lwjgl-vma-3.3.3.jar
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package org.lwjgl.util.vma;
import java.nio.ByteBuffer;
import java.nio.IntBuffer;
import java.nio.LongBuffer;
import javax.annotation.Nullable;
import org.lwjgl.PointerBuffer;
import org.lwjgl.system.Checks;
import org.lwjgl.system.MemoryStack;
import org.lwjgl.system.MemoryUtil;
import org.lwjgl.system.NativeType;
import org.lwjgl.vulkan.VkBufferCreateInfo;
import org.lwjgl.vulkan.VkImageCreateInfo;
import org.lwjgl.vulkan.VkMemoryRequirements;
public class Vma {
public static final int VMA_ALLOCATOR_CREATE_EXTERNALLY_SYNCHRONIZED_BIT = 1;
public static final int VMA_ALLOCATOR_CREATE_KHR_DEDICATED_ALLOCATION_BIT = 2;
public static final int VMA_ALLOCATOR_CREATE_KHR_BIND_MEMORY2_BIT = 4;
public static final int VMA_ALLOCATOR_CREATE_EXT_MEMORY_BUDGET_BIT = 8;
public static final int VMA_ALLOCATOR_CREATE_AMD_DEVICE_COHERENT_MEMORY_BIT = 16;
public static final int VMA_ALLOCATOR_CREATE_BUFFER_DEVICE_ADDRESS_BIT = 32;
public static final int VMA_ALLOCATOR_CREATE_EXT_MEMORY_PRIORITY_BIT = 64;
public static final int VMA_MEMORY_USAGE_UNKNOWN = 0;
public static final int VMA_MEMORY_USAGE_GPU_ONLY = 1;
public static final int VMA_MEMORY_USAGE_CPU_ONLY = 2;
public static final int VMA_MEMORY_USAGE_CPU_TO_GPU = 3;
public static final int VMA_MEMORY_USAGE_GPU_TO_CPU = 4;
public static final int VMA_MEMORY_USAGE_CPU_COPY = 5;
public static final int VMA_MEMORY_USAGE_GPU_LAZILY_ALLOCATED = 6;
public static final int VMA_MEMORY_USAGE_AUTO = 7;
public static final int VMA_MEMORY_USAGE_AUTO_PREFER_DEVICE = 8;
public static final int VMA_MEMORY_USAGE_AUTO_PREFER_HOST = 9;
public static final int VMA_ALLOCATION_CREATE_DEDICATED_MEMORY_BIT = 1;
public static final int VMA_ALLOCATION_CREATE_NEVER_ALLOCATE_BIT = 2;
public static final int VMA_ALLOCATION_CREATE_MAPPED_BIT = 4;
public static final int VMA_ALLOCATION_CREATE_USER_DATA_COPY_STRING_BIT = 32;
public static final int VMA_ALLOCATION_CREATE_UPPER_ADDRESS_BIT = 64;
public static final int VMA_ALLOCATION_CREATE_DONT_BIND_BIT = 128;
public static final int VMA_ALLOCATION_CREATE_WITHIN_BUDGET_BIT = 256;
public static final int VMA_ALLOCATION_CREATE_CAN_ALIAS_BIT = 512;
public static final int VMA_ALLOCATION_CREATE_HOST_ACCESS_SEQUENTIAL_WRITE_BIT = 1024;
public static final int VMA_ALLOCATION_CREATE_HOST_ACCESS_RANDOM_BIT = 2048;
public static final int VMA_ALLOCATION_CREATE_HOST_ACCESS_ALLOW_TRANSFER_INSTEAD_BIT = 4096;
public static final int VMA_ALLOCATION_CREATE_STRATEGY_MIN_MEMORY_BIT = 65536;
public static final int VMA_ALLOCATION_CREATE_STRATEGY_MIN_TIME_BIT = 131072;
public static final int VMA_ALLOCATION_CREATE_STRATEGY_MIN_OFFSET_BIT = 262144;
public static final int VMA_ALLOCATION_CREATE_STRATEGY_BEST_FIT_BIT = 65536;
public static final int VMA_VMA_ALLOCATION_CREATE_STRATEGY_FIRST_FIT_BIT = 131072;
public static final int VMA_ALLOCATION_CREATE_STRATEGY_MASK = 458752;
public static final int VMA_POOL_CREATE_IGNORE_BUFFER_IMAGE_GRANULARITY_BIT = 2;
public static final int VMA_POOL_CREATE_LINEAR_ALGORITHM_BIT = 4;
public static final int VMA_POOL_CREATE_ALGORITHM_MASK = 4;
public static final int VMA_DEFRAGMENTATION_FLAG_ALGORITHM_FAST_BIT = 1;
public static final int VMA_DEFRAGMENTATION_FLAG_ALGORITHM_BALANCED_BIT = 2;
public static final int VMA_DEFRAGMENTATION_FLAG_ALGORITHM_FULL_BIT = 4;
public static final int VMA_DEFRAGMENTATION_FLAG_ALGORITHM_EXTENSIVE_BIT = 8;
public static final int VMA_DEFRAGMENTATION_FLAG_ALGORITHM_MASK = 15;
public static final int VMA_DEFRAGMENTATION_MOVE_OPERATION_COPY = 0;
public static final int VMA_DEFRAGMENTATION_MOVE_OPERATION_IGNORE = 1;
public static final int VMA_DEFRAGMENTATION_MOVE_OPERATION_DESTROY = 2;
public static final int VMA_VIRTUAL_BLOCK_CREATE_LINEAR_ALGORITHM_BIT = 1;
public static final int VMA_VIRTUAL_BLOCK_CREATE_ALGORITHM_MASK = 1;
public static final int VMA_VIRTUAL_ALLOCATION_CREATE_UPPER_ADDRESS_BIT = 64;
public static final int VMA_VIRTUAL_ALLOCATION_CREATE_STRATEGY_MIN_MEMORY_BIT = 65536;
public static final int VMA_VIRTUAL_ALLOCATION_CREATE_STRATEGY_MIN_TIME_BIT = 131072;
