|
- /*
- ==============================================================================
-
- This file is part of the JUCE library.
- Copyright (c) 2022 - Raw Material Software Limited
-
- JUCE is an open source library subject to commercial or open-source
- licensing.
-
- By using JUCE, you agree to the terms of both the JUCE 7 End-User License
- Agreement and JUCE Privacy Policy.
-
- End User License Agreement: www.juce.com/juce-7-licence
- Privacy Policy: www.juce.com/juce-privacy-policy
-
- Or: You may also use this code under the terms of the GPL v3 (see
- www.gnu.org/licenses).
-
- JUCE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES, WHETHER
- EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR PURPOSE, ARE
- DISCLAIMED.
-
- ==============================================================================
- */
-
- namespace juce
- {
-
- JUCE_BEGIN_IGNORE_WARNINGS_MSVC (4127)
-
- namespace RenderingHelpers
- {
-
- //==============================================================================
- /** Holds either a simple integer translation, or an affine transform.
-
- @tags{Graphics}
- */
- class TranslationOrTransform
- {
- public:
- TranslationOrTransform() = default;
- TranslationOrTransform (Point<int> origin) noexcept : offset (origin) {}
-
- TranslationOrTransform (const TranslationOrTransform& other) = default;
-
- AffineTransform getTransform() const noexcept
- {
- return isOnlyTranslated ? AffineTransform::translation (offset)
- : complexTransform;
- }
-
- AffineTransform getTransformWith (const AffineTransform& userTransform) const noexcept
- {
- return isOnlyTranslated ? userTransform.translated (offset)
- : userTransform.followedBy (complexTransform);
- }
-
- bool isIdentity() const noexcept
- {
- return isOnlyTranslated && offset.isOrigin();
- }
-
- void setOrigin (Point<int> delta) noexcept
- {
- if (isOnlyTranslated)
- offset += delta;
- else
- complexTransform = AffineTransform::translation (delta)
- .followedBy (complexTransform);
- }
-
- void addTransform (const AffineTransform& t) noexcept
- {
- if (isOnlyTranslated && t.isOnlyTranslation())
- {
- auto tx = (int) (t.getTranslationX() * 256.0f);
- auto ty = (int) (t.getTranslationY() * 256.0f);
-
- if (((tx | ty) & 0xf8) == 0)
- {
- offset += Point<int> (tx >> 8, ty >> 8);
- return;
- }
- }
-
- complexTransform = getTransformWith (t);
- isOnlyTranslated = false;
- isRotated = (complexTransform.mat01 != 0.0f || complexTransform.mat10 != 0.0f
- || complexTransform.mat00 < 0 || complexTransform.mat11 < 0);
- }
-
- float getPhysicalPixelScaleFactor() const noexcept
- {
- return isOnlyTranslated ? 1.0f : std::sqrt (std::abs (complexTransform.getDeterminant()));
- }
-
- void moveOriginInDeviceSpace (Point<int> delta) noexcept
- {
- if (isOnlyTranslated)
- offset += delta;
- else
- complexTransform = complexTransform.translated (delta);
- }
-
- Rectangle<int> translated (Rectangle<int> r) const noexcept
- {
- jassert (isOnlyTranslated);
- return r + offset;
- }
-
- Rectangle<float> translated (Rectangle<float> r) const noexcept
- {
- jassert (isOnlyTranslated);
- return r + offset.toFloat();
- }
-
- template <typename RectangleOrPoint>
- RectangleOrPoint transformed (RectangleOrPoint r) const noexcept
- {
- jassert (! isOnlyTranslated);
- return r.transformedBy (complexTransform);
- }
-
- template <typename Type>
- Rectangle<Type> deviceSpaceToUserSpace (Rectangle<Type> r) const noexcept
- {
- return isOnlyTranslated ? r - offset
- : r.transformedBy (complexTransform.inverted());
- }
-
- AffineTransform complexTransform;
- Point<int> offset;
- bool isOnlyTranslated = true, isRotated = false;
- };
-
- //==============================================================================
- /** Holds a cache of recently-used glyph objects of some type.
-
- @tags{Graphics}
- */
- template <class CachedGlyphType, class RenderTargetType>
- class GlyphCache : private DeletedAtShutdown
- {
- public:
- GlyphCache()
- {
- reset();
- }
-
- ~GlyphCache() override
- {
- getSingletonPointer() = nullptr;
- }
-
- static GlyphCache& getInstance()
- {
- auto& g = getSingletonPointer();
-
- if (g == nullptr)
- g = new GlyphCache();
-
- return *g;
- }
-
- //==============================================================================
- void reset()
- {
- const ScopedLock sl (lock);
- glyphs.clear();
- addNewGlyphSlots (120);
- hits = 0;
- misses = 0;
- }
-
- void drawGlyph (RenderTargetType& target, const Font& font, const int glyphNumber, Point<float> pos)
- {
- if (auto glyph = findOrCreateGlyph (font, glyphNumber))
- {
- glyph->lastAccessCount = ++accessCounter;
- glyph->draw (target, pos);
- }
- }
-
- ReferenceCountedObjectPtr<CachedGlyphType> findOrCreateGlyph (const Font& font, int glyphNumber)
- {
- const ScopedLock sl (lock);
-
- if (auto g = findExistingGlyph (font, glyphNumber))
- {
- ++hits;
- return g;
- }
-
- ++misses;
- auto g = getGlyphForReuse();
- jassert (g != nullptr);
- g->generate (font, glyphNumber);
- return g;
- }
-
- private:
- ReferenceCountedArray<CachedGlyphType> glyphs;
- Atomic<int> accessCounter, hits, misses;
- CriticalSection lock;
-
- ReferenceCountedObjectPtr<CachedGlyphType> findExistingGlyph (const Font& font, int glyphNumber) const noexcept
- {
- for (auto g : glyphs)
- if (g->glyph == glyphNumber && g->font == font)
- return *g;
-
- return {};
- }
-
- ReferenceCountedObjectPtr<CachedGlyphType> getGlyphForReuse()
- {
- if (hits.get() + misses.get() > glyphs.size() * 16)
- {
- if (misses.get() * 2 > hits.get())
- addNewGlyphSlots (32);
-
- hits = 0;
- misses = 0;
- }
-
- if (auto g = findLeastRecentlyUsedGlyph())
- return *g;
-
- addNewGlyphSlots (32);
- return glyphs.getLast();
- }
-
- void addNewGlyphSlots (int num)
- {
- glyphs.ensureStorageAllocated (glyphs.size() + num);
-
- while (--num >= 0)
- glyphs.add (new CachedGlyphType());
- }
-
- CachedGlyphType* findLeastRecentlyUsedGlyph() const noexcept
- {
- CachedGlyphType* oldest = nullptr;
- auto oldestCounter = std::numeric_limits<int>::max();
-
- for (auto* g : glyphs)
- {
- if (g->lastAccessCount <= oldestCounter
- && g->getReferenceCount() == 1)
- {
- oldestCounter = g->lastAccessCount;
- oldest = g;
- }
- }
-
- return oldest;
- }
-
- static GlyphCache*& getSingletonPointer() noexcept
- {
- static GlyphCache* g = nullptr;
- return g;
- }
-
- JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (GlyphCache)
- };
-
- //==============================================================================
- /** Caches a glyph as an edge-table.
-
- @tags{Graphics}
- */
- template <class RendererType>
- class CachedGlyphEdgeTable : public ReferenceCountedObject
- {
- public:
- CachedGlyphEdgeTable() = default;
-
- void draw (RendererType& state, Point<float> pos) const
- {
- if (snapToIntegerCoordinate)
- pos.x = std::floor (pos.x + 0.5f);
-
- if (edgeTable != nullptr)
- state.fillEdgeTable (*edgeTable, pos.x, roundToInt (pos.y));
- }
-
- void generate (const Font& newFont, int glyphNumber)
- {
- font = newFont;
- auto typeface = newFont.getTypefacePtr();
- snapToIntegerCoordinate = typeface->isHinted();
- glyph = glyphNumber;
-
- auto fontHeight = font.getHeight();
- edgeTable.reset (typeface->getEdgeTableForGlyph (glyphNumber,
- AffineTransform::scale (fontHeight * font.getHorizontalScale(),
- fontHeight), fontHeight));
- }
-
- Font font;
- std::unique_ptr<EdgeTable> edgeTable;
- int glyph = 0, lastAccessCount = 0;
- bool snapToIntegerCoordinate = false;
-
- JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (CachedGlyphEdgeTable)
- };
-
- //==============================================================================
- /** Calculates the alpha values and positions for rendering the edges of a
- non-pixel-aligned rectangle.
