation
// the rights to use, copy, modify, merge, publish, distribute, sublicense,
// and/or sell copies of the Software, and to permit persons to whom the Software
// is furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO
// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
//
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//---------------------------------------------------------------------------------
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//

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#include "lcms2_internal.h"
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// Allocates an empty multi profile element
cmsStage* CMSEXPORT _cmsStageAllocPlaceholder(cmsContext ContextID,
                                cmsStageSignature Type,
                                cmsUInt32Number InputChannels,
                                cmsUInt32Number OutputChannels,
                                _cmsStageEvalFn     EvalPtr,
                                _cmsStageDupElemFn  DupElemPtr,
                                _cmsStageFreeElemFn FreePtr,
                                void*             Data)
{
    cmsStage* ph = (cmsStage*) _cmsMallocZero(ContextID, sizeof(cmsStage));

    if (ph == NULL) return NULL;
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    ph ->ContextID = ContextID;

    ph ->Type       = Type;
    ph ->Implements = Type;   // By default, no clue on what is implementing

    ph ->InputChannels  = InputChannels;
    ph ->OutputChannels = OutputChannels;
    ph ->EvalPtr        = EvalPtr;
    ph ->DupElemPtr     = DupElemPtr;
    ph ->FreePtr        = FreePtr;
    ph ->Data           = Data;

    return ph;
}


static
void EvaluateIdentity(const cmsFloat32Number In[],
                            cmsFloat32Number Out[],
                      const cmsStage *mpe)
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{
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    memmove(Out, In, mpe ->InputChannels * sizeof(cmsFloat32Number));
}
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cmsStage* CMSEXPORT cmsStageAllocIdentity(cmsContext ContextID, cmsUInt32Number nChannels)
{
    return _cmsStageAllocPlaceholder(ContextID,
                                   cmsSigIdentityElemType,
                                   nChannels, nChannels,
                                   EvaluateIdentity,
                                   NULL,
                                   NULL,
                                   NULL);
 }

// Conversion functions. From floating point to 16 bits
static
void FromFloatTo16(const cmsFloat32Number In[], cmsUInt16Number Out[], cmsUInt32Number n)
{
    cmsUInt32Number i;

    for (i=0; i < n; i++) {
        Out[i] = _cmsQuickSaturateWord(In[i] * 65535.0);
    }
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}

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// From 16 bits to floating point
static
void From16ToFloat(const cmsUInt16Number In[], cmsFloat32Number Out[], cmsUInt32Number n)
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{
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    cmsUInt32Number i;
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    for (i=0; i < n; i++) {
        Out[i] = (cmsFloat32Number) In[i] / 65535.0F;
    }
}
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// This function is quite useful to analyze the structure of a LUT and retrieve the MPE elements
// that conform the LUT. It should be called with the LUT, the number of expected elements and
// then a list of expected types followed with a list of cmsFloat64Number pointers to MPE elements. If
// the function founds a match with current pipeline, it fills the pointers and returns TRUE
// if not, returns FALSE without touching anything. Setting pointers to NULL does bypass
// the storage process.
cmsBool  CMSEXPORT cmsPipelineCheckAndRetreiveStages(const cmsPipeline* Lut, cmsUInt32Number n, ...)
{
    va_list args;
    cmsUInt32Number i;
    cmsStage* mpe;
    cmsStageSignature Type;
    void** ElemPtr;
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    // Make sure same number of elements
    if (cmsPipelineStageCount(Lut) != n) return FALSE;
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    va_start(args, n);
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    // Iterate across asked types
    mpe = Lut ->Elements;
    for (i=0; i < n; i++) {
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        // Get asked type
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        Type  = (cmsStageSignature)va_arg(args, cmsStageSignature);
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        if (mpe ->Type != Type) {
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            va_end(args);       // Mismatch. We are done.
            return FALSE;
        }
        mpe = mpe ->Next;
    }
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    // Found a combination, fill pointers if not NULL
    mpe = Lut ->Elements;
    for (i=0; i < n; i++) {
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        ElemPtr = va_arg(args, void**);
        if (ElemPtr != NULL)
            *ElemPtr = mpe;
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        mpe = mpe ->Next;
    }
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    va_end(args);
    return TRUE;
}

// Below there are implementations for several types of elements. Each type may be implemented by a
// evaluation function, a duplication function, a function to free resources and a constructor.

// *************************************************************************************************
// Type cmsSigCurveSetElemType (curves)
// *************************************************************************************************

cmsToneCurve** _cmsStageGetPtrToCurveSet(const cmsStage* mpe)
{
    _cmsStageToneCurvesData* Data = (_cmsStageToneCurvesData*) mpe ->Data;

    return Data ->TheCurves;
}

static
void EvaluateCurves(const cmsFloat32Number In[],
                    cmsFloat32Number Out[],
                    const cmsStage *mpe)
{
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    _cmsStageToneCurvesData* Data;
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    cmsUInt32Number i;

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    _cmsAssert(mpe != NULL);

    Data = (_cmsStageToneCurvesData*) mpe ->Data;
    if (Data == NULL) return;

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    if (Data ->TheCurves == NULL) return;

    for (i=0; i < Data ->nCurves; i++) {
        Out[i] = cmsEvalToneCurveFloat(Data ->TheCurves[i], In[i]);
    }
}
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static
void CurveSetElemTypeFree(cmsStage* mpe)
{
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    _cmsStageToneCurvesData* Data;
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    cmsUInt32Number i;
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    _cmsAssert(mpe != NULL);

    Data = (_cmsStageToneCurvesData*) mpe ->Data;
    if (Data == NULL) return;

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    if (Data ->TheCurves != NULL) {
        for (i=0; i < Data ->nCurves; i++) {
            if (Data ->TheCurves[i] != NULL)
                cmsFreeToneCurve(Data ->TheCurves[i]);
        }
    }
    _cmsFree(mpe ->ContextID, Data ->TheCurves);
    _cmsFree(mpe ->ContextID, Data);
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}


static
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void* CurveSetDup(cmsStage* mpe)
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{
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    _cmsStageToneCurvesData* Data = (_cmsStageToneCurvesData*) mpe ->Data;
    _cmsStageToneCurvesData* NewElem;
    cmsUInt32Number i;

    NewElem = (_cmsStageToneCurvesData*) _cmsMallocZero(mpe ->ContextID, sizeof(_cmsStageToneCurvesData));
    if (NewElem == NULL) return NULL;

    NewElem ->nCurves   = Data ->nCurves;
    NewElem ->TheCurves = (cmsToneCurve**) _cmsCalloc(mpe ->ContextID, NewElem ->nCurves, sizeof(cmsToneCurve*));

    if (NewElem ->TheCurves == NULL) goto Error;

    for (i=0; i < NewElem ->nCurves; i++) {

        // Duplicate each curve. It may fail.
        NewElem ->TheCurves[i] = cmsDupToneCurve(Data ->TheCurves[i]);
        if (NewElem ->TheCurves[i] == NULL) goto Error;


    }
    return (void*) NewElem;

Error:
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    if (NewElem ->TheCurves != NULL) {
        for (i=0; i < NewElem ->nCurves; i++) {
            if (NewElem ->TheCurves[i])
                cmsFreeToneCurve(Data ->TheCurves[i]);
        }
    }
    _cmsFree(mpe ->ContextID, Data ->TheCurves);
    _cmsFree(mpe ->ContextID, NewElem);
    return NULL;
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}


