ash/display/display_info.cc - platform/external/chromium_org - Git at Google

 // Copyright (c) 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 <stdio.h>
 #include <string>
 #include <vector>

 #include "ash/display/display_info.h"
 #include "base/logging.h"
 #include "base/strings/string_number_conversions.h"
 #include "base/strings/string_util.h"
 #include "base/strings/stringprintf.h"
 #include "ui/gfx/display.h"
 #include "ui/gfx/size_conversions.h"
 #include "ui/gfx/size_f.h"

 #if defined(OS_WIN)
 #include "ui/aura/root_window_host.h"
 #endif

 namespace ash {
 namespace internal {

 Resolution::Resolution(const gfx::Size& size, bool interlaced)
     : size(size),
       interlaced(interlaced) {
 }

 // satic
 DisplayInfo DisplayInfo::CreateFromSpec(const std::string& spec) {
   return CreateFromSpecWithID(spec, gfx::Display::kInvalidDisplayID);
 }

 // static
 DisplayInfo DisplayInfo::CreateFromSpecWithID(const std::string& spec,
                                               int64 id) {
   // Default bounds for a display.
   const int kDefaultHostWindowX = 200;
   const int kDefaultHostWindowY = 200;
   const int kDefaultHostWindowWidth = 1366;
   const int kDefaultHostWindowHeight = 768;

   // Use larger than max int to catch overflow early.
   static int64 synthesized_display_id = 2200000000LL;

 #if defined(OS_WIN)
   gfx::Rect bounds_in_native(aura::RootWindowHost::GetNativeScreenSize());
 #else
   gfx::Rect bounds_in_native(kDefaultHostWindowX, kDefaultHostWindowY,
                              kDefaultHostWindowWidth, kDefaultHostWindowHeight);
 #endif
   std::string main_spec = spec;

   float ui_scale = 1.0f;
   std::vector<std::string> parts;
   if (Tokenize(main_spec, "@", &parts) == 2) {
     double scale_in_double = 0;
     if (base::StringToDouble(parts[1], &scale_in_double))
       ui_scale = scale_in_double;
     main_spec = parts[0];
   }

   size_t count = Tokenize(main_spec, "/", &parts);
   gfx::Display::Rotation rotation(gfx::Display::ROTATE_0);
   bool has_overscan = false;
   if (count) {
     main_spec = parts[0];
     if (count >= 2) {
       std::string options = parts[1];
       for (size_t i = 0; i < options.size(); ++i) {
         char c = options[i];
         switch (c) {
           case 'o':
             has_overscan = true;
             break;
           case 'r':  // rotate 90 degrees to 'right'.
             rotation = gfx::Display::ROTATE_90;
             break;
           case 'u':  // 180 degrees, 'u'pside-down.
             rotation = gfx::Display::ROTATE_180;
             break;
           case 'l':  // rotate 90 degrees to 'left'.
             rotation = gfx::Display::ROTATE_270;
             break;
         }
       }
     }
   }

   int x = 0, y = 0, width, height;
   float device_scale_factor = 1.0f;
   if (sscanf(main_spec.c_str(), "%dx%d*%f",
              &width, &height, &device_scale_factor) >= 2 ||
       sscanf(main_spec.c_str(), "%d+%d-%dx%d*%f", &x, &y, &width, &height,
              &device_scale_factor) >= 4) {
     bounds_in_native.SetRect(x, y, width, height);
   }

   std::vector<Resolution> resolutions;
   if (Tokenize(main_spec, "#", &parts) == 2) {
     main_spec = parts[0];
     std::string resolution_list = parts[1];
     count = Tokenize(resolution_list, "|", &parts);
     for (size_t i = 0; i < count; ++i) {
       std::string resolution = parts[i];
       int width, height;
       if (sscanf(resolution.c_str(), "%dx%d", &width, &height) == 2)
         resolutions.push_back(Resolution(gfx::Size(width, height), false));
     }
   }

   if (id == gfx::Display::kInvalidDisplayID)
     id = synthesized_display_id++;
   DisplayInfo display_info(
       id, base::StringPrintf("Display-%d", static_cast<int>(id)), has_overscan);
   display_info.set_device_scale_factor(device_scale_factor);
   display_info.set_rotation(rotation);
   display_info.set_ui_scale(ui_scale);
   display_info.SetBounds(bounds_in_native);
   display_info.set_resolutions(resolutions);