public static final int VMA_VIRTUAL_ALLOCATION_CREATE_STRATEGY_MIN_OFFSET_BIT = 262144;
public static final int VMA_VIRTUAL_ALLOCATION_CREATE_STRATEGY_MASK = 458752;
protected Vma() {
throw new UnsupportedOperationException();
}
public static native int nvmaCreateAllocator(long var0, long var2);
@NativeType("VkResult")
public static int vmaCreateAllocator(@NativeType("VmaAllocatorCreateInfo const *") VmaAllocatorCreateInfo pCreateInfo, @NativeType("VmaAllocator *") PointerBuffer pAllocator) {
if (Checks.CHECKS) {
Checks.check(pAllocator, 1);
VmaAllocatorCreateInfo.validate(pCreateInfo.address());
}
return nvmaCreateAllocator(pCreateInfo.address(), MemoryUtil.memAddress(pAllocator));
}
public static native void nvmaDestroyAllocator(long var0);
public static void vmaDestroyAllocator(@NativeType("VmaAllocator") long allocator) {
if (Checks.CHECKS) {
Checks.check(allocator);
}
nvmaDestroyAllocator(allocator);
}
public static native void nvmaGetAllocatorInfo(long var0, long var2);
public static void vmaGetAllocatorInfo(@NativeType("VmaAllocator") long allocator, @NativeType("VmaAllocatorInfo *") VmaAllocatorInfo pAllocatorInfo) {
if (Checks.CHECKS) {
Checks.check(allocator);
}
nvmaGetAllocatorInfo(allocator, pAllocatorInfo.address());
}
public static native void nvmaGetPhysicalDeviceProperties(long var0, long var2);
public static void vmaGetPhysicalDeviceProperties(@NativeType("VmaAllocator") long allocator, @NativeType("VkPhysicalDeviceProperties const **") PointerBuffer ppPhysicalDeviceProperties) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(ppPhysicalDeviceProperties, 1);
}
nvmaGetPhysicalDeviceProperties(allocator, MemoryUtil.memAddress(ppPhysicalDeviceProperties));
}
public static native void nvmaGetMemoryProperties(long var0, long var2);
public static void vmaGetMemoryProperties(@NativeType("VmaAllocator") long allocator, @NativeType("VkPhysicalDeviceMemoryProperties const **") PointerBuffer ppPhysicalDeviceMemoryProperties) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(ppPhysicalDeviceMemoryProperties, 1);
}
nvmaGetMemoryProperties(allocator, MemoryUtil.memAddress(ppPhysicalDeviceMemoryProperties));
}
public static native void nvmaGetMemoryTypeProperties(long var0, int var2, long var3);
public static void vmaGetMemoryTypeProperties(@NativeType("VmaAllocator") long allocator, @NativeType("uint32_t") int memoryTypeIndex, @NativeType("VkMemoryPropertyFlags *") IntBuffer pFlags) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(pFlags, 1);
}
nvmaGetMemoryTypeProperties(allocator, memoryTypeIndex, MemoryUtil.memAddress(pFlags));
}
public static native void nvmaSetCurrentFrameIndex(long var0, int var2);
public static void vmaSetCurrentFrameIndex(@NativeType("VmaAllocator") long allocator, @NativeType("uint32_t") int frameIndex) {
if (Checks.CHECKS) {
Checks.check(allocator);
}
nvmaSetCurrentFrameIndex(allocator, frameIndex);
}
public static native void nvmaCalculateStatistics(long var0, long var2);
public static void vmaCalculateStatistics(@NativeType("VmaAllocator") long allocator, @NativeType("VmaTotalStatistics *") VmaTotalStatistics pStats) {
if (Checks.CHECKS) {
Checks.check(allocator);
}
nvmaCalculateStatistics(allocator, pStats.address());
}
public static native void nvmaGetHeapBudgets(long var0, long var2);
public static void vmaGetHeapBudgets(@NativeType("VmaAllocator") long allocator, @NativeType("VmaBudget *") VmaBudget.Buffer pBudget) {
if (Checks.CHECKS) {
Checks.check(allocator);
}
nvmaGetHeapBudgets(allocator, pBudget.address());
}
public static native int nvmaFindMemoryTypeIndex(long var0, int var2, long var3, long var5);
@NativeType("VkResult")
public static int vmaFindMemoryTypeIndex(@NativeType("VmaAllocator") long allocator, @NativeType("uint32_t") int memoryTypeBits, @NativeType("VmaAllocationCreateInfo const *") VmaAllocationCreateInfo pAllocationCreateInfo, @NativeType("uint32_t *") IntBuffer pMemoryTypeIndex) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(pMemoryTypeIndex, 1);
}
