// @(#)root/gui:$Name:  $:$Id: TGColorDialog.cxx,v 1.8 2003/03/17 16:38:03 rdm Exp $
// Author: Bertrand Bellenot + Fons Rademakers   22/08/02

/*************************************************************************
 * Copyright (C) 1995-2002, Rene Brun and Fons Rademakers.               *
 * All rights reserved.                                                  *
 *                                                                       *
 * For the licensing terms see $ROOTSYS/LICENSE.                         *
 * For the list of contributors see $ROOTSYS/README/CREDITS.             *
 *************************************************************************/
/**************************************************************************

    This file is part of xclass.
    Copyright (C) 2000, 2001, Hector Peraza.

    This program 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 2 of the License, or
    (at your option) any later version.

    This program 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 this program; if not, write to the Free Software
    Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.

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

//////////////////////////////////////////////////////////////////////////
//                                                                      //
// TGColorPalette, TGColorPick and TGColorDialog.                       //
//                                                                      //
// The TGColorPalette is a widget showing an matrix of color cells. The //
// colors can be set and selected.                                      //
//                                                                      //
// The TGColorPick is a widget which allows a color to be picked from   //
// HLS space. It consists of two elements: a color map window from      //
// where the user can select the hue and saturation level of a color,   //
// and a slider to select color's lightness.                            //
//                                                                      //
// Selecting a color in these two widgets will generate the event:      //
// kC_COLORSEL, kCOL_CLICK, widget id, 0.                               //
// and the signal:                                                      //
// ColorSelected(ULong_t pixel)                                         //
//                                                                      //
// The TGColorDialog presents a full featured color selection dialog.   //
// It uses 2 TGColorPalette's and the TGColorPick widgets.              //
//                                                                      //
//////////////////////////////////////////////////////////////////////////

#include <stdlib.h>

#include "TGLabel.h"
#include "TGMsgBox.h"         // for ID_OK, ID_CANCEL
#include "TGLayout.h"
#include "TGGC.h"
#include "KeySymbols.h"
#include "TGColorDialog.h"
#include "TGTextEntry.h"
#include "TGButton.h"
#include "TColor.h"

ClassImp(TGColorPalette)
ClassImp(TGColorPick)
ClassImp(TGColorDialog)


// TODO:
// - implement "custom" colors.
// - optimize the code, specially the one handling the fColormap image
//   and dithering in pseudo-color modes; remove duplicated code.
// - improve the color allocation routine.
// - use a buffering pixmap for the fColormap image.

enum {
   kCDLG_OK       = 100,
   kCDLG_CANCEL,
   kCDLG_ADD,

   kCDLG_SPALETTE = 200,
   kCDLG_CPALETTE,
   kCDLG_COLORPICK,

   kCDLG_HTE      = 300,
   kCDLG_LTE,
   kCDLG_STE,
   kCDLG_RTE,
   kCDLG_GTE,
   kCDLG_BTE
};

enum {
   kCLICK_NONE,
   kCLICK_HS,
   kCLICK_L
};

enum {
   kIMG_HS,
   kIMG_L
};


// "Basic" colors:

static UChar_t bcolor[48][3] = {
   { 0xff, 0x80, 0x80 }, { 0xff, 0xff, 0x80 },
   { 0x80, 0xff, 0x80 }, { 0x00, 0xff, 0x80 },
   { 0x80, 0xff, 0xff }, { 0x00, 0x80, 0xff },
   { 0xff, 0x80, 0xc0 }, { 0xff, 0x80, 0xff },

   { 0xff, 0x00, 0x00 }, { 0xff, 0xff, 0x00 },
   { 0x80, 0xff, 0x00 }, { 0x00, 0xff, 0x40 },
   { 0x00, 0xff, 0xff }, { 0x00, 0x80, 0xc0 },
   { 0x80, 0x80, 0xc0 }, { 0xff, 0x00, 0xff },

   { 0x80, 0x40, 0x40 }, { 0xff, 0x80, 0x40 },
   { 0x00, 0xff, 0x00 }, { 0x00, 0x80, 0x80 },
   { 0x00, 0x40, 0x80 }, { 0x80, 0x80, 0xff },
   { 0x80, 0x00, 0x40 }, { 0xff, 0x00, 0x80 },

   { 0x80, 0x00, 0x00 }, { 0xff, 0x80, 0x00 },
   { 0x00, 0x80, 0x00 }, { 0x00, 0x80, 0x40 },
   { 0x00, 0x00, 0xff }, { 0x00, 0x00, 0xa0 },
   { 0x80, 0x00, 0x80 }, { 0x80, 0x00, 0xff },

   { 0x40, 0x00, 0x00 }, { 0x80, 0x40, 0x00 },
   { 0x00, 0x40, 0x00 }, { 0x00, 0x40, 0x40 },
   { 0x00, 0x00, 0x80 }, { 0x00, 0x00, 0x40 },
   { 0x40, 0x00, 0x40 }, { 0x40, 0x00, 0x80 },

   { 0x00, 0x00, 0x00 }, { 0x80, 0x80, 0x00 },
   { 0x80, 0x80, 0x40 }, { 0x80, 0x80, 0x80 },
   { 0x40, 0x80, 0x80 }, { 0xc0, 0xc0, 0xc0 },
   { 0x40, 0x00, 0x40 }, { 0xff, 0xff, 0xff }
};

// "User" defined colors

static ULong_t ucolor[24] = { 0xff000000 };


//________________________________________________________________________________
TGColorPalette::TGColorPalette(const TGWindow *p, Int_t cols, Int_t rows, Int_t id) :
   TGFrame(p, 10, 10, kChildFrame), fDrawGC(TGButton::GetDefaultGC())
{
   // TGColorPalette widget: this is just a grid of color cells of the
   // specified size. Colors can be selected by clicking on them or by
   // using the arrow keys.

