framework/platform/android/tcuAndroidUtil.cpp - third_party/vulkan-cts - Git at Google

 /*-------------------------------------------------------------------------
  * drawElements Quality Program Tester Core
  * ----------------------------------------
  *
  * Copyright 2014 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  *
  *//*!
  * \file
  * \brief Android utilities.
  *//*--------------------------------------------------------------------*/

 #include "tcuAndroidUtil.hpp"

 #include "deSTLUtil.hpp"
 #include "deMath.h"

 #include <vector>

 namespace tcu
 {
 namespace Android
 {

 using std::string;
 using std::vector;

 namespace
 {

 class ScopedJNIEnv
 {
 public:

 					ScopedJNIEnv	(JavaVM* vm);
 					~ScopedJNIEnv	(void);

 	JavaVM*			getVM			(void) const { return m_vm;		}
 	JNIEnv*			getEnv			(void) const { return m_env;	}

 private:
 	JavaVM* const	m_vm;
 	JNIEnv*			m_env;
 	bool			m_detach;
 };

 ScopedJNIEnv::ScopedJNIEnv (JavaVM* vm)
 	: m_vm		(vm)
 	, m_env		(DE_NULL)
 	, m_detach	(false)
 {
 	const int	getEnvRes	= m_vm->GetEnv((void**)&m_env, JNI_VERSION_1_6);

 	if (getEnvRes == JNI_EDETACHED)
 	{
 		if (m_vm->AttachCurrentThread(&m_env, DE_NULL) != JNI_OK)
 			throw std::runtime_error("JNI AttachCurrentThread() failed");

 		m_detach = true;
 	}
 	else if (getEnvRes != JNI_OK)
 		throw std::runtime_error("JNI GetEnv() failed");

 	DE_ASSERT(m_env);
 }

 ScopedJNIEnv::~ScopedJNIEnv (void)
 {
 	if (m_detach)
 		m_vm->DetachCurrentThread();
 }

 class LocalRef
 {
 public:
 					LocalRef		(JNIEnv* env, jobject ref);
 					~LocalRef		(void);

 	jobject			operator*		(void) const { return m_ref;	}
 	operator		bool			(void) const { return !!m_ref;	}

 private:
 					LocalRef		(const LocalRef&);
 	LocalRef&		operator=		(const LocalRef&);

 	JNIEnv* const	m_env;
 	const jobject	m_ref;
 };

 LocalRef::LocalRef (JNIEnv* env, jobject ref)
 	: m_env(env)
 	, m_ref(ref)
 {
 }

 LocalRef::~LocalRef (void)
 {
 	if (m_ref)
 		m_env->DeleteLocalRef(m_ref);
 }

 void checkException (JNIEnv* env)
 {
 	if (env->ExceptionCheck())
 	{
 		env->ExceptionDescribe();
 		env->ExceptionClear();
 		throw std::runtime_error("Got JNI exception");
 	}
 }

 jclass findClass (JNIEnv* env, const char* className)
 {
 	const jclass	cls		= env->FindClass(className);

 	checkException(env);
 	TCU_CHECK_INTERNAL(cls);

 	return cls;
 }

 jclass getObjectClass (JNIEnv* env, jobject object)
 {
 	const jclass	cls		= env->GetObjectClass(object);

 	checkException(env);
 	TCU_CHECK_INTERNAL(cls);

 	return cls;
 }

 jmethodID getMethodID (JNIEnv* env, jclass cls, const char* methodName, const char* signature)
 {
 	const jmethodID		id		= env->GetMethodID(cls, methodName, signature);

 	checkException(env);
 	TCU_CHECK_INTERNAL(id);

 	return id;
 }

 string getStringValue (JNIEnv* env, jstring jniStr)
 {
 	const char*		ptr		= env->GetStringUTFChars(jniStr, DE_NULL);
 	const string	str		= string(ptr);

 	env->ReleaseStringUTFChars(jniStr, ptr);

 	return str;
 }

 string getIntentStringExtra (JNIEnv* env, jobject activity, const char* name)
 {
 	// \todo [2013-05-12 pyry] Clean up references on error.

 	const jclass	activityCls		= getObjectClass(env, activity);
 	const LocalRef	intent			(env, env->CallObjectMethod(activity, getMethodID(env, activityCls, "getIntent", "()Landroid/content/Intent;")));
 	TCU_CHECK_INTERNAL(intent);

 	const LocalRef	extraName		(env, env->NewStringUTF(name));
 	const jclass	intentCls		= getObjectClass(env, *intent);
 	TCU_CHECK_INTERNAL(extraName && intentCls);

 	jvalue getExtraArgs[1];
 	getExtraArgs[0].l = *extraName;

 	const LocalRef	extraStr		(env, env->CallObjectMethodA(*intent, getMethodID(env, intentCls, "getStringExtra", "(Ljava/lang/String;)Ljava/lang/String;"), getExtraArgs));

 	if (extraStr)
 		return getStringValue(env, (jstring)*extraStr);
 	else
 		return string();
 }

 void setRequestedOrientation (JNIEnv* env, jobject activity, ScreenOrientation orientation)
 {
 	const jclass	activityCls			= getObjectClass(env, activity);
 	const jmethodID	setOrientationId	= getMethodID(env, activityCls, "setRequestedOrientation", "(I)V");

 	env->CallVoidMethod(activity, setOrientationId, (int)orientation);
 }

 template<typename Type>
 const char* getJNITypeStr (void);

 template<>
 const char* getJNITypeStr<int> (void)
 {
 	return "I";
 }

 template<>
 const char* getJNITypeStr<float> (void)
 {
 	return "F";
 }

 template<>
 const char* getJNITypeStr<string> (void)
 {
 	return "Ljava/lang/String;";
 }

 template<>
 const char* getJNITypeStr<vector<string> > (void)
 {
 	return "[Ljava/lang/String;";
 }