-
- @tags{Graphics}
- */
- struct FloatRectangleRasterisingInfo
- {
- FloatRectangleRasterisingInfo (Rectangle<float> area)
- : left (roundToInt (256.0f * area.getX())),
- top (roundToInt (256.0f * area.getY())),
- right (roundToInt (256.0f * area.getRight())),
- bottom (roundToInt (256.0f * area.getBottom()))
- {
- if ((top >> 8) == (bottom >> 8))
- {
- topAlpha = bottom - top;
- bottomAlpha = 0;
- totalTop = top >> 8;
- totalBottom = bottom = top = totalTop + 1;
- }
- else
- {
- if ((top & 255) == 0)
- {
- topAlpha = 0;
- top = totalTop = (top >> 8);
- }
- else
- {
- topAlpha = 255 - (top & 255);
- totalTop = (top >> 8);
- top = totalTop + 1;
- }
-
- bottomAlpha = bottom & 255;
- bottom >>= 8;
- totalBottom = bottom + (bottomAlpha != 0 ? 1 : 0);
- }
-
- if ((left >> 8) == (right >> 8))
- {
- leftAlpha = right - left;
- rightAlpha = 0;
- totalLeft = (left >> 8);
- totalRight = right = left = totalLeft + 1;
- }
- else
- {
- if ((left & 255) == 0)
- {
- leftAlpha = 0;
- left = totalLeft = (left >> 8);
- }
- else
- {
- leftAlpha = 255 - (left & 255);
- totalLeft = (left >> 8);
- left = totalLeft + 1;
- }
-
- rightAlpha = right & 255;
- right >>= 8;
- totalRight = right + (rightAlpha != 0 ? 1 : 0);
- }
- }
-
- template <class Callback>
- void iterate (Callback& callback) const
- {
- if (topAlpha != 0) callback (totalLeft, totalTop, totalRight - totalLeft, 1, topAlpha);
- if (bottomAlpha != 0) callback (totalLeft, bottom, totalRight - totalLeft, 1, bottomAlpha);
- if (leftAlpha != 0) callback (totalLeft, totalTop, 1, totalBottom - totalTop, leftAlpha);
- if (rightAlpha != 0) callback (right, totalTop, 1, totalBottom - totalTop, rightAlpha);
-
- callback (left, top, right - left, bottom - top, 255);
- }
-
- inline bool isOnePixelWide() const noexcept { return right - left == 1 && leftAlpha + rightAlpha == 0; }
-
- inline int getTopLeftCornerAlpha() const noexcept { return (topAlpha * leftAlpha) >> 8; }
- inline int getTopRightCornerAlpha() const noexcept { return (topAlpha * rightAlpha) >> 8; }
- inline int getBottomLeftCornerAlpha() const noexcept { return (bottomAlpha * leftAlpha) >> 8; }
- inline int getBottomRightCornerAlpha() const noexcept { return (bottomAlpha * rightAlpha) >> 8; }
-
- //==============================================================================
- int left, top, right, bottom; // bounds of the solid central area, excluding anti-aliased edges
- int totalTop, totalLeft, totalBottom, totalRight; // bounds of the total area, including edges
- int topAlpha, leftAlpha, bottomAlpha, rightAlpha; // alpha of each anti-aliased edge
- };
-
- //==============================================================================
- /** Contains classes for calculating the colour of pixels within various types of gradient. */
- namespace GradientPixelIterators
- {
- /** Iterates the colour of pixels in a linear gradient */
- struct Linear
- {
- Linear (const ColourGradient& gradient, const AffineTransform& transform,
- const PixelARGB* colours, int numColours)
- : lookupTable (colours),
- numEntries (numColours)
- {
- jassert (numColours >= 0);
- auto p1 = gradient.point1;
- auto p2 = gradient.point2;
-
- if (! transform.isIdentity())
- {
- auto p3 = Line<float> (p2, p1).getPointAlongLine (0.0f, 100.0f);
-
- p1.applyTransform (transform);
- p2.applyTransform (transform);
- p3.applyTransform (transform);
-
- p2 = Line<float> (p2, p3).findNearestPointTo (p1);
- }
-
- vertical = std::abs (p1.x - p2.x) < 0.001f;
- horizontal = std::abs (p1.y - p2.y) < 0.001f;
-
- if (vertical)
- {
- scale = roundToInt ((double) ((int64_t) numEntries << (int) numScaleBits) / (double) (p2.y - p1.y));
- start = roundToInt (p1.y * (float) scale);
- }
- else if (horizontal)
- {
- scale = roundToInt ((double) ((int64_t) numEntries << (int) numScaleBits) / (double) (p2.x - p1.x));
- start = roundToInt (p1.x * (float) scale);
- }
- else
- {
- grad = (p2.getY() - p1.y) / (double) (p1.x - p2.x);
- yTerm = p1.getY() - p1.x / grad;
- scale = roundToInt ((double) ((int64_t) numEntries << (int) numScaleBits) / (yTerm * grad - (p2.y * grad - p2.x)));
- grad *= scale;
- }
- }
-
- forcedinline void setY (int y) noexcept
- {
- if (vertical)
- linePix = lookupTable[jlimit (0, numEntries, (y * scale - start) >> (int) numScaleBits)];
- else if (! horizontal)
- start = roundToInt ((y - yTerm) * grad);
- }
-
- inline PixelARGB getPixel (int x) const noexcept
- {
- return vertical ? linePix
- : lookupTable[jlimit (0, numEntries, (x * scale - start) >> (int) numScaleBits)];
- }
-
- const PixelARGB* const lookupTable;
- const int numEntries;
- PixelARGB linePix;
- int start, scale;
- double grad, yTerm;
- bool vertical, horizontal;
- enum { numScaleBits = 12 };
-
- JUCE_DECLARE_NON_COPYABLE (Linear)
- };
-
- //==============================================================================
- /** Iterates the colour of pixels in a circular radial gradient */
- struct Radial
- {
- Radial (const ColourGradient& gradient, const AffineTransform&,
- const PixelARGB* colours, int numColours)
- : lookupTable (colours),
- numEntries (numColours),
- gx1 (gradient.point1.x),
- gy1 (gradient.point1.y)
- {
- jassert (numColours >= 0);
- auto diff = gradient.point1 - gradient.point2;
- maxDist = diff.x * diff.x + diff.y * diff.y;
- invScale = numEntries / std::sqrt (maxDist);
- jassert (roundToInt (std::sqrt (maxDist) * invScale) <= numEntries);
- }
-
- forcedinline void setY (int y) noexcept
- {
- dy = y - gy1;
- dy *= dy;
- }
-
- inline PixelARGB getPixel (int px) const noexcept
- {
- auto x = px - gx1;
- x *= x;
- x += dy;
-
- return lookupTable[x >= maxDist ? numEntries : roundToInt (std::sqrt (x) * invScale)];
- }
-
- const PixelARGB* const lookupTable;
- const int numEntries;
- const double gx1, gy1;
- double maxDist, invScale, dy;
-
- JUCE_DECLARE_NON_COPYABLE (Radial)
- };
-
- //==============================================================================
- /** Iterates the colour of pixels in a skewed radial gradient */
- struct TransformedRadial : public Radial
- {
- TransformedRadial (const ColourGradient& gradient, const AffineTransform& transform,
- const PixelARGB* colours, int numColours)
- : Radial (gradient, transform, colours, numColours),
- inverseTransform (transform.inverted())
- {
- tM10 = inverseTransform.mat10;
- tM00 = inverseTransform.mat00;
- }
-
- forcedinline void setY (int y) noexcept
- {
- auto floatY = (float) y;
- lineYM01 = inverseTransform.mat01 * floatY + inverseTransform.mat02 - gx1;
- lineYM11 = inverseTransform.mat11 * floatY + inverseTransform.mat12 - gy1;
- }
-
- inline PixelARGB getPixel (int px) const noexcept
- {
- double x = px;
- auto y = tM10 * x + lineYM11;
- x = tM00 * x + lineYM01;
- x *= x;
- x += y * y;
-
- if (x >= maxDist)
- return lookupTable[numEntries];
-
- return lookupTable[jmin (numEntries, roundToInt (std::sqrt (x) * invScale))];
- }
-
- private:
- double tM10, tM00, lineYM01, lineYM11;
- const AffineTransform inverseTransform;
-
- JUCE_DECLARE_NON_COPYABLE (TransformedRadial)
- };
- }
-
- #define JUCE_PERFORM_PIXEL_OP_LOOP(op) \
- { \
- const int destStride = destData.pixelStride; \
- do { dest->op; dest = addBytesToPointer (dest, destStride); } while (--width > 0); \
- }
-
- //==============================================================================
- /** Contains classes for filling edge tables with various fill types. */
- namespace EdgeTableFillers
- {
- /** Fills an edge-table with a solid colour. */
- template <class PixelType, bool replaceExisting = false>
- struct SolidColour
- {
- SolidColour (const Image::BitmapData& image, PixelARGB colour)
- : destData (image), sourceColour (colour)
- {
- if (sizeof (PixelType) == 3 && (size_t) destData.pixelStride == sizeof (PixelType))
- areRGBComponentsEqual = sourceColour.getRed() == sourceColour.getGreen()
- && sourceColour.getGreen() == sourceColour.getBlue();
- else
- areRGBComponentsEqual = false;
- }
-
- forcedinline void setEdgeTableYPos (int y) noexcept
- {
- linePixels = (PixelType*) destData.getLinePointer (y);
- }
-
- forcedinline void handleEdgeTablePixel (int x, int alphaLevel) const noexcept
- {
- if (replaceExisting)
- getPixel (x)->set (sourceColour);
- else
- getPixel (x)->blend (sourceColour, (uint32) alphaLevel);
- }
-
- forcedinline void handleEdgeTablePixelFull (int x) const noexcept
- {
- if (replaceExisting)
- getPixel (x)->set (sourceColour);
- else
- getPixel (x)->blend (sourceColour);
- }
-
- forcedinline void handleEdgeTableLine (int x, int width, int alphaLevel) const noexcept
- {
- auto p = sourceColour;
- p.multiplyAlpha (alphaLevel);
-
- auto* dest = getPixel (x);
-
- if (replaceExisting || p.getAlpha() >= 0xff)
- replaceLine (dest, p, width);
- else
- blendLine (dest, p, width);
- }
-
- forcedinline void handleEdgeTableLineFull (int x, int width) const noexcept
- {
- auto* dest = getPixel (x);
-
- if (replaceExisting || sourceColour.getAlpha() >= 0xff)
- replaceLine (dest, sourceColour, width);
- else
- blendLine (dest, sourceColour, width);
- }
-
- void handleEdgeTableRectangle (int x, int y, int width, int height, int alphaLevel) noexcept
- {
- auto p = sourceColour;
- p.multiplyAlpha (alphaLevel);
-
- setEdgeTableYPos (y);
- auto* dest = getPixel (x);
-
- if (replaceExisting || p.getAlpha() >= 0xff)
- {
- while (--height >= 0)
- {
- replaceLine (dest, p, width);
- dest = addBytesToPointer (dest, destData.lineStride);
- }
- }
- else
- {
- while (--height >= 0)
- {
- blendLine (dest, p, width);
- dest = addBytesToPointer (dest, destData.lineStride);
- }
- }
- }
-
- void handleEdgeTableRectangleFull (int x, int y, int width, int height) noexcept
- {
- handleEdgeTableRectangle (x, y, width, height, 255);
- }
-
- private:
- const Image::BitmapData& destData;
- PixelType* linePixels;
- PixelARGB sourceColour;
- bool areRGBComponentsEqual;
-
- forcedinline PixelType* getPixel (int x) const noexcept
- {
- return addBytesToPointer (linePixels, x * destData.pixelStride);
- }
-
- inline void blendLine (PixelType* dest, PixelARGB colour, int width) const noexcept
- {
- JUCE_PERFORM_PIXEL_OP_LOOP (blend (colour))
- }
-
- forcedinline void replaceLine (PixelRGB* dest, PixelARGB colour, int width) const noexcept
- {
- if ((size_t) destData.pixelStride == sizeof (*dest) && areRGBComponentsEqual)
- memset ((void*) dest, colour.getRed(), (size_t) width * 3); // if all the component values are the same, we can cheat..
