ppapi/cpp/rect.cc - platform/external/chromium_org - Git at Google

 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "ppapi/cpp/rect.h"

 #include <algorithm>

 namespace {

 template<typename T>
 void AdjustAlongAxis(T dst_origin, T dst_size,
                      T* origin, T* size) {
   if (*origin < dst_origin) {
     *origin = dst_origin;
     *size = std::min(dst_size, *size);
   } else {
     *size = std::min(dst_size, *size);
     *origin = std::min(dst_origin + dst_size, *origin + *size) - *size;
   }
 }

 }  // namespace

 namespace pp {

 void Rect::Inset(int32_t left, int32_t top, int32_t right, int32_t bottom) {
   Offset(left, top);
   set_width(std::max<int32_t>(width() - left - right, 0));
   set_height(std::max<int32_t>(height() - top - bottom, 0));
 }

 void Rect::Offset(int32_t horizontal, int32_t vertical) {
   rect_.point.x += horizontal;
   rect_.point.y += vertical;
 }

 bool Rect::Contains(int32_t point_x, int32_t point_y) const {
   return (point_x >= x()) && (point_x < right()) &&
          (point_y >= y()) && (point_y < bottom());
 }

 bool Rect::Contains(const Rect& rect) const {
   return (rect.x() >= x() && rect.right() <= right() &&
           rect.y() >= y() && rect.bottom() <= bottom());
 }

 bool Rect::Intersects(const Rect& rect) const {
   return !(rect.x() >= right() || rect.right() <= x() ||
            rect.y() >= bottom() || rect.bottom() <= y());
 }

 Rect Rect::Intersect(const Rect& rect) const {
   int32_t rx = std::max(x(), rect.x());
   int32_t ry = std::max(y(), rect.y());
   int32_t rr = std::min(right(), rect.right());
   int32_t rb = std::min(bottom(), rect.bottom());

   if (rx >= rr || ry >= rb)
     rx = ry = rr = rb = 0;  // non-intersecting

   return Rect(rx, ry, rr - rx, rb - ry);
 }

 Rect Rect::Union(const Rect& rect) const {
   // special case empty rects...
   if (IsEmpty())
     return rect;
   if (rect.IsEmpty())
     return *this;

   int32_t rx = std::min(x(), rect.x());
   int32_t ry = std::min(y(), rect.y());
   int32_t rr = std::max(right(), rect.right());
   int32_t rb = std::max(bottom(), rect.bottom());

   return Rect(rx, ry, rr - rx, rb - ry);
 }

 Rect Rect::Subtract(const Rect& rect) const {
   // boundary cases:
   if (!Intersects(rect))
     return *this;
   if (rect.Contains(*this))
     return Rect();

   int32_t rx = x();
   int32_t ry = y();
   int32_t rr = right();
   int32_t rb = bottom();

   if (rect.y() <= y() && rect.bottom() >= bottom()) {
     // complete intersection in the y-direction
     if (rect.x() <= x()) {
       rx = rect.right();
     } else {
       rr = rect.x();
     }
   } else if (rect.x() <= x() && rect.right() >= right()) {
     // complete intersection in the x-direction
     if (rect.y() <= y()) {
       ry = rect.bottom();
     } else {
       rb = rect.y();
     }
   }
   return Rect(rx, ry, rr - rx, rb - ry);
 }

 Rect Rect::AdjustToFit(const Rect& rect) const {
   int32_t new_x = x();
   int32_t new_y = y();
   int32_t new_width = width();
   int32_t new_height = height();
   AdjustAlongAxis(rect.x(), rect.width(), &new_x, &new_width);
   AdjustAlongAxis(rect.y(), rect.height(), &new_y, &new_height);
   return Rect(new_x, new_y, new_width, new_height);
 }

