Common/MVKOSExtensions.h - external/github.com/KhronosGroup/MoltenVK - Git at Google

 /*
  * MVKOSExtensions.h
  *
  * Copyright (c) 2015-2022 The Brenwill Workshop Ltd. (http://www.brenwill.com)
  *
  * 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.
  */

 #pragma once

 #include "MVKCommonEnvironment.h"
 #include <dispatch/dispatch.h>
 #include <string>
 #include <limits>


 typedef float MVKOSVersion;

 /*** Constant indicating unsupported functionality in an OS. */
 static const MVKOSVersion kMVKOSVersionUnsupported = std::numeric_limits<MVKOSVersion>::max();

 /**
  * Returns the operating system version as an MVKOSVersion, which is a float in which the
  * whole number portion indicates the major version, and the fractional portion indicates
  * the minor and patch versions, associating 2 decimal places to each.
  * - (10.12.3) => 10.1203
  * - (8.0.2) => 8.0002
  */
 MVKOSVersion mvkOSVersion();

 /** Returns a MVKOSVersion built from the version components. */
 inline MVKOSVersion mvkMakeOSVersion(uint32_t major, uint32_t minor, uint32_t patch) {
 	return (float)major + ((float)minor / 100.0f) + ((float)patch / 10000.0f);
 }

 /** Returns whether the operating system version is at least minVer. */
 inline bool mvkOSVersionIsAtLeast(MVKOSVersion minVer) { return mvkOSVersion() >= minVer; }

 /**
  * Returns whether the operating system version is at least the appropriate min version.
  * The constant kMVKOSVersionUnsupported can be used for either value to cause the test
  * to always fail on that OS, which is useful for indidicating functionalty guarded by
  * this test is not supported on that OS.
  */
 inline bool mvkOSVersionIsAtLeast(MVKOSVersion macOSMinVer, MVKOSVersion iOSMinVer) {
 #if MVK_MACOS
 	return mvkOSVersionIsAtLeast(macOSMinVer);
 #endif
 #if MVK_IOS_OR_TVOS
 	return mvkOSVersionIsAtLeast(iOSMinVer);
 #endif
 }

 /**
  * Returns a monotonic timestamp value for use in Vulkan and performance timestamping.
  *
  * The returned value corresponds to the number of CPU "ticks" since the app was initialized.
  *
  * Calling this value twice, subtracting the first value from the second, and then multiplying
  * the result by the value returned by mvkGetTimestampPeriod() will provide an indication of the
  * number of nanoseconds between the two calls. The convenience function mvkGetElapsedMilliseconds()
  * can be used to perform this calculation.
  */
 uint64_t mvkGetTimestamp();

 /** Returns the number of nanoseconds between each increment of the value returned by mvkGetTimestamp(). */
 double mvkGetTimestampPeriod();

 /**
  * Returns the number of milliseconds elapsed between startTimestamp and endTimestamp,
  * each of which should be a value returned by mvkGetTimestamp().
  * If endTimestamp is zero or not supplied, it is taken to be the current time.
  * If startTimestamp is zero or not supplied, it is taken to be the time the app was initialized.
  */
 double mvkGetElapsedMilliseconds(uint64_t startTimestamp = 0, uint64_t endTimestamp = 0);

 /** Ensures the block is executed on the main thread. */
 void mvkDispatchToMainAndWait(dispatch_block_t block);


 #pragma mark -
 #pragma mark Process environment

 /**
  * Returns the value of the environment variable at the given name,
  * or an empty string if no environment variable with that name exists.
  *
  * If pWasFound is not null, its value is set to true if the environment
  * variable exists, or false if not.
  */
 std::string mvkGetEnvVar(std::string varName, bool* pWasFound = nullptr);

 /**
  * Returns the value of the environment variable at the given name,
  * or zero if no environment variable with that name exists.
  *
  * If pWasFound is not null, its value is set to true if the environment
  * variable exists, or false if not.
  */
 int64_t mvkGetEnvVarInt64(std::string varName, bool* pWasFound = nullptr);