   fWidgetId    = id;
   fWidgetFlags = kWidgetIsEnabled;
   fMsgWindow   = p;

   fCw = 20;
   fCh = 17;

   fRows = rows;
   fCols = cols;

   fCx = fCy = 0;

   fPixels = new ULong_t[fRows * fCols];

   for (Int_t i = 0; i < fRows * fCols; ++i) {
      fPixels[i] = TColor::RGB2Pixel(255, 255, 255);
   }

   gVirtualX->GrabButton(fId, kAnyButton, kAnyModifier,
                         kButtonPressMask | kButtonReleaseMask |
#ifndef GDK_WIN32
                         kPointerMotionMask, kNone, kNone);
#else
                         kButtonMotionMask, kNone, kNone);
#endif

   AddInput(kKeyPressMask | kEnterWindowMask | kLeaveWindowMask |
            kFocusChangeMask | kStructureNotifyMask);
}

//________________________________________________________________________________
TGColorPalette::~TGColorPalette()
{
   delete [] fPixels;
}

//________________________________________________________________________________
Bool_t TGColorPalette::HandleButton(Event_t *event)
{
   if (event->fCode != kButton1)
      return kFALSE;

   if ((event->fType == kButtonPress) && HasFocus())
       WantFocus();

   Int_t cx = event->fX / (fCw + 5);
   Int_t cy = event->fY / (fCh + 5);

   if (cx >= 0 && cx < fCols && cy >= 0 && cy < fRows) {

      DrawFocusHilite(kFALSE);

      fCx = cx;
      fCy = cy;

      DrawFocusHilite(kTRUE);

      SendMessage(fMsgWindow, MK_MSG(kC_COLORSEL, kCOL_CLICK), fWidgetId, 0);
      ColorSelected();
   }

   return kTRUE;
}

//________________________________________________________________________________
Bool_t TGColorPalette::HandleMotion(Event_t *event)
{
   if (!IsEnabled())
      return kTRUE;

   Int_t cx = event->fX / (fCw + 5);
   Int_t cy = event->fY / (fCh + 5);

   if (cx >= 0 && cx < fCols && cy >= 0 && cy < fRows) {

      DrawFocusHilite(kFALSE);

      fCx = cx;
      fCy = cy;

      DrawFocusHilite(kTRUE);

      SendMessage(fMsgWindow, MK_MSG(kC_COLORSEL, kCOL_CLICK), fWidgetId, 0);
      ColorSelected();
   }

   return kTRUE;
}

//________________________________________________________________________________
Bool_t TGColorPalette::HandleKey(Event_t *event)
{
   Char_t input[10];
   UInt_t keysym;

   if (event->fType == kGKeyPress) {

      gVirtualX->LookupString(event, input, sizeof(input), keysym);

      Int_t cx = fCx;
      Int_t cy = fCy;

      switch ((EKeySym)keysym) {
         case kKey_Left:
            if (cx > 0) --cx;
            break;

         case kKey_Right:
            if (cx < fCols - 1) ++cx;
            break;

         case kKey_Up:
            if (cy > 0) --cy;
            break;

         case kKey_Down:
            if (cy < fRows - 1) ++cy;
            break;

         case kKey_Home:
            cx = cy = 0;
            break;

         case kKey_End:
            cx = fCols - 1;
            cy = fRows - 1;
            break;

         default:
            break;
      }

      if (cx != fCx || cy != fCy) {

         DrawFocusHilite(kFALSE);

         fCx = cx;
         fCy = cy;

         DrawFocusHilite(kTRUE);

         SendMessage(fMsgWindow, MK_MSG(kC_COLORSEL, kCOL_CLICK), fWidgetId, 0);
         ColorSelected();
      }
   }

   return kTRUE;
}

//________________________________________________________________________________
void TGColorPalette::SetColors(ULong_t colors[])
{
   for (Int_t i = 0; i < fRows * fCols; ++i)
      SetColor(i, colors[i]);
   gClient->NeedRedraw(this);
}

//________________________________________________________________________________
void TGColorPalette::SetColor(Int_t ix, ULong_t color)
{
   fPixels[ix] = color;
   gClient->NeedRedraw(this);
}

//________________________________________________________________________________
void TGColorPalette::SetCurrentCellColor(ULong_t color)
{
   SetColor(fCy * fCols + fCx, color);
}

//________________________________________________________________________________
void TGColorPalette::SetCellSize(Int_t w, Int_t h)
{
   fCw = w;
   fCh = h;
   gClient->NeedRedraw(this);
}

//________________________________________________________________________________
ULong_t TGColorPalette::GetCurrentColor() const
{
   if (fCx >= 0 && fCy >= 0)
      return GetColorByIndex(fCy * fCols + fCx);
   else
      return TColor::RGB2Pixel(0, 0, 0);
}

//________________________________________________________________________________
void TGColorPalette::DoRedraw()
{
   Int_t i, j, k, x, y;

   k = 0;
   y = 2;
   for (i = 0; i < fRows; ++i) {
      x = 2;
      for (j = 0; j < fCols; ++j) {
         Draw3dRectangle(kSunkenFrame | kDoubleBorder, x, y, fCw, fCh);
         fDrawGC.SetForeground(fPixels[k++]);
         gVirtualX->FillRectangle(fId, fDrawGC(), x + 2, y + 2, fCw - 4, fCh - 4);
         x += fCw + 5;
      }
      y += fCh + 5;
   }

   DrawFocusHilite(kTRUE);
}

//________________________________________________________________________________
void TGColorPalette::GotFocus()
{
   AddInput(kKeyPressMask | kKeyReleaseMask);
}

//________________________________________________________________________________
void TGColorPalette::LostFocus()
{
   RemoveInput(kKeyPressMask | kKeyReleaseMask);
   gClient->NeedRedraw(this);
}