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// Curves == NULL forces identity curves
cmsStage* CMSEXPORT cmsStageAllocToneCurves(cmsContext ContextID, cmsUInt32Number nChannels, cmsToneCurve* const Curves[])
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{
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    cmsUInt32Number i;
    _cmsStageToneCurvesData* NewElem;
    cmsStage* NewMPE;
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    NewMPE = _cmsStageAllocPlaceholder(ContextID, cmsSigCurveSetElemType, nChannels, nChannels,
                                     EvaluateCurves, CurveSetDup, CurveSetElemTypeFree, NULL );
    if (NewMPE == NULL) return NULL;

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    NewElem = (_cmsStageToneCurvesData*) _cmsMallocZero(ContextID, sizeof(_cmsStageToneCurvesData));
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    if (NewElem == NULL) {
        cmsStageFree(NewMPE);
        return NULL;
    }
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    NewMPE ->Data  = (void*) NewElem;

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    NewElem ->nCurves   = nChannels;
    NewElem ->TheCurves = (cmsToneCurve**) _cmsCalloc(ContextID, nChannels, sizeof(cmsToneCurve*));
    if (NewElem ->TheCurves == NULL) {
        cmsStageFree(NewMPE);
        return NULL;
    }
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    for (i=0; i < nChannels; i++) {
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        if (Curves == NULL) {
            NewElem ->TheCurves[i] = cmsBuildGamma(ContextID, 1.0);
        }
        else {
            NewElem ->TheCurves[i] = cmsDupToneCurve(Curves[i]);
        }

        if (NewElem ->TheCurves[i] == NULL) {
            cmsStageFree(NewMPE);
            return NULL;
        }

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    }
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   return NewMPE;
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}


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// Create a bunch of identity curves
cmsStage* _cmsStageAllocIdentityCurves(cmsContext ContextID, int nChannels)
{
    cmsStage* mpe = cmsStageAllocToneCurves(ContextID, nChannels, NULL);

    if (mpe == NULL) return NULL;
    mpe ->Implements = cmsSigIdentityElemType;
    return mpe;
}


// *************************************************************************************************
// Type cmsSigMatrixElemType (Matrices)
// *************************************************************************************************


// Special care should be taken here because precision loss. A temporary cmsFloat64Number buffer is being used
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static
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void EvaluateMatrix(const cmsFloat32Number In[],
                    cmsFloat32Number Out[],
                    const cmsStage *mpe)
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{
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    cmsUInt32Number i, j;
    _cmsStageMatrixData* Data = (_cmsStageMatrixData*) mpe ->Data;
    cmsFloat64Number Tmp;

    // Input is already in 0..1.0 notation
    for (i=0; i < mpe ->OutputChannels; i++) {

        Tmp = 0;
        for (j=0; j < mpe->InputChannels; j++) {
            Tmp += In[j] * Data->Double[i*mpe->InputChannels + j];
        }
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        if (Data ->Offset != NULL)
            Tmp += Data->Offset[i];
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        Out[i] = (cmsFloat32Number) Tmp;
    }


    // Output in 0..1.0 domain
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}


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// Duplicate a yet-existing matrix element
static
void* MatrixElemDup(cmsStage* mpe)
{
    _cmsStageMatrixData* Data = (_cmsStageMatrixData*) mpe ->Data;
    _cmsStageMatrixData* NewElem;
    cmsUInt32Number sz;

    NewElem = (_cmsStageMatrixData*) _cmsMallocZero(mpe ->ContextID, sizeof(_cmsStageMatrixData));
    if (NewElem == NULL) return NULL;

    sz = mpe ->InputChannels * mpe ->OutputChannels;

    NewElem ->Double = (cmsFloat64Number*) _cmsDupMem(mpe ->ContextID, Data ->Double, sz * sizeof(cmsFloat64Number)) ;

    if (Data ->Offset)
        NewElem ->Offset = (cmsFloat64Number*) _cmsDupMem(mpe ->ContextID,
                                                Data ->Offset, mpe -> OutputChannels * sizeof(cmsFloat64Number)) ;

    return (void*) NewElem;
}


static
void MatrixElemTypeFree(cmsStage* mpe)
{
    _cmsStageMatrixData* Data = (_cmsStageMatrixData*) mpe ->Data;
    if (Data ->Double)
        _cmsFree(mpe ->ContextID, Data ->Double);

    if (Data ->Offset)
        _cmsFree(mpe ->ContextID, Data ->Offset);

    _cmsFree(mpe ->ContextID, mpe ->Data);
}



cmsStage*  CMSEXPORT cmsStageAllocMatrix(cmsContext ContextID, cmsUInt32Number Rows, cmsUInt32Number Cols,
                                     const cmsFloat64Number* Matrix, const cmsFloat64Number* Offset)
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{
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    cmsUInt32Number i, n;
    _cmsStageMatrixData* NewElem;
    cmsStage* NewMPE;
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    n = Rows * Cols;
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    // Check for overflow
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    if (n == 0) return NULL;
    if (n >= UINT_MAX / Cols) return NULL;
    if (n >= UINT_MAX / Rows) return NULL;
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    if (n < Rows || n < Cols) return NULL;
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    NewMPE = _cmsStageAllocPlaceholder(ContextID, cmsSigMatrixElemType, Cols, Rows,
                                     EvaluateMatrix, MatrixElemDup, MatrixElemTypeFree, NULL );
    if (NewMPE == NULL) return NULL;
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    NewElem = (_cmsStageMatrixData*) _cmsMallocZero(ContextID, sizeof(_cmsStageMatrixData));
    if (NewElem == NULL) return NULL;


    NewElem ->Double = (cmsFloat64Number*) _cmsCalloc(ContextID, n, sizeof(cmsFloat64Number));

    if (NewElem->Double == NULL) {
        MatrixElemTypeFree(NewMPE);
        return NULL;
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    }

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    for (i=0; i < n; i++) {
        NewElem ->Double[i] = Matrix[i];
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    }

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    if (Offset != NULL) {

        NewElem ->Offset = (cmsFloat64Number*) _cmsCalloc(ContextID, Cols, sizeof(cmsFloat64Number));
        if (NewElem->Offset == NULL) {
           MatrixElemTypeFree(NewMPE);
           return NULL;
        }

        for (i=0; i < Cols; i++) {
                NewElem ->Offset[i] = Offset[i];
        }

    }

    NewMPE ->Data  = (void*) NewElem;
    return NewMPE;
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}

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// *************************************************************************************************
// Type cmsSigCLutElemType
// *************************************************************************************************
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// Evaluate in true floating point
static
void EvaluateCLUTfloat(const cmsFloat32Number In[], cmsFloat32Number Out[], const cmsStage *mpe)
{
    _cmsStageCLutData* Data = (_cmsStageCLutData*) mpe ->Data;
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    Data -> Params ->Interpolation.LerpFloat(In, Out, Data->Params);
}
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// Convert to 16 bits, evaluate, and back to floating point
static
void EvaluateCLUTfloatIn16(const cmsFloat32Number In[], cmsFloat32Number Out[], const cmsStage *mpe)
{
    _cmsStageCLutData* Data = (_cmsStageCLutData*) mpe ->Data;
    cmsUInt16Number In16[MAX_STAGE_CHANNELS], Out16[MAX_STAGE_CHANNELS];
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    _cmsAssert(mpe ->InputChannels  <= MAX_STAGE_CHANNELS);
    _cmsAssert(mpe ->OutputChannels <= MAX_STAGE_CHANNELS);
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    FromFloatTo16(In, In16, mpe ->InputChannels);
    Data -> Params ->Interpolation.Lerp16(In16, Out16, Data->Params);
    From16ToFloat(Out16, Out,  mpe ->OutputChannels);
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}