 /**
  * Returns the value of the environment variable at the given name,
  * or false if no environment variable with that name exists.
  *
  * If pWasFound is not null, its value is set to true if the environment
  * variable exists, or false if not.
  */
 bool mvkGetEnvVarBool(std::string varName, bool* pWasFound = nullptr);

 #define MVK_SET_FROM_ENV_OR_BUILD_BOOL(cfgVal, EV)				\
 	do {														\
 		bool wasFound = false;									\
 		bool ev = mvkGetEnvVarBool(#EV, &wasFound);				\
 		cfgVal = wasFound ? ev : EV;							\
 	} while(false)

 #define MVK_SET_FROM_ENV_OR_BUILD_INT64(cfgVal, EV)				\
 	do {														\
 		bool wasFound = false;									\
 		int64_t ev = mvkGetEnvVarInt64(#EV, &wasFound);			\
 		cfgVal = wasFound ? ev : EV;							\
 	} while(false)

 // Pointer cast permits cfgVal to be an enum var
 #define MVK_SET_FROM_ENV_OR_BUILD_INT32(cfgVal, EV)				\
 	do {														\
 		bool wasFound = false;									\
 		int64_t ev = mvkGetEnvVarInt64(#EV, &wasFound);			\
 		int64_t val = wasFound ? ev : EV;						\
 		*(int32_t*)&cfgVal = (int32_t)std::min(std::max(val, (int64_t)INT32_MIN), (int64_t)INT32_MAX);	\
 	} while(false)

 #define MVK_SET_FROM_ENV_OR_BUILD_STRING(cfgVal, EV, strObj)	\
 	do {														\
 		bool wasFound = false;									\
 		std::string ev = mvkGetEnvVar(#EV, &wasFound);			\
 		strObj = wasFound ? std::move(ev) : EV;					\
 		cfgVal = strObj.c_str();								\
 	} while(false)


 #pragma mark -
 #pragma mark System memory

 /** Returns the total amount of physical RAM in the system. */
 uint64_t mvkGetSystemMemorySize();

 /** Returns the amount of memory available to this process. */
 uint64_t mvkGetAvailableMemorySize();

 /** Returns the amount of memory currently used by this process. */
 uint64_t mvkGetUsedMemorySize();
	/*
	* MVKOSExtensions.h
	*
	* Copyright (c) 2015-2022 The Brenwill Workshop Ltd. (http://www.brenwill.com)
	*
	* 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.
	*/

	#pragma once

	#include "MVKCommonEnvironment.h"
	#include <dispatch/dispatch.h>
	#include <string>
	#include <limits>


	typedef float MVKOSVersion;

	/*** Constant indicating unsupported functionality in an OS. */
	static const MVKOSVersion kMVKOSVersionUnsupported = std::numeric_limits<MVKOSVersion>::max();

	/**
	* Returns the operating system version as an MVKOSVersion, which is a float in which the
	* whole number portion indicates the major version, and the fractional portion indicates
	* the minor and patch versions, associating 2 decimal places to each.
	* - (10.12.3) => 10.1203
	* - (8.0.2) => 8.0002
	*/
	MVKOSVersion mvkOSVersion();

	/** Returns a MVKOSVersion built from the version components. */
	inline MVKOSVersion mvkMakeOSVersion(uint32_t major, uint32_t minor, uint32_t patch) {
	return (float)major + ((float)minor / 100.0f) + ((float)patch / 10000.0f);
	}

	/** Returns whether the operating system version is at least minVer. */
	inline bool mvkOSVersionIsAtLeast(MVKOSVersion minVer) { return mvkOSVersion() >= minVer; }

	/**
	* Returns whether the operating system version is at least the appropriate min version.
	* The constant kMVKOSVersionUnsupported can be used for either value to cause the test
	* to always fail on that OS, which is useful for indidicating functionalty guarded by
	* this test is not supported on that OS.
	*/
	inline bool mvkOSVersionIsAtLeast(MVKOSVersion macOSMinVer, MVKOSVersion iOSMinVer) {
	#if MVK_MACOS
	return mvkOSVersionIsAtLeast(macOSMinVer);
	#endif
	#if MVK_IOS_OR_TVOS
	return mvkOSVersionIsAtLeast(iOSMinVer);
	#endif
	}