 template<typename FieldType>
 FieldType getStaticFieldValue (JNIEnv* env, jclass cls, jfieldID fieldId);

 template<>
 int getStaticFieldValue<int> (JNIEnv* env, jclass cls, jfieldID fieldId)
 {
 	DE_ASSERT(cls && fieldId);
 	return env->GetStaticIntField(cls, fieldId);
 }

 template<>
 string getStaticFieldValue<string> (JNIEnv* env, jclass cls, jfieldID fieldId)
 {
 	const jstring	jniStr	= (jstring)env->GetStaticObjectField(cls, fieldId);

 	if (jniStr)
 		return getStringValue(env, jniStr);
 	else
 		return string();
 }

 template<>
 vector<string> getStaticFieldValue<vector<string> > (JNIEnv* env, jclass cls, jfieldID fieldId)
 {
 	const jobjectArray	array		= (jobjectArray)env->GetStaticObjectField(cls, fieldId);
 	vector<string>		result;

 	checkException(env);

 	if (array)
 	{
 		const int	numElements		= env->GetArrayLength(array);

 		for (int ndx = 0; ndx < numElements; ndx++)
 		{
 			const jstring	jniStr	= (jstring)env->GetObjectArrayElement(array, ndx);

 			checkException(env);

 			if (jniStr)
 				result.push_back(getStringValue(env, jniStr));
 		}
 	}

 	return result;
 }

 template<typename FieldType>
 FieldType getStaticField (JNIEnv* env, const char* className, const char* fieldName)
 {
 	const jclass	cls			= findClass(env, className);
 	const jfieldID	fieldId		= env->GetStaticFieldID(cls, fieldName, getJNITypeStr<FieldType>());

 	checkException(env);

 	if (fieldId)
 		return getStaticFieldValue<FieldType>(env, cls, fieldId);
 	else
 		throw std::runtime_error(string(fieldName) + " not found in " + className);
 }

 template<typename FieldType>
 FieldType getFieldValue (JNIEnv* env, jobject obj, jfieldID fieldId);

 template<>
 int getFieldValue<int> (JNIEnv* env, jobject obj, jfieldID fieldId)
 {
 	DE_ASSERT(obj && fieldId);
 	return env->GetIntField(obj, fieldId);
 }

 template<>
 float getFieldValue<float> (JNIEnv* env, jobject obj, jfieldID fieldId)
 {
 	DE_ASSERT(obj && fieldId);
 	return env->GetFloatField(obj, fieldId);
 }

 template<typename FieldType>
 FieldType getField (JNIEnv* env, jobject obj, const char* fieldName)
 {
 	const jclass	cls			= getObjectClass(env, obj);
 	const jfieldID	fieldId		= env->GetFieldID(cls, fieldName, getJNITypeStr<FieldType>());

 	checkException(env);

 	if (fieldId)
 		return getFieldValue<FieldType>(env, obj, fieldId);
 	else
 		throw std::runtime_error(string(fieldName) + " not found in object");
 }

 void describePlatform (JNIEnv* env, std::ostream& dst)
 {
 	const char* const	buildClass		= "android/os/Build";
 	const char* const	versionClass	= "android/os/Build$VERSION";

 	static const struct
 	{
 		const char*		classPath;
 		const char*		className;
 		const char*		fieldName;
 	} s_stringFields[] =
 	{
 		{ buildClass,	"Build",			"BOARD"			},
 		{ buildClass,	"Build",			"BRAND"			},
 		{ buildClass,	"Build",			"DEVICE"		},
 		{ buildClass,	"Build",			"DISPLAY"		},
 		{ buildClass,	"Build",			"FINGERPRINT"	},
 		{ buildClass,	"Build",			"HARDWARE"		},
 		{ buildClass,	"Build",			"MANUFACTURER"	},
 		{ buildClass,	"Build",			"MODEL"			},
 		{ buildClass,	"Build",			"PRODUCT"		},
 		{ buildClass,	"Build",			"TAGS"			},
 		{ buildClass,	"Build",			"TYPE"			},
 		{ versionClass,	"Build.VERSION",	"RELEASE"		},
 	};

 	for (int ndx = 0; ndx < DE_LENGTH_OF_ARRAY(s_stringFields); ndx++)
 		dst << s_stringFields[ndx].className << "." << s_stringFields[ndx].fieldName
 			<< ": " << getStaticField<string>(env, s_stringFields[ndx].classPath, s_stringFields[ndx].fieldName)
 			<< "\n";

 	dst << "Build.VERSION.SDK_INT: " << getStaticField<int>(env, versionClass, "SDK_INT") << "\n";

 	{
 		const vector<string>	supportedAbis	= getStaticField<vector<string> >(env, buildClass, "SUPPORTED_ABIS");

 		dst << "Build.SUPPORTED_ABIS: ";

 		for (size_t ndx = 0; ndx < supportedAbis.size(); ndx++)
 			dst << (ndx != 0 ? ", " : "") << supportedAbis[ndx];

 		dst << "\n";
 	}
 }

 vector<string> getSupportedABIs (JNIEnv* env)
 {
 	return getStaticField<vector<string> >(env, "android/os/Build", "SUPPORTED_ABIS");
 }

 bool supportsAny64BitABI (JNIEnv* env)
 {
 	const vector<string>	supportedAbis		= getSupportedABIs(env);
 	const char*				known64BitAbis[]	= { "arm64-v8a", "x86_64", "mips64" };

 	for (int ndx = 0; ndx < DE_LENGTH_OF_ARRAY(known64BitAbis); ++ndx)
 	{
 		if (de::contains(supportedAbis.begin(), supportedAbis.end(), string(known64BitAbis[ndx])))
 			return true;
 	}

 	return false;
 }

 bool supportsAny64BitABI (ANativeActivity* activity)
 {
 	const ScopedJNIEnv	env(activity->vm);