//________________________________________________________________________________
void TGColorPalette::DrawFocusHilite(Int_t onoff)
{
   if (fCx >= 0 && fCy >= 0) {
      GContext_t gc = onoff ? GetShadowGC()() : GetBckgndGC()();
      gVirtualX->DrawRectangle(fId, gc, fCx * (fCw + 5) + 0, fCy * (fCh + 5) + 0,
                               fCw + 3, fCh + 3);
   }
}


//________________________________________________________________________________
 TGColorPick::TGColorPick(const TGWindow *p, Int_t w, Int_t h, Int_t id) :
   TGFrame(p, w, h, kChildFrame), fCursorGC(GetBlackGC())
{
   UInt_t iw, ih;

   fWidgetId    = id;
   fWidgetFlags = kWidgetIsEnabled;
   fMsgWindow   = p;

   fColormapRect.fX = 1;
   fColormapRect.fY = 1;
   fColormapRect.fWidth = w - 33 - 2;
   fColormapRect.fHeight = h - 2;
   fSliderRect.fX = w - 18 - 2;
   fSliderRect.fY = 1;
   fSliderRect.fWidth = 10;
   fSliderRect.fHeight = h - 2;

   fNColors = 0;

   CreateImages();
   gVirtualX->GetImageSize(fLimage, iw, ih);

   fCx = 0;
   fCy = 0;
   fCz = (Int_t)ih / 2;

   fClick = kCLICK_NONE;

   UpdateCurrentColor();
   InitImages();

   gVirtualX->GrabButton(fId, kAnyButton, kAnyModifier,
                         kButtonPressMask | kButtonReleaseMask |
                         kPointerMotionMask, kNone, kNone);

   AddInput(kKeyPressMask | kEnterWindowMask | kLeaveWindowMask |
            kFocusChangeMask | kStructureNotifyMask);
}

//________________________________________________________________________________
 TGColorPick::~TGColorPick()
{
   gVirtualX->DeleteImage(fHSimage);
   gVirtualX->DeleteImage(fLimage);
   FreeColors();
}

//________________________________________________________________________________
 Bool_t TGColorPick::HandleButton(Event_t *event)
{
   if (event->fCode != kButton1) return kFALSE;

   if (event->fType == kButtonPress) {
      if ((event->fX > fColormapRect.fX) && (event->fX < fColormapRect.fX + fColormapRect.fWidth) &&
          (event->fY > fColormapRect.fY) && (event->fY < fColormapRect.fY + fColormapRect.fHeight)) {

         fClick = kCLICK_HS;
         SetHScursor(event->fX - fColormapRect.fX, event->fY - fColormapRect.fY);

      } else if (event->fX > fSliderRect.fX) {

         fClick = kCLICK_L;
         SetLcursor(event->fY - fSliderRect.fY);

      }
   } else {  // ButtonRelease

      fClick = kCLICK_NONE;

   }

   UpdateCurrentColor();
   if (fClick == kCLICK_HS) SetSliderColor();

   SendMessage(fMsgWindow, MK_MSG(kC_COLORSEL, kCOL_CLICK), fWidgetId, kFALSE);
   ColorSelected();

   return kTRUE;
}

//________________________________________________________________________________
 Bool_t TGColorPick::HandleMotion(Event_t *event)
{
   if (!IsEnabled())
      return kTRUE;

   if (fClick == kCLICK_HS) {

      SetHScursor(event->fX - fColormapRect.fX, event->fY - fColormapRect.fY);

   } else if (fClick == kCLICK_L) {

      SetLcursor(event->fY - fSliderRect.fY);

   } else {

      return kTRUE;

   }

   UpdateCurrentColor();
   if (fClick == kCLICK_HS) SetSliderColor();

   SendMessage(fMsgWindow, MK_MSG(kC_COLORSEL, kCOL_CLICK), fWidgetId, kFALSE);
   ColorSelected();

   return kTRUE;
}

//________________________________________________________________________________
 void TGColorPick::CreateImages()
{
   UInt_t width, height;

   width = fColormapRect.fWidth;
   height = fColormapRect.fHeight;
   fHSimage = gVirtualX->CreateImage(width, height);
   width = fSliderRect.fWidth;
   height = fSliderRect.fHeight;
   fLimage = gVirtualX->CreateImage(width, height);
}

//________________________________________________________________________________
 void TGColorPick::AllocColors()
{
   // Try to allocate first a palette of 64 colors. Used by the dithered
   // version of the color maps.

   ColorStruct_t color;
   Int_t i;

   for (i = 0; i < 64; ++i) {
      Int_t cc[4] = { 0, 21845, 43691, 65535 };
      color.fPixel = 0;
      color.fRed   = cc[i & 0x3];
      color.fGreen = cc[(i >> 2) & 0x3];
      color.fBlue  = cc[(i >> 4) & 0x3];
      if (gVirtualX->AllocColor(gVirtualX->GetColormap(), color) == 0)
          break;
      fColormap[i][0] = color.fRed / 256;
      fColormap[i][1] = color.fGreen / 256;
      fColormap[i][2] = color.fBlue / 256;
      fPixel[i] = color.fPixel;
   }

   fNColors = i;
   if (fNColors == 64) return;  // success

   // Failed, try a simpler 27-color.

   FreeColors();

   for (i = 0; i < 27; ++i) {
      Int_t cc[3] = { 0, 32768, 65535 };
      color.fPixel = 0;
      color.fRed   = cc[i % 3];
      color.fGreen = cc[(i / 3) % 3];
      color.fBlue  = cc[(i / 9) % 3];
      if (gVirtualX->AllocColor(gVirtualX->GetColormap(), color) == 0)
         break;
      fColormap[i][0] = color.fRed / 256;
      fColormap[i][1] = color.fGreen / 256;
      fColormap[i][2] = color.fBlue / 256;
      fPixel[i] = color.fPixel;
   }

   fNColors = i;
   if (fNColors == 27) return;  // success

   // Failed, try then a much simpler 8-color.

