chrome/browser/ui/window_sizer.h - platform/external/chromium - Git at Google

 // Copyright (c) 2010 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 CHROME_BROWSER_UI_WINDOW_SIZER_H_
 #define CHROME_BROWSER_UI_WINDOW_SIZER_H_
 #pragma once

 #include <vector>

 #include "base/basictypes.h"
 #include "ui/gfx/rect.h"

 class Browser;

 ///////////////////////////////////////////////////////////////////////////////
 // WindowSizer
 //
 //  A class that determines the best new size and position for a window to be
 //  shown at based several factors, including the position and size of the last
 //  window of the same type, the last saved bounds of the window from the
 //  previous session, and default system metrics if neither of the above two
 //  conditions exist. The system has built-in providers for monitor metrics
 //  and persistent storage (using preferences) but can be overrided with mocks
 //  for testing.
 //
 class WindowSizer {
  public:
   class MonitorInfoProvider;
   class StateProvider;

   // The WindowSizer assumes ownership of these objects.
   WindowSizer(StateProvider* state_provider,
               MonitorInfoProvider* monitor_info_provider);
   virtual ~WindowSizer();

   // Static factory methods to create default MonitorInfoProvider
   // instances.  The returned object is owned by the caller.
   static MonitorInfoProvider* CreateDefaultMonitorInfoProvider();

   // An interface implemented by an object that can retrieve information about
   // the monitors on the system.
   class MonitorInfoProvider {
    public:
     MonitorInfoProvider();
     virtual ~MonitorInfoProvider();

     // Returns the bounds of the work area of the primary monitor.
     virtual gfx::Rect GetPrimaryMonitorWorkArea() const = 0;

     // Returns the bounds of the primary monitor.
     virtual gfx::Rect GetPrimaryMonitorBounds() const = 0;

     // Returns the bounds of the work area of the monitor that most closely
     // intersects the provided bounds.
     virtual gfx::Rect GetMonitorWorkAreaMatching(
         const gfx::Rect& match_rect) const = 0;

     // Returns the delta between the work area and the monitor bounds for the
     // monitor that most closely intersects the provided bounds.
     virtual gfx::Point GetBoundsOffsetMatching(
         const gfx::Rect& match_rect) const = 0;

     // Ensures number and coordinates of work areas are up-to-date.  You must
     // call this before calling either of the below functions, as work areas can
     // change while the program is running.
     virtual void UpdateWorkAreas() = 0;

     // Returns the number of monitors on the system.
     size_t GetMonitorCount() const {
       return work_areas_.size();
     }

     // Returns the bounds of the work area of the monitor at the specified
     // index.
     gfx::Rect GetWorkAreaAt(size_t index) const {
       return work_areas_[index];
     }

    protected:
     std::vector<gfx::Rect> work_areas_;
   };

   // An interface implemented by an object that can retrieve state from either a
   // persistent store or an existing window.
   class StateProvider {
    public:
     virtual ~StateProvider() { }

     // Retrieve the persisted bounds of the window. Returns true if there was
     // persisted data to retrieve state information, false otherwise.
     virtual bool GetPersistentState(gfx::Rect* bounds,
                                     bool* maximized,
                                     gfx::Rect* work_area) const = 0;

     // Retrieve the bounds of the most recent window of the matching type.
     // Returns true if there was a last active window to retrieve state
     // information from, false otherwise.
     virtual bool GetLastActiveWindowState(gfx::Rect* bounds) const = 0;
   };

   // Determines the position, size and maximized state for a window as it is
   // created. This function uses several strategies to figure out optimal size
   // and placement, first looking for an existing active window, then falling
   // back to persisted data from a previous session, finally utilizing a default
   // algorithm. If |specified_bounds| are non-empty, this value is returned
   // instead. For use only in testing.
   //
   // NOTE: |maximized| is only set if we're restoring a saved maximized window.
   // When creating a new window based on an existing active window, standard
   // Windows behavior is to have it always be nonmaximized, even if the existing
   // window is maximized.
   void DetermineWindowBounds(const gfx::Rect& specified_bounds,
                              gfx::Rect* bounds,
                              bool* maximized) const;

   // Determines the size, position and maximized state for the browser window.
   // See documentation for DetermineWindowBounds above. Normally,
   // |window_bounds| is calculated by calling GetLastActiveWindowState(). To
   // explicitly specify a particular window to base the bounds on, pass in a
   // non-NULL value for |browser|.
   static void GetBrowserWindowBounds(const std::string& app_name,
                                      const gfx::Rect& specified_bounds,
                                      const Browser* browser,
                                      gfx::Rect* window_bounds,
                                      bool* maximized);