 	return supportsAny64BitABI(env.getEnv());
 }

 jobject getPackageManager (JNIEnv* env, jobject activity)
 {
 	const jclass		activityCls		= getObjectClass(env, activity);
 	const jmethodID		getPMID			= getMethodID(env, activityCls, "getPackageManager", "()Landroid/content/pm/PackageManager;");
 	const jobject		packageManager	= env->CallObjectMethod(activity, getPMID);

 	return packageManager;
 }

 bool hasSystemFeature (JNIEnv* env, jobject activity, const char* name)
 {
 	const LocalRef		packageManager	(env, getPackageManager(env, activity));
 	const jclass		pmCls			= getObjectClass(env, *packageManager);
 	const jmethodID		hasFeatureID	= getMethodID(env, pmCls, "hasSystemFeature", "(Ljava/lang/String;)Z");
 	const LocalRef		nameStr			(env, env->NewStringUTF(name));
 	jvalue				callArgs[1];

 	callArgs[0].l = *nameStr;

 	return env->CallBooleanMethodA(*packageManager, hasFeatureID, callArgs) == JNI_TRUE;
 }

 jobject getWindowManager (JNIEnv* env, jobject activity)
 {
 	const jclass		activityCls		= getObjectClass(env, activity);
 	const jmethodID		getWMID			= getMethodID(env, activityCls, "getWindowManager", "()Landroid/view/WindowManager;");
 	const jobject		windowManager	= env->CallObjectMethod(activity, getWMID);

 	return windowManager;
 }

 jobject getDefaultDisplay (JNIEnv* env, jobject windowManager)
 {
 	const jclass		wmClass			= getObjectClass(env, windowManager);
 	const jmethodID		getDisplayID	= getMethodID(env, wmClass, "getDefaultDisplay", "()Landroid/view/Display;");
 	const jobject		display			= env->CallObjectMethod(windowManager, getDisplayID);

 	return display;
 }

 jobject createDisplayMetrics (JNIEnv* env)
 {
 	const jclass		displayMetricsCls	= findClass(env, "android/util/DisplayMetrics");
 	const jmethodID		ctorId				= getMethodID(env, displayMetricsCls, "<init>", "()V");

 	return env->NewObject(displayMetricsCls, ctorId);
 }

 DisplayMetrics getDisplayMetrics (JNIEnv* env, jobject activity)
 {
 	const LocalRef		windowManager		(env, getWindowManager(env, activity));
 	const LocalRef		defaultDisplay		(env, getDefaultDisplay(env, *windowManager));
 	const LocalRef		nativeMetrics		(env, createDisplayMetrics(env));
 	const jclass		displayCls			= getObjectClass(env, *defaultDisplay);
 	const jmethodID		getMetricsID		= getMethodID(env, displayCls, "getMetrics", "(Landroid/util/DisplayMetrics;)V");
 	DisplayMetrics		metrics;

 	{
 		jvalue callArgs[1];
 		callArgs[0].l = *nativeMetrics;

 		env->CallVoidMethodA(*defaultDisplay, getMetricsID, callArgs);
 	}

 	metrics.density			= getField<float>	(env, *nativeMetrics, "density");
 	metrics.densityDpi		= getField<int>		(env, *nativeMetrics, "densityDpi");
 	metrics.scaledDensity	= getField<float>	(env, *nativeMetrics, "scaledDensity");
 	metrics.widthPixels		= getField<int>		(env, *nativeMetrics, "widthPixels");
 	metrics.heightPixels	= getField<int>		(env, *nativeMetrics, "heightPixels");
 	metrics.xdpi			= getField<float>	(env, *nativeMetrics, "xdpi");
 	metrics.ydpi			= getField<float>	(env, *nativeMetrics, "ydpi");

 	return metrics;
 }

 enum ScreenClass
 {
 	SCREEN_CLASS_WEAR	= 0,
 	SCREEN_CLASS_SMALL,
 	SCREEN_CLASS_NORMAL,
 	SCREEN_CLASS_LARGE,
 	SCREEN_CLASS_EXTRA_LARGE,

 	SCREEN_CLASS_LAST
 };

 enum DensityClass
 {
 	DENSITY_CLASS_LDPI		= 120,
 	DENSITY_CLASS_MDPI		= 160,
 	DENSITY_CLASS_TVDPI		= 213,
 	DENSITY_CLASS_HDPI		= 240,
 	DENSITY_CLASS_280DPI	= 280,
 	DENSITY_CLASS_XHDPI		= 320,
 	DENSITY_CLASS_360DPI	= 360,
 	DENSITY_CLASS_400DPI	= 400,
 	DENSITY_CLASS_420DPI	= 420,
 	DENSITY_CLASS_XXHDPI	= 480,
 	DENSITY_CLASS_560DPI	= 560,
 	DENSITY_CLASS_XXXHDPI	= 640,

 	DENSITY_CLASS_INVALID	= -1,
 };

 ScreenClass getScreenClass (const DisplayMetrics& displayMetrics)
 {
 	static const struct
 	{
 		int			minWidthDp;
 		int			minHeightDp;
 		ScreenClass	screenClass;
 	} s_screenClasses[] =
 	{
 		// Must be ordered from largest to smallest
 		{ 960, 720,		SCREEN_CLASS_EXTRA_LARGE	},
 		{ 640, 480,		SCREEN_CLASS_LARGE			},
 		{ 480, 320,		SCREEN_CLASS_NORMAL			},
 		{ 426, 320,		SCREEN_CLASS_SMALL			},
 	};

 	const float		dpScale		= float(displayMetrics.densityDpi) / 160.f;