   FreeColors();

   for (i = 0; i < 8; ++i) {
      color.fPixel = 0;
      color.fRed   = (i & 1) * 65535;
      color.fGreen = ((i >> 1) & 1) * 65535;
      color.fBlue  = ((i >> 2) & 1) * 65535;
      if (gVirtualX->AllocColor(gVirtualX->GetColormap(), color) == 0)
         break;
      fColormap[i][0] = color.fRed / 256;
      fColormap[i][1] = color.fGreen / 256;
      fColormap[i][2] = color.fBlue / 256;
      fPixel[i] = color.fPixel;
   }

   fNColors = i;
   if (fNColors == 8) return;  // success

   // Failed, try to get at least 8 closest colors...
   // (TODO: search for closest colors in the colormap, right now we just
   // get as many as exact colors we can for the 8-color palette)

   FreeColors();

   for (i = 0; i < 8; ++i) {
      color.fPixel = 0;
      color.fRed   = (i & 1) * 65535;
      color.fGreen = ((i >> 1) & 1) * 65535;
      color.fBlue  = ((i >> 2) & 1) * 65535;
      if (gVirtualX->AllocColor(gVirtualX->GetColormap(), color) != 0) {
         fColormap[fNColors][0] = color.fRed / 256;
         fColormap[fNColors][1] = color.fGreen / 256;
         fColormap[fNColors][2] = color.fBlue / 256;
         fPixel[fNColors++] = color.fPixel;
      }
   }

   // continue with what we got...
}

//________________________________________________________________________________
 void TGColorPick::FreeColors()
{
   for (Int_t i = 0; i < fNColors; i++)
      gVirtualX->FreeColor(gVirtualX->GetColormap(), fPixel[i]);
   fNColors = 0;
}

//________________________________________________________________________________
 void TGColorPick::CreateDitheredImage(Pixmap_t image, Int_t which)
{
   // Create a dithered version of the color map and lightness images for
   // display modes with reduced number of colors. The Floyd-Steinberg error
   // diffusion dithering algorithm is used.
   // This routine is called in PseudoColor modes only.

   const Int_t kWidth = 20;

   ColorStruct_t line[kWidth];
   struct { Int_t r, g, b; } ed[kWidth], ef;
   Int_t  x, y, c, v, e[4], nc = 0;
   Int_t  r, g, b;
   Int_t h, l, s;
   Long_t dist, sdist;
   Int_t iw, ih;

   gVirtualX->GetImageSize(image, (UInt_t&) iw, (UInt_t&) ih);

   for (x = 0; x < iw; ++x) {
      ed[x].r = ed[x].g = ed[x].b = 0;
   }

   if (fNColors == 0) AllocColors();

   for (y = 0; y < ih; ++y) {

      if (which == kIMG_HS) {

         for (x = 0; x < iw; ++x) {

            h = x * 255 / iw;
            l = 128;
            s = (ih - y) * 255 / ih;

            TColor::HLS2RGB(h, l, s, r, g, b);

            line[x].fRed   = r;
            line[x].fGreen = g;
            line[x].fBlue  = b;
         }

      } else if (which == kIMG_L) {

         TColor::Pixel2RGB(fCurrentColor, r, g, b);
         TColor::RGB2HLS(r, g, b, h, l, s);

         Int_t l = (ih - y) * 255 / ih;

         TColor::HLS2RGB(h, l, s, r, g, b);

         for (Int_t x = 0; x < iw; ++x) {
            line[x].fRed   = r;
            line[x].fGreen = g;
            line[x].fBlue  = b;
         }

      } else {

         return;

      }

      ef.r = ef.g = ef.b = 0;        // no forward error for first pixel

      for (x = 0; x < iw; ++x) {

         // add errors from previous line

         v = line[x].fRed + ed[x].r;
         if (v < 0) v = 0; else if (v > 255) v = 255;
         line[x].fRed = v;

         v = line[x].fGreen + ed[x].g;
         if (v < 0) v = 0; else if (v > 255) v = 255;
         line[x].fGreen = v;

         v = line[x].fBlue + ed[x].b;
         if (v < 0) v = 0; else if (v > 255) v = 255;
         line[x].fBlue = v;

      }

      for (x = 0; x < iw; ++x) {

         // add forward errors

         v = line[x].fRed + ef.r;
         if (v < 0) v = 0; else if (v > 255) v = 255;
         line[x].fRed = v;

         v = line[x].fGreen + ef.g;
         if (v < 0) v = 0; else if (v > 255) v = 255;
         line[x].fGreen = v;

         v = line[x].fBlue + ef.b;
         if (v < 0) v = 0; else if (v > 255) v = 255;
         line[x].fBlue = v;

         // find the nearest color in colormap[]

         sdist = 255L * 255L * 255L;
         for (c = 0; c < fNColors; ++c) {

            Int_t dr = line[x].fRed   - fColormap[c][0];
            Int_t dg = line[x].fGreen - fColormap[c][1];
            Int_t db = line[x].fBlue  - fColormap[c][2];

            dist = dr * dr + dg * dg + db * db;
            if (dist < sdist) {
               nc = c;
               sdist = dist;
            }
         }

         gVirtualX->PutPixel(image, x, y, fPixel[nc]);

