ppapi/cpp/size.h - chromium/src - Git at Google

 // Copyright (c) 2011 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.

 #ifndef PPAPI_CPP_SIZE_H_
 #define PPAPI_CPP_SIZE_H_

 #include "ppapi/c/pp_size.h"
 #include "ppapi/cpp/logging.h"

 /// @file
 /// This file defines the API to create a size based on width
 /// and height.

 namespace pp {

 /// A size of an object based on width and height.
 class Size {
  public:

   /// The default constructor. Initializes the width and height to 0.
   Size() {
     size_.width = 0;
     size_.height = 0;
   }

   /// A constructor accepting a pointer to a <code>PP_Size</code> and
   /// converting the <code>PP_Size</code> to a <code>Size</code>. This is an
   /// implicit conversion constructor.
   ///
   /// @param[in] s A pointer to a <code>PP_Size</code>.
   Size(const PP_Size& s) {  // Implicit.
     // Want the >= 0 checking of the setter.
     set_width(s.width);
     set_height(s.height);
   }

   /// A constructor accepting two int values for width and height and
   /// converting them to a <code>Size</code>.
   ///
   /// @param[in] w An int value representing a width.
   /// @param[in] h An int value representing a height.
   Size(int w, int h) {
     // Want the >= 0 checking of the setter.
     set_width(w);
     set_height(h);
   }

   /// Destructor.
   ~Size() {
   }

   /// PP_Size() allows implicit conversion of a <code>Size</code> to a
   /// <code>PP_Size</code>.
   ///
   /// @return A Size.
   operator PP_Size() {
     return size_;
   }

   /// Getter function for returning the internal <code>PP_Size</code> struct.
   ///
   /// @return A const reference to the internal <code>PP_Size</code> struct.
   const PP_Size& pp_size() const {
     return size_;
   }

   /// Getter function for returning the internal <code>PP_Size</code> struct.
   ///
   /// @return A mutable reference to the <code>PP_Size</code> struct.
   PP_Size& pp_size() {
     return size_;
   }

   /// Getter function for returning the value of width.
   ///
   /// @return The value of width for this <code>Size</code>.
   int width() const {
     return size_.width;
   }

   /// Setter function for setting the value of width.
   ///
   /// @param[in] w A new width value.
   void set_width(int w) {
     if (w < 0) {
       PP_DCHECK(w >= 0);
       w = 0;
     }
     size_.width = w;
   }

   /// Getter function for returning the value of height.
   ///
   /// @return The value of height for this <code>Size</code>.
   int height() const {
     return size_.height;
   }

   /// Setter function for setting the value of height.
   ///
   /// @param[in] h A new height value.
   void set_height(int h) {
     if (h < 0) {
       PP_DCHECK(h >= 0);
       h = 0;
     }
     size_.height = h;
   }

   /// GetArea() determines the area (width * height).
   ///
   /// @return The area.
   int GetArea() const {
     return width() * height();
   }

   /// SetSize() sets the value of width and height.
   ///
   /// @param[in] w A new width value.
   /// @param[in] h A new height value.
   void SetSize(int w, int h) {
     set_width(w);
     set_height(h);
   }

   /// Enlarge() enlarges the size of an object.
   ///
   /// @param[in] w A width to add the current width.
   /// @param[in] h A height to add to the current height.
   void Enlarge(int w, int h) {
     set_width(width() + w);
     set_height(height() + h);
   }

   /// IsEmpty() determines if the size is zero.
   ///
   /// @return true if the size is zero.
   bool IsEmpty() const {
     // Size doesn't allow negative dimensions, so testing for 0 is enough.
     return (width() == 0) || (height() == 0);
   }

  private:
   PP_Size size_;
 };

 /// A size of an object based on width and height.
 class FloatSize {
  public:

   /// The default constructor. Initializes the width and height to 0.0f.
   FloatSize() {
     size_.width = 0.0f;
     size_.height = 0.0f;
   }

   /// A constructor accepting a pointer to a <code>PP_FloatSize</code> and
   /// converting the <code>PP_FloatSize</code> to a <code>FloatSize</code>.
   /// This is an implicit conversion constructor.
   ///
   /// @param[in] s A pointer to a <code>PP_FloatSize</code>.
   FloatSize(const PP_FloatSize& s) {  // Implicit.
     // Want the >= 0 checking of the setter.
     set_width(s.width);
     set_height(s.height);
   }

   /// A constructor accepting two float values for width and height and
   /// converting them to a <code>FloatSize</code>.
   ///
   /// @param[in] w An float value representing a width.
   /// @param[in] h An float value representing a height.
   FloatSize(float w, float h) {
     // Want the >= 0.0f checking of the setter.
     set_width(w);
     set_height(h);
   }