 	// \note Assume landscape orientation for comparison
 	const int		widthP		= de::max(displayMetrics.widthPixels, displayMetrics.heightPixels);
 	const int		heightP		= de::min(displayMetrics.widthPixels, displayMetrics.heightPixels);

 	const int		widthDp		= deFloorFloatToInt32(float(widthP) / dpScale);
 	const int		heightDp	= deFloorFloatToInt32(float(heightP) / dpScale);

 	for (int ndx = 0; ndx < DE_LENGTH_OF_ARRAY(s_screenClasses); ++ndx)
 	{
 		if ((s_screenClasses[ndx].minWidthDp <= widthDp) &&
 			(s_screenClasses[ndx].minHeightDp <= heightDp))
 			return s_screenClasses[ndx].screenClass;
 	}

 	return SCREEN_CLASS_WEAR;
 }

 bool isValidDensityClass (int dpi)
 {
 	switch (dpi)
 	{
 		case DENSITY_CLASS_LDPI:
 		case DENSITY_CLASS_MDPI:
 		case DENSITY_CLASS_TVDPI:
 		case DENSITY_CLASS_HDPI:
 		case DENSITY_CLASS_280DPI:
 		case DENSITY_CLASS_XHDPI:
 		case DENSITY_CLASS_360DPI:
 		case DENSITY_CLASS_400DPI:
 		case DENSITY_CLASS_420DPI:
 		case DENSITY_CLASS_XXHDPI:
 		case DENSITY_CLASS_560DPI:
 		case DENSITY_CLASS_XXXHDPI:
 			return true;

 		default:
 			return false;
 	}
 }

 DensityClass getDensityClass (const DisplayMetrics& displayMetrics)
 {
 	if (isValidDensityClass(displayMetrics.densityDpi))
 		return (DensityClass)displayMetrics.densityDpi;
 	else
 		return DENSITY_CLASS_INVALID;
 }

 } // anonymous

 ScreenOrientation mapScreenRotation (ScreenRotation rotation)
 {
 	switch (rotation)
 	{
 		case SCREENROTATION_UNSPECIFIED:	return SCREEN_ORIENTATION_UNSPECIFIED;
 		case SCREENROTATION_0:				return SCREEN_ORIENTATION_PORTRAIT;
 		case SCREENROTATION_90:				return SCREEN_ORIENTATION_LANDSCAPE;
 		case SCREENROTATION_180:			return SCREEN_ORIENTATION_REVERSE_PORTRAIT;
 		case SCREENROTATION_270:			return SCREEN_ORIENTATION_REVERSE_LANDSCAPE;
 		default:
 			print("Warning: Unsupported rotation");
 			return SCREEN_ORIENTATION_PORTRAIT;
 	}
 }

 string getIntentStringExtra (ANativeActivity* activity, const char* name)
 {
 	const ScopedJNIEnv	env(activity->vm);

 	return getIntentStringExtra(env.getEnv(), activity->clazz, name);
 }

 void setRequestedOrientation (ANativeActivity* activity, ScreenOrientation orientation)
 {
 	const ScopedJNIEnv	env(activity->vm);

 	setRequestedOrientation(env.getEnv(), activity->clazz, orientation);
 }

 void describePlatform (ANativeActivity* activity, std::ostream& dst)
 {
 	const ScopedJNIEnv	env(activity->vm);

 	describePlatform(env.getEnv(), dst);
 }

 bool hasSystemFeature (ANativeActivity* activity, const char* name)
 {
 	const ScopedJNIEnv	env(activity->vm);

 	return hasSystemFeature(env.getEnv(), activity->clazz, name);
 }

 DisplayMetrics getDisplayMetrics (ANativeActivity* activity)
 {
 	const ScopedJNIEnv	env(activity->vm);

 	return getDisplayMetrics(env.getEnv(), activity->clazz);
 }

 size_t getCDDRequiredSystemMemory (ANativeActivity* activity)
 {
 	const DisplayMetrics	displayMetrics	= getDisplayMetrics(activity);
 	const ScreenClass		screenClass		= getScreenClass(displayMetrics);
 	const bool				isWearDevice	= hasSystemFeature(activity, "android.hardware.type.watch");
 	const bool				is64BitDevice	= supportsAny64BitABI(activity);
 	const size_t			MiB				= (size_t)(1<<20);

 	if (!is64BitDevice)
 		TCU_CHECK_INTERNAL(sizeof(void*) != sizeof(deUint64));

 	if (isWearDevice)
 	{
 		TCU_CHECK_INTERNAL(!is64BitDevice);
 		return 416*MiB;
 	}
 	else
 	{
 		const DensityClass	densityClass	= getDensityClass(displayMetrics);

 		TCU_CHECK_INTERNAL(de::inRange(screenClass, SCREEN_CLASS_SMALL, SCREEN_CLASS_EXTRA_LARGE));
 		TCU_CHECK_INTERNAL(densityClass != DENSITY_CLASS_INVALID);

 		static const struct
 		{
 			DensityClass	smallNormalScreenDensity;
 			DensityClass	largeScreenDensity;
 			DensityClass	extraLargeScreenDensity;
 			size_t			requiredMem32bit;
 			size_t			requiredMem64bit;
 		} s_classes[] =
 		{
 			// Must be ordered from largest to smallest
 			{ DENSITY_CLASS_560DPI,		DENSITY_CLASS_400DPI,	DENSITY_CLASS_XHDPI,	1344*MiB,	1824*MiB	},
 			{ DENSITY_CLASS_400DPI,		DENSITY_CLASS_XHDPI,	DENSITY_CLASS_TVDPI,	896*MiB,	1280*MiB	},
 			{ DENSITY_CLASS_XHDPI,		DENSITY_CLASS_HDPI,		DENSITY_CLASS_MDPI,		512*MiB,	832*MiB		},