 Point Rect::CenterPoint() const {
   return Point(x() + (width() + 1) / 2, y() + (height() + 1) / 2);
 }

 bool Rect::SharesEdgeWith(const Rect& rect) const {
   return (y() == rect.y() && height() == rect.height() &&
              (x() == rect.right() || right() == rect.x())) ||
          (x() == rect.x() && width() == rect.width() &&
              (y() == rect.bottom() || bottom() == rect.y()));
 }

 void FloatRect::Inset(float left, float top, float right, float bottom) {
   Offset(left, top);
   set_width(std::max<float>(width() - left - right, 0.0f));
   set_height(std::max<float>(height() - top - bottom, 0.0f));
 }

 void FloatRect::Offset(float horizontal, float vertical) {
   rect_.point.x += horizontal;
   rect_.point.y += vertical;
 }

 bool FloatRect::Contains(float point_x, float point_y) const {
   return (point_x >= x()) && (point_x < right()) &&
          (point_y >= y()) && (point_y < bottom());
 }

 bool FloatRect::Contains(const FloatRect& rect) const {
   return (rect.x() >= x() && rect.right() <= right() &&
           rect.y() >= y() && rect.bottom() <= bottom());
 }

 bool FloatRect::Intersects(const FloatRect& rect) const {
   return !(rect.x() >= right() || rect.right() <= x() ||
            rect.y() >= bottom() || rect.bottom() <= y());
 }

 FloatRect FloatRect::Intersect(const FloatRect& rect) const {
   float rx = std::max(x(), rect.x());
   float ry = std::max(y(), rect.y());
   float rr = std::min(right(), rect.right());
   float rb = std::min(bottom(), rect.bottom());

   if (rx >= rr || ry >= rb)
     rx = ry = rr = rb = 0;  // non-intersecting

   return FloatRect(rx, ry, rr - rx, rb - ry);
 }

 FloatRect FloatRect::Union(const FloatRect& rect) const {
   // special case empty rects...
   if (IsEmpty())
     return rect;
   if (rect.IsEmpty())
     return *this;

   float rx = std::min(x(), rect.x());
   float ry = std::min(y(), rect.y());
   float rr = std::max(right(), rect.right());
   float rb = std::max(bottom(), rect.bottom());

   return FloatRect(rx, ry, rr - rx, rb - ry);
 }

 FloatRect FloatRect::Subtract(const FloatRect& rect) const {
   // boundary cases:
   if (!Intersects(rect))
     return *this;
   if (rect.Contains(*this))
     return FloatRect();

   float rx = x();
   float ry = y();
   float rr = right();
   float rb = bottom();

   if (rect.y() <= y() && rect.bottom() >= bottom()) {
     // complete intersection in the y-direction
     if (rect.x() <= x()) {
       rx = rect.right();
     } else {
       rr = rect.x();
     }
   } else if (rect.x() <= x() && rect.right() >= right()) {
     // complete intersection in the x-direction
     if (rect.y() <= y()) {
       ry = rect.bottom();
     } else {
       rb = rect.y();
     }
   }
   return FloatRect(rx, ry, rr - rx, rb - ry);
 }

 FloatRect FloatRect::AdjustToFit(const FloatRect& rect) const {
   float new_x = x();
   float new_y = y();
   float new_width = width();
   float new_height = height();
   AdjustAlongAxis(rect.x(), rect.width(), &new_x, &new_width);
   AdjustAlongAxis(rect.y(), rect.height(), &new_y, &new_height);
   return FloatRect(new_x, new_y, new_width, new_height);
 }

 FloatPoint FloatRect::CenterPoint() const {
   return FloatPoint(x() + (width() + 1.0f) / 2.0f,
                     y() + (height() + 1.0f) / 2.0f);
 }

 bool FloatRect::SharesEdgeWith(const FloatRect& rect) const {
   return (y() == rect.y() && height() == rect.height() &&
              (x() == rect.right() || right() == rect.x())) ||
          (x() == rect.x() && width() == rect.width() &&
              (y() == rect.bottom() || bottom() == rect.y()));
 }
 }  // namespace pp
	// Copyright (c) 2012 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "ppapi/cpp/rect.h"

