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/*
* Copyright (c) 2012, Google Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
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*
* * Redistributions of source code must retain the above copyright
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* copyright notice, this list of conditions and the following disclaimer
* in the documentation and/or other materials provided with the
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*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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*/
#pragma once
#include "FloatRect.h"
#include "IntRect.h"
#include "LayoutPoint.h"
#include "LengthBox.h"
#include <wtf/Forward.h>
namespace WTF {
class TextStream;
}
namespace WebCore {
class LayoutRect {
public:
LayoutRect() { }
LayoutRect(const LayoutPoint& location, const LayoutSize& size)
: m_location(location), m_size(size) { }
template<typename T1, typename T2, typename U1, typename U2>
LayoutRect(T1 x, T2 y, U1 width, U2 height)
: m_location(LayoutPoint(x, y)), m_size(LayoutSize(width, height)) { }
LayoutRect(const LayoutPoint& topLeft, const LayoutPoint& bottomRight)
: m_location(topLeft), m_size(LayoutSize(bottomRight.x() - topLeft.x(), bottomRight.y() - topLeft.y())) { }
LayoutRect(const FloatPoint& location, const FloatSize& size)
: m_location(location), m_size(size) { }
LayoutRect(const IntRect& rect) : m_location(rect.location()), m_size(rect.size()) { }
WEBCORE_EXPORT explicit LayoutRect(const FloatRect&); // don't do this implicitly since it's lossy
LayoutPoint location() const { return m_location; }
LayoutSize size() const { return m_size; }
void setLocation(const LayoutPoint& location) { m_location = location; }
void setSize(const LayoutSize& size) { m_size = size; }
LayoutUnit x() const { return m_location.x(); }
LayoutUnit y() const { return m_location.y(); }
LayoutUnit maxX() const { return x() + width(); }
LayoutUnit maxY() const { return y() + height(); }
LayoutUnit width() const { return m_size.width(); }
LayoutUnit height() const { return m_size.height(); }
template<typename T> void setX(T x) { m_location.setX(x); }
template<typename T> void setY(T y) { m_location.setY(y); }
template<typename T> void setWidth(T width) { m_size.setWidth(width); }
template<typename T> void setHeight(T height) { m_size.setHeight(height); }
bool isEmpty() const { return m_size.isEmpty(); }
// NOTE: The result is rounded to integer values, and thus may be not the exact
// center point.
LayoutPoint center() const { return LayoutPoint(x() + width() / 2, y() + height() / 2); }
void move(const LayoutSize& size) { m_location += size; }
void moveBy(const LayoutPoint& offset) { m_location.move(offset.x(), offset.y()); }
template<typename T, typename U> void move(T dx, U dy) { m_location.move(dx, dy); }
void expand(const LayoutSize& size) { m_size += size; }
void expand(const LayoutBoxExtent& box)
{
m_location.move(-box.left(), -box.top());
m_size.expand(box.left() + box.right(), box.top() + box.bottom());
}
template<typename T, typename U> void expand(T dw, U dh) { m_size.expand(dw, dh); }
void contract(const LayoutSize& size) { m_size -= size; }
void contract(const LayoutBoxExtent& box)
{
m_location.move(box.left(), box.top());
m_size.shrink(box.left() + box.right(), box.top() + box.bottom());
}
template<typename T, typename U> void contract(T dw, U dh) { m_size.expand(-dw, -dh); }
void shiftXEdgeTo(LayoutUnit edge)
{
LayoutUnit delta = edge - x();
setX(edge);
setWidth(std::max<LayoutUnit>(0, width() - delta));
}
void shiftMaxXEdgeTo(LayoutUnit edge)
{
LayoutUnit delta = edge - maxX();
setWidth(std::max<LayoutUnit>(0, width() + delta));
}
void shiftYEdgeTo(LayoutUnit edge)
{
LayoutUnit delta = edge - y();
setY(edge);
setHeight(std::max<LayoutUnit>(0, height() - delta));
}
void shiftMaxYEdgeTo(LayoutUnit edge)
{
LayoutUnit delta = edge - maxY();
setHeight(std::max<LayoutUnit>(0, height() + delta));
}
template<typename T> void shiftXEdgeTo(T edge) { shiftXEdgeTo(LayoutUnit(edge)); }
template<typename T> void shiftMaxXEdgeTo(T edge) { shiftMaxXEdgeTo(LayoutUnit(edge)); }
template<typename T> void shiftYEdgeTo(T edge) { shiftYEdgeTo(LayoutUnit(edge)); }
template<typename T> void shiftMaxYEdgeTo(T edge) { shiftMaxYEdgeTo(LayoutUnit(edge)); }
LayoutPoint minXMinYCorner() const { return m_location; } // typically topLeft
LayoutPoint maxXMinYCorner() const { return LayoutPoint(m_location.x() + m_size.width(), m_location.y()); } // typically topRight
LayoutPoint minXMaxYCorner() const { return LayoutPoint(m_location.x(), m_location.y() + m_size.height()); } // typically bottomLeft
LayoutPoint maxXMaxYCorner() const { return LayoutPoint(m_location.x() + m_size.width(), m_location.y() + m_size.height()); } // typically bottomRight
bool isMaxXMaxYRepresentable() const
{
FloatRect rect = *this;
float maxX = rect.maxX();
float maxY = rect.maxY();
return maxX > LayoutUnit::nearlyMin() && maxX < LayoutUnit::nearlyMax() && maxY > LayoutUnit::nearlyMin() && maxY < LayoutUnit::nearlyMax();
}
bool intersects(const LayoutRect&) const;
WEBCORE_EXPORT bool contains(const LayoutRect&) const;
// This checks to see if the rect contains x,y in the traditional sense.