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// Given an hypercube of b dimensions, with Dims[] number of nodes by dimension, calculate the total amount of nodes
static
cmsUInt32Number CubeSize(const cmsUInt32Number Dims[], cmsUInt32Number b)
{
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    cmsUInt32Number rv, dim;

    _cmsAssert(Dims != NULL);

    for (rv = 1; b > 0; b--) {
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        dim = Dims[b-1];
        if (dim == 0) return 0;  // Error

        rv *= dim;

        // Check for overflow
        if (rv > UINT_MAX / dim) return 0;
    }
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    return rv;
}
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static
void* CLUTElemDup(cmsStage* mpe)
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{
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    _cmsStageCLutData* Data = (_cmsStageCLutData*) mpe ->Data;
    _cmsStageCLutData* NewElem;
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    NewElem = (_cmsStageCLutData*) _cmsMallocZero(mpe ->ContextID, sizeof(_cmsStageCLutData));
    if (NewElem == NULL) return NULL;
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    NewElem ->nEntries       = Data ->nEntries;
    NewElem ->HasFloatValues = Data ->HasFloatValues;
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    if (Data ->Tab.T) {
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        if (Data ->HasFloatValues)
            NewElem ->Tab.TFloat = (cmsFloat32Number*) _cmsDupMem(mpe ->ContextID, Data ->Tab.TFloat, Data ->nEntries * sizeof (cmsFloat32Number));
        else
            NewElem ->Tab.T = (cmsUInt16Number*) _cmsDupMem(mpe ->ContextID, Data ->Tab.T, Data ->nEntries * sizeof (cmsUInt16Number));
    }
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    NewElem ->Params   = _cmsComputeInterpParamsEx(mpe ->ContextID,
                                                   Data ->Params ->nSamples,
                                                   Data ->Params ->nInputs,
                                                   Data ->Params ->nOutputs,
                                                   NewElem ->Tab.T,
                                                   Data ->Params ->dwFlags);
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    return (void*) NewElem;
}
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static
void CLutElemTypeFree(cmsStage* mpe)
{
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    _cmsStageCLutData* Data = (_cmsStageCLutData*) mpe ->Data;
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    // Already empty
    if (Data == NULL) return;
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    // This works for both types
    if (Data -> Tab.T)
        _cmsFree(mpe ->ContextID, Data -> Tab.T);
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    _cmsFreeInterpParams(Data ->Params);
    _cmsFree(mpe ->ContextID, mpe ->Data);
}
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// Allocates a 16-bit multidimensional CLUT. This is evaluated at 16-bit precision. Table may have different
// granularity on each dimension.
cmsStage* CMSEXPORT cmsStageAllocCLut16bitGranular(cmsContext ContextID,
                                         const cmsUInt32Number clutPoints[],
                                         cmsUInt32Number inputChan,
                                         cmsUInt32Number outputChan,
                                         const cmsUInt16Number* Table)
{
    cmsUInt32Number i, n;
    _cmsStageCLutData* NewElem;
    cmsStage* NewMPE;
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    _cmsAssert(clutPoints != NULL);

    if (inputChan > MAX_INPUT_DIMENSIONS) {
        cmsSignalError(ContextID, cmsERROR_RANGE, "Too many input channels (%d channels, max=%d)", inputChan, MAX_INPUT_DIMENSIONS);
        return NULL;
    }

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    NewMPE = _cmsStageAllocPlaceholder(ContextID, cmsSigCLutElemType, inputChan, outputChan,
                                     EvaluateCLUTfloatIn16, CLUTElemDup, CLutElemTypeFree, NULL );
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    if (NewMPE == NULL) return NULL;
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    NewElem = (_cmsStageCLutData*) _cmsMallocZero(ContextID, sizeof(_cmsStageCLutData));
    if (NewElem == NULL) {
        cmsStageFree(NewMPE);
        return NULL;
    }

    NewMPE ->Data  = (void*) NewElem;
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    NewElem -> nEntries = n = outputChan * CubeSize(clutPoints, inputChan);
    NewElem -> HasFloatValues = FALSE;
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    if (n == 0) {
        cmsStageFree(NewMPE);
        return NULL;
    }


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    NewElem ->Tab.T  = (cmsUInt16Number*) _cmsCalloc(ContextID, n, sizeof(cmsUInt16Number));
    if (NewElem ->Tab.T == NULL) {
        cmsStageFree(NewMPE);
        return NULL;
    }

    if (Table != NULL) {
        for (i=0; i < n; i++) {
            NewElem ->Tab.T[i] = Table[i];
        }
    }
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    NewElem ->Params = _cmsComputeInterpParamsEx(ContextID, clutPoints, inputChan, outputChan, NewElem ->Tab.T, CMS_LERP_FLAGS_16BITS);
    if (NewElem ->Params == NULL) {
        cmsStageFree(NewMPE);
        return NULL;
    }
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    return NewMPE;
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}

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cmsStage* CMSEXPORT cmsStageAllocCLut16bit(cmsContext ContextID,
                                    cmsUInt32Number nGridPoints,
                                    cmsUInt32Number inputChan,
                                    cmsUInt32Number outputChan,
                                    const cmsUInt16Number* Table)
{
    cmsUInt32Number Dimensions[MAX_INPUT_DIMENSIONS];
    int i;

   // Our resulting LUT would be same gridpoints on all dimensions
    for (i=0; i < MAX_INPUT_DIMENSIONS; i++)
        Dimensions[i] = nGridPoints;
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    return cmsStageAllocCLut16bitGranular(ContextID, Dimensions, inputChan, outputChan, Table);
}


cmsStage* CMSEXPORT cmsStageAllocCLutFloat(cmsContext ContextID,
                                       cmsUInt32Number nGridPoints,
                                       cmsUInt32Number inputChan,
                                       cmsUInt32Number outputChan,
                                       const cmsFloat32Number* Table)
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{
650 651
   cmsUInt32Number Dimensions[MAX_INPUT_DIMENSIONS];
   int i;
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653 654 655
    // Our resulting LUT would be same gridpoints on all dimensions
    for (i=0; i < MAX_INPUT_DIMENSIONS; i++)
        Dimensions[i] = nGridPoints;
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657
    return cmsStageAllocCLutFloatGranular(ContextID, Dimensions, inputChan, outputChan, Table);
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}



662
cmsStage* CMSEXPORT cmsStageAllocCLutFloatGranular(cmsContext ContextID, const cmsUInt32Number clutPoints[], cmsUInt32Number inputChan, cmsUInt32Number outputChan, const cmsFloat32Number* Table)
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{
664 665
    cmsUInt32Number i, n;
    _cmsStageCLutData* NewElem;
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    cmsStage* NewMPE;

    _cmsAssert(clutPoints != NULL);

    if (inputChan > MAX_INPUT_DIMENSIONS) {
        cmsSignalError(ContextID, cmsERROR_RANGE, "Too many input channels (%d channels, max=%d)", inputChan, MAX_INPUT_DIMENSIONS);
        return NULL;
    }
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    NewMPE = _cmsStageAllocPlaceholder(ContextID, cmsSigCLutElemType, inputChan, outputChan,
                                             EvaluateCLUTfloat, CLUTElemDup, CLutElemTypeFree, NULL);
677
    if (NewMPE == NULL) return NULL;
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    NewElem = (_cmsStageCLutData*) _cmsMallocZero(ContextID, sizeof(_cmsStageCLutData));
    if (NewElem == NULL) {
        cmsStageFree(NewMPE);
        return NULL;
    }

    NewMPE ->Data  = (void*) NewElem;
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    // There is a potential integer overflow on conputing n and nEntries.
    NewElem -> nEntries = n = outputChan * CubeSize(clutPoints, inputChan);
690
    NewElem -> HasFloatValues = TRUE;
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    if (n == 0) {
        cmsStageFree(NewMPE);
        return NULL;
    }