- else
- JUCE_PERFORM_PIXEL_OP_LOOP (set (colour));
- }
-
- forcedinline void replaceLine (PixelAlpha* dest, const PixelARGB colour, int width) const noexcept
- {
- if ((size_t) destData.pixelStride == sizeof (*dest))
- memset ((void*) dest, colour.getAlpha(), (size_t) width);
- else
- JUCE_PERFORM_PIXEL_OP_LOOP (setAlpha (colour.getAlpha()))
- }
-
- forcedinline void replaceLine (PixelARGB* dest, const PixelARGB colour, int width) const noexcept
- {
- JUCE_PERFORM_PIXEL_OP_LOOP (set (colour))
- }
-
- JUCE_DECLARE_NON_COPYABLE (SolidColour)
- };
-
- //==============================================================================
- /** Fills an edge-table with a gradient. */
- template <class PixelType, class GradientType>
- struct Gradient : public GradientType
- {
- Gradient (const Image::BitmapData& dest, const ColourGradient& gradient, const AffineTransform& transform,
- const PixelARGB* colours, int numColours)
- : GradientType (gradient, transform, colours, numColours - 1),
- destData (dest)
- {
- }
-
- forcedinline void setEdgeTableYPos (int y) noexcept
- {
- linePixels = (PixelType*) destData.getLinePointer (y);
- GradientType::setY (y);
- }
-
- forcedinline void handleEdgeTablePixel (int x, int alphaLevel) const noexcept
- {
- getPixel (x)->blend (GradientType::getPixel (x), (uint32) alphaLevel);
- }
-
- forcedinline void handleEdgeTablePixelFull (int x) const noexcept
- {
- getPixel (x)->blend (GradientType::getPixel (x));
- }
-
- void handleEdgeTableLine (int x, int width, int alphaLevel) const noexcept
- {
- auto* dest = getPixel (x);
-
- if (alphaLevel < 0xff)
- JUCE_PERFORM_PIXEL_OP_LOOP (blend (GradientType::getPixel (x++), (uint32) alphaLevel))
- else
- JUCE_PERFORM_PIXEL_OP_LOOP (blend (GradientType::getPixel (x++)))
- }
-
- void handleEdgeTableLineFull (int x, int width) const noexcept
- {
- auto* dest = getPixel (x);
- JUCE_PERFORM_PIXEL_OP_LOOP (blend (GradientType::getPixel (x++)))
- }
-
- void handleEdgeTableRectangle (int x, int y, int width, int height, int alphaLevel) noexcept
- {
- while (--height >= 0)
- {
- setEdgeTableYPos (y++);
- handleEdgeTableLine (x, width, alphaLevel);
- }
- }
-
- void handleEdgeTableRectangleFull (int x, int y, int width, int height) noexcept
- {
- while (--height >= 0)
- {
- setEdgeTableYPos (y++);
- handleEdgeTableLineFull (x, width);
- }
- }
-
- private:
- const Image::BitmapData& destData;
- PixelType* linePixels;
-
- forcedinline PixelType* getPixel (int x) const noexcept
- {
- return addBytesToPointer (linePixels, x * destData.pixelStride);
- }
-
- JUCE_DECLARE_NON_COPYABLE (Gradient)
- };
-
- //==============================================================================
- /** Fills an edge-table with a non-transformed image. */
- template <class DestPixelType, class SrcPixelType, bool repeatPattern>
- struct ImageFill
- {
- ImageFill (const Image::BitmapData& dest, const Image::BitmapData& src, int alpha, int x, int y)
- : destData (dest),
- srcData (src),
- extraAlpha (alpha + 1),
- xOffset (repeatPattern ? negativeAwareModulo (x, src.width) - src.width : x),
- yOffset (repeatPattern ? negativeAwareModulo (y, src.height) - src.height : y)
- {
- }
-
- forcedinline void setEdgeTableYPos (int y) noexcept
- {
- linePixels = (DestPixelType*) destData.getLinePointer (y);
- y -= yOffset;
-
- if (repeatPattern)
- {
- jassert (y >= 0);
- y %= srcData.height;
- }
-
- sourceLineStart = (SrcPixelType*) srcData.getLinePointer (y);
- }
-
- forcedinline void handleEdgeTablePixel (int x, int alphaLevel) const noexcept
- {
- alphaLevel = (alphaLevel * extraAlpha) >> 8;
-
- getDestPixel (x)->blend (*getSrcPixel (repeatPattern ? ((x - xOffset) % srcData.width) : (x - xOffset)), (uint32) alphaLevel);
- }
-
- forcedinline void handleEdgeTablePixelFull (int x) const noexcept
- {
- getDestPixel (x)->blend (*getSrcPixel (repeatPattern ? ((x - xOffset) % srcData.width) : (x - xOffset)), (uint32) extraAlpha);
- }
-
- void handleEdgeTableLine (int x, int width, int alphaLevel) const noexcept
- {
- auto* dest = getDestPixel (x);
- alphaLevel = (alphaLevel * extraAlpha) >> 8;
- x -= xOffset;
-
- if (repeatPattern)
- {
- if (alphaLevel < 0xfe)
- JUCE_PERFORM_PIXEL_OP_LOOP (blend (*getSrcPixel (x++ % srcData.width), (uint32) alphaLevel))
- else
- JUCE_PERFORM_PIXEL_OP_LOOP (blend (*getSrcPixel (x++ % srcData.width)))
- }
- else
- {
- jassert (x >= 0 && x + width <= srcData.width);
-
- if (alphaLevel < 0xfe)
- JUCE_PERFORM_PIXEL_OP_LOOP (blend (*getSrcPixel (x++), (uint32) alphaLevel))
- else
- copyRow (dest, getSrcPixel (x), width);
- }
- }
-
- void handleEdgeTableLineFull (int x, int width) const noexcept
- {
- auto* dest = getDestPixel (x);
- x -= xOffset;
-
- if (repeatPattern)
- {
- if (extraAlpha < 0xfe)
- JUCE_PERFORM_PIXEL_OP_LOOP (blend (*getSrcPixel (x++ % srcData.width), (uint32) extraAlpha))
- else
- JUCE_PERFORM_PIXEL_OP_LOOP (blend (*getSrcPixel (x++ % srcData.width)))
- }
- else
- {
- jassert (x >= 0 && x + width <= srcData.width);
-
- if (extraAlpha < 0xfe)
- JUCE_PERFORM_PIXEL_OP_LOOP (blend (*getSrcPixel (x++), (uint32) extraAlpha))
- else
- copyRow (dest, getSrcPixel (x), width);
- }
- }
-
- void handleEdgeTableRectangle (int x, int y, int width, int height, int alphaLevel) noexcept
- {
- while (--height >= 0)
- {
- setEdgeTableYPos (y++);
- handleEdgeTableLine (x, width, alphaLevel);
- }
- }
-
- void handleEdgeTableRectangleFull (int x, int y, int width, int height) noexcept
- {
- while (--height >= 0)
- {
- setEdgeTableYPos (y++);
- handleEdgeTableLineFull (x, width);
- }
- }
-
- void clipEdgeTableLine (EdgeTable& et, int x, int y, int width)
- {
- jassert (x - xOffset >= 0 && x + width - xOffset <= srcData.width);
- auto* s = (SrcPixelType*) srcData.getLinePointer (y - yOffset);
- auto* mask = (uint8*) (s + x - xOffset);
-
- if (sizeof (SrcPixelType) == sizeof (PixelARGB))
- mask += PixelARGB::indexA;
-
- et.clipLineToMask (x, y, mask, sizeof (SrcPixelType), width);
- }
-
- private:
- const Image::BitmapData& destData;
- const Image::BitmapData& srcData;
- const int extraAlpha, xOffset, yOffset;
- DestPixelType* linePixels;
- SrcPixelType* sourceLineStart;
-
- forcedinline DestPixelType* getDestPixel (int x) const noexcept
- {
- return addBytesToPointer (linePixels, x * destData.pixelStride);
- }
-
- forcedinline SrcPixelType const* getSrcPixel (int x) const noexcept
- {
- return addBytesToPointer (sourceLineStart, x * srcData.pixelStride);
- }
-
- forcedinline void copyRow (DestPixelType* dest, SrcPixelType const* src, int width) const noexcept
- {
- auto destStride = destData.pixelStride;
- auto srcStride = srcData.pixelStride;
-
- if (destStride == srcStride
- && srcData.pixelFormat == Image::RGB
- && destData.pixelFormat == Image::RGB)
- {
- memcpy ((void*) dest, src, (size_t) (width * srcStride));
- }
- else
- {
- do
- {
- dest->blend (*src);
- dest = addBytesToPointer (dest, destStride);
- src = addBytesToPointer (src, srcStride);
- } while (--width > 0);
- }
- }
-
- JUCE_DECLARE_NON_COPYABLE (ImageFill)
- };
-
- //==============================================================================
- /** Fills an edge-table with a transformed image. */
- template <class DestPixelType, class SrcPixelType, bool repeatPattern>
- struct TransformedImageFill
- {
- TransformedImageFill (const Image::BitmapData& dest, const Image::BitmapData& src,
- const AffineTransform& transform, int alpha, Graphics::ResamplingQuality q)
- : interpolator (transform,
- q != Graphics::lowResamplingQuality ? 0.5f : 0.0f,
- q != Graphics::lowResamplingQuality ? -128 : 0),
- destData (dest),
- srcData (src),
- extraAlpha (alpha + 1),
- quality (q),
- maxX (src.width - 1),
- maxY (src.height - 1)
- {
- scratchBuffer.malloc (scratchSize);
- }
-
- forcedinline void setEdgeTableYPos (int newY) noexcept
- {
- currentY = newY;
- linePixels = (DestPixelType*) destData.getLinePointer (newY);
- }
-
- forcedinline void handleEdgeTablePixel (int x, int alphaLevel) noexcept
- {
- SrcPixelType p;
- generate (&p, x, 1);
-
- getDestPixel (x)->blend (p, (uint32) (alphaLevel * extraAlpha) >> 8);
- }
-
- forcedinline void handleEdgeTablePixelFull (int x) noexcept
- {
- SrcPixelType p;
- generate (&p, x, 1);
-
- getDestPixel (x)->blend (p, (uint32) extraAlpha);
- }
-
- void handleEdgeTableLine (int x, int width, int alphaLevel) noexcept
- {
- if (width > (int) scratchSize)
- {
- scratchSize = (size_t) width;
- scratchBuffer.malloc (scratchSize);
- }
-
- SrcPixelType* span = scratchBuffer;
- generate (span, x, width);
-
- auto* dest = getDestPixel (x);
- alphaLevel *= extraAlpha;
- alphaLevel >>= 8;
-
- if (alphaLevel < 0xfe)
- JUCE_PERFORM_PIXEL_OP_LOOP (blend (*span++, (uint32) alphaLevel))
- else
- JUCE_PERFORM_PIXEL_OP_LOOP (blend (*span++))
- }
-
- forcedinline void handleEdgeTableLineFull (int x, int width) noexcept
- {
- handleEdgeTableLine (x, width, 255);
- }
-
- void handleEdgeTableRectangle (int x, int y, int width, int height, int alphaLevel) noexcept
- {
- while (--height >= 0)
- {
- setEdgeTableYPos (y++);
- handleEdgeTableLine (x, width, alphaLevel);
- }
- }
-
- void handleEdgeTableRectangleFull (int x, int y, int width, int height) noexcept
- {
- while (--height >= 0)
- {
- setEdgeTableYPos (y++);
- handleEdgeTableLineFull (x, width);
- }
- }
-
- void clipEdgeTableLine (EdgeTable& et, int x, int y, int width)
- {
- if (width > (int) scratchSize)
- {
- scratchSize = (size_t) width;
- scratchBuffer.malloc (scratchSize);
- }
-
- currentY = y;
- generate (scratchBuffer.get(), x, width);
-
- et.clipLineToMask (x, y,
- reinterpret_cast<uint8*> (scratchBuffer.get()) + SrcPixelType::indexA,
- sizeof (SrcPixelType), width);
- }
-
- private:
- forcedinline DestPixelType* getDestPixel (int x) const noexcept
- {
- return addBytesToPointer (linePixels, x * destData.pixelStride);
- }
-
- //==============================================================================
- template <class PixelType>
- void generate (PixelType* dest, int x, int numPixels) noexcept
- {
- this->interpolator.setStartOfLine ((float) x, (float) currentY, numPixels);
-
- do
- {
- int hiResX, hiResY;
- this->interpolator.next (hiResX, hiResY);
-
- int loResX = hiResX >> 8;
- int loResY = hiResY >> 8;
-
- if (repeatPattern)
- {
- loResX = negativeAwareModulo (loResX, srcData.width);
- loResY = negativeAwareModulo (loResY, srcData.height);
- }
-
- if (quality != Graphics::lowResamplingQuality)
- {
- if (isPositiveAndBelow (loResX, maxX))
- {
- if (isPositiveAndBelow (loResY, maxY))
- {
- // In the centre of the image..
- render4PixelAverage (dest, this->srcData.getPixelPointer (loResX, loResY),
- hiResX & 255, hiResY & 255);
- ++dest;
- continue;
- }
-
- if (! repeatPattern)
- {
- // At a top or bottom edge..
- if (loResY < 0)
- render2PixelAverageX (dest, this->srcData.getPixelPointer (loResX, 0), hiResX & 255);
- else
- render2PixelAverageX (dest, this->srcData.getPixelPointer (loResX, maxY), hiResX & 255);
-
- ++dest;
- continue;
- }
- }
- else
- {
- if (isPositiveAndBelow (loResY, maxY) && ! repeatPattern)
- {
- // At a left or right hand edge..