// Equivalent to checking if the rect contains a 1x1 rect below and to the right of (px,py).
bool contains(LayoutUnit px, LayoutUnit py) const
{ return px >= x() && px < maxX() && py >= y() && py < maxY(); }
bool contains(const LayoutPoint& point) const { return contains(point.x(), point.y()); }
void intersect(const LayoutRect&);
bool edgeInclusiveIntersect(const LayoutRect&);
WEBCORE_EXPORT void unite(const LayoutRect&);
void uniteIfNonZero(const LayoutRect&);
bool checkedUnite(const LayoutRect&);
void inflateX(LayoutUnit dx)
{
m_location.setX(m_location.x() - dx);
m_size.setWidth(m_size.width() + dx + dx);
}
void inflateY(LayoutUnit dy)
{
m_location.setY(m_location.y() - dy);
m_size.setHeight(m_size.height() + dy + dy);
}
void inflate(LayoutSize size) { inflateX(size.width()); inflateY(size.height()); }
template<typename T> void inflateX(T dx) { inflateX(LayoutUnit(dx)); }
template<typename T> void inflateY(T dy) { inflateY(LayoutUnit(dy)); }
template<typename T> void inflate(T d) { inflateX(d); inflateY(d); }
WEBCORE_EXPORT void scale(float);
void scale(float xScale, float yScale);
LayoutRect transposedRect() const { return LayoutRect(m_location.transposedPoint(), m_size.transposedSize()); }
bool isInfinite() const;
static LayoutRect infiniteRect()
{
// Return a rect that is slightly smaller than the true max rect to allow pixelSnapping to round up to the nearest IntRect without overflowing.
return LayoutRect(LayoutUnit::nearlyMin() / 2, LayoutUnit::nearlyMin() / 2, LayoutUnit::nearlyMax(), LayoutUnit::nearlyMax());
}
operator FloatRect() const { return FloatRect(m_location, m_size); }
private:
LayoutPoint m_location;
LayoutSize m_size;
};
inline LayoutRect intersection(const LayoutRect& a, const LayoutRect& b)
{
LayoutRect c = a;
c.intersect(b);
return c;
}
inline LayoutRect unionRect(const LayoutRect& a, const LayoutRect& b)
{
LayoutRect c = a;
c.unite(b);
return c;
}
LayoutRect unionRect(const Vector<LayoutRect>&);
inline bool operator==(const LayoutRect& a, const LayoutRect& b)
{
return a.location() == b.location() && a.size() == b.size();
}
inline bool operator!=(const LayoutRect& a, const LayoutRect& b)
{
return a.location() != b.location() || a.size() != b.size();
}
inline bool LayoutRect::isInfinite() const
{
return *this == LayoutRect::infiniteRect();
}
// Integral snapping functions.
inline IntRect snappedIntRect(const LayoutRect& rect)
{
return IntRect(roundedIntPoint(rect.location()), snappedIntSize(rect.size(), rect.location()));
}
inline IntRect snappedIntRect(LayoutUnit left, LayoutUnit top, LayoutUnit width, LayoutUnit height)
{
return IntRect(IntPoint(left.round(), top.round()), snappedIntSize(LayoutSize(width, height), LayoutPoint(left, top)));
}
inline IntRect snappedIntRect(LayoutPoint location, LayoutSize size)
{
return IntRect(roundedIntPoint(location), snappedIntSize(size, location));
}
WEBCORE_EXPORT IntRect enclosingIntRect(const LayoutRect&);
WEBCORE_EXPORT LayoutRect enclosingLayoutRect(const FloatRect&);
// Device pixel snapping functions.
inline FloatRect snapRectToDevicePixels(const LayoutRect& rect, float pixelSnappingFactor)
{
return FloatRect(FloatPoint(roundToDevicePixel(rect.x(), pixelSnappingFactor), roundToDevicePixel(rect.y(), pixelSnappingFactor)), snapSizeToDevicePixel(rect.size(), rect.location(), pixelSnappingFactor));
}
inline FloatRect snapRectToDevicePixels(LayoutUnit x, LayoutUnit y, LayoutUnit width, LayoutUnit height, float pixelSnappingFactor)
{
return snapRectToDevicePixels(LayoutRect(x, y, width, height), pixelSnappingFactor);
}
// FIXME: This needs to take vertical centering into account too.
inline FloatRect snapRectToDevicePixelsWithWritingDirection(const LayoutRect& rect, float deviceScaleFactor, bool ltr)
{
if (!ltr) {
FloatPoint snappedTopRight = roundPointToDevicePixels(rect.maxXMinYCorner(), deviceScaleFactor, ltr);
FloatSize snappedSize = snapSizeToDevicePixel(rect.size(), rect.maxXMinYCorner(), deviceScaleFactor);
return FloatRect(snappedTopRight.x() - snappedSize.width(), snappedTopRight.y(), snappedSize.width(), snappedSize.height());
}
return snapRectToDevicePixels(rect, deviceScaleFactor);
}
FloatRect encloseRectToDevicePixels(const LayoutRect&, float pixelSnappingFactor);
WEBCORE_EXPORT WTF::TextStream& operator<<(WTF::TextStream&, const LayoutRect&);
} // namespace WebCore