rawTherapee/rtengine/rawimagesource.h

/*
 *  This file is part of RawTherapee.
 *
 *  Copyright (c) 2004-2010 Gabor Horvath <hgabor@rawtherapee.com>
 *
 *  RawTherapee is free software: you can redistribute it and/or modify
 *  it under the terms of the GNU General Public License as published by
 *  the Free Software Foundation, either version 3 of the License, or
 *  (at your option) any later version.
 *
 *  RawTherapee 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 for more details.
 *
 *  You should have received a copy of the GNU General Public License
 *  along with RawTherapee.  If not, see <http://www.gnu.org/licenses/>.
 */
#ifndef _RAWIMAGESOURCE_
#define _RAWIMAGESOURCE_

#include "imagesource.h"
#include "dcp.h"
#include "array2D.h"
#include "curves.h"
#include "color.h"
#include "iimage.h"
#include <iostream>
#define HR_SCALE 2

namespace rtengine
{

class RawImageSource : public ImageSource
{

private:
    static DiagonalCurve *phaseOneIccCurve;
    static DiagonalCurve *phaseOneIccCurveInv;
    static LUTf invGrad;  // for fast_demosaic
    static LUTf initInvGrad();
    static void colorSpaceConversion_(Imagefloat* im, const ColorManagementParams& cmp, const ColorTemp &wb, double pre_mul[3], cmsHPROFILE embedded, cmsHPROFILE camprofile, double cam[3][3], const std::string &camName);
    int  defTransform(int tran);

protected:
    MyMutex getImageMutex;  // locks getImage

    int W, H;
    ColorTemp camera_wb;
    ProgressListener* plistener;
    float scale_mul[4]; // multiplier for each color
    float c_black[4]; // copy of cblack Dcraw for black level
    float c_white[4];
    float cblacksom[4];
    float ref_pre_mul[4];
    double refwb_red;
    double refwb_green;
    double refwb_blue;
    double rgb_cam[3][3];
    double cam_rgb[3][3];
    double xyz_cam[3][3];
    double cam_xyz[3][3];
    bool fuji;
    bool d1x;
    int border;
    float chmax[4], hlmax[4], clmax[4];
    double initialGain; // initial gain calculated after scale_colors
    double camInitialGain;
    double defGain;
    cmsHPROFILE camProfile;
    bool rgbSourceModified;

    RawImage* ri;  // Copy of raw pixels, NOT corrected for initial gain, blackpoint etc.
    RawImage* riFrames[4] = {nullptr};
    unsigned int currFrame = 0;
    unsigned int numFrames = 0;

    // to accelerate CIELAB conversion:
    double lc00, lc01, lc02, lc10, lc11, lc12, lc20, lc21, lc22;
    double* cache;
    int threshold;

    array2D<float> rawData;  // holds preprocessed pixel values, rowData[i][j] corresponds to the ith row and jth column
    array2D<float> *rawDataFrames[4] = {nullptr};
    array2D<float> *rawDataBuffer[3] = {nullptr};

    // the interpolated green plane:
    array2D<float> green;
    // the interpolated red plane:
    array2D<float> red;
    // the interpolated blue plane:
    array2D<float> blue;
    bool rawDirty;
    float psRedBrightness[4];
    float psGreenBrightness[4];
    float psBlueBrightness[4];

    std::vector<double> histMatchingCache;

    void hphd_vertical(float** hpmap, int col_from, int col_to);
    void hphd_horizontal(float** hpmap, int row_from, int row_to);
    void hphd_green(float** hpmap);
    void processFalseColorCorrectionThread(Imagefloat* im, array2D<float> &rbconv_Y, array2D<float> &rbconv_I, array2D<float> &rbconv_Q, array2D<float> &rbout_I, array2D<float> &rbout_Q, const int row_from, const int row_to);
    void hlRecovery(const std::string &method, float* red, float* green, float* blue, int width, float* hlmax);
    void transformRect(const PreviewProps &pp, int tran, int &sx1, int &sy1, int &width, int &height, int &fw);
    void transformPosition(int x, int y, int tran, int& tx, int& ty);

    unsigned FC(int row, int col)
    {
        return ri->FC(row, col);
    }
    inline void getRowStartEnd(int x, int &start, int &end);
    static void getProfilePreprocParams(cmsHPROFILE in, float& gammafac, float& lineFac, float& lineSum);


public:
    RawImageSource();
    ~RawImageSource();