- if (loResX < 0)
- render2PixelAverageY (dest, this->srcData.getPixelPointer (0, loResY), hiResY & 255);
- else
- render2PixelAverageY (dest, this->srcData.getPixelPointer (maxX, loResY), hiResY & 255);
-
- ++dest;
- continue;
- }
- }
- }
-
- if (! repeatPattern)
- {
- if (loResX < 0) loResX = 0;
- if (loResY < 0) loResY = 0;
- if (loResX > maxX) loResX = maxX;
- if (loResY > maxY) loResY = maxY;
- }
-
- dest->set (*(const PixelType*) this->srcData.getPixelPointer (loResX, loResY));
- ++dest;
-
- } while (--numPixels > 0);
- }
-
- //==============================================================================
- void render4PixelAverage (PixelARGB* dest, const uint8* src, int subPixelX, int subPixelY) noexcept
- {
- uint32 c[4] = { 256 * 128, 256 * 128, 256 * 128, 256 * 128 };
-
- auto weight = (uint32) ((256 - subPixelX) * (256 - subPixelY));
- c[0] += weight * src[0];
- c[1] += weight * src[1];
- c[2] += weight * src[2];
- c[3] += weight * src[3];
-
- src += this->srcData.pixelStride;
-
- weight = (uint32) (subPixelX * (256 - subPixelY));
- c[0] += weight * src[0];
- c[1] += weight * src[1];
- c[2] += weight * src[2];
- c[3] += weight * src[3];
-
- src += this->srcData.lineStride;
-
- weight = (uint32) (subPixelX * subPixelY);
- c[0] += weight * src[0];
- c[1] += weight * src[1];
- c[2] += weight * src[2];
- c[3] += weight * src[3];
-
- src -= this->srcData.pixelStride;
-
- weight = (uint32) ((256 - subPixelX) * subPixelY);
- c[0] += weight * src[0];
- c[1] += weight * src[1];
- c[2] += weight * src[2];
- c[3] += weight * src[3];
-
- dest->setARGB ((uint8) (c[PixelARGB::indexA] >> 16),
- (uint8) (c[PixelARGB::indexR] >> 16),
- (uint8) (c[PixelARGB::indexG] >> 16),
- (uint8) (c[PixelARGB::indexB] >> 16));
- }
-
- void render2PixelAverageX (PixelARGB* dest, const uint8* src, uint32 subPixelX) noexcept
- {
- uint32 c[4] = { 128, 128, 128, 128 };
-
- uint32 weight = 256 - subPixelX;
- c[0] += weight * src[0];
- c[1] += weight * src[1];
- c[2] += weight * src[2];
- c[3] += weight * src[3];
-
- src += this->srcData.pixelStride;
-
- weight = subPixelX;
- c[0] += weight * src[0];
- c[1] += weight * src[1];
- c[2] += weight * src[2];
- c[3] += weight * src[3];
-
- dest->setARGB ((uint8) (c[PixelARGB::indexA] >> 8),
- (uint8) (c[PixelARGB::indexR] >> 8),
- (uint8) (c[PixelARGB::indexG] >> 8),
- (uint8) (c[PixelARGB::indexB] >> 8));
- }
-
- void render2PixelAverageY (PixelARGB* dest, const uint8* src, uint32 subPixelY) noexcept
- {
- uint32 c[4] = { 128, 128, 128, 128 };
-
- uint32 weight = 256 - subPixelY;
- c[0] += weight * src[0];
- c[1] += weight * src[1];
- c[2] += weight * src[2];
- c[3] += weight * src[3];
-
- src += this->srcData.lineStride;
-
- weight = subPixelY;
- c[0] += weight * src[0];
- c[1] += weight * src[1];
- c[2] += weight * src[2];
- c[3] += weight * src[3];
-
- dest->setARGB ((uint8) (c[PixelARGB::indexA] >> 8),
- (uint8) (c[PixelARGB::indexR] >> 8),
- (uint8) (c[PixelARGB::indexG] >> 8),
- (uint8) (c[PixelARGB::indexB] >> 8));
- }
-
- //==============================================================================
- void render4PixelAverage (PixelRGB* dest, const uint8* src, uint32 subPixelX, uint32 subPixelY) noexcept
- {
- uint32 c[3] = { 256 * 128, 256 * 128, 256 * 128 };
-
- uint32 weight = (256 - subPixelX) * (256 - subPixelY);
- c[0] += weight * src[0];
- c[1] += weight * src[1];
- c[2] += weight * src[2];
-
- src += this->srcData.pixelStride;
-
- weight = subPixelX * (256 - subPixelY);
- c[0] += weight * src[0];
- c[1] += weight * src[1];
- c[2] += weight * src[2];
-
- src += this->srcData.lineStride;
-
- weight = subPixelX * subPixelY;
- c[0] += weight * src[0];
- c[1] += weight * src[1];
- c[2] += weight * src[2];
-
- src -= this->srcData.pixelStride;
-
- weight = (256 - subPixelX) * subPixelY;
- c[0] += weight * src[0];
- c[1] += weight * src[1];
- c[2] += weight * src[2];
-
- dest->setARGB ((uint8) 255,
- (uint8) (c[PixelRGB::indexR] >> 16),
- (uint8) (c[PixelRGB::indexG] >> 16),
- (uint8) (c[PixelRGB::indexB] >> 16));
- }
-
- void render2PixelAverageX (PixelRGB* dest, const uint8* src, uint32 subPixelX) noexcept
- {
- uint32 c[3] = { 128, 128, 128 };
-
- const uint32 weight = 256 - subPixelX;
- c[0] += weight * src[0];
- c[1] += weight * src[1];
- c[2] += weight * src[2];
-
- src += this->srcData.pixelStride;
-
- c[0] += subPixelX * src[0];
- c[1] += subPixelX * src[1];
- c[2] += subPixelX * src[2];
-
- dest->setARGB ((uint8) 255,
- (uint8) (c[PixelRGB::indexR] >> 8),
- (uint8) (c[PixelRGB::indexG] >> 8),
- (uint8) (c[PixelRGB::indexB] >> 8));
- }
-
- void render2PixelAverageY (PixelRGB* dest, const uint8* src, uint32 subPixelY) noexcept
- {
- uint32 c[3] = { 128, 128, 128 };
-
- const uint32 weight = 256 - subPixelY;
- c[0] += weight * src[0];
- c[1] += weight * src[1];
- c[2] += weight * src[2];
-
- src += this->srcData.lineStride;
-
- c[0] += subPixelY * src[0];
- c[1] += subPixelY * src[1];
- c[2] += subPixelY * src[2];
-
- dest->setARGB ((uint8) 255,
- (uint8) (c[PixelRGB::indexR] >> 8),
- (uint8) (c[PixelRGB::indexG] >> 8),
- (uint8) (c[PixelRGB::indexB] >> 8));
- }
-
- //==============================================================================
- void render4PixelAverage (PixelAlpha* dest, const uint8* src, uint32 subPixelX, uint32 subPixelY) noexcept
- {
- uint32 c = 256 * 128;
- c += src[0] * ((256 - subPixelX) * (256 - subPixelY));
- src += this->srcData.pixelStride;
- c += src[0] * (subPixelX * (256 - subPixelY));
- src += this->srcData.lineStride;
- c += src[0] * (subPixelX * subPixelY);
- src -= this->srcData.pixelStride;
-
- c += src[0] * ((256 - subPixelX) * subPixelY);
-
- *((uint8*) dest) = (uint8) (c >> 16);
- }
-
- void render2PixelAverageX (PixelAlpha* dest, const uint8* src, uint32 subPixelX) noexcept
- {
- uint32 c = 128;
- c += src[0] * (256 - subPixelX);
- src += this->srcData.pixelStride;
- c += src[0] * subPixelX;
- *((uint8*) dest) = (uint8) (c >> 8);
- }
-
- void render2PixelAverageY (PixelAlpha* dest, const uint8* src, uint32 subPixelY) noexcept
- {
- uint32 c = 128;
- c += src[0] * (256 - subPixelY);
- src += this->srcData.lineStride;
- c += src[0] * subPixelY;
- *((uint8*) dest) = (uint8) (c >> 8);
- }
-
- //==============================================================================
- struct TransformedImageSpanInterpolator
- {
- TransformedImageSpanInterpolator (const AffineTransform& transform, float offsetFloat, int offsetInt) noexcept
- : inverseTransform (transform.inverted()),
- pixelOffset (offsetFloat), pixelOffsetInt (offsetInt)
- {}
-
- void setStartOfLine (float sx, float sy, int numPixels) noexcept
- {
- jassert (numPixels > 0);
-
- sx += pixelOffset;
- sy += pixelOffset;
- auto x1 = sx, y1 = sy;
- sx += (float) numPixels;
- inverseTransform.transformPoints (x1, y1, sx, sy);
-
- xBresenham.set ((int) (x1 * 256.0f), (int) (sx * 256.0f), numPixels, pixelOffsetInt);
- yBresenham.set ((int) (y1 * 256.0f), (int) (sy * 256.0f), numPixels, pixelOffsetInt);
- }
-
- void next (int& px, int& py) noexcept
- {
- px = xBresenham.n; xBresenham.stepToNext();
- py = yBresenham.n; yBresenham.stepToNext();
- }
-
- private:
- struct BresenhamInterpolator
- {
- BresenhamInterpolator() = default;
-
- void set (int n1, int n2, int steps, int offsetInt) noexcept
- {
- numSteps = steps;
- step = (n2 - n1) / numSteps;
- remainder = modulo = (n2 - n1) % numSteps;
- n = n1 + offsetInt;
-
- if (modulo <= 0)
- {
- modulo += numSteps;
- remainder += numSteps;
- --step;
- }
-
- modulo -= numSteps;
- }
-
- forcedinline void stepToNext() noexcept
- {
- modulo += remainder;
- n += step;
-
- if (modulo > 0)
- {
- modulo -= numSteps;
- ++n;
- }
- }
-
- int n;
-
- private:
- int numSteps, step, modulo, remainder;
- };
-
- const AffineTransform inverseTransform;
- BresenhamInterpolator xBresenham, yBresenham;
- const float pixelOffset;
- const int pixelOffsetInt;
-
- JUCE_DECLARE_NON_COPYABLE (TransformedImageSpanInterpolator)
- };
-
- //==============================================================================
- TransformedImageSpanInterpolator interpolator;
- const Image::BitmapData& destData;
- const Image::BitmapData& srcData;
- const int extraAlpha;
- const Graphics::ResamplingQuality quality;
- const int maxX, maxY;
- int currentY;
- DestPixelType* linePixels;
- HeapBlock<SrcPixelType> scratchBuffer;
- size_t scratchSize = 2048;
-
- JUCE_DECLARE_NON_COPYABLE (TransformedImageFill)
- };
-
-
- //==============================================================================
- template <class Iterator>
- void renderImageTransformed (Iterator& iter, const Image::BitmapData& destData, const Image::BitmapData& srcData,
- int alpha, const AffineTransform& transform, Graphics::ResamplingQuality quality, bool tiledFill)
- {
- switch (destData.pixelFormat)
- {
- case Image::ARGB:
- switch (srcData.pixelFormat)
- {
- case Image::ARGB:
- if (tiledFill) { TransformedImageFill<PixelARGB, PixelARGB, true> r (destData, srcData, transform, alpha, quality); iter.iterate (r); }
- else { TransformedImageFill<PixelARGB, PixelARGB, false> r (destData, srcData, transform, alpha, quality); iter.iterate (r); }
- break;
- case Image::RGB:
- if (tiledFill) { TransformedImageFill<PixelARGB, PixelRGB, true> r (destData, srcData, transform, alpha, quality); iter.iterate (r); }
- else { TransformedImageFill<PixelARGB, PixelRGB, false> r (destData, srcData, transform, alpha, quality); iter.iterate (r); }
- break;
- case Image::SingleChannel:
- case Image::UnknownFormat:
- default:
- if (tiledFill) { TransformedImageFill<PixelARGB, PixelAlpha, true> r (destData, srcData, transform, alpha, quality); iter.iterate (r); }
- else { TransformedImageFill<PixelARGB, PixelAlpha, false> r (destData, srcData, transform, alpha, quality); iter.iterate (r); }
- break;
- }
- break;
-
- case Image::RGB:
- {
- switch (srcData.pixelFormat)
- {
- case Image::ARGB:
- if (tiledFill) { TransformedImageFill<PixelRGB, PixelARGB, true> r (destData, srcData, transform, alpha, quality); iter.iterate (r); }
