/* ============================================================================== This file is part of the JUCE library. Copyright (c) 2015 - ROLI Ltd. Permission is granted to use this software under the terms of either: a) the GPL v2 (or any later version) b) the Affero GPL v3 Details of these licenses can be found at: www.gnu.org/licenses JUCE 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. ------------------------------------------------------------------------------ To release a closed-source product which uses JUCE, commercial licenses are available: visit www.juce.com for more information. ============================================================================== */ // this will throw an assertion if you try to draw something that's not // possible in postscript #define WARN_ABOUT_NON_POSTSCRIPT_OPERATIONS 0 //============================================================================== #if JUCE_DEBUG && WARN_ABOUT_NON_POSTSCRIPT_OPERATIONS #define notPossibleInPostscriptAssert jassertfalse #else #define notPossibleInPostscriptAssert #endif //============================================================================== LowLevelGraphicsPostScriptRenderer::LowLevelGraphicsPostScriptRenderer (OutputStream& resultingPostScript, const String& documentTitle, const int totalWidth_, const int totalHeight_) : out (resultingPostScript), totalWidth (totalWidth_), totalHeight (totalHeight_), needToClip (true) { stateStack.add (new SavedState()); stateStack.getLast()->clip = Rectangle (totalWidth_, totalHeight_); const float scale = jmin ((520.0f / totalWidth_), (750.0f / totalHeight)); out << "%!PS-Adobe-3.0 EPSF-3.0" "\n%%BoundingBox: 0 0 600 824" "\n%%Pages: 0" "\n%%Creator: ROLI Ltd. JUCE" "\n%%Title: " << documentTitle << "\n%%CreationDate: none" "\n%%LanguageLevel: 2" "\n%%EndComments" "\n%%BeginProlog" "\n%%BeginResource: JRes" "\n/bd {bind def} bind def" "\n/c {setrgbcolor} bd" "\n/m {moveto} bd" "\n/l {lineto} bd" "\n/rl {rlineto} bd" "\n/ct {curveto} bd" "\n/cp {closepath} bd" "\n/pr {3 index 3 index moveto 1 index 0 rlineto 0 1 index rlineto pop neg 0 rlineto pop pop closepath} bd" "\n/doclip {initclip newpath} bd" "\n/endclip {clip newpath} bd" "\n%%EndResource" "\n%%EndProlog" "\n%%BeginSetup" "\n%%EndSetup" "\n%%Page: 1 1" "\n%%BeginPageSetup" "\n%%EndPageSetup\n\n" << "40 800 translate\n" << scale << ' ' << scale << " scale\n\n"; } LowLevelGraphicsPostScriptRenderer::~LowLevelGraphicsPostScriptRenderer() { } //============================================================================== bool LowLevelGraphicsPostScriptRenderer::isVectorDevice() const { return true; } void LowLevelGraphicsPostScriptRenderer::setOrigin (Point o) { if (! o.isOrigin()) { stateStack.getLast()->xOffset += o.x; stateStack.getLast()->yOffset += o.y; needToClip = true; } } void LowLevelGraphicsPostScriptRenderer::addTransform (const AffineTransform& /*transform*/) { //xxx jassertfalse; } float LowLevelGraphicsPostScriptRenderer::getPhysicalPixelScaleFactor() { return 1.0f; } bool LowLevelGraphicsPostScriptRenderer::clipToRectangle (const Rectangle& r) { needToClip = true; return stateStack.getLast()->clip.clipTo (r.translated (stateStack.getLast()->xOffset, stateStack.getLast()->yOffset)); } bool LowLevelGraphicsPostScriptRenderer::clipToRectangleList (const RectangleList& clipRegion) { needToClip = true; return stateStack.getLast()->clip.clipTo (clipRegion); } void LowLevelGraphicsPostScriptRenderer::excludeClipRectangle (const Rectangle& r) { needToClip = true; stateStack.getLast()->clip.subtract (r.translated (stateStack.getLast()->xOffset, stateStack.getLast()->yOffset)); } void LowLevelGraphicsPostScriptRenderer::clipToPath (const Path& path, const AffineTransform& transform) { writeClip(); Path p (path); p.applyTransform (transform.translated ((float) stateStack.getLast()->xOffset, (float) stateStack.getLast()->yOffset)); writePath (p); out << "clip\n"; } void LowLevelGraphicsPostScriptRenderer::clipToImageAlpha (const Image& /*sourceImage*/, const AffineTransform& /*transform*/) { needToClip = true; jassertfalse; // xxx } bool LowLevelGraphicsPostScriptRenderer::clipRegionIntersects (const Rectangle& r) { return stateStack.getLast()->clip.intersectsRectangle (r.translated (stateStack.getLast()->xOffset, stateStack.getLast()->yOffset)); } Rectangle LowLevelGraphicsPostScriptRenderer::getClipBounds() const { return