   // To test the overscan, it creates the default 5% overscan.
   if (has_overscan) {
     int width = bounds_in_native.width() / device_scale_factor / 40;
     int height = bounds_in_native.height() / device_scale_factor / 40;
     display_info.SetOverscanInsets(gfx::Insets(height, width, height, width));
     display_info.UpdateDisplaySize();
   }

   DVLOG(1) << "DisplayInfoFromSpec info=" << display_info.ToString()
            << ", spec=" << spec;
   return display_info;
 }

 DisplayInfo::DisplayInfo()
     : id_(gfx::Display::kInvalidDisplayID),
       has_overscan_(false),
       rotation_(gfx::Display::ROTATE_0),
       touch_support_(gfx::Display::TOUCH_SUPPORT_UNKNOWN),
       device_scale_factor_(1.0f),
       overscan_insets_in_dip_(0, 0, 0, 0),
       ui_scale_(1.0f),
       native_(false) {
 }

 DisplayInfo::DisplayInfo(int64 id,
                          const std::string& name,
                          bool has_overscan)
     : id_(id),
       name_(name),
       has_overscan_(has_overscan),
       rotation_(gfx::Display::ROTATE_0),
       touch_support_(gfx::Display::TOUCH_SUPPORT_UNKNOWN),
       device_scale_factor_(1.0f),
       overscan_insets_in_dip_(0, 0, 0, 0),
       ui_scale_(1.0f),
       native_(false) {
 }

 DisplayInfo::~DisplayInfo() {
 }

 void DisplayInfo::Copy(const DisplayInfo& native_info) {
   DCHECK(id_ == native_info.id_);
   name_ = native_info.name_;
   has_overscan_ = native_info.has_overscan_;

   DCHECK(!native_info.bounds_in_native_.IsEmpty());
   bounds_in_native_ = native_info.bounds_in_native_;
   size_in_pixel_ = native_info.size_in_pixel_;
   device_scale_factor_ = native_info.device_scale_factor_;
   resolutions_ = native_info.resolutions_;
   touch_support_ = native_info.touch_support_;

   // Copy overscan_insets_in_dip_ if it's not empty. This is for test
   // cases which use "/o" annotation which sets the overscan inset
   // to native, and that overscan has to be propagated. This does not
   // happen on the real environment.
   if (!native_info.overscan_insets_in_dip_.empty())
     overscan_insets_in_dip_ = native_info.overscan_insets_in_dip_;

   // Rotation_ and ui_scale_ are given by preference, or unit
   // tests. Don't copy if this native_info came from
   // DisplayChangeObserver.
   if (!native_info.native()) {
     rotation_ = native_info.rotation_;
     ui_scale_ = native_info.ui_scale_;
   }
   // Don't copy insets as it may be given by preference.  |rotation_|
   // is treated as a native so that it can be specified in
   // |CreateFromSpec|.
 }

 void DisplayInfo::SetBounds(const gfx::Rect& new_bounds_in_native) {
   bounds_in_native_ = new_bounds_in_native;
   size_in_pixel_ = new_bounds_in_native.size();
   UpdateDisplaySize();
 }

 void DisplayInfo::UpdateDisplaySize() {
   size_in_pixel_ = bounds_in_native_.size();
   if (!overscan_insets_in_dip_.empty()) {
     gfx::Insets insets_in_pixel =
         overscan_insets_in_dip_.Scale(device_scale_factor_);
     size_in_pixel_.Enlarge(-insets_in_pixel.width(), -insets_in_pixel.height());
   } else {
     overscan_insets_in_dip_.Set(0, 0, 0, 0);
   }