- else { TransformedImageFill<PixelRGB, PixelARGB, false> r (destData, srcData, transform, alpha, quality); iter.iterate (r); }
- break;
- case Image::RGB:
- if (tiledFill) { TransformedImageFill<PixelRGB, PixelRGB, true> r (destData, srcData, transform, alpha, quality); iter.iterate (r); }
- else { TransformedImageFill<PixelRGB, PixelRGB, false> r (destData, srcData, transform, alpha, quality); iter.iterate (r); }
- break;
- case Image::SingleChannel:
- case Image::UnknownFormat:
- default:
- if (tiledFill) { TransformedImageFill<PixelRGB, PixelAlpha, true> r (destData, srcData, transform, alpha, quality); iter.iterate (r); }
- else { TransformedImageFill<PixelRGB, PixelAlpha, false> r (destData, srcData, transform, alpha, quality); iter.iterate (r); }
- break;
- }
- break;
- }
-
- case Image::SingleChannel:
- case Image::UnknownFormat:
- default:
- switch (srcData.pixelFormat)
- {
- case Image::ARGB:
- if (tiledFill) { TransformedImageFill<PixelAlpha, PixelARGB, true> r (destData, srcData, transform, alpha, quality); iter.iterate (r); }
- else { TransformedImageFill<PixelAlpha, PixelARGB, false> r (destData, srcData, transform, alpha, quality); iter.iterate (r); }
- break;
- case Image::RGB:
- if (tiledFill) { TransformedImageFill<PixelAlpha, PixelRGB, true> r (destData, srcData, transform, alpha, quality); iter.iterate (r); }
- else { TransformedImageFill<PixelAlpha, PixelRGB, false> r (destData, srcData, transform, alpha, quality); iter.iterate (r); }
- break;
- case Image::SingleChannel:
- case Image::UnknownFormat:
- default:
- if (tiledFill) { TransformedImageFill<PixelAlpha, PixelAlpha, true> r (destData, srcData, transform, alpha, quality); iter.iterate (r); }
- else { TransformedImageFill<PixelAlpha, PixelAlpha, false> r (destData, srcData, transform, alpha, quality); iter.iterate (r); }
- break;
- }
- break;
- }
- }
-
- template <class Iterator>
- void renderImageUntransformed (Iterator& iter, const Image::BitmapData& destData, const Image::BitmapData& srcData, int alpha, int x, int y, bool tiledFill)
- {
- switch (destData.pixelFormat)
- {
- case Image::ARGB:
- switch (srcData.pixelFormat)
- {
- case Image::ARGB:
- if (tiledFill) { ImageFill<PixelARGB, PixelARGB, true> r (destData, srcData, alpha, x, y); iter.iterate (r); }
- else { ImageFill<PixelARGB, PixelARGB, false> r (destData, srcData, alpha, x, y); iter.iterate (r); }
- break;
- case Image::RGB:
- if (tiledFill) { ImageFill<PixelARGB, PixelRGB, true> r (destData, srcData, alpha, x, y); iter.iterate (r); }
- else { ImageFill<PixelARGB, PixelRGB, false> r (destData, srcData, alpha, x, y); iter.iterate (r); }
- break;
- case Image::SingleChannel:
- case Image::UnknownFormat:
- default:
- if (tiledFill) { ImageFill<PixelARGB, PixelAlpha, true> r (destData, srcData, alpha, x, y); iter.iterate (r); }
- else { ImageFill<PixelARGB, PixelAlpha, false> r (destData, srcData, alpha, x, y); iter.iterate (r); }
- break;
- }
- break;
-
- case Image::RGB:
- switch (srcData.pixelFormat)
- {
- case Image::ARGB:
- if (tiledFill) { ImageFill<PixelRGB, PixelARGB, true> r (destData, srcData, alpha, x, y); iter.iterate (r); }
- else { ImageFill<PixelRGB, PixelARGB, false> r (destData, srcData, alpha, x, y); iter.iterate (r); }
- break;
- case Image::RGB:
- if (tiledFill) { ImageFill<PixelRGB, PixelRGB, true> r (destData, srcData, alpha, x, y); iter.iterate (r); }
- else { ImageFill<PixelRGB, PixelRGB, false> r (destData, srcData, alpha, x, y); iter.iterate (r); }
- break;
- case Image::SingleChannel:
- case Image::UnknownFormat:
- default:
- if (tiledFill) { ImageFill<PixelRGB, PixelAlpha, true> r (destData, srcData, alpha, x, y); iter.iterate (r); }
- else { ImageFill<PixelRGB, PixelAlpha, false> r (destData, srcData, alpha, x, y); iter.iterate (r); }
- break;
- }
- break;
-
- case Image::SingleChannel:
- case Image::UnknownFormat:
- default:
- switch (srcData.pixelFormat)
- {
- case Image::ARGB:
- if (tiledFill) { ImageFill<PixelAlpha, PixelARGB, true> r (destData, srcData, alpha, x, y); iter.iterate (r); }
- else { ImageFill<PixelAlpha, PixelARGB, false> r (destData, srcData, alpha, x, y); iter.iterate (r); }
- break;
- case Image::RGB:
- if (tiledFill) { ImageFill<PixelAlpha, PixelRGB, true> r (destData, srcData, alpha, x, y); iter.iterate (r); }
- else { ImageFill<PixelAlpha, PixelRGB, false> r (destData, srcData, alpha, x, y); iter.iterate (r); }
- break;
- case Image::SingleChannel:
- case Image::UnknownFormat:
- default:
- if (tiledFill) { ImageFill<PixelAlpha, PixelAlpha, true> r (destData, srcData, alpha, x, y); iter.iterate (r); }
- else { ImageFill<PixelAlpha, PixelAlpha, false> r (destData, srcData, alpha, x, y); iter.iterate (r); }
- break;
- }
- break;
- }
- }
-
- template <class Iterator, class DestPixelType>
- void renderSolidFill (Iterator& iter, const Image::BitmapData& destData, PixelARGB fillColour, bool replaceContents, DestPixelType*)
- {
- if (replaceContents)
- {
- EdgeTableFillers::SolidColour<DestPixelType, true> r (destData, fillColour);
- iter.iterate (r);
- }
- else
- {
- EdgeTableFillers::SolidColour<DestPixelType, false> r (destData, fillColour);
- iter.iterate (r);
- }
- }
-
- template <class Iterator, class DestPixelType>
- void renderGradient (Iterator& iter, const Image::BitmapData& destData, const ColourGradient& g, const AffineTransform& transform,
- const PixelARGB* lookupTable, int numLookupEntries, bool isIdentity, DestPixelType*)
- {
- if (g.isRadial)
- {
- if (isIdentity)
- {
- EdgeTableFillers::Gradient<DestPixelType, GradientPixelIterators::Radial> renderer (destData, g, transform, lookupTable, numLookupEntries);
- iter.iterate (renderer);
- }
- else
- {
- EdgeTableFillers::Gradient<DestPixelType, GradientPixelIterators::TransformedRadial> renderer (destData, g, transform, lookupTable, numLookupEntries);
- iter.iterate (renderer);
- }
- }
- else
- {
- EdgeTableFillers::Gradient<DestPixelType, GradientPixelIterators::Linear> renderer (destData, g, transform, lookupTable, numLookupEntries);
- iter.iterate (renderer);
- }
- }
- }
-
- //==============================================================================
- template <class SavedStateType>
- struct ClipRegions
- {
- struct Base : public SingleThreadedReferenceCountedObject
- {
- Base() = default;
- ~Base() override = default;
-
- using Ptr = ReferenceCountedObjectPtr<Base>;
-
- virtual Ptr clone() const = 0;
- virtual Ptr applyClipTo (const Ptr& target) const = 0;
-
- virtual Ptr clipToRectangle (Rectangle<int>) = 0;
- virtual Ptr clipToRectangleList (const RectangleList<int>&) = 0;
- virtual Ptr excludeClipRectangle (Rectangle<int>) = 0;
- virtual Ptr clipToPath (const Path&, const AffineTransform&) = 0;
- virtual Ptr clipToEdgeTable (const EdgeTable&) = 0;
- virtual Ptr clipToImageAlpha (const Image&, const AffineTransform&, Graphics::ResamplingQuality) = 0;
- virtual void translate (Point<int> delta) = 0;
-
- virtual bool clipRegionIntersects (Rectangle<int>) const = 0;
- virtual Rectangle<int> getClipBounds() const = 0;
-
- virtual void fillRectWithColour (SavedStateType&, Rectangle<int>, PixelARGB colour, bool replaceContents) const = 0;
- virtual void fillRectWithColour (SavedStateType&, Rectangle<float>, PixelARGB colour) const = 0;
- virtual void fillAllWithColour (SavedStateType&, PixelARGB colour, bool replaceContents) const = 0;
- virtual void fillAllWithGradient (SavedStateType&, ColourGradient&, const AffineTransform&, bool isIdentity) const = 0;
- virtual void renderImageTransformed (SavedStateType&, const Image&, int alpha, const AffineTransform&, Graphics::ResamplingQuality, bool tiledFill) const = 0;
- virtual void renderImageUntransformed (SavedStateType&, const Image&, int alpha, int x, int y, bool tiledFill) const = 0;
- };
-
- //==============================================================================
- struct EdgeTableRegion : public Base
- {
- EdgeTableRegion (const EdgeTable& e) : edgeTable (e) {}
- EdgeTableRegion (Rectangle<int> r) : edgeTable (r) {}
- EdgeTableRegion (Rectangle<float> r) : edgeTable (r) {}
- EdgeTableRegion (const RectangleList<int>& r) : edgeTable (r) {}
- EdgeTableRegion (const RectangleList<float>& r) : edgeTable (r) {}
- EdgeTableRegion (Rectangle<int> bounds, const Path& p, const AffineTransform& t) : edgeTable (bounds, p, t) {}
-
- EdgeTableRegion (const EdgeTableRegion& other) : Base(), edgeTable (other.edgeTable) {}
- EdgeTableRegion& operator= (const EdgeTableRegion&) = delete;
-
- using Ptr = typename Base::Ptr;
-
- Ptr clone() const override { return *new EdgeTableRegion (*this); }
- Ptr applyClipTo (const Ptr& target) const override { return target->clipToEdgeTable (edgeTable); }
-
- Ptr clipToRectangle (Rectangle<int> r) override
- {
- edgeTable.clipToRectangle (r);
- return edgeTable.isEmpty() ? Ptr() : Ptr (*this);
- }
-
- Ptr clipToRectangleList (const RectangleList<int>& r) override
- {
- RectangleList<int> inverse (edgeTable.getMaximumBounds());
-
- if (inverse.subtract (r))
- for (auto& i : inverse)
- edgeTable.excludeRectangle (i);
-
- return edgeTable.isEmpty() ? Ptr() : Ptr (*this);
- }
-
- Ptr excludeClipRectangle (Rectangle<int> r) override
- {
- edgeTable.excludeRectangle (r);
- return edgeTable.isEmpty() ? Ptr() : Ptr (*this);
- }
-
- Ptr clipToPath (const Path& p, const AffineTransform& transform) override
- {
- EdgeTable et (edgeTable.getMaximumBounds(), p, transform);
- edgeTable.clipToEdgeTable (et);
- return edgeTable.isEmpty() ? Ptr() : Ptr (*this);
- }
-
- Ptr clipToEdgeTable (const EdgeTable& et) override
- {
- edgeTable.clipToEdgeTable (et);
- return edgeTable.isEmpty() ? Ptr() : Ptr (*this);
- }
-
- Ptr clipToImageAlpha (const Image& image, const AffineTransform& transform, Graphics::ResamplingQuality quality) override
- {
- const Image::BitmapData srcData (image, Image::BitmapData::readOnly);
-
- if (transform.isOnlyTranslation())
- {
- // If our translation doesn't involve any distortion, just use a simple blit..