 			// \note Last is default, and density values are maximum allowed
 			{ DENSITY_CLASS_280DPI,		DENSITY_CLASS_MDPI,		DENSITY_CLASS_LDPI,		424*MiB,	704*MiB		},
 		};

 		for (int ndx = 0; ndx < DE_LENGTH_OF_ARRAY(s_classes); ++ndx)
 		{
 			const DensityClass	minClass	= screenClass == SCREEN_CLASS_EXTRA_LARGE	? s_classes[ndx].extraLargeScreenDensity
 											: screenClass == SCREEN_CLASS_LARGE			? s_classes[ndx].largeScreenDensity
 											: /* small/normal */						  s_classes[ndx].smallNormalScreenDensity;
 			const size_t		reqMem		= is64BitDevice ? s_classes[ndx].requiredMem64bit : s_classes[ndx].requiredMem32bit;
 			const bool			isLast		= ndx == DE_LENGTH_OF_ARRAY(s_classes)-1;

 			if ((isLast && minClass >= densityClass) || (!isLast && minClass <= densityClass))
 				return reqMem;
 		}

 		TCU_THROW(InternalError, "Invalid combination of density and screen size");
 	}
 }

 } // Android
 } // tcu
	/*-------------------------------------------------------------------------
	* drawElements Quality Program Tester Core
	* ----------------------------------------
	*
	* Copyright 2014 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*
	//!
	* \file
	* \brief Android utilities.
	//--------------------------------------------------------------------*/

	#include "tcuAndroidUtil.hpp"

	#include "deSTLUtil.hpp"
	#include "deMath.h"

	#include <vector>

	namespace tcu
	{
	namespace Android
	{

	using std::string;
	using std::vector;

	namespace
	{

	class ScopedJNIEnv
	{
	public:

	ScopedJNIEnv (JavaVM* vm);
	~ScopedJNIEnv (void);

	JavaVM* getVM (void) const { return m_vm; }
	JNIEnv* getEnv (void) const { return m_env; }

	private:
	JavaVM* const m_vm;
	JNIEnv* m_env;
	bool m_detach;
	};

	ScopedJNIEnv::ScopedJNIEnv (JavaVM* vm)
	: m_vm (vm)
	, m_env (DE_NULL)
	, m_detach (false)
	{
	const int getEnvRes = m_vm->GetEnv((void**)&m_env, JNI_VERSION_1_6);

	if (getEnvRes == JNI_EDETACHED)
	{
	if (m_vm->AttachCurrentThread(&m_env, DE_NULL) != JNI_OK)
	throw std::runtime_error("JNI AttachCurrentThread() failed");

	m_detach = true;
	}
	else if (getEnvRes != JNI_OK)
	throw std::runtime_error("JNI GetEnv() failed");

	DE_ASSERT(m_env);
	}

	ScopedJNIEnv::~ScopedJNIEnv (void)
	{
	if (m_detach)
	m_vm->DetachCurrentThread();
	}

	class LocalRef
	{
	public:
	LocalRef (JNIEnv* env, jobject ref);
	~LocalRef (void);

	jobject operator* (void) const { return m_ref; }
	operator bool (void) const { return !!m_ref; }

	private:
	LocalRef (const LocalRef&);
	LocalRef& operator= (const LocalRef&);

	JNIEnv* const m_env;
	const jobject m_ref;
	};

	LocalRef::LocalRef (JNIEnv* env, jobject ref)
	: m_env(env)
	, m_ref(ref)
	{
	}

	LocalRef::~LocalRef (void)
	{
	if (m_ref)
	m_env->DeleteLocalRef(m_ref);
	}

	void checkException (JNIEnv* env)
	{
	if (env->ExceptionCheck())
	{
	env->ExceptionDescribe();
	env->ExceptionClear();
	throw std::runtime_error("Got JNI exception");
	}
	}

	jclass findClass (JNIEnv* env, const char* className)
	{
	const jclass cls = env->FindClass(className);

	checkException(env);
	TCU_CHECK_INTERNAL(cls);

	return cls;
	}

	jclass getObjectClass (JNIEnv* env, jobject object)
	{
	const jclass cls = env->GetObjectClass(object);

	checkException(env);
	TCU_CHECK_INTERNAL(cls);

	return cls;
	}

	jmethodID getMethodID (JNIEnv* env, jclass cls, const char* methodName, const char* signature)
	{
	const jmethodID id = env->GetMethodID(cls, methodName, signature);

	checkException(env);
	TCU_CHECK_INTERNAL(id);

	return id;
	}

	string getStringValue (JNIEnv* env, jstring jniStr)
	{
	const char* ptr = env->GetStringUTFChars(jniStr, DE_NULL);
	const string str = string(ptr);

	env->ReleaseStringUTFChars(jniStr, ptr);

	return str;
	}

	string getIntentStringExtra (JNIEnv* env, jobject activity, const char* name)
	{
	// \todo [2013-05-12 pyry] Clean up references on error.

	const jclass activityCls = getObjectClass(env, activity);
	const LocalRef intent (env, env->CallObjectMethod(activity, getMethodID(env, activityCls, "getIntent", "()Landroid/content/Intent;")));
	TCU_CHECK_INTERNAL(intent);

	const LocalRef extraName (env, env->NewStringUTF(name));
	const jclass intentCls = getObjectClass(env, *intent);
	TCU_CHECK_INTERNAL(extraName && intentCls);

	jvalue getExtraArgs[1];
	getExtraArgs[0].l = *extraName;

	const LocalRef extraStr (env, env->CallObjectMethodA(*intent, getMethodID(env, intentCls, "getStringExtra", "(Ljava/lang/String;)Ljava/lang/String;"), getExtraArgs));

	if (extraStr)
	return getStringValue(env, (jstring)*extraStr);
	else
	return string();
	}

	void setRequestedOrientation (JNIEnv* env, jobject activity, ScreenOrientation orientation)
	{
	const jclass activityCls = getObjectClass(env, activity);
	const jmethodID setOrientationId = getMethodID(env, activityCls, "setRequestedOrientation", "(I)V");

	env->CallVoidMethod(activity, setOrientationId, (int)orientation);
	}

	template<typename Type>
	const char* getJNITypeStr (void);

