gpu/config/gpu_info.h - experimental/chromium/src - Git at Google

 // Copyright (c) 2012 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 GPU_CONFIG_GPU_INFO_H_
 #define GPU_CONFIG_GPU_INFO_H_

 // Provides access to the GPU information for the system
 // on which chrome is currently running.

 #include <string>
 #include <vector>

 #include "base/basictypes.h"
 #include "base/time/time.h"
 #include "base/version.h"
 #include "build/build_config.h"
 #include "gpu/config/dx_diag_node.h"
 #include "gpu/config/gpu_performance_stats.h"
 #include "gpu/gpu_export.h"

 namespace gpu {

 struct GPU_EXPORT GPUInfo {
   struct GPU_EXPORT GPUDevice {
     GPUDevice();
     ~GPUDevice();

     // The DWORD (uint32) representing the graphics card vendor id.
     uint32 vendor_id;

     // The DWORD (uint32) representing the graphics card device id.
     // Device ids are unique to vendor, not to one another.
     uint32 device_id;

     // The strings that describe the GPU.
     // In Linux these strings are obtained through libpci.
     // In Win/MacOSX, these two strings are not filled at the moment.
     std::string vendor_string;
     std::string device_string;
   };

   GPUInfo();
   ~GPUInfo();

   // Whether more GPUInfo fields might be collected in the future.
   bool finalized;

   // The amount of time taken to get from the process starting to the message
   // loop being pumped.
   base::TimeDelta initialization_time;

   // Computer has NVIDIA Optimus
   bool optimus;

   // Computer has AMD Dynamic Switchable Graphics
   bool amd_switchable;

   // Lenovo dCute is installed. http://crbug.com/181665.
   bool lenovo_dcute;

   // Version of DisplayLink driver installed. Zero if not installed.
   // http://crbug.com/177611.
   Version display_link_version;

   // Primary GPU, for exmaple, the discrete GPU in a dual GPU machine.
   GPUDevice gpu;

   // Secondary GPUs, for example, the integrated GPU in a dual GPU machine.
   std::vector<GPUDevice> secondary_gpus;

   // On Windows, the unique identifier of the adapter the GPU process uses.
   // The default is zero, which makes the browser process create its D3D device
   // on the primary adapter. Note that the primary adapter can change at any
   // time so it is better to specify a particular LUID. Note that valid LUIDs
   // are always non-zero.
   uint64 adapter_luid;

   // The vendor of the graphics driver currently installed.
   std::string driver_vendor;

   // The version of the graphics driver currently installed.
   std::string driver_version;

   // The date of the graphics driver currently installed.
   std::string driver_date;

   // The version of the pixel/fragment shader used by the gpu.
   std::string pixel_shader_version;

   // The version of the vertex shader used by the gpu.
   std::string vertex_shader_version;

   // The machine model identifier with format "name major.minor".
   // Name should not contain any whitespaces.
   std::string machine_model;

   // The version of OpenGL we are using.
   // TODO(zmo): should be able to tell if it's GL or GLES.
   std::string gl_version;

   // The GL_VERSION string.  "" if we are not using OpenGL.
   std::string gl_version_string;

   // The GL_VENDOR string.  "" if we are not using OpenGL.
   std::string gl_vendor;

   // The GL_RENDERER string.  "" if we are not using OpenGL.
   std::string gl_renderer;

   // The GL_EXTENSIONS string.  "" if we are not using OpenGL.
   std::string gl_extensions;

   // GL window system binding vendor.  "" if not available.
   std::string gl_ws_vendor;

   // GL window system binding version.  "" if not available.
   std::string gl_ws_version;

   // GL window system binding extensions.  "" if not available.
   std::string gl_ws_extensions;

   // GL reset notification strategy as defined by GL_ARB_robustness. 0 if GPU
   // reset detection or notification not available.
   uint32 gl_reset_notification_strategy;

   // The device semantics, i.e. whether the Vista and Windows 7 specific
   // semantics are available.
   bool can_lose_context;

   // By default all values are 0.
   GpuPerformanceStats performance_stats;

   bool software_rendering;

   // Whether the gpu process is running in a sandbox.
   bool sandboxed;

 #if defined(OS_WIN)
   // The information returned by the DirectX Diagnostics Tool.
   DxDiagNode dx_diagnostics;
 #endif
   // Note: when adding new members, please remember to update EnumerateFields
   // in gpu_info.cc.