   // Returns the default origin for popups of the given size.
   static gfx::Point GetDefaultPopupOrigin(const gfx::Size& size);

   // How much horizontal and vertical offset there is between newly
   // opened windows.  This value may be different on each platform.
   static const int kWindowTilePixels;

  private:
   // The edge of the screen to check for out-of-bounds.
   enum Edge { TOP, LEFT, BOTTOM, RIGHT };

   explicit WindowSizer(const std::string& app_name);

   void Init(StateProvider* state_provider,
             MonitorInfoProvider* monitor_info_provider);

   // Gets the size and placement of the last window. Returns true if this data
   // is valid, false if there is no last window and the application should
   // restore saved state from preferences using RestoreWindowPosition.
   bool GetLastWindowBounds(gfx::Rect* bounds) const;

   // Gets the size and placement of the last window in the last session, saved
   // in local state preferences. Returns true if local state exists containing
   // this information, false if this information does not exist and a default
   // size should be used.
   bool GetSavedWindowBounds(gfx::Rect* bounds, bool* maximized) const;

   // Gets the default window position and size if there is no last window and
   // no saved window placement in prefs. This function determines the default
   // size based on monitor size, etc.
   void GetDefaultWindowBounds(gfx::Rect* default_bounds) const;

   // Returns true if the specified position is "offscreen" for the given edge,
   // meaning that it's outside all work areas in the direction of that edge.
   bool PositionIsOffscreen(int position, Edge edge) const;

   // Adjusts |bounds| to be visible onscreen, biased toward the work area of the
   // monitor containing |other_bounds|.  Despite the name, this doesn't
   // guarantee the bounds are fully contained within this monitor's work rect;
   // it just tried to ensure the edges are visible on _some_ work rect.
   // If |saved_work_area| is non-empty, it is used to determine whether the
   // monitor cofiguration has changed. If it has, bounds are repositioned and
   // resized if necessary to make them completely contained in the current work
   // area.
   void AdjustBoundsToBeVisibleOnMonitorContaining(
       const gfx::Rect& other_bounds,
       const gfx::Rect& saved_work_area,
       gfx::Rect* bounds) const;

   // Providers for persistent storage and monitor metrics.
   StateProvider* state_provider_;
   MonitorInfoProvider* monitor_info_provider_;

   DISALLOW_COPY_AND_ASSIGN(WindowSizer);
 };

 #endif  // CHROME_BROWSER_UI_WINDOW_SIZER_H_
	// Copyright (c) 2010 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 CHROME_BROWSER_UI_WINDOW_SIZER_H_
	#define CHROME_BROWSER_UI_WINDOW_SIZER_H_
	#pragma once

	#include <vector>

	#include "base/basictypes.h"
	#include "ui/gfx/rect.h"

	class Browser;

	///////////////////////////////////////////////////////////////////////////////
	// WindowSizer
	//
	// A class that determines the best new size and position for a window to be
	// shown at based several factors, including the position and size of the last
	// window of the same type, the last saved bounds of the window from the
	// previous session, and default system metrics if neither of the above two
	// conditions exist. The system has built-in providers for monitor metrics
	// and persistent storage (using preferences) but can be overrided with mocks
	// for testing.
	//
	class WindowSizer {
	public:
	class MonitorInfoProvider;
	class StateProvider;

	// The WindowSizer assumes ownership of these objects.
	WindowSizer(StateProvider* state_provider,
	MonitorInfoProvider* monitor_info_provider);
	virtual ~WindowSizer();

	// Static factory methods to create default MonitorInfoProvider
	// instances. The returned object is owned by the caller.
	static MonitorInfoProvider* CreateDefaultMonitorInfoProvider();

	// An interface implemented by an object that can retrieve information about
	// the monitors on the system.
	class MonitorInfoProvider {
	public:
	MonitorInfoProvider();
	virtual ~MonitorInfoProvider();

	// Returns the bounds of the work area of the primary monitor.
	virtual gfx::Rect GetPrimaryMonitorWorkArea() const = 0;

	// Returns the bounds of the primary monitor.
	virtual gfx::Rect GetPrimaryMonitorBounds() const = 0;

	// Returns the bounds of the work area of the monitor that most closely
	// intersects the provided bounds.
	virtual gfx::Rect GetMonitorWorkAreaMatching(
	const gfx::Rect& match_rect) const = 0;

	// Returns the delta between the work area and the monitor bounds for the
	// monitor that most closely intersects the provided bounds.
	virtual gfx::Point GetBoundsOffsetMatching(
	const gfx::Rect& match_rect) const = 0;

	// Ensures number and coordinates of work areas are up-to-date. You must
	// call this before calling either of the below functions, as work areas can
	// change while the program is running.
	virtual void UpdateWorkAreas() = 0;