697 698 699 700 701
    NewElem ->Tab.TFloat  = (cmsFloat32Number*) _cmsCalloc(ContextID, n, sizeof(cmsFloat32Number));
    if (NewElem ->Tab.TFloat == NULL) {
        cmsStageFree(NewMPE);
        return NULL;
    }
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703 704 705 706 707
    if (Table != NULL) {
        for (i=0; i < n; i++) {
            NewElem ->Tab.TFloat[i] = Table[i];
        }
    }
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710 711 712 713 714
    NewElem ->Params = _cmsComputeInterpParamsEx(ContextID, clutPoints,  inputChan, outputChan, NewElem ->Tab.TFloat, CMS_LERP_FLAGS_FLOAT);
    if (NewElem ->Params == NULL) {
        cmsStageFree(NewMPE);
        return NULL;
    }
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718
    return NewMPE;
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}


722 723 724 725 726
static
int IdentitySampler(register const cmsUInt16Number In[], register cmsUInt16Number Out[], register void * Cargo)
{
    int nChan = *(int*) Cargo;
    int i;
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728 729
    for (i=0; i < nChan; i++)
        Out[i] = In[i];
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731 732 733 734 735
    return 1;
}

// Creates an MPE that just copies input to output
cmsStage* _cmsStageAllocIdentityCLut(cmsContext ContextID, int nChan)
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{
737 738 739 740 741 742
    cmsUInt32Number Dimensions[MAX_INPUT_DIMENSIONS];
    cmsStage* mpe ;
    int i;

    for (i=0; i < MAX_INPUT_DIMENSIONS; i++)
        Dimensions[i] = 2;
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744 745
    mpe = cmsStageAllocCLut16bitGranular(ContextID, Dimensions, nChan, nChan, NULL);
    if (mpe == NULL) return NULL;
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747 748 749 750
    if (!cmsStageSampleCLut16bit(mpe, IdentitySampler, &nChan, 0)) {
        cmsStageFree(mpe);
        return NULL;
    }
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752 753 754
    mpe ->Implements = cmsSigIdentityElemType;
    return mpe;
}
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758 759 760 761
// Quantize a value 0 <= i < MaxSamples to 0..0xffff
cmsUInt16Number _cmsQuantizeVal(cmsFloat64Number i, int MaxSamples)
{
    cmsFloat64Number x;
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763 764 765
    x = ((cmsFloat64Number) i * 65535.) / (cmsFloat64Number) (MaxSamples - 1);
    return _cmsQuickSaturateWord(x);
}
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768 769 770 771 772 773 774 775
// This routine does a sweep on whole input space, and calls its callback
// function on knots. returns TRUE if all ok, FALSE otherwise.
cmsBool CMSEXPORT cmsStageSampleCLut16bit(cmsStage* mpe, cmsSAMPLER16 Sampler, void * Cargo, cmsUInt32Number dwFlags)
{
    int i, t, nTotalPoints, index, rest;
    int nInputs, nOutputs;
    cmsUInt32Number* nSamples;
    cmsUInt16Number In[cmsMAXCHANNELS], Out[MAX_STAGE_CHANNELS];
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    _cmsStageCLutData* clut;
777

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    if (mpe == NULL) return FALSE;

    clut = (_cmsStageCLutData*) mpe->Data;

    if (clut == NULL) return FALSE;
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784 785 786
    nSamples = clut->Params ->nSamples;
    nInputs  = clut->Params ->nInputs;
    nOutputs = clut->Params ->nOutputs;
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788 789
    if (nInputs >= cmsMAXCHANNELS) return FALSE;
    if (nOutputs >= MAX_STAGE_CHANNELS) return FALSE;
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791
    nTotalPoints = CubeSize(nSamples, nInputs);
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    if (nTotalPoints == 0) return FALSE;
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794 795
    index = 0;
    for (i = 0; i < nTotalPoints; i++) {
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797 798
        rest = i;
        for (t = nInputs-1; t >=0; --t) {
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800
            cmsUInt32Number  Colorant = rest % nSamples[t];
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802
            rest /= nSamples[t];
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804 805
            In[t] = _cmsQuantizeVal(Colorant, nSamples[t]);
        }
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807 808 809 810
        if (clut ->Tab.T != NULL) {
            for (t=0; t < nOutputs; t++)
                Out[t] = clut->Tab.T[index + t];
        }
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812 813
        if (!Sampler(In, Out, Cargo))
            return FALSE;
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815
        if (!(dwFlags & SAMPLER_INSPECT)) {
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817 818 819 820 821
            if (clut ->Tab.T != NULL) {
                for (t=0; t < nOutputs; t++)
                    clut->Tab.T[index + t] = Out[t];
            }
        }
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823 824
        index += nOutputs;
    }
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826 827
    return TRUE;
}
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829 830 831 832 833 834 835 836
// Same as anterior, but for floting point
cmsBool CMSEXPORT cmsStageSampleCLutFloat(cmsStage* mpe, cmsSAMPLERFLOAT Sampler, void * Cargo, cmsUInt32Number dwFlags)
{
    int i, t, nTotalPoints, index, rest;
    int nInputs, nOutputs;
    cmsUInt32Number* nSamples;
    cmsFloat32Number In[cmsMAXCHANNELS], Out[MAX_STAGE_CHANNELS];
    _cmsStageCLutData* clut = (_cmsStageCLutData*) mpe->Data;
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    nSamples = clut->Params ->nSamples;
    nInputs  = clut->Params ->nInputs;
    nOutputs = clut->Params ->nOutputs;
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842 843
    if (nInputs >= cmsMAXCHANNELS) return FALSE;
    if (nOutputs >= MAX_STAGE_CHANNELS) return FALSE;
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845
    nTotalPoints = CubeSize(nSamples, nInputs);
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    if (nTotalPoints == 0) return FALSE;
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848 849
    index = 0;
    for (i = 0; i < nTotalPoints; i++) {
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851 852
        rest = i;
        for (t = nInputs-1; t >=0; --t) {
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854
            cmsUInt32Number  Colorant = rest % nSamples[t];
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856
            rest /= nSamples[t];
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858 859
            In[t] =  (cmsFloat32Number) (_cmsQuantizeVal(Colorant, nSamples[t]) / 65535.0);
        }
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861 862 863 864
        if (clut ->Tab.TFloat != NULL) {
            for (t=0; t < nOutputs; t++)
                Out[t] = clut->Tab.TFloat[index + t];
        }
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866 867
        if (!Sampler(In, Out, Cargo))
            return FALSE;
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869
        if (!(dwFlags & SAMPLER_INSPECT)) {
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871 872 873 874 875
            if (clut ->Tab.TFloat != NULL) {
                for (t=0; t < nOutputs; t++)
                    clut->Tab.TFloat[index + t] = Out[t];
            }
        }
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        index += nOutputs;
    }
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880 881
    return TRUE;
}
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885 886 887 888 889 890 891
// This routine does a sweep on whole input space, and calls its callback
// function on knots. returns TRUE if all ok, FALSE otherwise.
cmsBool CMSEXPORT cmsSliceSpace16(cmsUInt32Number nInputs, const cmsUInt32Number clutPoints[],
                                         cmsSAMPLER16 Sampler, void * Cargo)
{
    int i, t, nTotalPoints, rest;
    cmsUInt16Number In[cmsMAXCHANNELS];
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893
    if (nInputs >= cmsMAXCHANNELS) return FALSE;
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895
    nTotalPoints = CubeSize(clutPoints, nInputs);
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    if (nTotalPoints == 0) return FALSE;
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898
    for (i = 0; i < nTotalPoints; i++) {
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900 901
        rest = i;
        for (t = nInputs-1; t >=0; --t) {
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903
            cmsUInt32Number  Colorant = rest % clutPoints[t];
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905 906
            rest /= clutPoints[t];
            In[t] = _cmsQuantizeVal(Colorant, clutPoints[t]);
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908
        }
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910 911 912
        if (!Sampler(In, NULL, Cargo))
            return FALSE;
    }
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914 915
    return TRUE;
}
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cmsInt32Number CMSEXPORT cmsSliceSpaceFloat(cmsUInt32Number nInputs, const cmsUInt32Number clutPoints[],
                                            cmsSAMPLERFLOAT Sampler, void * Cargo)
{
    int i, t, nTotalPoints, rest;
    cmsFloat32Number In[cmsMAXCHANNELS];
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923
    if (nInputs >= cmsMAXCHANNELS) return FALSE;
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925
    nTotalPoints = CubeSize(clutPoints, nInputs);
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    if (nTotalPoints == 0) return FALSE;
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    for (i = 0; i < nTotalPoints; i++) {
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930 931
        rest = i;
        for (t = nInputs-1; t >=0; --t) {
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933
            cmsUInt32Number  Colorant = rest % clutPoints[t];
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            rest /= clutPoints[t];
            In[t] =  (cmsFloat32Number) (_cmsQuantizeVal(Colorant, clutPoints[t]) / 65535.0);
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938
        }
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        if (!Sampler(In, NULL, Cargo))
            return FALSE;
    }
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    return TRUE;
}
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// ********************************************************************************
// Type cmsSigLab2XYZElemType
// ********************************************************************************
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952 953 954 955 956 957 958 959
static
void EvaluateLab2XYZ(const cmsFloat32Number In[],
                     cmsFloat32Number Out[],
                     const cmsStage *mpe)
{
    cmsCIELab Lab;
    cmsCIEXYZ XYZ;
    const cmsFloat64Number XYZadj = MAX_ENCODEABLE_XYZ;
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    // V4 rules
    Lab.L = In[0] * 100.0;
    Lab.a = In[1] * 255.0 - 128.0;
    Lab.b = In[2] * 255.0 - 128.0;
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966
    cmsLab2XYZ(NULL, &XYZ, &Lab);
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968 969
    // From XYZ, range 0..19997 to 0..1.0, note that 1.99997 comes from 0xffff
    // encoded as 1.15 fixed point, so 1 + (32767.0 / 32768.0)
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    Out[0] = (cmsFloat32Number) ((cmsFloat64Number) XYZ.X / XYZadj);
    Out[1] = (cmsFloat32Number) ((cmsFloat64Number) XYZ.Y / XYZadj);
    Out[2] = (cmsFloat32Number) ((cmsFloat64Number) XYZ.Z / XYZadj);
    return;
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976
    cmsUNUSED_PARAMETER(mpe);
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}