#define FILTER(v) \
      e[0] = (7 * v) >> 4; \
      e[1] = v >> 4;       \
      e[2] = (5 * v) >> 4; \
      e[3] = (3 * v) >> 4;

         v = line[x].fRed - fColormap[nc][0];
         FILTER(v)

         ef.r = e[0];
         if (x < iw-1) ed[x+1].r = e[1];
         if (x == 0) ed[x].r = e[2]; else ed[x].r += e[2];
         if (x > 0) ed[x-1].r += e[3];

         v = line[x].fGreen - fColormap[nc][1];
         FILTER(v)

         ef.g = e[0];
         if (x < iw-1) ed[x+1].g = e[1];
         if (x == 0) ed[x].g = e[2]; else ed[x].g += e[2];
         if (x > 0) ed[x-1].g += e[3];

         v = line[x].fBlue - fColormap[nc][2];
         FILTER(v)

         ef.b = e[0];
         if (x < iw-1) ed[x+1].b = e[1];
         if (x == 0) ed[x].b = e[2]; else ed[x].b += e[2];
         if (x > 0) ed[x-1].b += e[3];

      }
   }
}

//________________________________________________________________________________
 void TGColorPick::InitImages()
{
   Int_t width, height;
   Int_t h, l, s;
   Int_t r, g, b;

   gVirtualX->GetImageSize(fHSimage, (UInt_t&) width, (UInt_t&) height);

   // initialize fHSimage

   Int_t ncolors = gVirtualX->GetDepth();

   if (ncolors > 8) {
      for (Int_t y = 0; y < height; ++y) {
         for (Int_t x = 0; x < width; ++x) {

            r = g = b = 0;
            h = x * 255 / width;
            l = 128;
            s = (height - y) * 255 / height;

            TColor::HLS2RGB(h, l, s, r, g, b);

            ULong_t pixel = TColor::RGB2Pixel(r, g, b);
            gVirtualX->PutPixel(fHSimage, x, y, pixel);
         }
      }
   } else {
      CreateDitheredImage(fHSimage, kIMG_HS);
   }

   // initialize fLimage

   SetSliderColor();
}

//________________________________________________________________________________
 void TGColorPick::SetSliderColor()
{
   Int_t width, height;
   Int_t h, l, s;
   Int_t r, g, b;

   gVirtualX->GetImageSize(fLimage, (UInt_t&) width, (UInt_t&) height);

   Int_t ncolors = gVirtualX->GetDepth();

   if (ncolors > 8) {

      for (Int_t y = 0; y < height; ++y) {

         TColor::Pixel2RGB(fCurrentColor, r, g, b);
         TColor::RGB2HLS(r, g, b, h, l, s);

         l = (height - y) * 255 / height;

         TColor::HLS2RGB(h, l, s, r, g, b);

         ULong_t pixel = TColor::RGB2Pixel(r, g, b);

         for (Int_t x = 0; x < width; ++x) {
             gVirtualX->PutPixel(fLimage, x, y, pixel);
         }
      }
   } else {
      CreateDitheredImage(fLimage, kIMG_L);
   }

   gClient->NeedRedraw(this);
}

//________________________________________________________________________________
 void TGColorPick::SetColor(ULong_t color)
{
   UInt_t width, height;
   Int_t h, l, s;
   Int_t r, g, b;

   gVirtualX->GetImageSize(fHSimage, width, height);

   fCurrentColor = color;

   TColor::Pixel2RGB(fCurrentColor, r, g, b);
   TColor::RGB2HLS(r, g, b, h, l, s);

   SetHScursor(h * (Int_t)width / 256, (255 - s) * (Int_t)height / 256);

   gVirtualX->GetImageSize(fLimage, width, height);

   SetLcursor((255 - l) * (Int_t)height / 256);

   SetSliderColor();
}

//________________________________________________________________________________
 void TGColorPick::UpdateCurrentColor()
{
   UInt_t lwidth, lheight;
   UInt_t swidth, sheight;
   Int_t r, g, b;
   Int_t h, l, s;

   gVirtualX->GetImageSize(fLimage, lwidth, lheight);
   gVirtualX->GetImageSize(fHSimage, swidth, sheight);

   h = Int_t(fCx * 255 / swidth);
   l = Int_t((lheight - fCz) * 255 / lheight);
   s = Int_t((sheight - fCy) * 255 / sheight);

   TColor::HLS2RGB(h, l, s, r, g, b);
   fCurrentColor = TColor::RGB2Pixel(r, g, b);
}

//________________________________________________________________________________
 void TGColorPick::DoRedraw()
{
   UInt_t lwidth, lheight;
   UInt_t swidth, sheight;

   gVirtualX->GetImageSize(fLimage, lwidth, lheight);
   gVirtualX->GetImageSize(fHSimage, swidth, sheight);

   DrawBorder();

   Draw3dRectangle(kSunkenFrame, fColormapRect.fX - 1, fColormapRect.fY - 1,
                   fColormapRect.fWidth + 2, fColormapRect.fHeight + 2);
   gVirtualX->PutImage(fId, GetBckgndGC()(), fHSimage,
                       fColormapRect.fX, fColormapRect.fY, 0, 0, swidth, sheight);

   Draw3dRectangle(kSunkenFrame, fSliderRect.fX - 1, fSliderRect.fY - 1,
                   fSliderRect.fWidth + 2, fSliderRect.fHeight + 2);
   gVirtualX->PutImage(fId, GetBckgndGC()(), fLimage,
                       fSliderRect.fX, fSliderRect.fY, 0, 0, lwidth, lheight);

   DrawHScursor(kTRUE);
   DrawLcursor(kTRUE);
}

//________________________________________________________________________________
 void TGColorPick::SetHScursor(Int_t x, Int_t y)
{
   UInt_t width, height;

   gVirtualX->GetImageSize(fHSimage, width, height);

   DrawHScursor(kFALSE);

   fCx = x;
   fCy = y;

   if (fCx < 0)
      fCx = 0;
   else if (fCx >= (Int_t)width)
      fCx = (Int_t)width - 1;

   if (fCy < 0)
      fCy = 0;
   else if (fCy >= (Int_t)height)
      fCy = (Int_t)height - 1;