	// Returns the number of monitors on the system.
	size_t GetMonitorCount() const {
	return work_areas_.size();
	}

	// Returns the bounds of the work area of the monitor at the specified
	// index.
	gfx::Rect GetWorkAreaAt(size_t index) const {
	return work_areas_[index];
	}

	protected:
	std::vector<gfx::Rect> work_areas_;
	};

	// An interface implemented by an object that can retrieve state from either a
	// persistent store or an existing window.
	class StateProvider {
	public:
	virtual ~StateProvider() { }

	// Retrieve the persisted bounds of the window. Returns true if there was
	// persisted data to retrieve state information, false otherwise.
	virtual bool GetPersistentState(gfx::Rect* bounds,
	bool* maximized,
	gfx::Rect* work_area) const = 0;

	// Retrieve the bounds of the most recent window of the matching type.
	// Returns true if there was a last active window to retrieve state
	// information from, false otherwise.
	virtual bool GetLastActiveWindowState(gfx::Rect* bounds) const = 0;
	};

	// Determines the position, size and maximized state for a window as it is
	// created. This function uses several strategies to figure out optimal size
	// and placement, first looking for an existing active window, then falling
	// back to persisted data from a previous session, finally utilizing a default
	// algorithm. If \|specified_bounds\| are non-empty, this value is returned
	// instead. For use only in testing.
	//
	// NOTE: \|maximized\| is only set if we're restoring a saved maximized window.
	// When creating a new window based on an existing active window, standard
	// Windows behavior is to have it always be nonmaximized, even if the existing
	// window is maximized.
	void DetermineWindowBounds(const gfx::Rect& specified_bounds,
	gfx::Rect* bounds,
	bool* maximized) const;

	// Determines the size, position and maximized state for the browser window.
	// See documentation for DetermineWindowBounds above. Normally,
	// \|window_bounds\| is calculated by calling GetLastActiveWindowState(). To
	// explicitly specify a particular window to base the bounds on, pass in a
	// non-NULL value for \|browser\|.
	static void GetBrowserWindowBounds(const std::string& app_name,
	const gfx::Rect& specified_bounds,
	const Browser* browser,
	gfx::Rect* window_bounds,
	bool* maximized);

	// Returns the default origin for popups of the given size.
	static gfx::Point GetDefaultPopupOrigin(const gfx::Size& size);

	// How much horizontal and vertical offset there is between newly
	// opened windows. This value may be different on each platform.
	static const int kWindowTilePixels;

	private:
	// The edge of the screen to check for out-of-bounds.
	enum Edge { TOP, LEFT, BOTTOM, RIGHT };

	explicit WindowSizer(const std::string& app_name);

	void Init(StateProvider* state_provider,
	MonitorInfoProvider* monitor_info_provider);

	// Gets the size and placement of the last window. Returns true if this data
	// is valid, false if there is no last window and the application should
	// restore saved state from preferences using RestoreWindowPosition.
	bool GetLastWindowBounds(gfx::Rect* bounds) const;

	// Gets the size and placement of the last window in the last session, saved
	// in local state preferences. Returns true if local state exists containing
	// this information, false if this information does not exist and a default
	// size should be used.
	bool GetSavedWindowBounds(gfx::Rect* bounds, bool* maximized) const;

	// Gets the default window position and size if there is no last window and
	// no saved window placement in prefs. This function determines the default
	// size based on monitor size, etc.
	void GetDefaultWindowBounds(gfx::Rect* default_bounds) const;

	// Returns true if the specified position is "offscreen" for the given edge,
	// meaning that it's outside all work areas in the direction of that edge.
	bool PositionIsOffscreen(int position, Edge edge) const;

	// Adjusts \|bounds\| to be visible onscreen, biased toward the work area of the
	// monitor containing \|other_bounds\|. Despite the name, this doesn't
	// guarantee the bounds are fully contained within this monitor's work rect;
	// it just tried to ensure the edges are visible on _some_ work rect.
	// If \|saved_work_area\| is non-empty, it is used to determine whether the
	// monitor cofiguration has changed. If it has, bounds are repositioned and
	// resized if necessary to make them completely contained in the current work
	// area.
	void AdjustBoundsToBeVisibleOnMonitorContaining(
	const gfx::Rect& other_bounds,
	const gfx::Rect& saved_work_area,
	gfx::Rect* bounds) const;

	// Providers for persistent storage and monitor metrics.
	StateProvider* state_provider_;
	MonitorInfoProvider* monitor_info_provider_;

	DISALLOW_COPY_AND_ASSIGN(WindowSizer);
	};

	#endif // CHROME_BROWSER_UI_WINDOW_SIZER_H_