980 981
// No dup or free routines needed, as the structure has no pointers in it.
cmsStage* _cmsStageAllocLab2XYZ(cmsContext ContextID)
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{
983 984
    return _cmsStageAllocPlaceholder(ContextID, cmsSigLab2XYZElemType, 3, 3, EvaluateLab2XYZ, NULL, NULL, NULL);
}
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986
// ********************************************************************************
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988 989 990 991 992
// v2 L=100 is supposed to be placed on 0xFF00. There is no reasonable
// number of gridpoints that would make exact match. However, a prelinearization
// of 258 entries, would map 0xFF00 exactly on entry 257, and this is good to avoid scum dot.
// Almost all what we need but unfortunately, the rest of entries should be scaled by
// (255*257/256) and this is not exact.
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994 995 996 997 998
cmsStage* _cmsStageAllocLabV2ToV4curves(cmsContext ContextID)
{
    cmsStage* mpe;
    cmsToneCurve* LabTable[3];
    int i, j;
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1000 1001 1002
    LabTable[0] = cmsBuildTabulatedToneCurve16(ContextID, 258, NULL);
    LabTable[1] = cmsBuildTabulatedToneCurve16(ContextID, 258, NULL);
    LabTable[2] = cmsBuildTabulatedToneCurve16(ContextID, 258, NULL);
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1004
    for (j=0; j < 3; j++) {
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1006 1007 1008 1009
        if (LabTable[j] == NULL) {
            cmsFreeToneCurveTriple(LabTable);
            return NULL;
        }
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1011 1012 1013
        // We need to map * (0xffff / 0xff00), thats same as (257 / 256)
        // So we can use 258-entry tables to do the trick (i / 257) * (255 * 257) * (257 / 256);
        for (i=0; i < 257; i++)  {
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1015 1016
            LabTable[j]->Table16[i] = (cmsUInt16Number) ((i * 0xffff + 0x80) >> 8);
        }
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1018 1019
        LabTable[j] ->Table16[257] = 0xffff;
    }
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1021 1022
    mpe = cmsStageAllocToneCurves(ContextID, 3, LabTable);
    cmsFreeToneCurveTriple(LabTable);
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1024 1025 1026
    mpe ->Implements = cmsSigLabV2toV4;
    return mpe;
}
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1028
// ********************************************************************************
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1030 1031 1032 1033 1034 1035 1036
// Matrix-based conversion, which is more accurate, but slower and cannot properly be saved in devicelink profiles
cmsStage* _cmsStageAllocLabV2ToV4(cmsContext ContextID)
{
    static const cmsFloat64Number V2ToV4[] = { 65535.0/65280.0, 0, 0,
                                     0, 65535.0/65280.0, 0,
                                     0, 0, 65535.0/65280.0
                                     };
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1038
    cmsStage *mpe = cmsStageAllocMatrix(ContextID, 3, 3, V2ToV4, NULL);
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1040 1041 1042
    if (mpe == NULL) return mpe;
    mpe ->Implements = cmsSigLabV2toV4;
    return mpe;
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}


1046 1047 1048 1049 1050 1051 1052
// Reverse direction
cmsStage* _cmsStageAllocLabV4ToV2(cmsContext ContextID)
{
    static const cmsFloat64Number V4ToV2[] = { 65280.0/65535.0, 0, 0,
                                     0, 65280.0/65535.0, 0,
                                     0, 0, 65280.0/65535.0
                                     };
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1054
     cmsStage *mpe = cmsStageAllocMatrix(ContextID, 3, 3, V4ToV2, NULL);
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1056 1057 1058 1059
    if (mpe == NULL) return mpe;
    mpe ->Implements = cmsSigLabV4toV2;
    return mpe;
}
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1062 1063 1064 1065 1066 1067 1068 1069 1070 1071 1072 1073 1074 1075 1076 1077 1078 1079 1080 1081 1082 1083 1084 1085 1086 1087 1088 1089 1090 1091 1092 1093 1094 1095 1096 1097 1098 1099 1100 1101 1102 1103 1104 1105 1106 1107 1108 1109 1110 1111 1112 1113 1114 1115 1116 1117 1118 1119 1120 1121 1122 1123 1124 1125 1126 1127 1128 1129 1130 1131 1132 1133 1134 1135 1136 1137 1138 1139 1140 1141 1142 1143 1144
// To Lab to float. Note that the MPE gives numbers in normal Lab range
// and we need 0..1.0 range for the formatters
// L* : 0...100 => 0...1.0  (L* / 100)
// ab* : -128..+127 to 0..1  ((ab* + 128) / 255)

cmsStage* _cmsStageNormalizeFromLabFloat(cmsContext ContextID)
{
    static const cmsFloat64Number a1[] = {
        1.0/100.0, 0, 0,
        0, 1.0/255.0, 0,
        0, 0, 1.0/255.0
    };

    static const cmsFloat64Number o1[] = {
        0,
        128.0/255.0,
        128.0/255.0
    };

    cmsStage *mpe = cmsStageAllocMatrix(ContextID, 3, 3, a1, o1);

    if (mpe == NULL) return mpe;
    mpe ->Implements = cmsSigLab2FloatPCS;
    return mpe;
}