   DrawHScursor(kTRUE);
}

//________________________________________________________________________________
 void TGColorPick::SetLcursor(Int_t z)
{
   UInt_t width, height;

   gVirtualX->GetImageSize(fLimage, width, height);

   DrawLcursor(kFALSE);

   fCz = z - fSliderRect.fY;

   if (fCz < 0)
      fCz = 0;
   else if (fCz >= (Int_t)height)
      fCz = (Int_t)height - 1;

   DrawLcursor(kTRUE);
}

//________________________________________________________________________________
 void TGColorPick::DrawHScursor(Int_t onoff)
{
   UInt_t width, height;

   gVirtualX->GetImageSize(fHSimage, width, height);

   if (onoff) {
      Int_t x, y;
      Rectangle_t rect;

      x = fCx + fColormapRect.fX;
      y = fCy + fColormapRect.fY;

      rect.fX = fColormapRect.fX;
      rect.fY = fColormapRect.fX;
      rect.fWidth = fColormapRect.fWidth;
      rect.fHeight = fColormapRect.fHeight;
      gVirtualX->SetClipRectangles(fCursorGC(), 0, 0, &rect, 1);

      gVirtualX->FillRectangle(fId, fCursorGC(), x - 9, y - 1, 5, 3);
      gVirtualX->FillRectangle(fId, fCursorGC(), x - 1, y - 9, 3, 5);
      gVirtualX->FillRectangle(fId, fCursorGC(), x + 5, y - 1, 5, 3);
      gVirtualX->FillRectangle(fId, fCursorGC(), x - 1, y + 5, 3, 5);

   } else {
      Int_t  x, y;
      UInt_t w, h;

      x = fCx - 9; w = 19;
      y = fCy - 9; h = 19;

      if (x < 0) { w += x; x = 0; }
      if (y < 0) { h += y; y = 0; }

      if (x + w > width) w = width - x;
      if (y + h > width) h = height - y;

      gVirtualX->PutImage(fId, GetBckgndGC()(), fHSimage, x, y,
                          fColormapRect.fX + x, fColormapRect.fY + y, w, h);
   }
}

//________________________________________________________________________________
 void TGColorPick::DrawLcursor(Int_t onoff)
{
   Int_t l = fSliderRect.fX + fSliderRect.fWidth + 3;
   Int_t r = l + 5;
   Int_t t = fCz - 5 + fSliderRect.fY;
   Int_t b = t + 10;

   Point_t points[3];

   Int_t m = (t + b) >> 1;

   points[0].fX = r;
   points[0].fY = t;
   points[1].fX = r;
   points[1].fY = b;
   points[2].fX = l;
   points[2].fY = m;

   GContext_t gc = onoff ? GetShadowGC()() : GetBckgndGC()();

   gVirtualX->FillPolygon(fId, gc, points, 3);
}


//________________________________________________________________________________
TGColorDialog::TGColorDialog(const TGWindow *p, const TGWindow *m,
                             Int_t *retc, ULong_t *color) :
   TGTransientFrame(p, m, 200, 150, kHorizontalFrame)
{
   const Int_t kC_X = 175;  // Win95: 177
   const Int_t kC_Y = 180;  // Win95: 189

   Int_t  ax, ay, i;

   fRetc = retc;
   fRetColor = color;

   if (fRetc) *fRetc = kMBCancel;

   TGVerticalFrame *vf1 = new TGVerticalFrame(this, 20, 20);
   TGVerticalFrame *vf2 = new TGVerticalFrame(this, 20, 20);

   AddFrame(vf1, new TGLayoutHints(kLHintsLeft | kLHintsExpandY));
   AddFrame(vf2, new TGLayoutHints(kLHintsLeft | kLHintsExpandY));

   //----------------------------------------- Left panel

   // basic colors

   vf1->AddFrame(new TGLabel(vf1, new TGHotString("&Basic colors:")),
                 new TGLayoutHints(kLHintsNormal, 5, 0, 7, 2));

   fPalette = new TGColorPalette(vf1, 8, 6, kCDLG_SPALETTE);
   vf1->AddFrame(fPalette, new TGLayoutHints(kLHintsNormal, 5, 5, 0, 0));
   fPalette->Associate(this);

   for (i = 0; i < 48; ++i)
      fPalette->SetColor(i, TColor::RGB2Pixel(bcolor[i][0], bcolor[i][1], bcolor[i][2]));

   // custom colors

   vf1->AddFrame(new TGLabel(vf1, new TGHotString("&Custom colors:")),
                 new TGLayoutHints(kLHintsNormal, 5, 0, 15, 2));

   fCpalette = new TGColorPalette(vf1, 8, 3, kCDLG_CPALETTE);
   vf1->AddFrame(fCpalette, new TGLayoutHints(kLHintsNormal, 5, 5, 0, 0));
   fCpalette->Associate(this);

   if (ucolor[0] == 0xff000000) {
      for (i = 0; i < 24; i++)
         ucolor[i] = TColor::RGB2Pixel(255, 255, 255);
   }
   fCpalette->SetColors(ucolor);

   // button frame

   TGHorizontalFrame *hf = new TGHorizontalFrame(vf1, 10, 10, kFixedWidth);
   vf1->AddFrame(hf, new TGLayoutHints(kLHintsBottom | kLHintsLeft, 5, 5, 10, 5));

   TGTextButton *ok = new TGTextButton(hf, new TGHotString("OK"), kCDLG_OK);
   TGTextButton *cancel = new TGTextButton(hf, new TGHotString("Cancel"), kCDLG_CANCEL);

   hf->AddFrame(ok, new TGLayoutHints(kLHintsBottom | kLHintsExpandX, 0, 5, 0, 0));
   hf->AddFrame(cancel, new TGLayoutHints(kLHintsBottom | kLHintsExpandX));

