/* Copyright (c) 2003,2004,2005 Clarence Dang All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #define DEBUG_KP_COLOR_SIMILARITY_CUBE 0 #include #include #include #include #include #include #include #include #include #include const double kpColorSimilarityCube::colorCubeDiagonalDistance = sqrt (255 * 255 * 3); kpColorSimilarityCube::kpColorSimilarityCube (int look, kpMainWindow *mainWindow, TQWidget *parent, const char *name) : TQFrame (parent, name, TQt::WNoAutoErase/*no flicker*/), m_mainWindow (mainWindow), m_colorSimilarity (-1) { if (look & Depressed) setFrameStyle (TQFrame::Panel | TQFrame::Sunken); setColorSimilarity (0); // Don't cause the translators grief by appending strings // - duplicate text with 2 cases if (look & DoubleClickInstructions) { TQWhatsThis::add (this, i18n ("

Color Similarity is how close " "colors must be in the RGB Color Cube " "to be considered the same.

" "

If you set it to something " "other than Exact, " "you can work more effectively with dithered " "images and photos.

" "

This feature applies to transparent selections, as well as " "the Flood Fill, Color Eraser and Autocrop " "tools.

" // sync: different to else case "

To configure it, double click on the cube.

" "
")); } else { TQWhatsThis::add (this, i18n ("

Color Similarity is how close " "colors must be in the RGB Color Cube " "to be considered the same.

" "

If you set it to something " "other than Exact, " "you can work more effectively with dithered " "images and photos.

" "

This feature applies to transparent selections, as well as " "the Flood Fill, Color Eraser and Autocrop " "tools.

