ui/gfx/image/image_family.cc - chromium/src - Git at Google

 // Copyright 2013 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 "ui/gfx/image/image_family.h"

 #include <cmath>

 #include "skia/ext/image_operations.h"
 #include "ui/gfx/geometry/size.h"
 #include "ui/gfx/image/image.h"
 #include "ui/gfx/image/image_skia.h"

 namespace gfx {

 ImageFamily::const_iterator::const_iterator() {}

 ImageFamily::const_iterator::const_iterator(const const_iterator& other)
     : map_iterator_(other.map_iterator_) {}

 ImageFamily::const_iterator::const_iterator(
     const std::map<MapKey, gfx::Image>::const_iterator& other)
     : map_iterator_(other) {}

 ImageFamily::const_iterator::~const_iterator() {}

 ImageFamily::ImageFamily() {}
 ImageFamily::~ImageFamily() {}

 void ImageFamily::Add(const gfx::Image& image) {
   gfx::Size size = image.Size();
   if (size.IsEmpty()) {
     map_[MapKey(1.0f, 0)] = image;
   } else {
     float aspect = static_cast<float>(size.width()) / size.height();
     DCHECK_GT(aspect, 0.0f);
     map_[MapKey(aspect, size.width())] = image;
   }
 }

 void ImageFamily::Add(const gfx::ImageSkia& image_skia) {
   Add(gfx::Image(image_skia));
 }

 const gfx::Image* ImageFamily::GetBest(int width, int height) const {
   if (map_.empty())
     return NULL;

   // If either |width| or |height| is 0, both are.
   float desired_aspect;
   if (height == 0 || width == 0) {
     desired_aspect = 1.0f;
     height = 0;
     width = 0;
   } else {
     desired_aspect = static_cast<float>(width) / height;
   }
   DCHECK_GT(desired_aspect, 0.0f);

   float closest_aspect = GetClosestAspect(desired_aspect);

   // If thinner than desired, search for images with width such that the
   // corresponding height is greater than or equal to the desired |height|.
   int desired_width = closest_aspect <= desired_aspect ?
       width : static_cast<int>(ceilf(height * closest_aspect));

   // Get the best-sized image with the aspect ratio.
   return GetWithExactAspect(closest_aspect, desired_width);
 }

 float ImageFamily::GetClosestAspect(float desired_aspect) const {
   // Find the two aspect ratios on either side of |desired_aspect|.
   std::map<MapKey, gfx::Image>::const_iterator greater_or_equal =
       map_.lower_bound(MapKey(desired_aspect, 0));
   // Early exit optimization if there is an exact match.
   if (greater_or_equal != map_.end() &&
       greater_or_equal->first.aspect() == desired_aspect) {
     return desired_aspect;
   }

   // No exact match; |greater_or_equal| will point to the first image with
   // aspect ratio >= |desired_aspect|, and |less_than| will point to the last
   // image with aspect ratio < |desired_aspect|.
   if (greater_or_equal != map_.begin()) {
     std::map<MapKey, gfx::Image>::const_iterator less_than =
         greater_or_equal;
     --less_than;
     float thinner_aspect = less_than->first.aspect();
     DCHECK_GT(thinner_aspect, 0.0f);
     DCHECK_LT(thinner_aspect, desired_aspect);
     if (greater_or_equal != map_.end()) {
       float wider_aspect = greater_or_equal->first.aspect();
       DCHECK_GT(wider_aspect, desired_aspect);
       if ((wider_aspect / desired_aspect) < (desired_aspect / thinner_aspect))
         return wider_aspect;
     }
     return thinner_aspect;
   } else {
     // No aspect ratio is less than or equal to |desired_aspect|.
     DCHECK(greater_or_equal != map_.end());
     float wider_aspect = greater_or_equal->first.aspect();
     DCHECK_GT(wider_aspect, desired_aspect);
     return wider_aspect;
   }
 }

 const gfx::Image* ImageFamily::GetBest(const gfx::Size& size) const {
   return GetBest(size.width(), size.height());
 }

 gfx::Image ImageFamily::CreateExact(int width, int height) const {
   // Resize crashes if width or height is 0, so just return an empty image.
   if (width == 0 || height == 0)
     return gfx::Image();

   const gfx::Image* image = GetBest(width, height);
   if (!image)
     return gfx::Image();

   if (image->Width() == width && image->Height() == height)
     return gfx::Image(*image);

   SkBitmap bitmap = image->AsBitmap();
   SkBitmap resized_bitmap = skia::ImageOperations::Resize(
       bitmap, skia::ImageOperations::RESIZE_LANCZOS3, width, height);
   return gfx::Image::CreateFrom1xBitmap(resized_bitmap);
 }

 gfx::Image ImageFamily::CreateExact(const gfx::Size& size) const {
   return CreateExact(size.width(), size.height());
 }

 const gfx::Image* ImageFamily::GetWithExactAspect(float aspect,
                                                   int width) const {
   // Find the two images of given aspect ratio on either side of |width|.
   std::map<MapKey, gfx::Image>::const_iterator greater_or_equal =
       map_.lower_bound(MapKey(aspect, width));
   if (greater_or_equal != map_.end() &&
       greater_or_equal->first.aspect() == aspect) {
     // We have found the smallest image of the same size or greater.
     return &greater_or_equal->second;
   }

   DCHECK(greater_or_equal != map_.begin());
   std::map<MapKey, gfx::Image>::const_iterator less_than = greater_or_equal;
   --less_than;
   // This must be true because there must be at least one image with |aspect|.
   DCHECK_EQ(less_than->first.aspect(), aspect);
   // We have found the largest image smaller than desired.
   return &less_than->second;
 }