- auto tx = (int) (transform.getTranslationX() * 256.0f);
- auto ty = (int) (transform.getTranslationY() * 256.0f);
-
- if (quality == Graphics::lowResamplingQuality || ((tx | ty) & 224) == 0)
- {
- auto imageX = ((tx + 128) >> 8);
- auto imageY = ((ty + 128) >> 8);
-
- if (image.getFormat() == Image::ARGB)
- straightClipImage (srcData, imageX, imageY, (PixelARGB*) nullptr);
- else
- straightClipImage (srcData, imageX, imageY, (PixelAlpha*) nullptr);
-
- return edgeTable.isEmpty() ? Ptr() : Ptr (*this);
- }
- }
-
- if (transform.isSingularity())
- return Ptr();
-
- {
- Path p;
- p.addRectangle (0, 0, (float) srcData.width, (float) srcData.height);
- EdgeTable et2 (edgeTable.getMaximumBounds(), p, transform);
- edgeTable.clipToEdgeTable (et2);
- }
-
- if (! edgeTable.isEmpty())
- {
- if (image.getFormat() == Image::ARGB)
- transformedClipImage (srcData, transform, quality, (PixelARGB*) nullptr);
- else
- transformedClipImage (srcData, transform, quality, (PixelAlpha*) nullptr);
- }
-
- return edgeTable.isEmpty() ? Ptr() : Ptr (*this);
- }
-
- void translate (Point<int> delta) override
- {
- edgeTable.translate ((float) delta.x, delta.y);
- }
-
- bool clipRegionIntersects (Rectangle<int> r) const override
- {
- return edgeTable.getMaximumBounds().intersects (r);
- }
-
- Rectangle<int> getClipBounds() const override
- {
- return edgeTable.getMaximumBounds();
- }
-
- void fillRectWithColour (SavedStateType& state, Rectangle<int> area, PixelARGB colour, bool replaceContents) const override
- {
- auto totalClip = edgeTable.getMaximumBounds();
- auto clipped = totalClip.getIntersection (area);
-
- if (! clipped.isEmpty())
- {
- EdgeTableRegion et (clipped);
- et.edgeTable.clipToEdgeTable (edgeTable);
- state.fillWithSolidColour (et.edgeTable, colour, replaceContents);
- }
- }
-
- void fillRectWithColour (SavedStateType& state, Rectangle<float> area, PixelARGB colour) const override
- {
- auto totalClip = edgeTable.getMaximumBounds().toFloat();
- auto clipped = totalClip.getIntersection (area);
-
- if (! clipped.isEmpty())
- {
- EdgeTableRegion et (clipped);
- et.edgeTable.clipToEdgeTable (edgeTable);
- state.fillWithSolidColour (et.edgeTable, colour, false);
- }
- }
-
- void fillAllWithColour (SavedStateType& state, PixelARGB colour, bool replaceContents) const override
- {
- state.fillWithSolidColour (edgeTable, colour, replaceContents);
- }
-
- void fillAllWithGradient (SavedStateType& state, ColourGradient& gradient, const AffineTransform& transform, bool isIdentity) const override
- {
- state.fillWithGradient (edgeTable, gradient, transform, isIdentity);
- }
-
- void renderImageTransformed (SavedStateType& state, const Image& src, int alpha, const AffineTransform& transform, Graphics::ResamplingQuality quality, bool tiledFill) const override
- {
- state.renderImageTransformed (edgeTable, src, alpha, transform, quality, tiledFill);
- }
-
- void renderImageUntransformed (SavedStateType& state, const Image& src, int alpha, int x, int y, bool tiledFill) const override
- {
- state.renderImageUntransformed (edgeTable, src, alpha, x, y, tiledFill);
- }
-
- EdgeTable edgeTable;
-
- private:
- template <class SrcPixelType>
- void transformedClipImage (const Image::BitmapData& srcData, const AffineTransform& transform, Graphics::ResamplingQuality quality, const SrcPixelType*)
- {
- EdgeTableFillers::TransformedImageFill<SrcPixelType, SrcPixelType, false> renderer (srcData, srcData, transform, 255, quality);
-
- for (int y = 0; y < edgeTable.getMaximumBounds().getHeight(); ++y)
- renderer.clipEdgeTableLine (edgeTable, edgeTable.getMaximumBounds().getX(), y + edgeTable.getMaximumBounds().getY(),
- edgeTable.getMaximumBounds().getWidth());
- }
-
- template <class SrcPixelType>
- void straightClipImage (const Image::BitmapData& srcData, int imageX, int imageY, const SrcPixelType*)
- {
- Rectangle<int> r (imageX, imageY, srcData.width, srcData.height);
- edgeTable.clipToRectangle (r);
-
- EdgeTableFillers::ImageFill<SrcPixelType, SrcPixelType, false> renderer (srcData, srcData, 255, imageX, imageY);
-
- for (int y = 0; y < r.getHeight(); ++y)
- renderer.clipEdgeTableLine (edgeTable, r.getX(), y + r.getY(), r.getWidth());
- }
- };
-
- //==============================================================================
- class RectangleListRegion : public Base
- {
- public:
- RectangleListRegion (Rectangle<int> r) : clip (r) {}
- RectangleListRegion (const RectangleList<int>& r) : clip (r) {}
- RectangleListRegion (const RectangleListRegion& other) : Base(), clip (other.clip) {}
-
- using Ptr = typename Base::Ptr;
-
- Ptr clone() const override { return *new RectangleListRegion (*this); }
- Ptr applyClipTo (const Ptr& target) const override { return target->clipToRectangleList (clip); }
-
- Ptr clipToRectangle (Rectangle<int> r) override
- {
- clip.clipTo (r);
- return clip.isEmpty() ? Ptr() : Ptr (*this);
- }
-
- Ptr clipToRectangleList (const RectangleList<int>& r) override
- {
- clip.clipTo (r);
- return clip.isEmpty() ? Ptr() : Ptr (*this);
- }
-
- Ptr excludeClipRectangle (Rectangle<int> r) override
- {
- clip.subtract (r);
- return clip.isEmpty() ? Ptr() : Ptr (*this);
- }
-
- Ptr clipToPath (const Path& p, const AffineTransform& transform) override { return toEdgeTable()->clipToPath (p, transform); }
- Ptr clipToEdgeTable (const EdgeTable& et) override { return toEdgeTable()->clipToEdgeTable (et); }
-
- Ptr clipToImageAlpha (const Image& image, const AffineTransform& transform, Graphics::ResamplingQuality quality) override
- {
- return toEdgeTable()->clipToImageAlpha (image, transform, quality);
- }
-
- void translate (Point<int> delta) override { clip.offsetAll (delta); }
- bool clipRegionIntersects (Rectangle<int> r) const override { return clip.intersects (r); }
- Rectangle<int> getClipBounds() const override { return clip.getBounds(); }
-
- void fillRectWithColour (SavedStateType& state, Rectangle<int> area, PixelARGB colour, bool replaceContents) const override
- {
- SubRectangleIterator iter (clip, area);
- state.fillWithSolidColour (iter, colour, replaceContents);
- }
-
- void fillRectWithColour (SavedStateType& state, Rectangle<float> area, PixelARGB colour) const override
- {
- SubRectangleIteratorFloat iter (clip, area);
- state.fillWithSolidColour (iter, colour, false);
- }
-
- void fillAllWithColour (SavedStateType& state, PixelARGB colour, bool replaceContents) const override
- {
- state.fillWithSolidColour (*this, colour, replaceContents);
- }
-
- void fillAllWithGradient (SavedStateType& state, ColourGradient& gradient, const AffineTransform& transform, bool isIdentity) const override
- {
- state.fillWithGradient (*this, gradient, transform, isIdentity);
- }
-
- void renderImageTransformed (SavedStateType& state, const Image& src, int alpha, const AffineTransform& transform, Graphics::ResamplingQuality quality, bool tiledFill) const override
- {
- state.renderImageTransformed (*this, src, alpha, transform, quality, tiledFill);
- }
-
- void renderImageUntransformed (SavedStateType& state, const Image& src, int alpha, int x, int y, bool tiledFill) const override
- {
- state.renderImageUntransformed (*this, src, alpha, x, y, tiledFill);
- }
-
- RectangleList<int> clip;
-
- //==============================================================================
- template <class Renderer>
- void iterate (Renderer& r) const noexcept
- {
- for (auto& i : clip)
- {
- auto x = i.getX();
- auto w = i.getWidth();
- jassert (w > 0);
- auto bottom = i.getBottom();
-
- for (int y = i.getY(); y < bottom; ++y)
- {
- r.setEdgeTableYPos (y);
- r.handleEdgeTableLineFull (x, w);
- }
- }
- }
-
- private:
- //==============================================================================
- class SubRectangleIterator
- {
- public:
- SubRectangleIterator (const RectangleList<int>& clipList, Rectangle<int> clipBounds)
- : clip (clipList), area (clipBounds)
- {}
-
- template <class Renderer>
- void iterate (Renderer& r) const noexcept
- {
- for (auto& i : clip)
- {
- auto rect = i.getIntersection (area);
-
- if (! rect.isEmpty())
- r.handleEdgeTableRectangleFull (rect.getX(), rect.getY(), rect.getWidth(), rect.getHeight());
- }
- }
-
- private:
- const RectangleList<int>& clip;
- const Rectangle<int> area;
-
- JUCE_DECLARE_NON_COPYABLE (SubRectangleIterator)
- };
-
- //==============================================================================
- class SubRectangleIteratorFloat
- {
- public:
- SubRectangleIteratorFloat (const RectangleList<int>& clipList, Rectangle<float> clipBounds) noexcept
- : clip (clipList), area (clipBounds)
- {
- }
-
- template <class Renderer>
- void iterate (Renderer& r) const noexcept
- {
- const RenderingHelpers::FloatRectangleRasterisingInfo f (area);
-
- for (auto& i : clip)
- {
- auto clipLeft = i.getX();
- auto clipRight = i.getRight();
- auto clipTop = i.getY();
- auto clipBottom = i.getBottom();
-
- if (f.totalBottom > clipTop && f.totalTop < clipBottom
- && f.totalRight > clipLeft && f.totalLeft < clipRight)
- {
- if (f.isOnePixelWide())
- {
- if (f.topAlpha != 0 && f.totalTop >= clipTop)
- {
- r.setEdgeTableYPos (f.totalTop);
- r.handleEdgeTablePixel (f.left, f.topAlpha);
- }
-
- auto y1 = jmax (clipTop, f.top);
- auto y2 = jmin (f.bottom, clipBottom);
- auto h = y2 - y1;
-
- if (h > 0)
- r.handleEdgeTableRectangleFull (f.left, y1, 1, h);
-
- if (f.bottomAlpha != 0 && f.bottom < clipBottom)
- {
- r.setEdgeTableYPos (f.bottom);
- r.handleEdgeTablePixel (f.left, f.bottomAlpha);
- }
- }
- else
- {
- auto clippedLeft = jmax (f.left, clipLeft);
- auto clippedWidth = jmin (f.right, clipRight) - clippedLeft;
- bool doLeftAlpha = f.leftAlpha != 0 && f.totalLeft >= clipLeft;
- bool doRightAlpha = f.rightAlpha != 0 && f.right < clipRight;
-
- if (f.topAlpha != 0 && f.totalTop >= clipTop)
- {
- r.setEdgeTableYPos (f.totalTop);
-
- if (doLeftAlpha) r.handleEdgeTablePixel (f.totalLeft, f.getTopLeftCornerAlpha());
- if (clippedWidth > 0) r.handleEdgeTableLine (clippedLeft, clippedWidth, f.topAlpha);
- if (doRightAlpha) r.handleEdgeTablePixel (f.right, f.getTopRightCornerAlpha());
- }
-
- auto y1 = jmax (clipTop, f.top);
- auto y2 = jmin (f.bottom, clipBottom);
- auto h = y2 - y1;
-
- if (h > 0)
- {
- if (h == 1)
- {
- r.setEdgeTableYPos (y1);
-
- if (doLeftAlpha) r.handleEdgeTablePixel (f.totalLeft, f.leftAlpha);
- if (clippedWidth > 0) r.handleEdgeTableLineFull (clippedLeft, clippedWidth);
- if (doRightAlpha) r.handleEdgeTablePixel (f.right, f.rightAlpha);
- }
- else
- {
- if (doLeftAlpha) r.handleEdgeTableRectangle (f.totalLeft, y1, 1, h, f.leftAlpha);
- if (clippedWidth > 0) r.handleEdgeTableRectangleFull (clippedLeft, y1, clippedWidth, h);