// Fom XYZ to floating point PCS
cmsStage* _cmsStageNormalizeFromXyzFloat(cmsContext ContextID)
{
#define n (32768.0/65535.0)
    static const cmsFloat64Number a1[] = {
        n, 0, 0,
        0, n, 0,
        0, 0, n
    };
#undef n

    cmsStage *mpe =  cmsStageAllocMatrix(ContextID, 3, 3, a1, NULL);

    if (mpe == NULL) return mpe;
    mpe ->Implements = cmsSigXYZ2FloatPCS;
    return mpe;
}

cmsStage* _cmsStageNormalizeToLabFloat(cmsContext ContextID)
{
    static const cmsFloat64Number a1[] = {
        100.0, 0, 0,
        0, 255.0, 0,
        0, 0, 255.0
    };

    static const cmsFloat64Number o1[] = {
        0,
        -128.0,
        -128.0
    };

    cmsStage *mpe =  cmsStageAllocMatrix(ContextID, 3, 3, a1, o1);
    if (mpe == NULL) return mpe;
    mpe ->Implements = cmsSigFloatPCS2Lab;
    return mpe;
}

cmsStage* _cmsStageNormalizeToXyzFloat(cmsContext ContextID)
{
#define n (65535.0/32768.0)

    static const cmsFloat64Number a1[] = {
        n, 0, 0,
        0, n, 0,
        0, 0, n
    };
#undef n

    cmsStage *mpe = cmsStageAllocMatrix(ContextID, 3, 3, a1, NULL);
    if (mpe == NULL) return mpe;
    mpe ->Implements = cmsSigFloatPCS2XYZ;
    return mpe;
}



1145 1146 1147
// ********************************************************************************
// Type cmsSigXYZ2LabElemType
// ********************************************************************************
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1149 1150 1151 1152 1153 1154
static
void EvaluateXYZ2Lab(const cmsFloat32Number In[], cmsFloat32Number Out[], const cmsStage *mpe)
{
    cmsCIELab Lab;
    cmsCIEXYZ XYZ;
    const cmsFloat64Number XYZadj = MAX_ENCODEABLE_XYZ;
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1156
    // From 0..1.0 to XYZ
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1158 1159 1160
    XYZ.X = In[0] * XYZadj;
    XYZ.Y = In[1] * XYZadj;
    XYZ.Z = In[2] * XYZadj;
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1162
    cmsXYZ2Lab(NULL, &Lab, &XYZ);
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1164
    // From V4 Lab to 0..1.0
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1166 1167 1168 1169 1170 1171 1172 1173 1174
    Out[0] = (cmsFloat32Number) (Lab.L / 100.0);
    Out[1] = (cmsFloat32Number) ((Lab.a + 128.0) / 255.0);
    Out[2] = (cmsFloat32Number) ((Lab.b + 128.0) / 255.0);
    return;

    cmsUNUSED_PARAMETER(mpe);
}

cmsStage* _cmsStageAllocXYZ2Lab(cmsContext ContextID)
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{
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    return _cmsStageAllocPlaceholder(ContextID, cmsSigXYZ2LabElemType, 3, 3, EvaluateXYZ2Lab, NULL, NULL, NULL);
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}

// ********************************************************************************

// For v4, S-Shaped curves are placed in a/b axis to increase resolution near gray

cmsStage* _cmsStageAllocLabPrelin(cmsContext ContextID)
{
    cmsToneCurve* LabTable[3];
    cmsFloat64Number Params[1] =  {2.4} ;

    LabTable[0] = cmsBuildGamma(ContextID, 1.0);
    LabTable[1] = cmsBuildParametricToneCurve(ContextID, 108, Params);
    LabTable[2] = cmsBuildParametricToneCurve(ContextID, 108, Params);

    return cmsStageAllocToneCurves(ContextID, 3, LabTable);
}


// Free a single MPE
void CMSEXPORT cmsStageFree(cmsStage* mpe)
{
    if (mpe ->FreePtr)
        mpe ->FreePtr(mpe);

    _cmsFree(mpe ->ContextID, mpe);
}


cmsUInt32Number  CMSEXPORT cmsStageInputChannels(const cmsStage* mpe)
{
    return mpe ->InputChannels;
}

cmsUInt32Number  CMSEXPORT cmsStageOutputChannels(const cmsStage* mpe)
{
    return mpe ->OutputChannels;
}

cmsStageSignature CMSEXPORT cmsStageType(const cmsStage* mpe)
{
    return mpe -> Type;
}
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void* CMSEXPORT cmsStageData(const cmsStage* mpe)
{
    return mpe -> Data;
}

cmsStage*  CMSEXPORT cmsStageNext(const cmsStage* mpe)
{
    return mpe -> Next;
}


// Duplicates an MPE
cmsStage* CMSEXPORT cmsStageDup(cmsStage* mpe)
{
    cmsStage* NewMPE;

    if (mpe == NULL) return NULL;
    NewMPE = _cmsStageAllocPlaceholder(mpe ->ContextID,
                                     mpe ->Type,
                                     mpe ->InputChannels,
                                     mpe ->OutputChannels,
                                     mpe ->EvalPtr,
                                     mpe ->DupElemPtr,
                                     mpe ->FreePtr,
                                     NULL);
    if (NewMPE == NULL) return NULL;

    NewMPE ->Implements     = mpe ->Implements;

    if (mpe ->DupElemPtr)
        NewMPE ->Data       = mpe ->DupElemPtr(mpe);
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    else
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        NewMPE ->Data       = NULL;
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    return NewMPE;
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}


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// ***********************************************************************************************************

// This function sets up the channel count
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static
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void BlessLUT(cmsPipeline* lut)
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{
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    // We can set the input/ouput channels only if we have elements.
    if (lut ->Elements != NULL) {

        cmsStage *First, *Last;

        First  = cmsPipelineGetPtrToFirstStage(lut);
        Last   = cmsPipelineGetPtrToLastStage(lut);

        if (First != NULL)lut ->InputChannels = First ->InputChannels;
        if (Last != NULL) lut ->OutputChannels = Last ->OutputChannels;
    }
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}

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// Default to evaluate the LUT on 16 bit-basis. Precision is retained.
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static
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void _LUTeval16(register const cmsUInt16Number In[], register cmsUInt16Number Out[],  register const void* D)
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{
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    cmsPipeline* lut = (cmsPipeline*) D;
    cmsStage *mpe;
    cmsFloat32Number Storage[2][MAX_STAGE_CHANNELS];
    int Phase = 0, NextPhase;

    From16ToFloat(In, &Storage[Phase][0], lut ->InputChannels);

    for (mpe = lut ->Elements;
         mpe != NULL;
         mpe = mpe ->Next) {

             NextPhase = Phase ^ 1;
             mpe ->EvalPtr(&Storage[Phase][0], &Storage[NextPhase][0], mpe);
             Phase = NextPhase;
    }


    FromFloatTo16(&Storage[Phase][0], Out, lut ->OutputChannels);
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}