   /// Destructor.
   ~FloatSize() {
   }

   /// PP_FloatSize() allows implicit conversion of a <code>FloatSize</code> to a
   /// <code>PP_FloatSize</code>.
   ///
   /// @return A Size.
   operator PP_FloatSize() {
     return size_;
   }

   /// Getter function for returning the internal <code>PP_FloatSize</code>
   /// struct.
   ///
   /// @return A const reference to the internal <code>PP_FloatSize</code>
   /// struct.
   const PP_FloatSize& pp_float_size() const {
     return size_;
   }

   /// Getter function for returning the internal <code>PP_FloatSize</code>
   /// struct.
   ///
   /// @return A mutable reference to the <code>PP_FloatSize</code> struct.
   PP_FloatSize& pp_float_size() {
     return size_;
   }

   /// Getter function for returning the value of width.
   ///
   /// @return The value of width for this <code>FloatSize</code>.
   float width() const {
     return size_.width;
   }

   /// Setter function for setting the value of width.
   ///
   /// @param[in] w A new width value.
   void set_width(float w) {
     if (w < 0.0f) {
       PP_DCHECK(w >= 0.0f);
       w = 0.0f;
     }
     size_.width = w;
   }

   /// Getter function for returning the value of height.
   ///
   /// @return The value of height for this <code>FloatSize</code>.
   float height() const {
     return size_.height;
   }

   /// Setter function for setting the value of height.
   ///
   /// @param[in] h A new height value.
   void set_height(float h) {
     if (h < 0.0f) {
       PP_DCHECK(h >= 0.0f);
       h = 0.0f;
     }
     size_.height = h;
   }

   /// GetArea() determines the area (width * height).
   ///
   /// @return The area.
   float GetArea() const {
     return width() * height();
   }

   /// SetSize() sets the value of width and height.
   ///
   /// @param[in] w A new width value.
   /// @param[in] h A new height value.
   void SetSize(float w, float h) {
     set_width(w);
     set_height(h);
   }

   /// Enlarge() enlarges the size of an object.
   ///
   /// @param[in] w A width to add the current width.
   /// @param[in] h A height to add to the current height.
   void Enlarge(float w, float h) {
     set_width(width() + w);
     set_height(height() + h);
   }

   /// IsEmpty() determines if the size is zero.
   ///
   /// @return true if the size is zero.
   bool IsEmpty() const {
     // Size doesn't allow negative dimensions, so testing for 0.0f is enough.
     return (width() == 0.0f) || (height() == 0.0f);
   }

  private:
   PP_FloatSize size_;
 };

 }  // namespace pp

 /// This function determines whether the width and height values of two sizes
 /// are equal.
 ///
 /// @param[in] lhs The <code>Size</code> on the left-hand side of the equation.
 /// @param[in] rhs The <code>Size</code> on the right-hand side of the
 /// equation.
 ///
 /// @return true if they are equal, false if unequal.
 inline bool operator==(const pp::Size& lhs, const pp::Size& rhs) {
   return lhs.width() == rhs.width() && lhs.height() == rhs.height();
 }

 /// This function determines whether two <code>Sizes</code> are not equal.
 ///
 /// @param[in] lhs The <code>Size</code> on the left-hand side of the equation.
 /// @param[in] rhs The <code>Size</code> on the right-hand side of the equation.
 ///
 /// @return true if the <code>Size</code> of lhs are equal to the
 /// <code>Size</code> of rhs, otherwise false.
 inline bool operator!=(const pp::Size& lhs, const pp::Size& rhs) {
   return !(lhs == rhs);
 }

 /// This function determines whether the width and height values of two sizes
 /// are equal.
 ///
 /// @param[in] lhs The <code>FloatSize</code> on the left-hand side of the
 /// equation.
 /// @param[in] rhs The <code>FloatSize</code> on the right-hand side of the
 /// equation.
 ///
 /// @return true if they are equal, false if unequal.
 inline bool operator==(const pp::FloatSize& lhs, const pp::FloatSize& rhs) {
   return lhs.width() == rhs.width() && lhs.height() == rhs.height();
 }

 /// This function determines whether two <code>FloatSizes</code> are not equal.
 ///
 /// @param[in] lhs The <code>FloatSize</code> on the left-hand side of the
 /// equation.
 /// @param[in] rhs The <code>FloatSize</code> on the right-hand side of the
 /// equation.
 ///
 /// @return true if the <code>FloatSize</code> of lhs are equal to the
 /// <code>FloatSize</code> of rhs, otherwise false.
 inline bool operator!=(const pp::FloatSize& lhs, const pp::FloatSize& rhs) {
   return !(lhs == rhs);
 }

 #endif  // PPAPI_CPP_SIZE_H_
	// Copyright (c) 2011 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.