	template<>
	const char* getJNITypeStr<int> (void)
	{
	return "I";
	}

	template<>
	const char* getJNITypeStr<float> (void)
	{
	return "F";
	}

	template<>
	const char* getJNITypeStr<string> (void)
	{
	return "Ljava/lang/String;";
	}

	template<>
	const char* getJNITypeStr<vector<string> > (void)
	{
	return "[Ljava/lang/String;";
	}

	template<typename FieldType>
	FieldType getStaticFieldValue (JNIEnv* env, jclass cls, jfieldID fieldId);

	template<>
	int getStaticFieldValue<int> (JNIEnv* env, jclass cls, jfieldID fieldId)
	{
	DE_ASSERT(cls && fieldId);
	return env->GetStaticIntField(cls, fieldId);
	}

	template<>
	string getStaticFieldValue<string> (JNIEnv* env, jclass cls, jfieldID fieldId)
	{
	const jstring jniStr = (jstring)env->GetStaticObjectField(cls, fieldId);

	if (jniStr)
	return getStringValue(env, jniStr);
	else
	return string();
	}

	template<>
	vector<string> getStaticFieldValue<vector<string> > (JNIEnv* env, jclass cls, jfieldID fieldId)
	{
	const jobjectArray array = (jobjectArray)env->GetStaticObjectField(cls, fieldId);
	vector<string> result;

	checkException(env);

	if (array)
	{
	const int numElements = env->GetArrayLength(array);

	for (int ndx = 0; ndx < numElements; ndx++)
	{
	const jstring jniStr = (jstring)env->GetObjectArrayElement(array, ndx);

	checkException(env);

	if (jniStr)
	result.push_back(getStringValue(env, jniStr));
	}
	}

	return result;
	}

	template<typename FieldType>
	FieldType getStaticField (JNIEnv* env, const char* className, const char* fieldName)
	{
	const jclass cls = findClass(env, className);
	const jfieldID fieldId = env->GetStaticFieldID(cls, fieldName, getJNITypeStr<FieldType>());

	checkException(env);

	if (fieldId)
	return getStaticFieldValue<FieldType>(env, cls, fieldId);
	else
	throw std::runtime_error(string(fieldName) + " not found in " + className);
	}

	template<typename FieldType>
	FieldType getFieldValue (JNIEnv* env, jobject obj, jfieldID fieldId);

	template<>
	int getFieldValue<int> (JNIEnv* env, jobject obj, jfieldID fieldId)
	{
	DE_ASSERT(obj && fieldId);
	return env->GetIntField(obj, fieldId);
	}

	template<>
	float getFieldValue<float> (JNIEnv* env, jobject obj, jfieldID fieldId)
	{
	DE_ASSERT(obj && fieldId);
	return env->GetFloatField(obj, fieldId);
	}

	template<typename FieldType>
	FieldType getField (JNIEnv* env, jobject obj, const char* fieldName)
	{
	const jclass cls = getObjectClass(env, obj);
	const jfieldID fieldId = env->GetFieldID(cls, fieldName, getJNITypeStr<FieldType>());

	checkException(env);

	if (fieldId)
	return getFieldValue<FieldType>(env, obj, fieldId);
	else
	throw std::runtime_error(string(fieldName) + " not found in object");
	}

	void describePlatform (JNIEnv* env, std::ostream& dst)
	{
	const char* const buildClass = "android/os/Build";
	const char* const versionClass = "android/os/Build$VERSION";

	static const struct
	{
	const char* classPath;
	const char* className;
	const char* fieldName;
	} s_stringFields[] =
	{
	{ buildClass, "Build", "BOARD" },
	{ buildClass, "Build", "BRAND" },
	{ buildClass, "Build", "DEVICE" },
	{ buildClass, "Build", "DISPLAY" },
	{ buildClass, "Build", "FINGERPRINT" },
	{ buildClass, "Build", "HARDWARE" },
	{ buildClass, "Build", "MANUFACTURER" },
	{ buildClass, "Build", "MODEL" },
	{ buildClass, "Build", "PRODUCT" },
	{ buildClass, "Build", "TAGS" },
	{ buildClass, "Build", "TYPE" },
	{ versionClass, "Build.VERSION", "RELEASE" },
	};

	for (int ndx = 0; ndx < DE_LENGTH_OF_ARRAY(s_stringFields); ndx++)
	dst << s_stringFields[ndx].className << "." << s_stringFields[ndx].fieldName
	<< ": " << getStaticField<string>(env, s_stringFields[ndx].classPath, s_stringFields[ndx].fieldName)
	<< "\n";

	dst << "Build.VERSION.SDK_INT: " << getStaticField<int>(env, versionClass, "SDK_INT") << "\n";

	{
	const vector<string> supportedAbis = getStaticField<vector<string> >(env, buildClass, "SUPPORTED_ABIS");

	dst << "Build.SUPPORTED_ABIS: ";

	for (size_t ndx = 0; ndx < supportedAbis.size(); ndx++)
	dst << (ndx != 0 ? ", " : "") << supportedAbis[ndx];

	dst << "\n";
	}
	}

	vector<string> getSupportedABIs (JNIEnv* env)
	{
	return getStaticField<vector<string> >(env, "android/os/Build", "SUPPORTED_ABIS");
	}

	bool supportsAny64BitABI (JNIEnv* env)
	{
	const vector<string> supportedAbis = getSupportedABIs(env);
	const char* known64BitAbis[] = { "arm64-v8a", "x86_64", "mips64" };

	for (int ndx = 0; ndx < DE_LENGTH_OF_ARRAY(known64BitAbis); ++ndx)
	{
	if (de::contains(supportedAbis.begin(), supportedAbis.end(), string(known64BitAbis[ndx])))
	return true;
	}

	return false;
	}

	bool supportsAny64BitABI (ANativeActivity* activity)
	{
	const ScopedJNIEnv env(activity->vm);