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// Does evaluate the LUT on cmsFloat32Number-basis.
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static
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void _LUTevalFloat(register const cmsFloat32Number In[], register cmsFloat32Number Out[], const void* D)
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{
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    cmsPipeline* lut = (cmsPipeline*) D;
    cmsStage *mpe;
    cmsFloat32Number Storage[2][MAX_STAGE_CHANNELS];
    int Phase = 0, NextPhase;

    memmove(&Storage[Phase][0], In, lut ->InputChannels  * sizeof(cmsFloat32Number));
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    for (mpe = lut ->Elements;
         mpe != NULL;
         mpe = mpe ->Next) {

              NextPhase = Phase ^ 1;
              mpe ->EvalPtr(&Storage[Phase][0], &Storage[NextPhase][0], mpe);
              Phase = NextPhase;
    }
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    memmove(Out, &Storage[Phase][0], lut ->OutputChannels * sizeof(cmsFloat32Number));
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}


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// LUT Creation & Destruction

cmsPipeline* CMSEXPORT cmsPipelineAlloc(cmsContext ContextID, cmsUInt32Number InputChannels, cmsUInt32Number OutputChannels)
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{
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       cmsPipeline* NewLUT;

       if (InputChannels >= cmsMAXCHANNELS ||
           OutputChannels >= cmsMAXCHANNELS) return NULL;

       NewLUT = (cmsPipeline*) _cmsMallocZero(ContextID, sizeof(cmsPipeline));
       if (NewLUT == NULL) return NULL;

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       NewLUT -> InputChannels  = InputChannels;
       NewLUT -> OutputChannels = OutputChannels;
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       NewLUT ->Eval16Fn    = _LUTeval16;
       NewLUT ->EvalFloatFn = _LUTevalFloat;
       NewLUT ->DupDataFn   = NULL;
       NewLUT ->FreeDataFn  = NULL;
       NewLUT ->Data        = NewLUT;
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       NewLUT ->ContextID   = ContextID;
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       BlessLUT(NewLUT);

       return NewLUT;
}
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cmsContext CMSEXPORT cmsGetPipelineContextID(const cmsPipeline* lut)
{
    _cmsAssert(lut != NULL);
    return lut ->ContextID;
}
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cmsUInt32Number CMSEXPORT cmsPipelineInputChannels(const cmsPipeline* lut)
{
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    _cmsAssert(lut != NULL);
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    return lut ->InputChannels;
}

cmsUInt32Number CMSEXPORT cmsPipelineOutputChannels(const cmsPipeline* lut)
{
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    _cmsAssert(lut != NULL);
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    return lut ->OutputChannels;
}

// Free a profile elements LUT
void CMSEXPORT cmsPipelineFree(cmsPipeline* lut)
{
    cmsStage *mpe, *Next;
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    if (lut == NULL) return;
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    for (mpe = lut ->Elements;
        mpe != NULL;
        mpe = Next) {
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            Next = mpe ->Next;
            cmsStageFree(mpe);
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    }
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    if (lut ->FreeDataFn) lut ->FreeDataFn(lut ->ContextID, lut ->Data);

    _cmsFree(lut ->ContextID, lut);
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}


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// Default to evaluate the LUT on 16 bit-basis.
void CMSEXPORT cmsPipelineEval16(const cmsUInt16Number In[], cmsUInt16Number Out[],  const cmsPipeline* lut)
{
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    _cmsAssert(lut != NULL);
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    lut ->Eval16Fn(In, Out, lut->Data);
}

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// Does evaluate the LUT on cmsFloat32Number-basis.
void CMSEXPORT cmsPipelineEvalFloat(const cmsFloat32Number In[], cmsFloat32Number Out[], const cmsPipeline* lut)
{
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    _cmsAssert(lut != NULL);
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    lut ->EvalFloatFn(In, Out, lut);
}
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// Duplicates a LUT
cmsPipeline* CMSEXPORT cmsPipelineDup(const cmsPipeline* lut)
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{
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    cmsPipeline* NewLUT;
    cmsStage *NewMPE, *Anterior = NULL, *mpe;
    cmsBool  First = TRUE;

    if (lut == NULL) return NULL;

    NewLUT = cmsPipelineAlloc(lut ->ContextID, lut ->InputChannels, lut ->OutputChannels);
    for (mpe = lut ->Elements;
         mpe != NULL;
         mpe = mpe ->Next) {

             NewMPE = cmsStageDup(mpe);
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             if (NewMPE == NULL) {
                 cmsPipelineFree(NewLUT);
                 return NULL;
             }

             if (First) {
                 NewLUT ->Elements = NewMPE;
                 First = FALSE;
             }
             else {
                Anterior ->Next = NewMPE;
             }

            Anterior = NewMPE;
    }
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    NewLUT ->Eval16Fn    = lut ->Eval16Fn;
    NewLUT ->EvalFloatFn = lut ->EvalFloatFn;
    NewLUT ->DupDataFn   = lut ->DupDataFn;
    NewLUT ->FreeDataFn  = lut ->FreeDataFn;
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    if (NewLUT ->DupDataFn != NULL)
        NewLUT ->Data = NewLUT ->DupDataFn(lut ->ContextID, lut->Data);
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    NewLUT ->SaveAs8Bits    = lut ->SaveAs8Bits;

    BlessLUT(NewLUT);
    return NewLUT;
}


void CMSEXPORT cmsPipelineInsertStage(cmsPipeline* lut, cmsStageLoc loc, cmsStage* mpe)
{
    cmsStage* Anterior = NULL, *pt;

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    _cmsAssert(lut != NULL);
    _cmsAssert(mpe != NULL);

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    switch (loc) {

        case cmsAT_BEGIN:
            mpe ->Next = lut ->Elements;
            lut ->Elements = mpe;
            break;

        case cmsAT_END:

            if (lut ->Elements == NULL)
                lut ->Elements = mpe;
            else {

                for (pt = lut ->Elements;
                     pt != NULL;
                     pt = pt -> Next) Anterior = pt;

                Anterior ->Next = mpe;
                mpe ->Next = NULL;
            }
            break;
        default:;
    }

    BlessLUT(lut);
}

// Unlink an element and return the pointer to it
void CMSEXPORT cmsPipelineUnlinkStage(cmsPipeline* lut, cmsStageLoc loc, cmsStage** mpe)
{
    cmsStage *Anterior, *pt, *Last;
    cmsStage *Unlinked = NULL;


    // If empty LUT, there is nothing to remove
    if (lut ->Elements == NULL) {
        if (mpe) *mpe = NULL;
        return;
    }

    // On depending on the strategy...
    switch (loc) {

        case cmsAT_BEGIN:
            {
                cmsStage* elem = lut ->Elements;

                lut ->Elements = elem -> Next;
                elem ->Next = NULL;
                Unlinked = elem;

            }
            break;

        case cmsAT_END:
            Anterior = Last = NULL;
            for (pt = lut ->Elements;
                pt != NULL;
                pt = pt -> Next) {
                    Anterior = Last;
                    Last = pt;
            }

            Unlinked = Last;  // Next already points to NULL

            // Truncate the chain
            if (Anterior)
                Anterior ->Next = NULL;
            else
                lut ->Elements = NULL;
            break;
        default:;
    }

    if (mpe)
        *mpe = Unlinked;
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    else
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        cmsStageFree(Unlinked);
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    BlessLUT(lut);
}
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// Concatenate two LUT into a new single one
cmsBool  CMSEXPORT cmsPipelineCat(cmsPipeline* l1, const cmsPipeline* l2)
{
    cmsStage* mpe, *NewMPE;