stateStack.getLast()->clip.getBounds().translated (-stateStack.getLast()->xOffset, -stateStack.getLast()->yOffset); } bool LowLevelGraphicsPostScriptRenderer::isClipEmpty() const { return stateStack.getLast()->clip.isEmpty(); } //============================================================================== LowLevelGraphicsPostScriptRenderer::SavedState::SavedState() : xOffset (0), yOffset (0) { } LowLevelGraphicsPostScriptRenderer::SavedState::~SavedState() { } void LowLevelGraphicsPostScriptRenderer::saveState() { stateStack.add (new SavedState (*stateStack.getLast())); } void LowLevelGraphicsPostScriptRenderer::restoreState() { jassert (stateStack.size() > 0); if (stateStack.size() > 0) stateStack.removeLast(); } void LowLevelGraphicsPostScriptRenderer::beginTransparencyLayer (float) { } void LowLevelGraphicsPostScriptRenderer::endTransparencyLayer() { } //============================================================================== void LowLevelGraphicsPostScriptRenderer::writeClip() { if (needToClip) { needToClip = false; out << "doclip "; int itemsOnLine = 0; for (const Rectangle* i = stateStack.getLast()->clip.begin(), * const e = stateStack.getLast()->clip.end(); i != e; ++i) { if (++itemsOnLine == 6) { itemsOnLine = 0; out << '\n'; } out << i->getX() << ' ' << -i->getY() << ' ' << i->getWidth() << ' ' << -i->getHeight() << " pr "; } out << "endclip\n"; } } void LowLevelGraphicsPostScriptRenderer::writeColour (Colour colour) { Colour c (Colours::white.overlaidWith (colour)); if (lastColour != c) { lastColour = c; out << String (c.getFloatRed(), 3) << ' ' << String (c.getFloatGreen(), 3) << ' ' << String (c.getFloatBlue(), 3) << " c\n"; } } void LowLevelGraphicsPostScriptRenderer::writeXY (const float x, const float y) const { out << String (x, 2) << ' ' << String (-y, 2) << ' '; } void LowLevelGraphicsPostScriptRenderer::writePath (const Path& path) const { out << "newpath "; float lastX = 0.0f; float lastY = 0.0f; int itemsOnLine = 0; Path::Iterator i (path); while (i.next()) { if (++itemsOnLine == 4) { itemsOnLine = 0; out << '\n'; } switch (i.elementType) { case Path::Iterator::startNewSubPath: writeXY (i.x1, i.y1); lastX = i.x1; lastY = i.y1; out << "m "; break; case Path::Iterator::lineTo: writeXY (i.x1, i.y1); lastX = i.x1; lastY = i.y1; out << "l "; break; case Path::Iterator::quadraticTo: { const float cp1x = lastX + (i.x1 - lastX) * 2.0f / 3.0f; const float cp1y = lastY + (i.y1 - lastY) * 2.0f / 3.0f; const float cp2x = cp1x + (i.x2 - lastX) / 3.0f; const float cp2y = cp1y + (i.y2 - lastY) / 3.0f; writeXY (cp1x, cp1y); writeXY (cp2x, cp2y); writeXY (i.x2, i.y2); out << "ct "; lastX = i.x2; lastY = i.y2; } break; case Path::Iterator::cubicTo: writeXY (i.x1, i.y1); writeXY (i.x2, i.y2); writeXY (i.x3, i.y3); out << "ct "; lastX = i.x3; lastY = i.y3; break; case Path::Iterator::closePath: out << "cp "; break; default: jassertfalse; break; } } out << '\n'; } void LowLevelGraphicsPostScriptRenderer::writeTransform (const AffineTransform& trans) const { out << "[ " << trans.mat00 << ' ' << trans.mat10 << ' ' << trans.mat01 << ' ' << trans.mat11 << ' ' << trans.mat02 << ' ' << trans.mat12 << " ] concat "; } //============================================================================== void LowLevelGraphicsPostScriptRenderer::setFill (const FillType& fillType) { stateStack.getLast()->fillType = fillType; } void LowLevelGraphicsPostScriptRenderer::setOpacity (float /*opacity*/) { } void LowLevelGraphicsPostScriptRenderer::setInterpolationQuality (Graphics::ResamplingQuality /*quality*/) { } //============================================================================== void LowLevelGraphicsPostScriptRenderer::fillRect (const Rectangle& r, const bool /*replaceExistingContents*/) { fillRect (r.toFloat()); } void LowLevelGraphicsPostScriptRenderer::fillRect (const Rectangle& r) { if (stateStack.getLast()->fillType.isColour()) { writeClip(); writeColour (stateStack.getLast()->fillType.colour); Rectangle r2 (r.translated ((float) stateStack.getLast()->xOffset, (float) stateStack.getLast()->yOffset)); out << r2.getX() << ' ' << -r2.getBottom() << ' ' << r2.getWidth() << ' ' << r2.getHeight() << " rectfill\n"; } else { Path p; p.addRectangle (r); fillPath (p, AffineTransform::identity); } } void LowLevelGraphicsPostScriptRenderer::fillRectList (const RectangleList& list) { fillPath (list.toPath(), AffineTransform::identity); } //============================================================================== void LowLevelGraphicsPostScriptRenderer::fillPath (const Path& path, const AffineTransform& t) { if (stateStack.getLast()->fillType.isColour()) { writeClip(); Path p (path); p.applyTransform (t.translated ((float) stateStack.getLast()->xOffset, (float) stateStack.getLast()->yOffset)); writePath (p); writeColour (stateStack.getLast()->fillType.colour); out << "fill\n"; } else if (stateStack.getLast()->fillType.isGradient()) { // this doesn't work correctly yet - it could be improved to handle solid gradients, but // postscript can't do semi-transparent ones. notPossibleInPostscriptAssert; // you can disable this warning by setting the WARN_ABOUT_NON_POSTSCRIPT_OPERATIONS flag at the top of this file writeClip(); out << "gsave "; { Path p (path); p.applyTransform (t.translated ((float) stateStack.getLast()->xOffset, (float) stateStack.getLast()->yOffset)); writePath (p); out << "clip\n"; } const Rectangle bounds (stateStack.getLast()->clip.getBounds()); // ideally this would draw lots of lines or ellipses to approximate the gradient, but for the // time-being, this just fills it with the average colour.. writeColour (stateStack.getLast()->fillType.gradient->getColourAtPosition (0.5f)); out << bounds.getX() << ' ' << -bounds.getBottom() << ' ' << bounds.getWidth() << ' ' << bounds.getHeight() << " rectfill\n"; out << "grestore\n"; } } //============================================================================== void LowLevelGraphicsPostScriptRenderer::writeImage (const Image& im, const int sx, const int sy, const int maxW, const int maxH) const { out << "{<\n"; const int w = jmin (maxW, im.getWidth()); const int h = jmin (maxH, im.getHeight()); int charsOnLine = 0; const Image::BitmapData srcData (im, 0, 0, w, h); Colour pixel; for (int y = h; --y >= 0;) { for (int x = 0; x < w; ++x) { const uint8* pixelData = srcData.getPixelPointer (x, y); if (x >= sx && y >= sy) { if (im.isARGB()) { PixelARGB p (*(const PixelARGB*) pixelData); p.unpremultiply(); pixel = Colours::white.overlaidWith (Colour (p)); } else if (im.isRGB()) { pixel = Colour (*((const PixelRGB*) pixelData)); } else { pixel = Colour ((uint8) 0, (uint8) 0, (uint8) 0, *pixelData); } } else { pixel = Colours::transparentWhite; } const uint8 pixelValues[3] = { pixel.getRed(), pixel.getGreen(), pixel.getBlue() }; out << String::toHexString (pixelValues, 3, 0); charsOnLine += 3; if (charsOnLine > 100) { out << '\n'; charsOnLine = 0; } } } out << "\n>}\n"; } void LowLevelGraphicsPostScriptRenderer::drawImage (const Image& sourceImage, const AffineTransform& transform) { const int w = sourceImage.getWidth(); const int h = sourceImage.getHeight(); writeClip(); out << "gsave "; writeTransform (transform.translated ((float) stateStack.getLast()->xOffset, (float) stateStack.getLast()->yOffset) .scaled (1.0f, -1.0f)); RectangleList imageClip; sourceImage.createSolidAreaMask (imageClip, 0.5f); out << "newpath "; int itemsOnLine = 0; for (const Rectangle* i = imageClip.begin(), * const e = imageClip.end(); i != e; ++i) { if (++itemsOnLine == 6) { out << '\n'; itemsOnLine = 0; } out << i->getX() << ' ' << i->getY() << ' ' << i->getWidth() << ' ' << i->getHeight() << " pr "; } out << " clip newpath\n"; out << w << ' ' << h << " scale\n"; out << w << ' ' << h << " 8 [" << w << " 0 0 -" << h << ' ' << (int) 0 << ' ' << h << " ]\n"; writeImage (sourceImage, 0, 0, w, h); out << "false 3 colorimage grestore\n"; needToClip = true; } //============================================================================== void LowLevelGraphicsPostScriptRenderer::drawLine (const Line & line) { Path p; p.addLineSegment (line, 1.0f); fillPath (p, AffineTransform::identity); } //============================================================================== void LowLevelGraphicsPostScriptRenderer::setFont (const Font& newFont) { stateStack.getLast()->font = newFont; } const Font& LowLevelGraphicsPostScriptRenderer::getFont() { return stateStack.getLast()->font; } void LowLevelGraphicsPostScriptRenderer::drawGlyph (int glyphNumber, const AffineTransform& transform) { Path p; Font& font = stateStack.getLast()->font; font.getTypeface()->getOutlineForGlyph (glyphNumber, p); fillPath (p, AffineTransform::scale (font.getHeight() * font.getHorizontalScale(), font.getHeight()).followedBy (transform)); }