	#ifndef PPAPI_CPP_SIZE_H_
	#define PPAPI_CPP_SIZE_H_

	#include "ppapi/c/pp_size.h"
	#include "ppapi/cpp/logging.h"

	/// @file
	/// This file defines the API to create a size based on width
	/// and height.

	namespace pp {

	/// A size of an object based on width and height.
	class Size {
	public:

	/// The default constructor. Initializes the width and height to 0.
	Size() {
	size_.width = 0;
	size_.height = 0;
	}

	/// A constructor accepting a pointer to a <code>PP_Size</code> and
	/// converting the <code>PP_Size</code> to a <code>Size</code>. This is an
	/// implicit conversion constructor.
	///
	/// @param[in] s A pointer to a <code>PP_Size</code>.
	Size(const PP_Size& s) { // Implicit.
	// Want the >= 0 checking of the setter.
	set_width(s.width);
	set_height(s.height);
	}

	/// A constructor accepting two int values for width and height and
	/// converting them to a <code>Size</code>.
	///
	/// @param[in] w An int value representing a width.
	/// @param[in] h An int value representing a height.
	Size(int w, int h) {
	// Want the >= 0 checking of the setter.
	set_width(w);
	set_height(h);
	}

	/// Destructor.
	~Size() {
	}

	/// PP_Size() allows implicit conversion of a <code>Size</code> to a
	/// <code>PP_Size</code>.
	///
	/// @return A Size.
	operator PP_Size() {
	return size_;
	}

	/// Getter function for returning the internal <code>PP_Size</code> struct.
	///
	/// @return A const reference to the internal <code>PP_Size</code> struct.
	const PP_Size& pp_size() const {
	return size_;
	}

	/// Getter function for returning the internal <code>PP_Size</code> struct.
	///
	/// @return A mutable reference to the <code>PP_Size</code> struct.
	PP_Size& pp_size() {
	return size_;
	}

	/// Getter function for returning the value of width.
	///
	/// @return The value of width for this <code>Size</code>.
	int width() const {
	return size_.width;
	}

	/// Setter function for setting the value of width.
	///
	/// @param[in] w A new width value.
	void set_width(int w) {
	if (w < 0) {
	PP_DCHECK(w >= 0);
	w = 0;
	}
	size_.width = w;
	}

	/// Getter function for returning the value of height.
	///
	/// @return The value of height for this <code>Size</code>.
	int height() const {
	return size_.height;
	}

	/// Setter function for setting the value of height.
	///
	/// @param[in] h A new height value.
	void set_height(int h) {
	if (h < 0) {
	PP_DCHECK(h >= 0);
	h = 0;
	}
	size_.height = h;
	}

	/// GetArea() determines the area (width * height).
	///
	/// @return The area.
	int GetArea() const {
	return width() * height();
	}

	/// SetSize() sets the value of width and height.
	///
	/// @param[in] w A new width value.
	/// @param[in] h A new height value.
	void SetSize(int w, int h) {
	set_width(w);
	set_height(h);
	}

	/// Enlarge() enlarges the size of an object.
	///
	/// @param[in] w A width to add the current width.
	/// @param[in] h A height to add to the current height.
	void Enlarge(int w, int h) {
	set_width(width() + w);
	set_height(height() + h);
	}

	/// IsEmpty() determines if the size is zero.
	///
	/// @return true if the size is zero.
	bool IsEmpty() const {
	// Size doesn't allow negative dimensions, so testing for 0 is enough.
	return (width() == 0) \|\| (height() == 0);
	}

	private:
	PP_Size size_;
	};

	/// A size of an object based on width and height.
	class FloatSize {
	public:

	/// The default constructor. Initializes the width and height to 0.0f.
	FloatSize() {
	size_.width = 0.0f;
	size_.height = 0.0f;
	}

	/// A constructor accepting a pointer to a <code>PP_FloatSize</code> and
	/// converting the <code>PP_FloatSize</code> to a <code>FloatSize</code>.
	/// This is an implicit conversion constructor.
	///
	/// @param[in] s A pointer to a <code>PP_FloatSize</code>.
	FloatSize(const PP_FloatSize& s) { // Implicit.
	// Want the >= 0 checking of the setter.
	set_width(s.width);
	set_height(s.height);
	}

	/// A constructor accepting two float values for width and height and
	/// converting them to a <code>FloatSize</code>.
	///
	/// @param[in] w An float value representing a width.
	/// @param[in] h An float value representing a height.
	FloatSize(float w, float h) {
	// Want the >= 0.0f checking of the setter.
	set_width(w);
	set_height(h);
	}