    // If both LUTS does not have elements, we need to inherit
    // the number of channels
    if (l1 ->Elements == NULL && l2 ->Elements == NULL) {
        l1 ->InputChannels  = l2 ->InputChannels;
        l1 ->OutputChannels = l2 ->OutputChannels;
    }
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    // Cat second
    for (mpe = l2 ->Elements;
         mpe != NULL;
         mpe = mpe ->Next) {
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            // We have to dup each element
             NewMPE = cmsStageDup(mpe);
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             if (NewMPE == NULL) {
                 return FALSE;
             }

             cmsPipelineInsertStage(l1, cmsAT_END, NewMPE);
    }

  BlessLUT(l1);
  return TRUE;
}


cmsBool CMSEXPORT cmsPipelineSetSaveAs8bitsFlag(cmsPipeline* lut, cmsBool On)
{
    cmsBool Anterior = lut ->SaveAs8Bits;

    lut ->SaveAs8Bits = On;
    return Anterior;
}


cmsStage* CMSEXPORT cmsPipelineGetPtrToFirstStage(const cmsPipeline* lut)
{
    return lut ->Elements;
}

cmsStage* CMSEXPORT cmsPipelineGetPtrToLastStage(const cmsPipeline* lut)
{
    cmsStage *mpe, *Anterior = NULL;

    for (mpe = lut ->Elements; mpe != NULL; mpe = mpe ->Next)
        Anterior = mpe;

    return Anterior;
}

cmsUInt32Number CMSEXPORT cmsPipelineStageCount(const cmsPipeline* lut)
{
    cmsStage *mpe;
    cmsUInt32Number n;

    for (n=0, mpe = lut ->Elements; mpe != NULL; mpe = mpe ->Next)
            n++;

    return n;
}

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// This function may be used to set the optional evaluator and a block of private data. If private data is being used, an optional
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// duplicator and free functions should also be specified in order to duplicate the LUT construct. Use NULL to inhibit such functionality.
void CMSEXPORT _cmsPipelineSetOptimizationParameters(cmsPipeline* Lut,
                                        _cmsOPTeval16Fn Eval16,
                                        void* PrivateData,
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                                        _cmsFreeUserDataFn FreePrivateDataFn,
                                        _cmsDupUserDataFn  DupPrivateDataFn)
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{

    Lut ->Eval16Fn = Eval16;
    Lut ->DupDataFn = DupPrivateDataFn;
    Lut ->FreeDataFn = FreePrivateDataFn;
    Lut ->Data = PrivateData;
}


// ----------------------------------------------------------- Reverse interpolation
// Here's how it goes. The derivative Df(x) of the function f is the linear
// transformation that best approximates f near the point x. It can be represented
// by a matrix A whose entries are the partial derivatives of the components of f
// with respect to all the coordinates. This is know as the Jacobian
//
// The best linear approximation to f is given by the matrix equation:
//
// y-y0 = A (x-x0)
//
// So, if x0 is a good "guess" for the zero of f, then solving for the zero of this
// linear approximation will give a "better guess" for the zero of f. Thus let y=0,
// and since y0=f(x0) one can solve the above equation for x. This leads to the
// Newton's method formula:
//
// xn+1 = xn - A-1 f(xn)
//
// where xn+1 denotes the (n+1)-st guess, obtained from the n-th guess xn in the
// fashion described above. Iterating this will give better and better approximations
// if you have a "good enough" initial guess.


#define JACOBIAN_EPSILON            0.001f
#define INVERSION_MAX_ITERATIONS    30

// Increment with reflexion on boundary
static
void IncDelta(cmsFloat32Number *Val)
{
    if (*Val < (1.0 - JACOBIAN_EPSILON))

        *Val += JACOBIAN_EPSILON;

    else
        *Val -= JACOBIAN_EPSILON;

}



// Euclidean distance between two vectors of n elements each one
static
cmsFloat32Number EuclideanDistance(cmsFloat32Number a[], cmsFloat32Number b[], int n)
{
    cmsFloat32Number sum = 0;
    int i;

    for (i=0; i < n; i++) {
        cmsFloat32Number dif = b[i] - a[i];
        sum +=  dif * dif;
    }

    return sqrtf(sum);
}


// Evaluate a LUT in reverse direction. It only searches on 3->3 LUT. Uses Newton method
//
// x1 <- x - [J(x)]^-1 * f(x)
//
// lut: The LUT on where to do the search
// Target: LabK, 3 values of Lab plus destination K which is fixed
// Result: The obtained CMYK
// Hint:   Location where begin the search

cmsBool CMSEXPORT cmsPipelineEvalReverseFloat(cmsFloat32Number Target[],
                                              cmsFloat32Number Result[],
                                              cmsFloat32Number Hint[],
                                              const cmsPipeline* lut)
{
    cmsUInt32Number  i, j;
    cmsFloat64Number  error, LastError = 1E20;
    cmsFloat32Number  fx[4], x[4], xd[4], fxd[4];
    cmsVEC3 tmp, tmp2;
    cmsMAT3 Jacobian;
    cmsFloat64Number LastResult[4];


    // Only 3->3 and 4->3 are supported
    if (lut ->InputChannels != 3 && lut ->InputChannels != 4) return FALSE;
    if (lut ->OutputChannels != 3) return FALSE;

    // Mark result of -1
    LastResult[0] = LastResult[1] = LastResult[2] = -1.0f;

    // Take the hint as starting point if specified
    if (Hint == NULL) {

        // Begin at any point, we choose 1/3 of CMY axis
        x[0] = x[1] = x[2] = 0.3f;
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    }
    else {

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        // Only copy 3 channels from hint...
        for (j=0; j < 3; j++)
            x[j] = Hint[j];
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    }

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    // If Lut is 4-dimensions, then grab target[3], which is fixed
    if (lut ->InputChannels == 4) {
        x[3] = Target[3];
    }
    else x[3] = 0; // To keep lint happy
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1743
    // Iterate
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    for (i = 0; i < INVERSION_MAX_ITERATIONS; i++) {

        // Get beginning fx
1747
        cmsPipelineEvalFloat(x, fx, lut);
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        // Compute error
1750
        error = EuclideanDistance(fx, Target, 3);
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        // If not convergent, return last safe value
        if (error >= LastError)
            break;

        // Keep latest values
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        LastError     = error;
        for (j=0; j < lut ->InputChannels; j++)
                Result[j] = x[j];

        // Found an exact match?
        if (error <= 0)
            break;

        // Obtain slope (the Jacobian)
        for (j = 0; j < 3; j++) {
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            xd[0] = x[0];
            xd[1] = x[1];
            xd[2] = x[2];
            xd[3] = x[3];  // Keep fixed channel
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            IncDelta(&xd[j]);

            cmsPipelineEvalFloat(xd, fxd, lut);

            Jacobian.v[0].n[j] = ((fxd[0] - fx[0]) / JACOBIAN_EPSILON);
            Jacobian.v[1].n[j] = ((fxd[1] - fx[1]) / JACOBIAN_EPSILON);
            Jacobian.v[2].n[j] = ((fxd[2] - fx[2]) / JACOBIAN_EPSILON);
        }
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        // Solve system
1783 1784 1785
        tmp2.n[0] = fx[0] - Target[0];
        tmp2.n[1] = fx[1] - Target[1];
        tmp2.n[2] = fx[2] - Target[2];
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        if (!_cmsMAT3solve(&tmp, &Jacobian, &tmp2))
            return FALSE;
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        // Move our guess
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        x[0] -= (cmsFloat32Number) tmp.n[0];
        x[1] -= (cmsFloat32Number) tmp.n[1];
        x[2] -= (cmsFloat32Number) tmp.n[2];
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        // Some clipping....
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        for (j=0; j < 3; j++) {
            if (x[j] < 0) x[j] = 0;
            else
                if (x[j] > 1.0) x[j] = 1.0;
        }
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    }

1803
    return TRUE;
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}
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