   // In conjunction with EnumerateFields, this allows the embedder to
   // enumerate the values in this structure without having to embed
   // references to its specific member variables. This simplifies the
   // addition of new fields to this type.
   class Enumerator {
    public:
     // The following methods apply to the "current" object. Initially this
     // is the root object, but calls to BeginGPUDevice/EndGPUDevice and
     // BeginAuxAttributes/EndAuxAttributes change the object to which these
     // calls should apply.
     virtual void AddInt64(const char* name, int64 value) = 0;
     virtual void AddInt(const char* name, int value) = 0;
     virtual void AddString(const char* name, const std::string& value) = 0;
     virtual void AddBool(const char* name, bool value) = 0;
     virtual void AddTimeDeltaInSecondsF(const char* name,
                                         const base::TimeDelta& value) = 0;

     // Markers indicating that a GPUDevice is being described.
     virtual void BeginGPUDevice() = 0;
     virtual void EndGPUDevice() = 0;

     // Markers indicating that "auxiliary" attributes of the GPUInfo
     // (according to the DevTools protocol) are being described.
     virtual void BeginAuxAttributes() = 0;
     virtual void EndAuxAttributes() = 0;

    protected:
     virtual ~Enumerator() {}
   };

   // Outputs the fields in this structure to the provided enumerator.
   void EnumerateFields(Enumerator* enumerator) const;
 };

 }  // namespace gpu

 #endif  // GPU_CONFIG_GPU_INFO_H_
	// Copyright (c) 2012 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 GPU_CONFIG_GPU_INFO_H_
	#define GPU_CONFIG_GPU_INFO_H_

	// Provides access to the GPU information for the system
	// on which chrome is currently running.

	#include <string>
	#include <vector>

	#include "base/basictypes.h"
	#include "base/time/time.h"
	#include "base/version.h"
	#include "build/build_config.h"
	#include "gpu/config/dx_diag_node.h"
	#include "gpu/config/gpu_performance_stats.h"
	#include "gpu/gpu_export.h"

	namespace gpu {

	struct GPU_EXPORT GPUInfo {
	struct GPU_EXPORT GPUDevice {
	GPUDevice();
	~GPUDevice();

	// The DWORD (uint32) representing the graphics card vendor id.
	uint32 vendor_id;

	// The DWORD (uint32) representing the graphics card device id.
	// Device ids are unique to vendor, not to one another.
	uint32 device_id;

	// The strings that describe the GPU.
	// In Linux these strings are obtained through libpci.
	// In Win/MacOSX, these two strings are not filled at the moment.
	std::string vendor_string;
	std::string device_string;
	};

	GPUInfo();
	~GPUInfo();

	// Whether more GPUInfo fields might be collected in the future.
	bool finalized;

	// The amount of time taken to get from the process starting to the message
	// loop being pumped.
	base::TimeDelta initialization_time;

	// Computer has NVIDIA Optimus
	bool optimus;

	// Computer has AMD Dynamic Switchable Graphics
	bool amd_switchable;

	// Lenovo dCute is installed. http://crbug.com/181665.
	bool lenovo_dcute;

	// Version of DisplayLink driver installed. Zero if not installed.
	// http://crbug.com/177611.
	Version display_link_version;

	// Primary GPU, for exmaple, the discrete GPU in a dual GPU machine.
	GPUDevice gpu;