" "
")); } } kpColorSimilarityCube::~kpColorSimilarityCube () { } // public double kpColorSimilarityCube::colorSimilarity () const { return m_colorSimilarity; } // public void kpColorSimilarityCube::setColorSimilarity (double similarity) { #if DEBUG_KP_COLOR_SIMILARITY_CUBE kdDebug () << "kpColorSimilarityCube::setColorSimilarity(" << similarity << ")" << endl; #endif if (m_colorSimilarity == similarity) return; if (similarity < 0) similarity = 0; else if (similarity > kpColorSimilarityDialog::maximumColorSimilarity) similarity = kpColorSimilarityDialog::maximumColorSimilarity; m_colorSimilarity = similarity; tqrepaint (false/*no erase*/); } // protected virtual [base TQWidget] TQSize kpColorSimilarityCube::sizeHint () const { return TQSize (52, 52); } // protected TQColor kpColorSimilarityCube::color (int redOrGreenOrBlue, int baseBrightness, int similarityDirection) const { int brightness = int (baseBrightness + similarityDirection * .5 * m_colorSimilarity * kpColorSimilarityCube::colorCubeDiagonalDistance); if (brightness < 0) brightness = 0; else if (brightness > 255) brightness = 255; switch (redOrGreenOrBlue) { default: case 0: return TQColor (brightness, 0, 0); case 1: return TQColor (0, brightness, 0); case 2: return TQColor (0, 0, brightness); } } static TQPoint pointBetween (const TQPoint &p, const TQPoint &q) { return TQPoint ((p.x () + q.x ()) / 2, (p.y () + q.y ()) / 2); } static void drawQuadrant (TQPainter *p, const TQColor &col, const TQPoint &p1, const TQPoint &p2, const TQPoint &p3, const TQPoint pointNotOnOutline) { p->save (); TQPointArray points (4); points [0] = p1; points [1] = p2; points [2] = p3; points [3] = pointNotOnOutline; p->setPen (col); p->setBrush (col); p->drawPolygon (points); points.resize (3); p->setPen (TQt::black); p->setBrush (TQt::NoBrush); p->drawPolyline (points); p->restore (); } // protected void kpColorSimilarityCube::drawFace (TQPainter *p, int redOrGreenOrBlue, const TQPoint &tl, const TQPoint &tr, const TQPoint &bl, const TQPoint &br) { #if DEBUG_KP_COLOR_SIMILARITY_CUBE kdDebug () << "kpColorSimilarityCube(RorGorB=" << redOrGreenOrBlue << ",tl=" << tl << ",tr=" << tr << ",bl=" << bl << ",br=" << br << ")" << endl; #endif // tl --- tm --- tr // | | | // | | | // ml --- mm --- mr // | | | // | | | // bl --- bm --- br const TQPoint tm (::pointBetween (tl, tr)); const TQPoint bm (::pointBetween (bl, br)); const TQPoint ml (::pointBetween (tl, bl)); const TQPoint mr (::pointBetween (tr, br)); const TQPoint mm (::pointBetween (ml, mr)); const int baseBrightness = TQMAX (127, 255 - int (kpColorSimilarityDialog::maximumColorSimilarity * kpColorSimilarityCube::colorCubeDiagonalDistance / 2)); TQColor colors [2] = { color (redOrGreenOrBlue, baseBrightness, -1), color (redOrGreenOrBlue, baseBrightness, +1) }; if (!isEnabled ()) { #if DEBUG_KP_COLOR_SIMILARITY_CUBE kdDebug () << "\tnot enabled - making us grey" << endl; #endif colors [0] = colorGroup ().background (); colors [1] = colorGroup ().background (); } #if DEBUG_KP_COLOR_SIMILARITY_CUBE kdDebug () << "\tmaxColorSimilarity=" << kpColorSimilarityDialog::maximumColorSimilarity << " colorCubeDiagDist=" << kpColorSimilarityCube::colorCubeDiagonalDistance << endl << "\tbaseBrightness=" << baseBrightness << " color[0]=" << ((colors [0].rgb () & TQRGB_MASK) >> ((2 - redOrGreenOrBlue) * 8)) << " color[1]=" << ((colors [1].rgb () & TQRGB_MASK) >> ((2 - redOrGreenOrBlue) * 8)) << endl; #endif ::drawQuadrant (p, colors [0], tm, tl, ml, mm); ::drawQuadrant (p, colors [1], tm, tr, mr, mm); ::drawQuadrant (p, colors [1], ml, bl, bm, mm); ::drawQuadrant (p, colors [0], bm, br, mr, mm); } // protected virtual [base TQFrame] void kpColorSimilarityCube::drawContents (TQPainter *p) { TQRect cr (contentsRect ()); TQPixmap backBuffer (cr.width (), cr.height ()); backBuffer.fill (colorGroup ().background ()); TQPainter backBufferPainter (&backBuffer); int cubeRectSize = TQMIN (cr.width () * 6 / 8, cr.height () * 6 / 8); int dx = (cr.width () - cubeRectSize) / 2, dy = (cr.height () - cubeRectSize) / 2; backBufferPainter.translate (dx, dy); // // P------- Q --- --- // / / | | | // /A / | side | // R-------S T --- cubeRectSize // | | / / | // S | | / side | // U-------V --- --- // |-------| // side // |-----------| // cubeRectSize // // const double angle = KP_DEGREES_TO_RADIANS (45); // S + S sin A = cubeRectSize // (1 + sin A) x S = cubeRectSize const double side = double (cubeRectSize) / (1 + sin (angle)); const TQPoint pointP ((int) (side * cos (angle)), 0); const TQPoint pointQ ((int) (side * cos (angle) + side), 0); const TQPoint pointR (0, (int) (side * sin (angle))); const TQPoint pointS ((int) (side), (int) (side * sin (angle))); const TQPoint pointU (0, (int) (side * sin (angle) + side)); const TQPoint pointT ((int) (side + side * cos (angle)), (int) (side)); const TQPoint pointV ((int) (side), (int) (side * sin (angle) + side)); // Top Face drawFace (&backBufferPainter, 0/*red*/, pointP, pointQ, pointR, pointS); // Bottom Face drawFace (&backBufferPainter, 1/*green*/, pointR, pointS, pointU, pointV); // Right Face drawFace (&backBufferPainter, 2/*blue*/, pointS, pointQ, pointV, pointT); #if 0 backBufferPainter.save (); backBufferPainter.setPen (TQt::cyan); backBufferPainter.drawRect (0, 0, cubeRectSize, cubeRectSize); backBufferPainter.restore (); #endif backBufferPainter.end (); p->drawPixmap (cr, backBuffer); }