	/// Destructor.
	~FloatSize() {
	}

	/// PP_FloatSize() allows implicit conversion of a <code>FloatSize</code> to a
	/// <code>PP_FloatSize</code>.
	///
	/// @return A Size.
	operator PP_FloatSize() {
	return size_;
	}

	/// Getter function for returning the internal <code>PP_FloatSize</code>
	/// struct.
	///
	/// @return A const reference to the internal <code>PP_FloatSize</code>
	/// struct.
	const PP_FloatSize& pp_float_size() const {
	return size_;
	}

	/// Getter function for returning the internal <code>PP_FloatSize</code>
	/// struct.
	///
	/// @return A mutable reference to the <code>PP_FloatSize</code> struct.
	PP_FloatSize& pp_float_size() {
	return size_;
	}

	/// Getter function for returning the value of width.
	///
	/// @return The value of width for this <code>FloatSize</code>.
	float width() const {
	return size_.width;
	}

	/// Setter function for setting the value of width.
	///
	/// @param[in] w A new width value.
	void set_width(float w) {
	if (w < 0.0f) {
	PP_DCHECK(w >= 0.0f);
	w = 0.0f;
	}
	size_.width = w;
	}

	/// Getter function for returning the value of height.
	///
	/// @return The value of height for this <code>FloatSize</code>.
	float height() const {
	return size_.height;
	}

	/// Setter function for setting the value of height.
	///
	/// @param[in] h A new height value.
	void set_height(float h) {
	if (h < 0.0f) {
	PP_DCHECK(h >= 0.0f);
	h = 0.0f;
	}
	size_.height = h;
	}

	/// GetArea() determines the area (width * height).
	///
	/// @return The area.
	float GetArea() const {
	return width() * height();
	}

	/// SetSize() sets the value of width and height.
	///
	/// @param[in] w A new width value.
	/// @param[in] h A new height value.
	void SetSize(float w, float h) {
	set_width(w);
	set_height(h);
	}

	/// Enlarge() enlarges the size of an object.
	///
	/// @param[in] w A width to add the current width.
	/// @param[in] h A height to add to the current height.
	void Enlarge(float w, float h) {
	set_width(width() + w);
	set_height(height() + h);
	}

	/// IsEmpty() determines if the size is zero.
	///
	/// @return true if the size is zero.
	bool IsEmpty() const {
	// Size doesn't allow negative dimensions, so testing for 0.0f is enough.
	return (width() == 0.0f) \|\| (height() == 0.0f);
	}

	private:
	PP_FloatSize size_;
	};

	} // namespace pp

	/// This function determines whether the width and height values of two sizes
	/// are equal.
	///
	/// @param[in] lhs The <code>Size</code> on the left-hand side of the equation.
	/// @param[in] rhs The <code>Size</code> on the right-hand side of the
	/// equation.
	///
	/// @return true if they are equal, false if unequal.
	inline bool operator==(const pp::Size& lhs, const pp::Size& rhs) {
	return lhs.width() == rhs.width() && lhs.height() == rhs.height();
	}

	/// This function determines whether two <code>Sizes</code> are not equal.
	///
	/// @param[in] lhs The <code>Size</code> on the left-hand side of the equation.
	/// @param[in] rhs The <code>Size</code> on the right-hand side of the equation.
	///
	/// @return true if the <code>Size</code> of lhs are equal to the
	/// <code>Size</code> of rhs, otherwise false.
	inline bool operator!=(const pp::Size& lhs, const pp::Size& rhs) {
	return !(lhs == rhs);
	}

	/// This function determines whether the width and height values of two sizes
	/// are equal.
	///
	/// @param[in] lhs The <code>FloatSize</code> on the left-hand side of the
	/// equation.
	/// @param[in] rhs The <code>FloatSize</code> on the right-hand side of the
	/// equation.
	///
	/// @return true if they are equal, false if unequal.
	inline bool operator==(const pp::FloatSize& lhs, const pp::FloatSize& rhs) {
	return lhs.width() == rhs.width() && lhs.height() == rhs.height();
	}

	/// This function determines whether two <code>FloatSizes</code> are not equal.
	///
	/// @param[in] lhs The <code>FloatSize</code> on the left-hand side of the
	/// equation.
	/// @param[in] rhs The <code>FloatSize</code> on the right-hand side of the
	/// equation.
	///
	/// @return true if the <code>FloatSize</code> of lhs are equal to the
	/// <code>FloatSize</code> of rhs, otherwise false.
	inline bool operator!=(const pp::FloatSize& lhs, const pp::FloatSize& rhs) {
	return !(lhs == rhs);
	}

	#endif // PPAPI_CPP_SIZE_H_