	return supportsAny64BitABI(env.getEnv());
	}

	jobject getPackageManager (JNIEnv* env, jobject activity)
	{
	const jclass activityCls = getObjectClass(env, activity);
	const jmethodID getPMID = getMethodID(env, activityCls, "getPackageManager", "()Landroid/content/pm/PackageManager;");
	const jobject packageManager = env->CallObjectMethod(activity, getPMID);

	return packageManager;
	}

	bool hasSystemFeature (JNIEnv* env, jobject activity, const char* name)
	{
	const LocalRef packageManager (env, getPackageManager(env, activity));
	const jclass pmCls = getObjectClass(env, *packageManager);
	const jmethodID hasFeatureID = getMethodID(env, pmCls, "hasSystemFeature", "(Ljava/lang/String;)Z");
	const LocalRef nameStr (env, env->NewStringUTF(name));
	jvalue callArgs[1];

	callArgs[0].l = *nameStr;

	return env->CallBooleanMethodA(*packageManager, hasFeatureID, callArgs) == JNI_TRUE;
	}

	jobject getWindowManager (JNIEnv* env, jobject activity)
	{
	const jclass activityCls = getObjectClass(env, activity);
	const jmethodID getWMID = getMethodID(env, activityCls, "getWindowManager", "()Landroid/view/WindowManager;");
	const jobject windowManager = env->CallObjectMethod(activity, getWMID);

	return windowManager;
	}

	jobject getDefaultDisplay (JNIEnv* env, jobject windowManager)
	{
	const jclass wmClass = getObjectClass(env, windowManager);
	const jmethodID getDisplayID = getMethodID(env, wmClass, "getDefaultDisplay", "()Landroid/view/Display;");
	const jobject display = env->CallObjectMethod(windowManager, getDisplayID);

	return display;
	}

	jobject createDisplayMetrics (JNIEnv* env)
	{
	const jclass displayMetricsCls = findClass(env, "android/util/DisplayMetrics");
	const jmethodID ctorId = getMethodID(env, displayMetricsCls, "<init>", "()V");

	return env->NewObject(displayMetricsCls, ctorId);
	}

	DisplayMetrics getDisplayMetrics (JNIEnv* env, jobject activity)
	{
	const LocalRef windowManager (env, getWindowManager(env, activity));
	const LocalRef defaultDisplay (env, getDefaultDisplay(env, *windowManager));
	const LocalRef nativeMetrics (env, createDisplayMetrics(env));
	const jclass displayCls = getObjectClass(env, *defaultDisplay);
	const jmethodID getMetricsID = getMethodID(env, displayCls, "getMetrics", "(Landroid/util/DisplayMetrics;)V");
	DisplayMetrics metrics;

	{
	jvalue callArgs[1];
	callArgs[0].l = *nativeMetrics;

	env->CallVoidMethodA(*defaultDisplay, getMetricsID, callArgs);
	}

	metrics.density = getField<float> (env, *nativeMetrics, "density");
	metrics.densityDpi = getField<int> (env, *nativeMetrics, "densityDpi");
	metrics.scaledDensity = getField<float> (env, *nativeMetrics, "scaledDensity");
	metrics.widthPixels = getField<int> (env, *nativeMetrics, "widthPixels");
	metrics.heightPixels = getField<int> (env, *nativeMetrics, "heightPixels");
	metrics.xdpi = getField<float> (env, *nativeMetrics, "xdpi");
	metrics.ydpi = getField<float> (env, *nativeMetrics, "ydpi");

	return metrics;
	}

	enum ScreenClass
	{
	SCREEN_CLASS_WEAR = 0,
	SCREEN_CLASS_SMALL,
	SCREEN_CLASS_NORMAL,
	SCREEN_CLASS_LARGE,
	SCREEN_CLASS_EXTRA_LARGE,

	SCREEN_CLASS_LAST
	};

	enum DensityClass
	{
	DENSITY_CLASS_LDPI = 120,
	DENSITY_CLASS_MDPI = 160,
	DENSITY_CLASS_TVDPI = 213,
	DENSITY_CLASS_HDPI = 240,
	DENSITY_CLASS_280DPI = 280,
	DENSITY_CLASS_XHDPI = 320,
	DENSITY_CLASS_360DPI = 360,
	DENSITY_CLASS_400DPI = 400,
	DENSITY_CLASS_420DPI = 420,
	DENSITY_CLASS_XXHDPI = 480,
	DENSITY_CLASS_560DPI = 560,
	DENSITY_CLASS_XXXHDPI = 640,

	DENSITY_CLASS_INVALID = -1,
	};

	ScreenClass getScreenClass (const DisplayMetrics& displayMetrics)
	{
	static const struct
	{
	int minWidthDp;
	int minHeightDp;
	ScreenClass screenClass;
	} s_screenClasses[] =
	{
	// Must be ordered from largest to smallest
	{ 960, 720, SCREEN_CLASS_EXTRA_LARGE },
	{ 640, 480, SCREEN_CLASS_LARGE },
	{ 480, 320, SCREEN_CLASS_NORMAL },
	{ 426, 320, SCREEN_CLASS_SMALL },
	};

	const float dpScale = float(displayMetrics.densityDpi) / 160.f;