   UInt_t w = ok->GetDefaultWidth();
   w = TMath::Max(w, cancel->GetDefaultWidth());
   hf->Resize(2 * (w + 20), hf->GetDefaultHeight());

   ok->Associate(this);
   cancel->Associate(this);

   //----------------------------------------- Right panel

   // fColormap frame

   fColors = new TGColorPick(vf2, kC_X + 33, kC_Y, kCDLG_COLORPICK);
   vf2->AddFrame(fColors, new TGLayoutHints(kLHintsLeft | kLHintsTop, 5, 5, 15, 5));
   fColors->Associate(this);

   if (color)
      fColors->SetColor(*color);

   // color sample frame

   TGHorizontalFrame *hf3 = new TGHorizontalFrame(vf2, 10, 10);
   vf2->AddFrame(hf3, new TGLayoutHints(kLHintsLeft | kLHintsTop, 5, 5, 2, 5));

   TGVerticalFrame *vf3 = new TGVerticalFrame(hf3, 10, 10);
   hf3->AddFrame(vf3, new TGLayoutHints(kLHintsLeft | kLHintsTop));

   fSample = new TGFrame(vf3, 60, 42, kSunkenFrame | kOwnBackground);
   vf3->AddFrame(fSample, new TGLayoutHints(kLHintsLeft | kLHintsTop));

   vf3->AddFrame(new TGLabel(vf3, new TGString("Color")),
                 new TGLayoutHints(kLHintsCenterX | kLHintsTop, 0, 0, 2, 0));

   if (color)
      fCurrentColor = *color;
   else
      gClient->GetColorByName("red", fCurrentColor);

   fSample->SetBackgroundColor(fCurrentColor);

   TGCompositeFrame *cf = new TGCompositeFrame(hf3, 10, 10);
   hf3->AddFrame(cf, new TGLayoutHints(kLHintsLeft | kLHintsTop, 10, 0, 0, 0));
   cf->SetLayoutManager(new TGMatrixLayout(cf, 0, 2, 4));

   cf->AddFrame(new TGLabel(cf, new TGHotString("Hu&e:")), 0);
   cf->AddFrame(fHte = new TGTextEntry(cf, fHtb = new TGTextBuffer(5), kCDLG_HTE), 0);
   fHte->Resize(35, fHte->GetDefaultHeight());
   cf->AddFrame(new TGLabel(cf, new TGHotString("&Sat:")), 0);
   cf->AddFrame(fSte = new TGTextEntry(cf, fStb = new TGTextBuffer(5), kCDLG_STE), 0);
   fSte->Resize(35, fSte->GetDefaultHeight());
   cf->AddFrame(new TGLabel(cf, new TGHotString("&Lum:")), 0);
   cf->AddFrame(fLte = new TGTextEntry(cf, fLtb = new TGTextBuffer(5), kCDLG_LTE), 0);
   fLte->Resize(35, fLte->GetDefaultHeight());

   cf = new TGCompositeFrame(hf3, 10, 10);
   hf3->AddFrame(cf, new TGLayoutHints(kLHintsLeft | kLHintsTop, 5, 0, 0, 0));
   cf->SetLayoutManager(new TGMatrixLayout(cf, 0, 2, 4));

   cf->AddFrame(new TGLabel(cf, new TGHotString("&Red:")), 0);
   cf->AddFrame(fRte = new TGTextEntry(cf, fRtb = new TGTextBuffer(5), kCDLG_RTE), 0);
   fRte->Resize(35, fRte->GetDefaultHeight());
   cf->AddFrame(new TGLabel(cf, new TGHotString("&Green:")), 0);
   cf->AddFrame(fGte = new TGTextEntry(cf, fGtb = new TGTextBuffer(5), kCDLG_GTE), 0);
   fGte->Resize(35, fGte->GetDefaultHeight());
   cf->AddFrame(new TGLabel(cf, new TGHotString("Bl&ue:")), 0);
   cf->AddFrame(fBte = new TGTextEntry(cf, fBtb = new TGTextBuffer(5), kCDLG_BTE), 0);
   fBte->Resize(35, fBte->GetDefaultHeight());

   fHte->Associate(this);
   fLte->Associate(this);
   fSte->Associate(this);
   fRte->Associate(this);
   fGte->Associate(this);
   fBte->Associate(this);

   if (color) {
      UpdateRGBentries(color);
      UpdateHLSentries(color);
   }

   TGTextButton *add = new TGTextButton(vf2, new TGHotString("&Add to Custom Colors"),
                                        kCDLG_ADD);
   vf2->AddFrame(add, new TGLayoutHints(kLHintsBottom | kLHintsExpandX,
                                        5, 5, 0, 5));
   add->Associate(this);

   MapSubwindows();
   Resize(GetDefaultSize());

   //---- position relative to the parent's window

   if (m) {
      Window_t wdum;
      gVirtualX->TranslateCoordinates(m->GetId(), GetParent()->GetId(),
                        (Int_t)(((TGFrame *) m)->GetWidth() - fWidth) >> 1,
                        (Int_t)(((TGFrame *) m)->GetHeight() - fHeight) >> 1,
                        ax, ay, wdum);
   } else {
      UInt_t root_w, root_h;
      gVirtualX->GetWindowSize(gClient->GetRoot()->GetId(), ax, ay, root_w, root_h);
      ax = (root_w - fWidth) >> 1;
      ay = (root_h - fHeight) >> 1;
   }
   Move(ax, ay);
   SetWMPosition(ax, ay);

   //---- make the message box non-resizable

   SetWMSize(fWidth, fHeight);
   SetWMSizeHints(fWidth, fHeight, fWidth, fHeight, 0, 0);

   SetWindowName("Color Selector");
   SetIconName("Color Selector");
   SetClassHints("ColorSelector", "ColorSelector");

   SetMWMHints(kMWMDecorAll | kMWMDecorResizeH | kMWMDecorMaximize |
                              kMWMDecorMinimize | kMWMDecorMenu,
               kMWMFuncAll  | kMWMFuncResize    | kMWMFuncMaximize |
                              kMWMFuncMinimize,
               kMWMInputModeless);

   MapWindow();
   fClient->WaitFor(this);
}

//________________________________________________________________________________
TGColorDialog::~TGColorDialog()
{
   Cleanup();
}

//________________________________________________________________________________
void TGColorDialog::CloseWindow()
{
   // Called when window is closed via window manager.