	#include <algorithm>

	namespace {

	template<typename T>
	void AdjustAlongAxis(T dst_origin, T dst_size,
	T* origin, T* size) {
	if (*origin < dst_origin) {
	*origin = dst_origin;
	size = std::min(dst_size, size);
	} else {
	size = std::min(dst_size, size);
	origin = std::min(dst_origin + dst_size, origin + size) - size;
	}
	}

	} // namespace

	namespace pp {

	void Rect::Inset(int32_t left, int32_t top, int32_t right, int32_t bottom) {
	Offset(left, top);
	set_width(std::max<int32_t>(width() - left - right, 0));
	set_height(std::max<int32_t>(height() - top - bottom, 0));
	}

	void Rect::Offset(int32_t horizontal, int32_t vertical) {
	rect_.point.x += horizontal;
	rect_.point.y += vertical;
	}

	bool Rect::Contains(int32_t point_x, int32_t point_y) const {
	return (point_x >= x()) && (point_x < right()) &&
	(point_y >= y()) && (point_y < bottom());
	}

	bool Rect::Contains(const Rect& rect) const {
	return (rect.x() >= x() && rect.right() <= right() &&
	rect.y() >= y() && rect.bottom() <= bottom());
	}

	bool Rect::Intersects(const Rect& rect) const {
	return !(rect.x() >= right() \|\| rect.right() <= x() \|\|
	rect.y() >= bottom() \|\| rect.bottom() <= y());
	}

	Rect Rect::Intersect(const Rect& rect) const {
	int32_t rx = std::max(x(), rect.x());
	int32_t ry = std::max(y(), rect.y());
	int32_t rr = std::min(right(), rect.right());
	int32_t rb = std::min(bottom(), rect.bottom());

	if (rx >= rr \|\| ry >= rb)
	rx = ry = rr = rb = 0; // non-intersecting

	return Rect(rx, ry, rr - rx, rb - ry);
	}

	Rect Rect::Union(const Rect& rect) const {
	// special case empty rects...
	if (IsEmpty())
	return rect;
	if (rect.IsEmpty())
	return *this;

	int32_t rx = std::min(x(), rect.x());
	int32_t ry = std::min(y(), rect.y());
	int32_t rr = std::max(right(), rect.right());
	int32_t rb = std::max(bottom(), rect.bottom());

	return Rect(rx, ry, rr - rx, rb - ry);
	}

	Rect Rect::Subtract(const Rect& rect) const {
	// boundary cases:
	if (!Intersects(rect))
	return *this;
	if (rect.Contains(*this))
	return Rect();

	int32_t rx = x();
	int32_t ry = y();
	int32_t rr = right();
	int32_t rb = bottom();

	if (rect.y() <= y() && rect.bottom() >= bottom()) {
	// complete intersection in the y-direction
	if (rect.x() <= x()) {
	rx = rect.right();
	} else {
	rr = rect.x();
	}
	} else if (rect.x() <= x() && rect.right() >= right()) {
	// complete intersection in the x-direction
	if (rect.y() <= y()) {
	ry = rect.bottom();
	} else {
	rb = rect.y();
	}
	}
	return Rect(rx, ry, rr - rx, rb - ry);
	}

	Rect Rect::AdjustToFit(const Rect& rect) const {
	int32_t new_x = x();
	int32_t new_y = y();
	int32_t new_width = width();
	int32_t new_height = height();
	AdjustAlongAxis(rect.x(), rect.width(), &new_x, &new_width);
	AdjustAlongAxis(rect.y(), rect.height(), &new_y, &new_height);
	return Rect(new_x, new_y, new_width, new_height);
	}