 }  // namespace gfx
	// Copyright 2013 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 "ui/gfx/image/image_family.h"

	#include <cmath>

	#include "skia/ext/image_operations.h"
	#include "ui/gfx/geometry/size.h"
	#include "ui/gfx/image/image.h"
	#include "ui/gfx/image/image_skia.h"

	namespace gfx {

	ImageFamily::const_iterator::const_iterator() {}

	ImageFamily::const_iterator::const_iterator(const const_iterator& other)
	: map_iterator_(other.map_iterator_) {}

	ImageFamily::const_iterator::const_iterator(
	const std::map<MapKey, gfx::Image>::const_iterator& other)
	: map_iterator_(other) {}

	ImageFamily::const_iterator::~const_iterator() {}

	ImageFamily::ImageFamily() {}
	ImageFamily::~ImageFamily() {}

	void ImageFamily::Add(const gfx::Image& image) {
	gfx::Size size = image.Size();
	if (size.IsEmpty()) {
	map_[MapKey(1.0f, 0)] = image;
	} else {
	float aspect = static_cast<float>(size.width()) / size.height();
	DCHECK_GT(aspect, 0.0f);
	map_[MapKey(aspect, size.width())] = image;
	}
	}

	void ImageFamily::Add(const gfx::ImageSkia& image_skia) {
	Add(gfx::Image(image_skia));
	}

	const gfx::Image* ImageFamily::GetBest(int width, int height) const {
	if (map_.empty())
	return NULL;

	// If either \|width\| or \|height\| is 0, both are.
	float desired_aspect;
	if (height == 0 \|\| width == 0) {
	desired_aspect = 1.0f;
	height = 0;
	width = 0;
	} else {
	desired_aspect = static_cast<float>(width) / height;
	}
	DCHECK_GT(desired_aspect, 0.0f);

	float closest_aspect = GetClosestAspect(desired_aspect);

	// If thinner than desired, search for images with width such that the
	// corresponding height is greater than or equal to the desired \|height\|.
	int desired_width = closest_aspect <= desired_aspect ?
	width : static_cast<int>(ceilf(height * closest_aspect));

	// Get the best-sized image with the aspect ratio.
	return GetWithExactAspect(closest_aspect, desired_width);
	}

	float ImageFamily::GetClosestAspect(float desired_aspect) const {
	// Find the two aspect ratios on either side of \|desired_aspect\|.
	std::map<MapKey, gfx::Image>::const_iterator greater_or_equal =
	map_.lower_bound(MapKey(desired_aspect, 0));
	// Early exit optimization if there is an exact match.
	if (greater_or_equal != map_.end() &&
	greater_or_equal->first.aspect() == desired_aspect) {
	return desired_aspect;
	}

	// No exact match; \|greater_or_equal\| will point to the first image with
	// aspect ratio >= \|desired_aspect\|, and \|less_than\| will point to the last
	// image with aspect ratio < \|desired_aspect\|.
	if (greater_or_equal != map_.begin()) {
	std::map<MapKey, gfx::Image>::const_iterator less_than =
	greater_or_equal;
	--less_than;
	float thinner_aspect = less_than->first.aspect();
	DCHECK_GT(thinner_aspect, 0.0f);
	DCHECK_LT(thinner_aspect, desired_aspect);
	if (greater_or_equal != map_.end()) {
	float wider_aspect = greater_or_equal->first.aspect();
	DCHECK_GT(wider_aspect, desired_aspect);
	if ((wider_aspect / desired_aspect) < (desired_aspect / thinner_aspect))
	return wider_aspect;
	}
	return thinner_aspect;
	} else {
	// No aspect ratio is less than or equal to \|desired_aspect\|.
	DCHECK(greater_or_equal != map_.end());
	float wider_aspect = greater_or_equal->first.aspect();
	DCHECK_GT(wider_aspect, desired_aspect);
	return wider_aspect;
	}
	}

	const gfx::Image* ImageFamily::GetBest(const gfx::Size& size) const {
	return GetBest(size.width(), size.height());
	}

	gfx::Image ImageFamily::CreateExact(int width, int height) const {
	// Resize crashes if width or height is 0, so just return an empty image.
	if (width == 0 \|\| height == 0)
	return gfx::Image();

	const gfx::Image* image = GetBest(width, height);
	if (!image)
	return gfx::Image();

	if (image->Width() == width && image->Height() == height)
	return gfx::Image(*image);

	SkBitmap bitmap = image->AsBitmap();
	SkBitmap resized_bitmap = skia::ImageOperations::Resize(
	bitmap, skia::ImageOperations::RESIZE_LANCZOS3, width, height);
	return gfx::Image::CreateFrom1xBitmap(resized_bitmap);
	}

	gfx::Image ImageFamily::CreateExact(const gfx::Size& size) const {
	return CreateExact(size.width(), size.height());
	}

	const gfx::Image* ImageFamily::GetWithExactAspect(float aspect,
	int width) const {
	// Find the two images of given aspect ratio on either side of \|width\|.
	std::map<MapKey, gfx::Image>::const_iterator greater_or_equal =
	map_.lower_bound(MapKey(aspect, width));
	if (greater_or_equal != map_.end() &&
	greater_or_equal->first.aspect() == aspect) {
	// We have found the smallest image of the same size or greater.
	return &greater_or_equal->second;
	}

	DCHECK(greater_or_equal != map_.begin());
	std::map<MapKey, gfx::Image>::const_iterator less_than = greater_or_equal;
	--less_than;
	// This must be true because there must be at least one image with \|aspect\|.
	DCHECK_EQ(less_than->first.aspect(), aspect);
	// We have found the largest image smaller than desired.
	return &less_than->second;
	}

	} // namespace gfx