   if (rotation_ == gfx::Display::ROTATE_90 ||
       rotation_ == gfx::Display::ROTATE_270)
     size_in_pixel_.SetSize(size_in_pixel_.height(), size_in_pixel_.width());
   gfx::SizeF size_f(size_in_pixel_);
   size_f.Scale(ui_scale_);
   size_in_pixel_ = gfx::ToFlooredSize(size_f);
 }

 void DisplayInfo::SetOverscanInsets(const gfx::Insets& insets_in_dip) {
   overscan_insets_in_dip_ = insets_in_dip;
 }

 gfx::Insets DisplayInfo::GetOverscanInsetsInPixel() const {
   return overscan_insets_in_dip_.Scale(device_scale_factor_);
 }

 std::string DisplayInfo::ToString() const {
   int rotation_degree = static_cast<int>(rotation_) * 90;
   return base::StringPrintf(
       "DisplayInfo[%lld] native bounds=%s, size=%s, scale=%f, "
       "overscan=%s, rotation=%d, ui-scale=%f, touchscreen=%s",
       static_cast<long long int>(id_),
       bounds_in_native_.ToString().c_str(),
       size_in_pixel_.ToString().c_str(),
       device_scale_factor_,
       overscan_insets_in_dip_.ToString().c_str(),
       rotation_degree,
       ui_scale_,
       touch_support_ == gfx::Display::TOUCH_SUPPORT_AVAILABLE ? "yes" :
       touch_support_ == gfx::Display::TOUCH_SUPPORT_UNAVAILABLE ? "no" :
       "unknown");
 }

 std::string DisplayInfo::ToFullString() const {
   std::string resolutions_str;
   std::vector<Resolution>::const_iterator iter = resolutions_.begin();
   for (; iter != resolutions_.end(); ++iter) {
     if (!resolutions_str.empty())
       resolutions_str += ",";
     resolutions_str += iter->size.ToString();
     if (iter->interlaced)
       resolutions_str += "(i)";
   }
   return ToString() + ", resolutions=" + resolutions_str;
 }

 }  // namespace internal
 }  // namespace ash
	// Copyright (c) 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 <stdio.h>
	#include <string>
	#include <vector>

	#include "ash/display/display_info.h"
	#include "base/logging.h"
	#include "base/strings/string_number_conversions.h"
	#include "base/strings/string_util.h"
	#include "base/strings/stringprintf.h"
	#include "ui/gfx/display.h"
	#include "ui/gfx/size_conversions.h"
	#include "ui/gfx/size_f.h"

	#if defined(OS_WIN)
	#include "ui/aura/root_window_host.h"
	#endif

	namespace ash {
	namespace internal {

	Resolution::Resolution(const gfx::Size& size, bool interlaced)
	: size(size),
	interlaced(interlaced) {
	}

	// satic
	DisplayInfo DisplayInfo::CreateFromSpec(const std::string& spec) {
	return CreateFromSpecWithID(spec, gfx::Display::kInvalidDisplayID);
	}

	// static
	DisplayInfo DisplayInfo::CreateFromSpecWithID(const std::string& spec,
	int64 id) {
	// Default bounds for a display.
	const int kDefaultHostWindowX = 200;
	const int kDefaultHostWindowY = 200;
	const int kDefaultHostWindowWidth = 1366;
	const int kDefaultHostWindowHeight = 768;

	// Use larger than max int to catch overflow early.
	static int64 synthesized_display_id = 2200000000LL;

	#if defined(OS_WIN)
	gfx::Rect bounds_in_native(aura::RootWindowHost::GetNativeScreenSize());
	#else
	gfx::Rect bounds_in_native(kDefaultHostWindowX, kDefaultHostWindowY,
	kDefaultHostWindowWidth, kDefaultHostWindowHeight);
	#endif
	std::string main_spec = spec;

	float ui_scale = 1.0f;
	std::vector<std::string> parts;
	if (Tokenize(main_spec, "@", &parts) == 2) {
	double scale_in_double = 0;
	if (base::StringToDouble(parts[1], &scale_in_double))
	ui_scale = scale_in_double;
	main_spec = parts[0];
	}