    int         load(const Glib::ustring &fname);
    void        preprocess(const RAWParams &raw, const LensProfParams &lensProf, const CoarseTransformParams& coarse, bool prepareDenoise = true);
    void        demosaic(const RAWParams &raw);
    void        retinex       (const ColorManagementParams& cmp, const RetinexParams &deh, const ToneCurveParams& Tc, LUTf & cdcurve, LUTf & mapcurve, const RetinextransmissionCurve & dehatransmissionCurve, const RetinexgaintransmissionCurve & dehagaintransmissionCurve, multi_array2D<float, 4> &conversionBuffer, bool dehacontlutili, bool mapcontlutili, bool useHsl, float &minCD, float &maxCD, float &mini, float &maxi, float &Tmean, float &Tsigma, float &Tmin, float &Tmax, LUTu &histLRETI);
    void        retinexPrepareCurves(const RetinexParams &retinexParams, LUTf &cdcurve, LUTf &mapcurve, RetinextransmissionCurve &retinextransmissionCurve, RetinexgaintransmissionCurve &retinexgaintransmissionCurve, bool &retinexcontlutili, bool &mapcontlutili, bool &useHsl, LUTu & lhist16RETI, LUTu & histLRETI);
    void        retinexPrepareBuffers(const ColorManagementParams& cmp, const RetinexParams &retinexParams, multi_array2D<float, 4> &conversionBuffer, LUTu &lhist16RETI);
    void        flushRawData();
    void        flushRGB();
    void        HLRecovery_Global(ToneCurveParams hrp);
    void        refinement_lassus(int PassCount);
    void        refinement(int PassCount);

    bool        isRGBSourceModified() const
    {
        return rgbSourceModified;   // tracks whether cached rgb output of demosaic has been modified
    }

    void        processFlatField(const RAWParams &raw, RawImage *riFlatFile, unsigned short black[4]);
    void        copyOriginalPixels(const RAWParams &raw, RawImage *ri, RawImage *riDark, RawImage *riFlatFile, array2D<float> &rawData);
    void        cfaboxblur(RawImage *riFlatFile, float* cfablur, int boxH, int boxW);
    void        scaleColors(int winx, int winy, int winw, int winh, const RAWParams &raw, array2D<float> &rawData);  // raw for cblack

    void        getImage(const ColorTemp &ctemp, int tran, Imagefloat* image, const PreviewProps &pp, const ToneCurveParams &hrp, const RAWParams &raw);
    eSensorType getSensorType() const
    {
        return ri != nullptr ? ri->getSensorType() : ST_NONE;
    }
    ColorTemp   getWB() const
    {
        return camera_wb;
    }
    void        getAutoWBMultipliers(double &rm, double &gm, double &bm);
    ColorTemp   getSpotWB(std::vector<Coord2D> &red, std::vector<Coord2D> &green, std::vector<Coord2D> &blue, int tran, double equal);
    bool        isWBProviderReady()
    {
        return rawData;
    }

    double      getDefGain() const
    {
        return defGain;
    }

    void        getFullSize(int& w, int& h, int tr = TR_NONE);
    void        getSize(const PreviewProps &pp, int& w, int& h);
    int         getRotateDegree() const
    {
        return ri->get_rotateDegree();
    }

    FrameData*  getImageData(unsigned int frameNum)
    {
        return idata->getFrameData(frameNum);
    }
    ImageMatrices* getImageMatrices()
    {
        return &imatrices;
    }
    bool        isRAW() const
    {
        return true;
    }

    void        setProgressListener(ProgressListener* pl)
    {
        plistener = pl;
    }
    void        getAutoExpHistogram(LUTu & histogram, int& histcompr);
    void        getRAWHistogram(LUTu & histRedRaw, LUTu & histGreenRaw, LUTu & histBlueRaw);
    void getAutoMatchedToneCurve(std::vector<double> &outCurve);
    DCPProfile *getDCP(const ColorManagementParams &cmp, DCPProfile::ApplyState &as);

    void convertColorSpace(Imagefloat* image, const ColorManagementParams &cmp, const ColorTemp &wb);
    static bool findInputProfile(Glib::ustring inProfile, cmsHPROFILE embedded, std::string camName, DCPProfile **dcpProf, cmsHPROFILE& in);
    static void colorSpaceConversion(Imagefloat* im, const ColorManagementParams& cmp, const ColorTemp &wb, double pre_mul[3], cmsHPROFILE embedded, cmsHPROFILE camprofile, double cam[3][3], const std::string &camName)
    {
        colorSpaceConversion_(im, cmp, wb, pre_mul, embedded, camprofile, cam, camName);
    }
    static void inverse33(const double (*coeff)[3], double (*icoeff)[3]);

    void boxblur2(float** src, float** dst, float** temp, int H, int W, int box);
    void boxblur_resamp(float **src, float **dst, float** temp, int H, int W, int box, int samp);
    void MSR(float** luminance, float **originalLuminance, float **exLuminance,  LUTf & mapcurve, bool &mapcontlutili, int width, int height, const RetinexParams &deh, const RetinextransmissionCurve & dehatransmissionCurve, const RetinexgaintransmissionCurve & dehagaintransmissionCurve, float &minCD, float &maxCD, float &mini, float &maxi, float &Tmean, float &Tsigma, float &Tmin, float &Tmax);
    void HLRecovery_inpaint(float** red, float** green, float** blue);
    static void HLRecovery_Luminance(float* rin, float* gin, float* bin, float* rout, float* gout, float* bout, int width, float maxval);
    static void HLRecovery_CIELab(float* rin, float* gin, float* bin, float* rout, float* gout, float* bout, int width, float maxval, double cam[3][3], double icam[3][3]);
    static void HLRecovery_blend(float* rin, float* gin, float* bin, int width, float maxval, float* hlmax);
    static void init();
    static void cleanup();
    void setCurrentFrame(unsigned int frameNum)
    {
        currFrame = std::min(numFrames - 1, frameNum);
        ri = riFrames[currFrame];
    }
    int getFrameCount()
    {
        return numFrames;
    }