	// \note Assume landscape orientation for comparison
	const int widthP = de::max(displayMetrics.widthPixels, displayMetrics.heightPixels);
	const int heightP = de::min(displayMetrics.widthPixels, displayMetrics.heightPixels);

	const int widthDp = deFloorFloatToInt32(float(widthP) / dpScale);
	const int heightDp = deFloorFloatToInt32(float(heightP) / dpScale);

	for (int ndx = 0; ndx < DE_LENGTH_OF_ARRAY(s_screenClasses); ++ndx)
	{
	if ((s_screenClasses[ndx].minWidthDp <= widthDp) &&
	(s_screenClasses[ndx].minHeightDp <= heightDp))
	return s_screenClasses[ndx].screenClass;
	}

	return SCREEN_CLASS_WEAR;
	}

	bool isValidDensityClass (int dpi)
	{
	switch (dpi)
	{
	case DENSITY_CLASS_LDPI:
	case DENSITY_CLASS_MDPI:
	case DENSITY_CLASS_TVDPI:
	case DENSITY_CLASS_HDPI:
	case DENSITY_CLASS_280DPI:
	case DENSITY_CLASS_XHDPI:
	case DENSITY_CLASS_360DPI:
	case DENSITY_CLASS_400DPI:
	case DENSITY_CLASS_420DPI:
	case DENSITY_CLASS_XXHDPI:
	case DENSITY_CLASS_560DPI:
	case DENSITY_CLASS_XXXHDPI:
	return true;

	default:
	return false;
	}
	}

	DensityClass getDensityClass (const DisplayMetrics& displayMetrics)
	{
	if (isValidDensityClass(displayMetrics.densityDpi))
	return (DensityClass)displayMetrics.densityDpi;
	else
	return DENSITY_CLASS_INVALID;
	}

	} // anonymous

	ScreenOrientation mapScreenRotation (ScreenRotation rotation)
	{
	switch (rotation)
	{
	case SCREENROTATION_UNSPECIFIED: return SCREEN_ORIENTATION_UNSPECIFIED;
	case SCREENROTATION_0: return SCREEN_ORIENTATION_PORTRAIT;
	case SCREENROTATION_90: return SCREEN_ORIENTATION_LANDSCAPE;
	case SCREENROTATION_180: return SCREEN_ORIENTATION_REVERSE_PORTRAIT;
	case SCREENROTATION_270: return SCREEN_ORIENTATION_REVERSE_LANDSCAPE;
	default:
	print("Warning: Unsupported rotation");
	return SCREEN_ORIENTATION_PORTRAIT;
	}
	}

	string getIntentStringExtra (ANativeActivity* activity, const char* name)
	{
	const ScopedJNIEnv env(activity->vm);

	return getIntentStringExtra(env.getEnv(), activity->clazz, name);
	}

	void setRequestedOrientation (ANativeActivity* activity, ScreenOrientation orientation)
	{
	const ScopedJNIEnv env(activity->vm);

	setRequestedOrientation(env.getEnv(), activity->clazz, orientation);
	}

	void describePlatform (ANativeActivity* activity, std::ostream& dst)
	{
	const ScopedJNIEnv env(activity->vm);

	describePlatform(env.getEnv(), dst);
	}

	bool hasSystemFeature (ANativeActivity* activity, const char* name)
	{
	const ScopedJNIEnv env(activity->vm);

	return hasSystemFeature(env.getEnv(), activity->clazz, name);
	}

	DisplayMetrics getDisplayMetrics (ANativeActivity* activity)
	{
	const ScopedJNIEnv env(activity->vm);

	return getDisplayMetrics(env.getEnv(), activity->clazz);
	}

	size_t getCDDRequiredSystemMemory (ANativeActivity* activity)
	{
	const DisplayMetrics displayMetrics = getDisplayMetrics(activity);
	const ScreenClass screenClass = getScreenClass(displayMetrics);
	const bool isWearDevice = hasSystemFeature(activity, "android.hardware.type.watch");
	const bool is64BitDevice = supportsAny64BitABI(activity);
	const size_t MiB = (size_t)(1<<20);

	if (!is64BitDevice)
	TCU_CHECK_INTERNAL(sizeof(void*) != sizeof(deUint64));

	if (isWearDevice)
	{
	TCU_CHECK_INTERNAL(!is64BitDevice);
	return 416*MiB;
	}
	else
	{
	const DensityClass densityClass = getDensityClass(displayMetrics);

	TCU_CHECK_INTERNAL(de::inRange(screenClass, SCREEN_CLASS_SMALL, SCREEN_CLASS_EXTRA_LARGE));
	TCU_CHECK_INTERNAL(densityClass != DENSITY_CLASS_INVALID);

	static const struct
	{
	DensityClass smallNormalScreenDensity;
	DensityClass largeScreenDensity;
	DensityClass extraLargeScreenDensity;
	size_t requiredMem32bit;
	size_t requiredMem64bit;
	} s_classes[] =
	{
	// Must be ordered from largest to smallest
	{ DENSITY_CLASS_560DPI, DENSITY_CLASS_400DPI, DENSITY_CLASS_XHDPI, 1344MiB, 1824MiB },
	{ DENSITY_CLASS_400DPI, DENSITY_CLASS_XHDPI, DENSITY_CLASS_TVDPI, 896MiB, 1280MiB },
	{ DENSITY_CLASS_XHDPI, DENSITY_CLASS_HDPI, DENSITY_CLASS_MDPI, 512MiB, 832MiB },

	// \note Last is default, and density values are maximum allowed
	{ DENSITY_CLASS_280DPI, DENSITY_CLASS_MDPI, DENSITY_CLASS_LDPI, 424MiB, 704MiB },
	};

	for (int ndx = 0; ndx < DE_LENGTH_OF_ARRAY(s_classes); ++ndx)
	{
	const DensityClass minClass = screenClass == SCREEN_CLASS_EXTRA_LARGE ? s_classes[ndx].extraLargeScreenDensity
	: screenClass == SCREEN_CLASS_LARGE ? s_classes[ndx].largeScreenDensity
	: /* small/normal */ s_classes[ndx].smallNormalScreenDensity;
	const size_t reqMem = is64BitDevice ? s_classes[ndx].requiredMem64bit : s_classes[ndx].requiredMem32bit;
	const bool isLast = ndx == DE_LENGTH_OF_ARRAY(s_classes)-1;

	if ((isLast && minClass >= densityClass) \|\| (!isLast && minClass <= densityClass))
	return reqMem;
	}

	TCU_THROW(InternalError, "Invalid combination of density and screen size");
	}
	}

	} // Android
	} // tcu