	Point Rect::CenterPoint() const {
	return Point(x() + (width() + 1) / 2, y() + (height() + 1) / 2);
	}

	bool Rect::SharesEdgeWith(const Rect& rect) const {
	return (y() == rect.y() && height() == rect.height() &&
	(x() == rect.right() \|\| right() == rect.x())) \|\|
	(x() == rect.x() && width() == rect.width() &&
	(y() == rect.bottom() \|\| bottom() == rect.y()));
	}

	void FloatRect::Inset(float left, float top, float right, float bottom) {
	Offset(left, top);
	set_width(std::max<float>(width() - left - right, 0.0f));
	set_height(std::max<float>(height() - top - bottom, 0.0f));
	}

	void FloatRect::Offset(float horizontal, float vertical) {
	rect_.point.x += horizontal;
	rect_.point.y += vertical;
	}

	bool FloatRect::Contains(float point_x, float point_y) const {
	return (point_x >= x()) && (point_x < right()) &&
	(point_y >= y()) && (point_y < bottom());
	}

	bool FloatRect::Contains(const FloatRect& rect) const {
	return (rect.x() >= x() && rect.right() <= right() &&
	rect.y() >= y() && rect.bottom() <= bottom());
	}

	bool FloatRect::Intersects(const FloatRect& rect) const {
	return !(rect.x() >= right() \|\| rect.right() <= x() \|\|
	rect.y() >= bottom() \|\| rect.bottom() <= y());
	}

	FloatRect FloatRect::Intersect(const FloatRect& rect) const {
	float rx = std::max(x(), rect.x());
	float ry = std::max(y(), rect.y());
	float rr = std::min(right(), rect.right());
	float rb = std::min(bottom(), rect.bottom());

	if (rx >= rr \|\| ry >= rb)
	rx = ry = rr = rb = 0; // non-intersecting

	return FloatRect(rx, ry, rr - rx, rb - ry);
	}

	FloatRect FloatRect::Union(const FloatRect& rect) const {
	// special case empty rects...
	if (IsEmpty())
	return rect;
	if (rect.IsEmpty())
	return *this;

	float rx = std::min(x(), rect.x());
	float ry = std::min(y(), rect.y());
	float rr = std::max(right(), rect.right());
	float rb = std::max(bottom(), rect.bottom());

	return FloatRect(rx, ry, rr - rx, rb - ry);
	}

	FloatRect FloatRect::Subtract(const FloatRect& rect) const {
	// boundary cases:
	if (!Intersects(rect))
	return *this;
	if (rect.Contains(*this))
	return FloatRect();

	float rx = x();
	float ry = y();
	float rr = right();
	float rb = bottom();

	if (rect.y() <= y() && rect.bottom() >= bottom()) {
	// complete intersection in the y-direction
	if (rect.x() <= x()) {
	rx = rect.right();
	} else {
	rr = rect.x();
	}
	} else if (rect.x() <= x() && rect.right() >= right()) {
	// complete intersection in the x-direction
	if (rect.y() <= y()) {
	ry = rect.bottom();
	} else {
	rb = rect.y();
	}
	}
	return FloatRect(rx, ry, rr - rx, rb - ry);
	}

	FloatRect FloatRect::AdjustToFit(const FloatRect& rect) const {
	float new_x = x();
	float new_y = y();
	float new_width = width();
	float new_height = height();
	AdjustAlongAxis(rect.x(), rect.width(), &new_x, &new_width);
	AdjustAlongAxis(rect.y(), rect.height(), &new_y, &new_height);
	return FloatRect(new_x, new_y, new_width, new_height);
	}

	FloatPoint FloatRect::CenterPoint() const {
	return FloatPoint(x() + (width() + 1.0f) / 2.0f,
	y() + (height() + 1.0f) / 2.0f);
	}

	bool FloatRect::SharesEdgeWith(const FloatRect& rect) const {
	return (y() == rect.y() && height() == rect.height() &&
	(x() == rect.right() \|\| right() == rect.x())) \|\|
	(x() == rect.x() && width() == rect.width() &&
	(y() == rect.bottom() \|\| bottom() == rect.y()));
	}
	} // namespace pp