protected:
    typedef unsigned short ushort;
    void processFalseColorCorrection(Imagefloat* i, const int steps);
    inline  void convert_row_to_YIQ(const float* const r, const float* const g, const float* const b, float* Y, float* I, float* Q, const int W);
    inline  void convert_row_to_RGB(float* r, float* g, float* b, const float* const Y, const float* const I, const float* const Q, const int W);
    inline  void convert_to_RGB(float &r, float &g, float &b, const float Y, const float I, const float Q);

    inline  void convert_to_cielab_row(float* ar, float* ag, float* ab, float* oL, float* oa, float* ob);
    inline  void interpolate_row_g(float* agh, float* agv, int i);
    inline  void interpolate_row_rb(float* ar, float* ab, float* pg, float* cg, float* ng, int i);
    inline  void interpolate_row_rb_mul_pp(float* ar, float* ab, float* pg, float* cg, float* ng, int i, float r_mul, float g_mul, float b_mul, int x1, int width, int skip);

    void CA_correct_RT(const bool autoCA, const double cared, const double cablue, const double caautostrength, array2D<float> &rawData);
    void ddct8x8s(int isgn, float a[8][8]);
    void processRawWhitepoint(float expos, float preser, array2D<float> &rawData);   // exposure before interpolation

    int  interpolateBadPixelsBayer(PixelsMap &bitmapBads, array2D<float> &rawData);
    int  interpolateBadPixelsNColours(PixelsMap &bitmapBads, const int colours);
    int  interpolateBadPixelsXtrans(PixelsMap &bitmapBads);
    int  findHotDeadPixels(PixelsMap &bpMap, float thresh, bool findHotPixels, bool findDeadPixels);

    void cfa_linedn(float linenoiselevel); //Emil's line denoise

    void green_equilibrate_global(array2D<float> &rawData);
    void green_equilibrate(float greenthresh, array2D<float> &rawData); //Emil's green equilibration

    void nodemosaic(bool bw);
    void eahd_demosaic();
    void hphd_demosaic();
    void vng4_demosaic();
    void ppg_demosaic();
    void jdl_interpolate_omp();
    void igv_interpolate(int winw, int winh);
    void lmmse_interpolate_omp(int winw, int winh, array2D<float> &rawData, array2D<float> &red, array2D<float> &green, array2D<float> &blue, int iterations);
    void amaze_demosaic_RT(int winx, int winy, int winw, int winh, array2D<float> &rawData, array2D<float> &red, array2D<float> &green, array2D<float> &blue);//Emil's code for AMaZE
    void fast_demosaic();//Emil's code for fast demosaicing
    void dcb_demosaic(int iterations, bool dcb_enhance);
    void ahd_demosaic();
    void rcd_demosaic();
    void border_interpolate(unsigned int border, float (*image)[4], unsigned int start = 0, unsigned int end = 0);
    void border_interpolate2(int winw, int winh, int lborders);
    void dcb_initTileLimits(int &colMin, int &rowMin, int &colMax, int &rowMax, int x0, int y0, int border);
    void fill_raw(float (*cache)[3], int x0, int y0, float** rawData);
    void fill_border(float (*cache)[3], int border, int x0, int y0);
    void copy_to_buffer(float (*image2)[2], float (*image)[3]);
    void dcb_hid(float (*image)[3], int x0, int y0);
    void dcb_color(float (*image)[3], int x0, int y0);
    void dcb_hid2(float (*image)[3], int x0, int y0);
    void dcb_map(float (*image)[3], uint8_t *map, int x0, int y0);
    void dcb_correction(float (*image)[3], uint8_t *map, int x0, int y0);
    void dcb_pp(float (*image)[3], int x0, int y0);
    void dcb_correction2(float (*image)[3], uint8_t *map, int x0, int y0);
    void restore_from_buffer(float (*image)[3], float (*image2)[2]);
    void dcb_refinement(float (*image)[3], uint8_t *map, int x0, int y0);
    void dcb_color_full(float (*image)[3], int x0, int y0, float (*chroma)[2]);
    void cielab(const float (*rgb)[3], float* l, float* a, float *b, const int width, const int height, const int labWidth, const float xyz_cam[3][3]);
    void xtransborder_interpolate(int border);
    void xtrans_interpolate(const int passes, const bool useCieLab);
    void fast_xtrans_interpolate();
    void pixelshift(int winx, int winy, int winw, int winh, const RAWParams::BayerSensor &bayerParams, unsigned int frame, const std::string &make, const std::string &model, float rawWpCorrection);
    void    hflip(Imagefloat* im);
    void    vflip(Imagefloat* im);
    void getRawValues(int x, int y, int rotate, int &R, int &G, int &B);

};
}
#endif