- if (doRightAlpha) r.handleEdgeTableRectangle (f.right, y1, 1, h, f.rightAlpha);
- }
- }
-
- if (f.bottomAlpha != 0 && f.bottom < clipBottom)
- {
- r.setEdgeTableYPos (f.bottom);
-
- if (doLeftAlpha) r.handleEdgeTablePixel (f.totalLeft, f.getBottomLeftCornerAlpha());
- if (clippedWidth > 0) r.handleEdgeTableLine (clippedLeft, clippedWidth, f.bottomAlpha);
- if (doRightAlpha) r.handleEdgeTablePixel (f.right, f.getBottomRightCornerAlpha());
- }
- }
- }
- }
- }
-
- private:
- const RectangleList<int>& clip;
- Rectangle<float> area;
-
- JUCE_DECLARE_NON_COPYABLE (SubRectangleIteratorFloat)
- };
-
- Ptr toEdgeTable() const { return *new EdgeTableRegion (clip); }
-
- RectangleListRegion& operator= (const RectangleListRegion&) = delete;
- };
- };
-
- //==============================================================================
- template <class SavedStateType>
- class SavedStateBase
- {
- public:
- using BaseRegionType = typename ClipRegions<SavedStateType>::Base;
- using EdgeTableRegionType = typename ClipRegions<SavedStateType>::EdgeTableRegion;
- using RectangleListRegionType = typename ClipRegions<SavedStateType>::RectangleListRegion;
-
- SavedStateBase (Rectangle<int> initialClip)
- : clip (new RectangleListRegionType (initialClip)),
- interpolationQuality (Graphics::mediumResamplingQuality), transparencyLayerAlpha (1.0f)
- {
- }
-
- SavedStateBase (const RectangleList<int>& clipList, Point<int> origin)
- : clip (new RectangleListRegionType (clipList)), transform (origin),
- interpolationQuality (Graphics::mediumResamplingQuality), transparencyLayerAlpha (1.0f)
- {
- }
-
- SavedStateBase (const SavedStateBase& other)
- : clip (other.clip), transform (other.transform), fillType (other.fillType),
- interpolationQuality (other.interpolationQuality),
- transparencyLayerAlpha (other.transparencyLayerAlpha)
- {
- }
-
- SavedStateType& getThis() noexcept { return *static_cast<SavedStateType*> (this); }
-
- bool clipToRectangle (Rectangle<int> r)
- {
- if (clip != nullptr)
- {
- if (transform.isOnlyTranslated)
- {
- cloneClipIfMultiplyReferenced();
- clip = clip->clipToRectangle (transform.translated (r));
- }
- else if (! transform.isRotated)
- {
- cloneClipIfMultiplyReferenced();
- clip = clip->clipToRectangle (transform.transformed (r));
- }
- else
- {
- Path p;
- p.addRectangle (r);
- clipToPath (p, {});
- }
- }
-
- return clip != nullptr;
- }
-
- bool clipToRectangleList (const RectangleList<int>& r)
- {
- if (clip != nullptr)
- {
- if (transform.isOnlyTranslated)
- {
- cloneClipIfMultiplyReferenced();
-
- if (transform.isIdentity())
- {
- clip = clip->clipToRectangleList (r);
- }
- else
- {
- RectangleList<int> offsetList (r);
- offsetList.offsetAll (transform.offset);
- clip = clip->clipToRectangleList (offsetList);
- }
- }
- else if (! transform.isRotated)
- {
- cloneClipIfMultiplyReferenced();
- RectangleList<int> scaledList;
-
- for (auto& i : r)
- scaledList.add (transform.transformed (i));
-
- clip = clip->clipToRectangleList (scaledList);
- }
- else
- {
- clipToPath (r.toPath(), {});
- }
- }
-
- return clip != nullptr;
- }
-
- static Rectangle<int> getLargestIntegerWithin (Rectangle<float> r)
- {
- auto x1 = (int) std::ceil (r.getX());
- auto y1 = (int) std::ceil (r.getY());
- auto x2 = (int) std::floor (r.getRight());
- auto y2 = (int) std::floor (r.getBottom());
-
- return { x1, y1, x2 - x1, y2 - y1 };
- }
-
- bool excludeClipRectangle (Rectangle<int> r)
- {
- if (clip != nullptr)
- {
- cloneClipIfMultiplyReferenced();
-
- if (transform.isOnlyTranslated)
- {
- clip = clip->excludeClipRectangle (getLargestIntegerWithin (transform.translated (r.toFloat())));
- }
- else if (! transform.isRotated)
- {
- clip = clip->excludeClipRectangle (getLargestIntegerWithin (transform.transformed (r.toFloat())));
- }
- else
- {
- Path p;
- p.addRectangle (r.toFloat());
- p.applyTransform (transform.complexTransform);
- p.addRectangle (clip->getClipBounds().toFloat());
- p.setUsingNonZeroWinding (false);
- clip = clip->clipToPath (p, {});
- }
- }
-
- return clip != nullptr;
- }
-
- void clipToPath (const Path& p, const AffineTransform& t)
- {
- if (clip != nullptr)
- {
- cloneClipIfMultiplyReferenced();
- clip = clip->clipToPath (p, transform.getTransformWith (t));
- }
- }
-
- void clipToImageAlpha (const Image& sourceImage, const AffineTransform& t)
- {
- if (clip != nullptr)
- {
- if (sourceImage.hasAlphaChannel())
- {
- cloneClipIfMultiplyReferenced();
- clip = clip->clipToImageAlpha (sourceImage, transform.getTransformWith (t), interpolationQuality);
- }
- else
- {
- Path p;
- p.addRectangle (sourceImage.getBounds());
- clipToPath (p, t);
- }
- }
- }
-
- bool clipRegionIntersects (Rectangle<int> r) const
- {
- if (clip != nullptr)
- {
- if (transform.isOnlyTranslated)
- return clip->clipRegionIntersects (transform.translated (r));
-
- return getClipBounds().intersects (r);
- }
-
- return false;
- }
-
- Rectangle<int> getClipBounds() const
- {
- return clip != nullptr ? transform.deviceSpaceToUserSpace (clip->getClipBounds())
- : Rectangle<int>();
- }
-
- void setFillType (const FillType& newFill)
- {
- fillType = newFill;
- }
-
- void fillTargetRect (Rectangle<int> r, bool replaceContents)
- {
- if (fillType.isColour())
- {
- clip->fillRectWithColour (getThis(), r, fillType.colour.getPixelARGB(), replaceContents);
- }
- else
- {
- auto clipped = clip->getClipBounds().getIntersection (r);
-
- if (! clipped.isEmpty())
- fillShape (*new RectangleListRegionType (clipped), false);
- }
- }
-
- void fillTargetRect (Rectangle<float> r)
- {
- if (fillType.isColour())
- {
- clip->fillRectWithColour (getThis(), r, fillType.colour.getPixelARGB());
- }
- else
- {
- auto clipped = clip->getClipBounds().toFloat().getIntersection (r);
-
- if (! clipped.isEmpty())
- fillShape (*new EdgeTableRegionType (clipped), false);
- }
- }
-
- template <typename CoordType>
- void fillRectAsPath (Rectangle<CoordType> r)
- {
- Path p;
- p.addRectangle (r);
- fillPath (p, {});
- }
-
- void fillRect (Rectangle<int> r, bool replaceContents)
- {
- if (clip != nullptr)
- {
- if (transform.isOnlyTranslated)
- {
- fillTargetRect (transform.translated (r), replaceContents);
- }
- else if (! transform.isRotated)
- {
- fillTargetRect (transform.transformed (r), replaceContents);
- }
- else
- {
- jassert (! replaceContents); // not implemented..
- fillRectAsPath (r);
- }
- }
- }
-
- void fillRect (Rectangle<float> r)
- {
- if (clip != nullptr)
- {
- if (transform.isOnlyTranslated)
- fillTargetRect (transform.translated (r));
- else if (! transform.isRotated)
- fillTargetRect (transform.transformed (r));
- else
- fillRectAsPath (r);
- }
- }
-
- void fillRectList (const RectangleList<float>& list)
- {
- if (clip != nullptr)
- {
- if (list.getNumRectangles() == 1)
- return fillRect (*list.begin());
-
- if (transform.isIdentity())
- {
- fillShape (*new EdgeTableRegionType (list), false);
- }
- else if (! transform.isRotated)
- {
- RectangleList<float> transformed (list);
-
- if (transform.isOnlyTranslated)
- transformed.offsetAll (transform.offset.toFloat());
- else
- transformed.transformAll (transform.getTransform());
-
- fillShape (*new EdgeTableRegionType (transformed), false);
- }
- else
- {
- fillPath (list.toPath(), {});
- }
- }
- }
-
- void fillPath (const Path& path, const AffineTransform& t)
- {
- if (clip != nullptr)
- {
- auto trans = transform.getTransformWith (t);
- auto clipRect = clip->getClipBounds();
-
- if (path.getBoundsTransformed (trans).getSmallestIntegerContainer().intersects (clipRect))
- fillShape (*new EdgeTableRegionType (clipRect, path, trans), false);
- }
- }
-
- void fillEdgeTable (const EdgeTable& edgeTable, float x, int y)
- {
- if (clip != nullptr)
- {
- auto* edgeTableClip = new EdgeTableRegionType (edgeTable);
- edgeTableClip->edgeTable.translate (x, y);
-
- if (fillType.isColour())
- {
- auto brightness = fillType.colour.getBrightness() - 0.5f;
-
- if (brightness > 0.0f)
- edgeTableClip->edgeTable.multiplyLevels (1.0f + 1.6f * brightness);
- }
-
- fillShape (*edgeTableClip, false);
- }
- }
-
- void drawLine (Line<float> line)
- {
- Path p;
- p.addLineSegment (line, 1.0f);
- fillPath (p, {});
- }
-
- void drawImage (const Image& sourceImage, const AffineTransform& trans)
- {
- if (clip != nullptr && ! fillType.colour.isTransparent())
- renderImage (sourceImage, trans, {});
- }
-
- static bool isOnlyTranslationAllowingError (const AffineTransform& t, float tolerance) noexcept
- {
- return std::abs (t.mat01) < tolerance
- && std::abs (t.mat10) < tolerance
- && std::abs (t.mat00 - 1.0f) < tolerance
- && std::abs (t.mat11 - 1.0f) < tolerance;
- }
-
- void renderImage (const Image& sourceImage, const AffineTransform& trans, const BaseRegionType* tiledFillClipRegion)
- {
- auto t = transform.getTransformWith (trans);
- auto alpha = fillType.colour.getAlpha();
-
- if (isOnlyTranslationAllowingError (t, 0.002f))
- {
- // If our translation doesn't involve any distortion, just use a simple blit..
- auto tx = (int) (t.getTranslationX() * 256.0f);
- auto ty = (int) (t.getTranslationY() * 256.0f);
-
- if (interpolationQuality == Graphics::lowResamplingQuality || ((tx | ty) & 224) == 0)
- {
- tx = ((tx + 128) >> 8);
- ty = ((ty + 128) >> 8);
-
- if (tiledFillClipRegion != nullptr)
- {
- tiledFillClipRegion->renderImageUntransformed (getThis(), sourceImage, alpha, tx, ty, true);
- }
- else
- {
- Rectangle<int> area (tx, ty, sourceImage.getWidth(), sourceImage.getHeight());
- area = area.getIntersection (getThis().getMaximumBounds());
-
- if (! area.isEmpty())
- if (auto c = clip->applyClipTo (*new EdgeTableRegionType (area)))
- c->renderImageUntransformed (getThis(), sourceImage, alpha, tx, ty, false);
- }
-
- return;
- }
- }
-
- if (! t.isSingularity())
- {
- if (tiledFillClipRegion != nullptr)
- {
- tiledFillClipRegion->renderImageTransformed (getThis(), sourceImage, alpha,
- t, interpolationQuality, true);
- }
- else
- {
- Path p;
- p.addRectangle (sourceImage.getBounds());
-
- if (auto c = clip->clone()->clipToPath (p, t))
- c->renderImageTransformed (getThis(), sourceImage, alpha,
- t, interpolationQuality, false);
- }
- }
- }
-
- void fillShape (typename BaseRegionType::Ptr shapeToFill, bool replaceContents)
- {
- jassert (clip != nullptr);
- shapeToFill = clip->applyClipTo (shapeToFill);
-
- if (shapeToFill != nullptr)
- {
- if (fillType.isGradient())
- {
- jassert (! replaceContents); // that option is just for solid colours
-
- auto g2 = *(fillType.gradient);
- g2.multiplyOpacity (fillType.getOpacity());
- auto t = transform.getTransformWith (fillType.transform).translated (-0.5f, -0.5f);
-
- bool isIdentity = t.isOnlyTranslation();
-
- if (isIdentity)
- {
- // If our translation doesn't involve any distortion, we can speed it up..