	size_t count = Tokenize(main_spec, "/", &parts);
	gfx::Display::Rotation rotation(gfx::Display::ROTATE_0);
	bool has_overscan = false;
	if (count) {
	main_spec = parts[0];
	if (count >= 2) {
	std::string options = parts[1];
	for (size_t i = 0; i < options.size(); ++i) {
	char c = options[i];
	switch (c) {
	case 'o':
	has_overscan = true;
	break;
	case 'r': // rotate 90 degrees to 'right'.
	rotation = gfx::Display::ROTATE_90;
	break;
	case 'u': // 180 degrees, 'u'pside-down.
	rotation = gfx::Display::ROTATE_180;
	break;
	case 'l': // rotate 90 degrees to 'left'.
	rotation = gfx::Display::ROTATE_270;
	break;
	}
	}
	}
	}

	int x = 0, y = 0, width, height;
	float device_scale_factor = 1.0f;
	if (sscanf(main_spec.c_str(), "%dx%d*%f",
	&width, &height, &device_scale_factor) >= 2 \|\|
	sscanf(main_spec.c_str(), "%d+%d-%dx%d*%f", &x, &y, &width, &height,
	&device_scale_factor) >= 4) {
	bounds_in_native.SetRect(x, y, width, height);
	}

	std::vector<Resolution> resolutions;
	if (Tokenize(main_spec, "#", &parts) == 2) {
	main_spec = parts[0];
	std::string resolution_list = parts[1];
	count = Tokenize(resolution_list, "\|", &parts);
	for (size_t i = 0; i < count; ++i) {
	std::string resolution = parts[i];
	int width, height;
	if (sscanf(resolution.c_str(), "%dx%d", &width, &height) == 2)
	resolutions.push_back(Resolution(gfx::Size(width, height), false));
	}
	}

	if (id == gfx::Display::kInvalidDisplayID)
	id = synthesized_display_id++;
	DisplayInfo display_info(
	id, base::StringPrintf("Display-%d", static_cast<int>(id)), has_overscan);
	display_info.set_device_scale_factor(device_scale_factor);
	display_info.set_rotation(rotation);
	display_info.set_ui_scale(ui_scale);
	display_info.SetBounds(bounds_in_native);
	display_info.set_resolutions(resolutions);

	// To test the overscan, it creates the default 5% overscan.
	if (has_overscan) {
	int width = bounds_in_native.width() / device_scale_factor / 40;
	int height = bounds_in_native.height() / device_scale_factor / 40;
	display_info.SetOverscanInsets(gfx::Insets(height, width, height, width));
	display_info.UpdateDisplaySize();
	}

	DVLOG(1) << "DisplayInfoFromSpec info=" << display_info.ToString()
	<< ", spec=" << spec;
	return display_info;
	}

	DisplayInfo::DisplayInfo()
	: id_(gfx::Display::kInvalidDisplayID),
	has_overscan_(false),
	rotation_(gfx::Display::ROTATE_0),
	touch_support_(gfx::Display::TOUCH_SUPPORT_UNKNOWN),
	device_scale_factor_(1.0f),
	overscan_insets_in_dip_(0, 0, 0, 0),
	ui_scale_(1.0f),
	native_(false) {
	}

	DisplayInfo::DisplayInfo(int64 id,
	const std::string& name,
	bool has_overscan)
	: id_(id),
	name_(name),
	has_overscan_(has_overscan),
	rotation_(gfx::Display::ROTATE_0),
	touch_support_(gfx::Display::TOUCH_SUPPORT_UNKNOWN),
	device_scale_factor_(1.0f),
	overscan_insets_in_dip_(0, 0, 0, 0),
	ui_scale_(1.0f),
	native_(false) {
	}

	DisplayInfo::~DisplayInfo() {
	}

	void DisplayInfo::Copy(const DisplayInfo& native_info) {
	DCHECK(id_ == native_info.id_);
	name_ = native_info.name_;
	has_overscan_ = native_info.has_overscan_;