   // save user set colors
   for (Int_t i = 0; i < 24; ++i)
      ucolor[i] = fCpalette->GetColorByIndex(i);

   DeleteWindow();
}

//________________________________________________________________________________
void TGColorDialog::UpdateRGBentries(ULong_t *c)
{
   Char_t tmp[20];

   Int_t r, g, b;
   TColor::Pixel2RGB(*c, r, g, b);

   sprintf(tmp, "%d", r);
   fRtb->Clear();
   fRtb->AddText(0, tmp);
   gClient->NeedRedraw(fRte);

   sprintf(tmp, "%d", g);
   fGtb->Clear();
   fGtb->AddText(0, tmp);
   gClient->NeedRedraw(fGte);

   sprintf(tmp, "%d", b);
   fBtb->Clear();
   fBtb->AddText(0, tmp);
   gClient->NeedRedraw(fBte);
}

//________________________________________________________________________________
void TGColorDialog::UpdateHLSentries(ULong_t *c)
{
   Char_t tmp[20];

   Int_t h, l, s;
   Int_t r, g, b;

   TColor::Pixel2RGB(*c, r, g, b);
   TColor::RGB2HLS(r, g, b, h, l, s);

   sprintf(tmp, "%d", h);
   fHtb->Clear();
   fHtb->AddText(0, tmp);
   gClient->NeedRedraw(fHte);

   sprintf(tmp, "%d", l);
   fLtb->Clear();
   fLtb->AddText(0, tmp);
   gClient->NeedRedraw(fLte);

   sprintf(tmp, "%d", s);
   fStb->Clear();
   fStb->AddText(0, tmp);
   gClient->NeedRedraw(fSte);
}

//________________________________________________________________________________
Bool_t TGColorDialog::ProcessMessage(Long_t msg, Long_t parm1, Long_t /*parm2*/)
{
   ULong_t color;
   Int_t h, l, s;
   Int_t r, g, b;

   switch (GET_MSG(msg)) {
      case kC_COMMAND:
         switch (GET_SUBMSG(msg)) {
            case kCM_BUTTON:
               switch(parm1) {
                  case kCDLG_ADD:
                     fCpalette->SetCurrentCellColor(fCurrentColor);
                     break;

                  case kCDLG_OK:
                     *fRetc = kMBOk;
                     *fRetColor = TColor::RGB2Pixel(atoi(fRtb->GetString()),
                                                    atoi(fGtb->GetString()),
                                                    atoi(fBtb->GetString()));
                     // fall through
                  case kCDLG_CANCEL:
                     CloseWindow();
                     break;
               }
               break;
         }
         break;
      case kC_COLORSEL:
         switch (GET_SUBMSG(msg)) {
            case kCOL_CLICK:
               switch (parm1) {
                  case kCDLG_SPALETTE:
                     color = fPalette->GetCurrentColor();
                     fSample->SetBackgroundColor(color);
                     gClient->NeedRedraw(fSample);
                     fCurrentColor = color;
                     fColors->SetColor(color);
                     UpdateRGBentries(&color);
                     UpdateHLSentries(&color);
                     break;

                  case kCDLG_CPALETTE:
                     color = fCpalette->GetCurrentColor();
                     fSample->SetBackgroundColor(color);
                     gClient->NeedRedraw(fSample);
                     fCurrentColor = color;
                     fColors->SetColor(color);
                     UpdateRGBentries(&color);
                     UpdateHLSentries(&color);
                     break;

                  case kCDLG_COLORPICK:
                     color = fColors->GetCurrentColor();
                     fSample->SetBackgroundColor(color);
                     gClient->NeedRedraw(fSample);
                     fCurrentColor = color;
                     UpdateRGBentries(&color);
                     UpdateHLSentries(&color);
                     break;

               }
               break;
         }
         break;

      case kC_TEXTENTRY:
         switch (GET_SUBMSG(msg)) {
            case kTE_TEXTCHANGED:
               switch (parm1) {
                  case kCDLG_HTE:
                  case kCDLG_LTE:
                  case kCDLG_STE:

                     h = atoi(fHtb->GetString());
                     l = atoi(fLtb->GetString());
                     s = atoi(fStb->GetString());
                     TColor::HLS2RGB(h, l, s, r, g, b);

                     color = TColor::RGB2Pixel(r, g, b);
                     fSample->SetBackgroundColor(color);
                     gClient->NeedRedraw(fSample);
                     fCurrentColor = color;
                     fColors->SetColor(color);
                     UpdateRGBentries(&color);
                     break;

                  case kCDLG_RTE:
                  case kCDLG_GTE:
                  case kCDLG_BTE:
                     color = TColor::RGB2Pixel(atoi(fRtb->GetString()),
                                               atoi(fGtb->GetString()),
                                               atoi(fBtb->GetString()));
                     fSample->SetBackgroundColor(color);
                     gClient->NeedRedraw(fSample);
                     fCurrentColor = color;
                     fColors->SetColor(color);
                     UpdateHLSentries(&color);
                     break;

               }
               break;
         }
         break;
   }

   return kTRUE;
}


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