- g2.point1.applyTransform (t);
- g2.point2.applyTransform (t);
- t = {};
- }
-
- shapeToFill->fillAllWithGradient (getThis(), g2, t, isIdentity);
- }
- else if (fillType.isTiledImage())
- {
- renderImage (fillType.image, fillType.transform, shapeToFill.get());
- }
- else
- {
- shapeToFill->fillAllWithColour (getThis(), fillType.colour.getPixelARGB(), replaceContents);
- }
- }
- }
-
- void cloneClipIfMultiplyReferenced()
- {
- if (clip->getReferenceCount() > 1)
- clip = clip->clone();
- }
-
- typename BaseRegionType::Ptr clip;
- RenderingHelpers::TranslationOrTransform transform;
- FillType fillType;
- Graphics::ResamplingQuality interpolationQuality;
- float transparencyLayerAlpha;
- };
-
- //==============================================================================
- class SoftwareRendererSavedState : public SavedStateBase<SoftwareRendererSavedState>
- {
- using BaseClass = SavedStateBase<SoftwareRendererSavedState>;
-
- public:
- SoftwareRendererSavedState (const Image& im, Rectangle<int> clipBounds)
- : BaseClass (clipBounds), image (im)
- {
- }
-
- SoftwareRendererSavedState (const Image& im, const RectangleList<int>& clipList, Point<int> origin)
- : BaseClass (clipList, origin), image (im)
- {
- }
-
- SoftwareRendererSavedState (const SoftwareRendererSavedState& other) = default;
-
- SoftwareRendererSavedState* beginTransparencyLayer (float opacity)
- {
- auto* s = new SoftwareRendererSavedState (*this);
-
- if (clip != nullptr)
- {
- auto layerBounds = clip->getClipBounds();
-
- s->image = Image (Image::ARGB, layerBounds.getWidth(), layerBounds.getHeight(), true);
- s->transparencyLayerAlpha = opacity;
- s->transform.moveOriginInDeviceSpace (-layerBounds.getPosition());
- s->cloneClipIfMultiplyReferenced();
- s->clip->translate (-layerBounds.getPosition());
- }
-
- return s;
- }
-
- void endTransparencyLayer (SoftwareRendererSavedState& finishedLayerState)
- {
- if (clip != nullptr)
- {
- auto layerBounds = clip->getClipBounds();
-
- auto g = image.createLowLevelContext();
- g->setOpacity (finishedLayerState.transparencyLayerAlpha);
- g->drawImage (finishedLayerState.image, AffineTransform::translation (layerBounds.getPosition()));
- }
- }
-
- using GlyphCacheType = GlyphCache<CachedGlyphEdgeTable<SoftwareRendererSavedState>, SoftwareRendererSavedState>;
-
- static void clearGlyphCache()
- {
- GlyphCacheType::getInstance().reset();
- }
-
- //==============================================================================
- void drawGlyph (int glyphNumber, const AffineTransform& trans)
- {
- if (clip != nullptr)
- {
- if (trans.isOnlyTranslation() && ! transform.isRotated)
- {
- auto& cache = GlyphCacheType::getInstance();
- Point<float> pos (trans.getTranslationX(), trans.getTranslationY());
-
- if (transform.isOnlyTranslated)
- {
- cache.drawGlyph (*this, font, glyphNumber, pos + transform.offset.toFloat());
- }
- else
- {
- pos = transform.transformed (pos);
-
- Font f (font);
- f.setHeight (font.getHeight() * transform.complexTransform.mat11);
-
- auto xScale = transform.complexTransform.mat00 / transform.complexTransform.mat11;
-
- if (std::abs (xScale - 1.0f) > 0.01f)
- f.setHorizontalScale (xScale);
-
- cache.drawGlyph (*this, f, glyphNumber, pos);
- }
- }
- else
- {
- auto fontHeight = font.getHeight();
-
- auto t = transform.getTransformWith (AffineTransform::scale (fontHeight * font.getHorizontalScale(), fontHeight)
- .followedBy (trans));
-
- std::unique_ptr<EdgeTable> et (font.getTypefacePtr()->getEdgeTableForGlyph (glyphNumber, t, fontHeight));
-
- if (et != nullptr)
- fillShape (*new EdgeTableRegionType (*et), false);
- }
- }
- }
-
- Rectangle<int> getMaximumBounds() const { return image.getBounds(); }
-
- //==============================================================================
- template <typename IteratorType>
- void renderImageTransformed (IteratorType& iter, const Image& src, int alpha, const AffineTransform& trans, Graphics::ResamplingQuality quality, bool tiledFill) const
- {
- Image::BitmapData destData (image, Image::BitmapData::readWrite);
- const Image::BitmapData srcData (src, Image::BitmapData::readOnly);
- EdgeTableFillers::renderImageTransformed (iter, destData, srcData, alpha, trans, quality, tiledFill);
- }
-
- template <typename IteratorType>
- void renderImageUntransformed (IteratorType& iter, const Image& src, int alpha, int x, int y, bool tiledFill) const
- {
- Image::BitmapData destData (image, Image::BitmapData::readWrite);
- const Image::BitmapData srcData (src, Image::BitmapData::readOnly);
- EdgeTableFillers::renderImageUntransformed (iter, destData, srcData, alpha, x, y, tiledFill);
- }
-
- template <typename IteratorType>
- void fillWithSolidColour (IteratorType& iter, PixelARGB colour, bool replaceContents) const
- {
- Image::BitmapData destData (image, Image::BitmapData::readWrite);
-
- switch (destData.pixelFormat)
- {
- case Image::ARGB: EdgeTableFillers::renderSolidFill (iter, destData, colour, replaceContents, (PixelARGB*) nullptr); break;
- case Image::RGB: EdgeTableFillers::renderSolidFill (iter, destData, colour, replaceContents, (PixelRGB*) nullptr); break;
- case Image::SingleChannel:
- case Image::UnknownFormat:
- default: EdgeTableFillers::renderSolidFill (iter, destData, colour, replaceContents, (PixelAlpha*) nullptr); break;
- }
- }
-
- template <typename IteratorType>
- void fillWithGradient (IteratorType& iter, ColourGradient& gradient, const AffineTransform& trans, bool isIdentity) const
- {
- HeapBlock<PixelARGB> lookupTable;
- auto numLookupEntries = gradient.createLookupTable (trans, lookupTable);
- jassert (numLookupEntries > 0);
-
- Image::BitmapData destData (image, Image::BitmapData::readWrite);
-
- switch (destData.pixelFormat)
- {
- case Image::ARGB: EdgeTableFillers::renderGradient (iter, destData, gradient, trans, lookupTable, numLookupEntries, isIdentity, (PixelARGB*) nullptr); break;
- case Image::RGB: EdgeTableFillers::renderGradient (iter, destData, gradient, trans, lookupTable, numLookupEntries, isIdentity, (PixelRGB*) nullptr); break;
- case Image::SingleChannel:
- case Image::UnknownFormat:
- default: EdgeTableFillers::renderGradient (iter, destData, gradient, trans, lookupTable, numLookupEntries, isIdentity, (PixelAlpha*) nullptr); break;
- }
- }
-
- //==============================================================================
- Image image;
- Font font;
-
- private:
- SoftwareRendererSavedState& operator= (const SoftwareRendererSavedState&) = delete;
- };
-
- //==============================================================================
- template <class StateObjectType>
- class SavedStateStack
- {
- public:
- SavedStateStack (StateObjectType* initialState) noexcept
- : currentState (initialState)
- {}
-
- SavedStateStack() = default;
-
- void initialise (StateObjectType* state)
- {
- currentState.reset (state);
- }
-
- inline StateObjectType* operator->() const noexcept { return currentState.get(); }
- inline StateObjectType& operator*() const noexcept { return *currentState; }
-
- void save()
- {
- stack.add (new StateObjectType (*currentState));
- }
-
- void restore()
- {
- if (auto* top = stack.getLast())
- {
- currentState.reset (top);
- stack.removeLast (1, false);
- }
- else
- {
- jassertfalse; // trying to pop with an empty stack!
- }
- }
-
- void beginTransparencyLayer (float opacity)
- {
- save();
- currentState.reset (currentState->beginTransparencyLayer (opacity));
- }
-
- void endTransparencyLayer()
- {
- std::unique_ptr<StateObjectType> finishedTransparencyLayer (currentState.release());
- restore();
- currentState->endTransparencyLayer (*finishedTransparencyLayer);
- }
-
- private:
- std::unique_ptr<StateObjectType> currentState;
- OwnedArray<StateObjectType> stack;
-
- JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (SavedStateStack)
- };
-
- //==============================================================================
- template <class SavedStateType>
- class StackBasedLowLevelGraphicsContext : public LowLevelGraphicsContext
- {
- public:
- bool isVectorDevice() const override { return false; }
- void setOrigin (Point<int> o) override { stack->transform.setOrigin (o); }
- void addTransform (const AffineTransform& t) override { stack->transform.addTransform (t); }
- float getPhysicalPixelScaleFactor() override { return stack->transform.getPhysicalPixelScaleFactor(); }
- Rectangle<int> getClipBounds() const override { return stack->getClipBounds(); }
- bool isClipEmpty() const override { return stack->clip == nullptr; }
- bool clipRegionIntersects (const Rectangle<int>& r) override { return stack->clipRegionIntersects (r); }
- bool clipToRectangle (const Rectangle<int>& r) override { return stack->clipToRectangle (r); }
- bool clipToRectangleList (const RectangleList<int>& r) override { return stack->clipToRectangleList (r); }
- void excludeClipRectangle (const Rectangle<int>& r) override { stack->excludeClipRectangle (r); }
- void clipToPath (const Path& path, const AffineTransform& t) override { stack->clipToPath (path, t); }
- void clipToImageAlpha (const Image& im, const AffineTransform& t) override { stack->clipToImageAlpha (im, t); }
- void saveState() override { stack.save(); }
- void restoreState() override { stack.restore(); }
- void beginTransparencyLayer (float opacity) override { stack.beginTransparencyLayer (opacity); }
- void endTransparencyLayer() override { stack.endTransparencyLayer(); }
- void setFill (const FillType& fillType) override { stack->setFillType (fillType); }
- void setOpacity (float newOpacity) override { stack->fillType.setOpacity (newOpacity); }
- void setInterpolationQuality (Graphics::ResamplingQuality quality) override { stack->interpolationQuality = quality; }
- void fillRect (const Rectangle<int>& r, bool replace) override { stack->fillRect (r, replace); }
- void fillRect (const Rectangle<float>& r) override { stack->fillRect (r); }
- void fillRectList (const RectangleList<float>& list) override { stack->fillRectList (list); }
- void fillPath (const Path& path, const AffineTransform& t) override { stack->fillPath (path, t); }
- void drawImage (const Image& im, const AffineTransform& t) override { stack->drawImage (im, t); }
- void drawGlyph (int glyphNumber, const AffineTransform& t) override { stack->drawGlyph (glyphNumber, t); }
- void drawLine (const Line<float>& line) override { stack->drawLine (line); }
- void setFont (const Font& newFont) override { stack->font = newFont; }
- const Font& getFont() override { return stack->font; }
-
- protected:
- StackBasedLowLevelGraphicsContext (SavedStateType* initialState) : stack (initialState) {}
- StackBasedLowLevelGraphicsContext() = default;
-
- RenderingHelpers::SavedStateStack<SavedStateType> stack;
- };
-
- }
-
- JUCE_END_IGNORE_WARNINGS_MSVC
-
- } // namespace juce
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