	// Secondary GPUs, for example, the integrated GPU in a dual GPU machine.
	std::vector<GPUDevice> secondary_gpus;

	// On Windows, the unique identifier of the adapter the GPU process uses.
	// The default is zero, which makes the browser process create its D3D device
	// on the primary adapter. Note that the primary adapter can change at any
	// time so it is better to specify a particular LUID. Note that valid LUIDs
	// are always non-zero.
	uint64 adapter_luid;

	// The vendor of the graphics driver currently installed.
	std::string driver_vendor;

	// The version of the graphics driver currently installed.
	std::string driver_version;

	// The date of the graphics driver currently installed.
	std::string driver_date;

	// The version of the pixel/fragment shader used by the gpu.
	std::string pixel_shader_version;

	// The version of the vertex shader used by the gpu.
	std::string vertex_shader_version;

	// The machine model identifier with format "name major.minor".
	// Name should not contain any whitespaces.
	std::string machine_model;

	// The version of OpenGL we are using.
	// TODO(zmo): should be able to tell if it's GL or GLES.
	std::string gl_version;

	// The GL_VERSION string. "" if we are not using OpenGL.
	std::string gl_version_string;

	// The GL_VENDOR string. "" if we are not using OpenGL.
	std::string gl_vendor;

	// The GL_RENDERER string. "" if we are not using OpenGL.
	std::string gl_renderer;

	// The GL_EXTENSIONS string. "" if we are not using OpenGL.
	std::string gl_extensions;

	// GL window system binding vendor. "" if not available.
	std::string gl_ws_vendor;

	// GL window system binding version. "" if not available.
	std::string gl_ws_version;

	// GL window system binding extensions. "" if not available.
	std::string gl_ws_extensions;

	// GL reset notification strategy as defined by GL_ARB_robustness. 0 if GPU
	// reset detection or notification not available.
	uint32 gl_reset_notification_strategy;

	// The device semantics, i.e. whether the Vista and Windows 7 specific
	// semantics are available.
	bool can_lose_context;

	// By default all values are 0.
	GpuPerformanceStats performance_stats;

	bool software_rendering;

	// Whether the gpu process is running in a sandbox.
	bool sandboxed;

	#if defined(OS_WIN)
	// The information returned by the DirectX Diagnostics Tool.
	DxDiagNode dx_diagnostics;
	#endif
	// Note: when adding new members, please remember to update EnumerateFields
	// in gpu_info.cc.

	// In conjunction with EnumerateFields, this allows the embedder to
	// enumerate the values in this structure without having to embed
	// references to its specific member variables. This simplifies the
	// addition of new fields to this type.
	class Enumerator {
	public:
	// The following methods apply to the "current" object. Initially this
	// is the root object, but calls to BeginGPUDevice/EndGPUDevice and
	// BeginAuxAttributes/EndAuxAttributes change the object to which these
	// calls should apply.
	virtual void AddInt64(const char* name, int64 value) = 0;
	virtual void AddInt(const char* name, int value) = 0;
	virtual void AddString(const char* name, const std::string& value) = 0;
	virtual void AddBool(const char* name, bool value) = 0;
	virtual void AddTimeDeltaInSecondsF(const char* name,
	const base::TimeDelta& value) = 0;

	// Markers indicating that a GPUDevice is being described.
	virtual void BeginGPUDevice() = 0;
	virtual void EndGPUDevice() = 0;

	// Markers indicating that "auxiliary" attributes of the GPUInfo
	// (according to the DevTools protocol) are being described.
	virtual void BeginAuxAttributes() = 0;
	virtual void EndAuxAttributes() = 0;

	protected:
	virtual ~Enumerator() {}
	};

	// Outputs the fields in this structure to the provided enumerator.
	void EnumerateFields(Enumerator* enumerator) const;
	};

	} // namespace gpu

	#endif // GPU_CONFIG_GPU_INFO_H_