src/libcef_dll/cpptoc/views/display_cpptoc.cc - cef - Git at Google

 // Copyright (c) 2020 The Chromium Embedded Framework Authors. All rights
 // reserved. Use of this source code is governed by a BSD-style license that
 // can be found in the LICENSE file.
 //
 // ---------------------------------------------------------------------------
 //
 // This file was generated by the CEF translator tool. If making changes by
 // hand only do so within the body of existing method and function
 // implementations. See the translator.README.txt file in the tools directory
 // for more information.
 //
 // $hash=d4f5ea07778b1ad3a08a1826dced47de771f9b02$
 //

 #include "libcef_dll/cpptoc/views/display_cpptoc.h"
 #include <algorithm>
 #include "libcef_dll/shutdown_checker.h"

 // GLOBAL FUNCTIONS - Body may be edited by hand.

 CEF_EXPORT cef_display_t* cef_display_get_primary() {
   shutdown_checker::AssertNotShutdown();

   // AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING

   // Execute
   CefRefPtr<CefDisplay> _retval = CefDisplay::GetPrimaryDisplay();

   // Return type: refptr_same
   return CefDisplayCppToC::Wrap(_retval);
 }

 CEF_EXPORT cef_display_t* cef_display_get_nearest_point(
     const cef_point_t* point,
     int input_pixel_coords) {
   shutdown_checker::AssertNotShutdown();

   // AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING

   // Verify param: point; type: simple_byref_const
   DCHECK(point);
   if (!point)
     return NULL;

   // Translate param: point; type: simple_byref_const
   CefPoint pointVal = point ? *point : CefPoint();

   // Execute
   CefRefPtr<CefDisplay> _retval = CefDisplay::GetDisplayNearestPoint(
       pointVal, input_pixel_coords ? true : false);

   // Return type: refptr_same
   return CefDisplayCppToC::Wrap(_retval);
 }

 CEF_EXPORT cef_display_t* cef_display_get_matching_bounds(
     const cef_rect_t* bounds,
     int input_pixel_coords) {
   shutdown_checker::AssertNotShutdown();

   // AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING

   // Verify param: bounds; type: simple_byref_const
   DCHECK(bounds);
   if (!bounds)
     return NULL;

   // Translate param: bounds; type: simple_byref_const
   CefRect boundsVal = bounds ? *bounds : CefRect();

   // Execute
   CefRefPtr<CefDisplay> _retval = CefDisplay::GetDisplayMatchingBounds(
       boundsVal, input_pixel_coords ? true : false);

   // Return type: refptr_same
   return CefDisplayCppToC::Wrap(_retval);
 }

 CEF_EXPORT size_t cef_display_get_count() {
   shutdown_checker::AssertNotShutdown();

   // AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING

   // Execute
   size_t _retval = CefDisplay::GetDisplayCount();

   // Return type: simple
   return _retval;
 }

 CEF_EXPORT void cef_display_get_alls(size_t* displaysCount,
                                      cef_display_t** displays) {
   shutdown_checker::AssertNotShutdown();

   // AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING

   // Verify param: displays; type: refptr_vec_same_byref
   DCHECK(displaysCount && (*displaysCount == 0 || displays));
   if (!displaysCount || (*displaysCount > 0 && !displays))
     return;

   // Translate param: displays; type: refptr_vec_same_byref
   std::vector<CefRefPtr<CefDisplay>> displaysList;
   if (displaysCount && *displaysCount > 0 && displays) {
     for (size_t i = 0; i < *displaysCount; ++i) {
       displaysList.push_back(CefDisplayCppToC::Unwrap(displays[i]));
     }
   }

   // Execute
   CefDisplay::GetAllDisplays(displaysList);

   // Restore param: displays; type: refptr_vec_same_byref
   if (displaysCount && displays) {
     *displaysCount = std::min(displaysList.size(), *displaysCount);
     if (*displaysCount > 0) {
       for (size_t i = 0; i < *displaysCount; ++i) {
         displays[i] = CefDisplayCppToC::Wrap(displaysList[i]);
       }
     }
   }
 }

 namespace {

 // MEMBER FUNCTIONS - Body may be edited by hand.

 int64 CEF_CALLBACK display_get_id(struct _cef_display_t* self) {
   shutdown_checker::AssertNotShutdown();

   // AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING

   DCHECK(self);
   if (!self)
     return 0;

   // Execute
   int64 _retval = CefDisplayCppToC::Get(self)->GetID();

   // Return type: simple
   return _retval;
 }

 float CEF_CALLBACK
 display_get_device_scale_factor(struct _cef_display_t* self) {
   shutdown_checker::AssertNotShutdown();

   // AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING

   DCHECK(self);
   if (!self)
     return 0;

   // Execute
   float _retval = CefDisplayCppToC::Get(self)->GetDeviceScaleFactor();

   // Return type: simple
   return _retval;
 }

 void CEF_CALLBACK display_convert_point_to_pixels(struct _cef_display_t* self,
                                                   cef_point_t* point) {
   shutdown_checker::AssertNotShutdown();

   // AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING

   DCHECK(self);
   if (!self)
     return;
   // Verify param: point; type: simple_byref
   DCHECK(point);
   if (!point)
     return;

   // Translate param: point; type: simple_byref
   CefPoint pointVal = point ? *point : CefPoint();

   // Execute
   CefDisplayCppToC::Get(self)->ConvertPointToPixels(pointVal);

   // Restore param: point; type: simple_byref
   if (point)
     *point = pointVal;
 }

 void CEF_CALLBACK display_convert_point_from_pixels(struct _cef_display_t* self,
                                                     cef_point_t* point) {
   shutdown_checker::AssertNotShutdown();

   // AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING

   DCHECK(self);
   if (!self)
     return;
   // Verify param: point; type: simple_byref
   DCHECK(point);
   if (!point)
     return;

   // Translate param: point; type: simple_byref
   CefPoint pointVal = point ? *point : CefPoint();

   // Execute
   CefDisplayCppToC::Get(self)->ConvertPointFromPixels(pointVal);

   // Restore param: point; type: simple_byref
   if (point)
     *point = pointVal;
 }

 cef_rect_t CEF_CALLBACK display_get_bounds(struct _cef_display_t* self) {
   shutdown_checker::AssertNotShutdown();

   // AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING

   DCHECK(self);
   if (!self)
     return CefRect();

   // Execute
   cef_rect_t _retval = CefDisplayCppToC::Get(self)->GetBounds();

   // Return type: simple
   return _retval;
 }

 cef_rect_t CEF_CALLBACK display_get_work_area(struct _cef_display_t* self) {
   shutdown_checker::AssertNotShutdown();

   // AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING

   DCHECK(self);
   if (!self)
     return CefRect();

   // Execute
   cef_rect_t _retval = CefDisplayCppToC::Get(self)->GetWorkArea();

   // Return type: simple
   return _retval;
 }

 int CEF_CALLBACK display_get_rotation(struct _cef_display_t* self) {
   shutdown_checker::AssertNotShutdown();

   // AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING

   DCHECK(self);
   if (!self)
     return 0;

   // Execute
   int _retval = CefDisplayCppToC::Get(self)->GetRotation();

   // Return type: simple
   return _retval;
 }

 }  // namespace

 // CONSTRUCTOR - Do not edit by hand.

 CefDisplayCppToC::CefDisplayCppToC() {
   GetStruct()->get_id = display_get_id;
   GetStruct()->get_device_scale_factor = display_get_device_scale_factor;
   GetStruct()->convert_point_to_pixels = display_convert_point_to_pixels;
   GetStruct()->convert_point_from_pixels = display_convert_point_from_pixels;
   GetStruct()->get_bounds = display_get_bounds;
   GetStruct()->get_work_area = display_get_work_area;
   GetStruct()->get_rotation = display_get_rotation;
 }

 // DESTRUCTOR - Do not edit by hand.