	DCHECK(!native_info.bounds_in_native_.IsEmpty());
	bounds_in_native_ = native_info.bounds_in_native_;
	size_in_pixel_ = native_info.size_in_pixel_;
	device_scale_factor_ = native_info.device_scale_factor_;
	resolutions_ = native_info.resolutions_;
	touch_support_ = native_info.touch_support_;

	// Copy overscan_insets_in_dip_ if it's not empty. This is for test
	// cases which use "/o" annotation which sets the overscan inset
	// to native, and that overscan has to be propagated. This does not
	// happen on the real environment.
	if (!native_info.overscan_insets_in_dip_.empty())
	overscan_insets_in_dip_ = native_info.overscan_insets_in_dip_;

	// Rotation_ and ui_scale_ are given by preference, or unit
	// tests. Don't copy if this native_info came from
	// DisplayChangeObserver.
	if (!native_info.native()) {
	rotation_ = native_info.rotation_;
	ui_scale_ = native_info.ui_scale_;
	}
	// Don't copy insets as it may be given by preference. \|rotation_\|
	// is treated as a native so that it can be specified in
	// \|CreateFromSpec\|.
	}

	void DisplayInfo::SetBounds(const gfx::Rect& new_bounds_in_native) {
	bounds_in_native_ = new_bounds_in_native;
	size_in_pixel_ = new_bounds_in_native.size();
	UpdateDisplaySize();
	}

	void DisplayInfo::UpdateDisplaySize() {
	size_in_pixel_ = bounds_in_native_.size();
	if (!overscan_insets_in_dip_.empty()) {
	gfx::Insets insets_in_pixel =
	overscan_insets_in_dip_.Scale(device_scale_factor_);
	size_in_pixel_.Enlarge(-insets_in_pixel.width(), -insets_in_pixel.height());
	} else {
	overscan_insets_in_dip_.Set(0, 0, 0, 0);
	}

	if (rotation_ == gfx::Display::ROTATE_90 \|\|
	rotation_ == gfx::Display::ROTATE_270)
	size_in_pixel_.SetSize(size_in_pixel_.height(), size_in_pixel_.width());
	gfx::SizeF size_f(size_in_pixel_);
	size_f.Scale(ui_scale_);
	size_in_pixel_ = gfx::ToFlooredSize(size_f);
	}

	void DisplayInfo::SetOverscanInsets(const gfx::Insets& insets_in_dip) {
	overscan_insets_in_dip_ = insets_in_dip;
	}

	gfx::Insets DisplayInfo::GetOverscanInsetsInPixel() const {
	return overscan_insets_in_dip_.Scale(device_scale_factor_);
	}

	std::string DisplayInfo::ToString() const {
	int rotation_degree = static_cast<int>(rotation_) * 90;
	return base::StringPrintf(
	"DisplayInfo[%lld] native bounds=%s, size=%s, scale=%f, "
	"overscan=%s, rotation=%d, ui-scale=%f, touchscreen=%s",
	static_cast<long long int>(id_),
	bounds_in_native_.ToString().c_str(),
	size_in_pixel_.ToString().c_str(),
	device_scale_factor_,
	overscan_insets_in_dip_.ToString().c_str(),
	rotation_degree,
	ui_scale_,
	touch_support_ == gfx::Display::TOUCH_SUPPORT_AVAILABLE ? "yes" :
	touch_support_ == gfx::Display::TOUCH_SUPPORT_UNAVAILABLE ? "no" :
	"unknown");
	}

	std::string DisplayInfo::ToFullString() const {
	std::string resolutions_str;
	std::vector<Resolution>::const_iterator iter = resolutions_.begin();
	for (; iter != resolutions_.end(); ++iter) {
	if (!resolutions_str.empty())
	resolutions_str += ",";
	resolutions_str += iter->size.ToString();
	if (iter->interlaced)
	resolutions_str += "(i)";
	}
	return ToString() + ", resolutions=" + resolutions_str;
	}

	} // namespace internal
	} // namespace ash