	/**
	* Returns a monotonic timestamp value for use in Vulkan and performance timestamping.
	*
	* The returned value corresponds to the number of CPU "ticks" since the app was initialized.
	*
	* Calling this value twice, subtracting the first value from the second, and then multiplying
	* the result by the value returned by mvkGetTimestampPeriod() will provide an indication of the
	* number of nanoseconds between the two calls. The convenience function mvkGetElapsedMilliseconds()
	* can be used to perform this calculation.
	*/
	uint64_t mvkGetTimestamp();

	/** Returns the number of nanoseconds between each increment of the value returned by mvkGetTimestamp(). */
	double mvkGetTimestampPeriod();

	/**
	* Returns the number of milliseconds elapsed between startTimestamp and endTimestamp,
	* each of which should be a value returned by mvkGetTimestamp().
	* If endTimestamp is zero or not supplied, it is taken to be the current time.
	* If startTimestamp is zero or not supplied, it is taken to be the time the app was initialized.
	*/
	double mvkGetElapsedMilliseconds(uint64_t startTimestamp = 0, uint64_t endTimestamp = 0);

	/** Ensures the block is executed on the main thread. */
	void mvkDispatchToMainAndWait(dispatch_block_t block);


	#pragma mark -
	#pragma mark Process environment

	/**
	* Returns the value of the environment variable at the given name,
	* or an empty string if no environment variable with that name exists.
	*
	* If pWasFound is not null, its value is set to true if the environment
	* variable exists, or false if not.
	*/
	std::string mvkGetEnvVar(std::string varName, bool* pWasFound = nullptr);

	/**
	* Returns the value of the environment variable at the given name,
	* or zero if no environment variable with that name exists.
	*
	* If pWasFound is not null, its value is set to true if the environment
	* variable exists, or false if not.
	*/
	int64_t mvkGetEnvVarInt64(std::string varName, bool* pWasFound = nullptr);

	/**
	* Returns the value of the environment variable at the given name,
	* or false if no environment variable with that name exists.
	*
	* If pWasFound is not null, its value is set to true if the environment
	* variable exists, or false if not.
	*/
	bool mvkGetEnvVarBool(std::string varName, bool* pWasFound = nullptr);

	#define MVK_SET_FROM_ENV_OR_BUILD_BOOL(cfgVal, EV) \
	do { \
	bool wasFound = false; \
	bool ev = mvkGetEnvVarBool(#EV, &wasFound); \
	cfgVal = wasFound ? ev : EV; \
	} while(false)

	#define MVK_SET_FROM_ENV_OR_BUILD_INT64(cfgVal, EV) \
	do { \
	bool wasFound = false; \
	int64_t ev = mvkGetEnvVarInt64(#EV, &wasFound); \
	cfgVal = wasFound ? ev : EV; \
	} while(false)

	// Pointer cast permits cfgVal to be an enum var
	#define MVK_SET_FROM_ENV_OR_BUILD_INT32(cfgVal, EV) \
	do { \
	bool wasFound = false; \
	int64_t ev = mvkGetEnvVarInt64(#EV, &wasFound); \
	int64_t val = wasFound ? ev : EV; \
	(int32_t)&cfgVal = (int32_t)std::min(std::max(val, (int64_t)INT32_MIN), (int64_t)INT32_MAX); \
	} while(false)

	#define MVK_SET_FROM_ENV_OR_BUILD_STRING(cfgVal, EV, strObj) \
	do { \
	bool wasFound = false; \
	std::string ev = mvkGetEnvVar(#EV, &wasFound); \
	strObj = wasFound ? std::move(ev) : EV; \
	cfgVal = strObj.c_str(); \
	} while(false)


	#pragma mark -
	#pragma mark System memory

	/** Returns the total amount of physical RAM in the system. */
	uint64_t mvkGetSystemMemorySize();

	/** Returns the amount of memory available to this process. */
	uint64_t mvkGetAvailableMemorySize();

	/** Returns the amount of memory currently used by this process. */
	uint64_t mvkGetUsedMemorySize();