 CefDisplayCppToC::~CefDisplayCppToC() {
   shutdown_checker::AssertNotShutdown();
 }

 template <>
 CefRefPtr<CefDisplay>
 CefCppToCRefCounted<CefDisplayCppToC, CefDisplay, cef_display_t>::UnwrapDerived(
     CefWrapperType type,
     cef_display_t* s) {
   NOTREACHED() << "Unexpected class type: " << type;
   return nullptr;
 }

 template <>
 CefWrapperType CefCppToCRefCounted<CefDisplayCppToC,
                                    CefDisplay,
                                    cef_display_t>::kWrapperType = WT_DISPLAY;
	// Copyright (c) 2020 The Chromium Embedded Framework Authors. All rights
	// reserved. Use of this source code is governed by a BSD-style license that
	// can be found in the LICENSE file.
	//
	// ---------------------------------------------------------------------------
	//
	// This file was generated by the CEF translator tool. If making changes by
	// hand only do so within the body of existing method and function
	// implementations. See the translator.README.txt file in the tools directory
	// for more information.
	//
	// $hash=d4f5ea07778b1ad3a08a1826dced47de771f9b02$
	//

	#include "libcef_dll/cpptoc/views/display_cpptoc.h"
	#include <algorithm>
	#include "libcef_dll/shutdown_checker.h"

	// GLOBAL FUNCTIONS - Body may be edited by hand.

	CEF_EXPORT cef_display_t* cef_display_get_primary() {
	shutdown_checker::AssertNotShutdown();

	// AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING

	// Execute
	CefRefPtr<CefDisplay> _retval = CefDisplay::GetPrimaryDisplay();

	// Return type: refptr_same
	return CefDisplayCppToC::Wrap(_retval);
	}

	CEF_EXPORT cef_display_t* cef_display_get_nearest_point(
	const cef_point_t* point,
	int input_pixel_coords) {
	shutdown_checker::AssertNotShutdown();

	// AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING

	// Verify param: point; type: simple_byref_const
	DCHECK(point);
	if (!point)
	return NULL;

	// Translate param: point; type: simple_byref_const
	CefPoint pointVal = point ? *point : CefPoint();

	// Execute
	CefRefPtr<CefDisplay> _retval = CefDisplay::GetDisplayNearestPoint(
	pointVal, input_pixel_coords ? true : false);

	// Return type: refptr_same
	return CefDisplayCppToC::Wrap(_retval);
	}

	CEF_EXPORT cef_display_t* cef_display_get_matching_bounds(
	const cef_rect_t* bounds,
	int input_pixel_coords) {
	shutdown_checker::AssertNotShutdown();

	// AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING

	// Verify param: bounds; type: simple_byref_const
	DCHECK(bounds);
	if (!bounds)
	return NULL;

	// Translate param: bounds; type: simple_byref_const
	CefRect boundsVal = bounds ? *bounds : CefRect();

	// Execute
	CefRefPtr<CefDisplay> _retval = CefDisplay::GetDisplayMatchingBounds(
	boundsVal, input_pixel_coords ? true : false);

	// Return type: refptr_same
	return CefDisplayCppToC::Wrap(_retval);
	}

	CEF_EXPORT size_t cef_display_get_count() {
	shutdown_checker::AssertNotShutdown();

	// AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING

	// Execute
	size_t _retval = CefDisplay::GetDisplayCount();

	// Return type: simple
	return _retval;
	}

	CEF_EXPORT void cef_display_get_alls(size_t* displaysCount,
	cef_display_t** displays) {
	shutdown_checker::AssertNotShutdown();

	// AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING

	// Verify param: displays; type: refptr_vec_same_byref
	DCHECK(displaysCount && (*displaysCount == 0 \|\| displays));
	if (!displaysCount \|\| (*displaysCount > 0 && !displays))
	return;

	// Translate param: displays; type: refptr_vec_same_byref
	std::vector<CefRefPtr<CefDisplay>> displaysList;
	if (displaysCount && *displaysCount > 0 && displays) {
	for (size_t i = 0; i < *displaysCount; ++i) {
	displaysList.push_back(CefDisplayCppToC::Unwrap(displays[i]));
	}
	}

	// Execute
	CefDisplay::GetAllDisplays(displaysList);

	// Restore param: displays; type: refptr_vec_same_byref
	if (displaysCount && displays) {
	displaysCount = std::min(displaysList.size(), displaysCount);
	if (*displaysCount > 0) {
	for (size_t i = 0; i < *displaysCount; ++i) {
	displays[i] = CefDisplayCppToC::Wrap(displaysList[i]);
	}
	}
	}
	}

	namespace {

	// MEMBER FUNCTIONS - Body may be edited by hand.

	int64 CEF_CALLBACK display_get_id(struct _cef_display_t* self) {
	shutdown_checker::AssertNotShutdown();

	// AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING

	DCHECK(self);
	if (!self)
	return 0;

	// Execute
	int64 _retval = CefDisplayCppToC::Get(self)->GetID();

	// Return type: simple
	return _retval;
	}

	float CEF_CALLBACK
	display_get_device_scale_factor(struct _cef_display_t* self) {
	shutdown_checker::AssertNotShutdown();

	// AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING

	DCHECK(self);
	if (!self)
	return 0;

	// Execute
	float _retval = CefDisplayCppToC::Get(self)->GetDeviceScaleFactor();

	// Return type: simple
	return _retval;
	}

	void CEF_CALLBACK display_convert_point_to_pixels(struct _cef_display_t* self,
	cef_point_t* point) {
	shutdown_checker::AssertNotShutdown();

	// AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING

	DCHECK(self);
	if (!self)
	return;
	// Verify param: point; type: simple_byref
	DCHECK(point);
	if (!point)
	return;

	// Translate param: point; type: simple_byref
	CefPoint pointVal = point ? *point : CefPoint();

	// Execute
	CefDisplayCppToC::Get(self)->ConvertPointToPixels(pointVal);

	// Restore param: point; type: simple_byref
	if (point)
	*point = pointVal;
	}

	void CEF_CALLBACK display_convert_point_from_pixels(struct _cef_display_t* self,
	cef_point_t* point) {
	shutdown_checker::AssertNotShutdown();

	// AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING

	DCHECK(self);
	if (!self)
	return;
	// Verify param: point; type: simple_byref
	DCHECK(point);
	if (!point)
	return;

	// Translate param: point; type: simple_byref
	CefPoint pointVal = point ? *point : CefPoint();

	// Execute
	CefDisplayCppToC::Get(self)->ConvertPointFromPixels(pointVal);

	// Restore param: point; type: simple_byref
	if (point)
	*point = pointVal;
	}

	cef_rect_t CEF_CALLBACK display_get_bounds(struct _cef_display_t* self) {
	shutdown_checker::AssertNotShutdown();

	// AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING

	DCHECK(self);
	if (!self)
	return CefRect();

	// Execute
	cef_rect_t _retval = CefDisplayCppToC::Get(self)->GetBounds();

	// Return type: simple
	return _retval;
	}

	cef_rect_t CEF_CALLBACK display_get_work_area(struct _cef_display_t* self) {
	shutdown_checker::AssertNotShutdown();

	// AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING

	DCHECK(self);
	if (!self)
	return CefRect();

	// Execute
	cef_rect_t _retval = CefDisplayCppToC::Get(self)->GetWorkArea();

	// Return type: simple
	return _retval;
	}

	int CEF_CALLBACK display_get_rotation(struct _cef_display_t* self) {
	shutdown_checker::AssertNotShutdown();

	// AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING

	DCHECK(self);
	if (!self)
	return 0;

	// Execute
	int _retval = CefDisplayCppToC::Get(self)->GetRotation();

	// Return type: simple
	return _retval;
	}

	} // namespace

	// CONSTRUCTOR - Do not edit by hand.

	CefDisplayCppToC::CefDisplayCppToC() {
	GetStruct()->get_id = display_get_id;
	GetStruct()->get_device_scale_factor = display_get_device_scale_factor;
	GetStruct()->convert_point_to_pixels = display_convert_point_to_pixels;
	GetStruct()->convert_point_from_pixels = display_convert_point_from_pixels;
	GetStruct()->get_bounds = display_get_bounds;
	GetStruct()->get_work_area = display_get_work_area;
	GetStruct()->get_rotation = display_get_rotation;
	}

	// DESTRUCTOR - Do not edit by hand.

	CefDisplayCppToC::~CefDisplayCppToC() {
	shutdown_checker::AssertNotShutdown();
	}

	template <>
	CefRefPtr<CefDisplay>
	CefCppToCRefCounted<CefDisplayCppToC, CefDisplay, cef_display_t>::UnwrapDerived(
	CefWrapperType type,
	cef_display_t* s) {
	NOTREACHED() << "Unexpected class type: " << type;
	return nullptr;
	}

	template <>
	CefWrapperType CefCppToCRefCounted<CefDisplayCppToC,
	CefDisplay,
	cef_display_t>::kWrapperType = WT_DISPLAY;