return nvmaFindMemoryTypeIndex(allocator, memoryTypeBits, pAllocationCreateInfo.address(), MemoryUtil.memAddress(pMemoryTypeIndex));
}
public static native int nvmaFindMemoryTypeIndexForBufferInfo(long var0, long var2, long var4, long var6);
@NativeType("VkResult")
public static int vmaFindMemoryTypeIndexForBufferInfo(@NativeType("VmaAllocator") long allocator, @NativeType("VkBufferCreateInfo const *") VkBufferCreateInfo pBufferCreateInfo, @NativeType("VmaAllocationCreateInfo const *") VmaAllocationCreateInfo pAllocationCreateInfo, @NativeType("uint32_t *") IntBuffer pMemoryTypeIndex) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(pMemoryTypeIndex, 1);
}
return nvmaFindMemoryTypeIndexForBufferInfo(allocator, pBufferCreateInfo.address(), pAllocationCreateInfo.address(), MemoryUtil.memAddress(pMemoryTypeIndex));
}
public static native int nvmaFindMemoryTypeIndexForImageInfo(long var0, long var2, long var4, long var6);
@NativeType("VkResult")
public static int vmaFindMemoryTypeIndexForImageInfo(@NativeType("VmaAllocator") long allocator, @NativeType("VkImageCreateInfo const *") VkImageCreateInfo pImageCreateInfo, @NativeType("VmaAllocationCreateInfo const *") VmaAllocationCreateInfo pAllocationCreateInfo, @NativeType("uint32_t *") IntBuffer pMemoryTypeIndex) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(pMemoryTypeIndex, 1);
}
return nvmaFindMemoryTypeIndexForImageInfo(allocator, pImageCreateInfo.address(), pAllocationCreateInfo.address(), MemoryUtil.memAddress(pMemoryTypeIndex));
}
public static native int nvmaCreatePool(long var0, long var2, long var4);
@NativeType("VkResult")
public static int vmaCreatePool(@NativeType("VmaAllocator") long allocator, @NativeType("VmaPoolCreateInfo const *") VmaPoolCreateInfo pCreateInfo, @NativeType("VmaPool *") PointerBuffer pPool) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(pPool, 1);
}
return nvmaCreatePool(allocator, pCreateInfo.address(), MemoryUtil.memAddress(pPool));
}
public static native void nvmaDestroyPool(long var0, long var2);
public static void vmaDestroyPool(@NativeType("VmaAllocator") long allocator, @NativeType("VmaPool") long pool) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(pool);
}
nvmaDestroyPool(allocator, pool);
}
public static native void nvmaGetPoolStatistics(long var0, long var2, long var4);
public static void vmaGetPoolStatistics(@NativeType("VmaAllocator") long allocator, @NativeType("VmaPool") long pool, @NativeType("VmaStatistics *") VmaStatistics pPoolStats) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(pool);
}
nvmaGetPoolStatistics(allocator, pool, pPoolStats.address());
}
public static native void nvmaCalculatePoolStatistics(long var0, long var2, long var4);
public static void vmaCalculatePoolStatistics(@NativeType("VmaAllocator") long allocator, @NativeType("VmaPool") long pool, @NativeType("VmaDetailedStatistics *") VmaDetailedStatistics pPoolStats) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(pool);
}
nvmaCalculatePoolStatistics(allocator, pool, pPoolStats.address());
}
public static native int nvmaCheckPoolCorruption(long var0, long var2);
@NativeType("VkResult")
public static int vmaCheckPoolCorruption(@NativeType("VmaAllocator") long allocator, @NativeType("VmaPool") long pool) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(pool);
}
return nvmaCheckPoolCorruption(allocator, pool);
}
public static native void nvmaGetPoolName(long var0, long var2, long var4);
public static void vmaGetPoolName(@NativeType("VmaAllocator") long allocator, @NativeType("VmaPool") long pool, @NativeType("char const **") PointerBuffer ppName) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(pool);
Checks.check(ppName, 1);
}
nvmaGetPoolName(allocator, pool, MemoryUtil.memAddress(ppName));
}
public static native void nvmaSetPoolName(long var0, long var2, long var4);
public static void vmaSetPoolName(@NativeType("VmaAllocator") long allocator, @NativeType("VmaPool") long pool, @Nullable @NativeType("char const *") ByteBuffer pName) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(pool);
Checks.checkNT1Safe(pName);
}
nvmaSetPoolName(allocator, pool, MemoryUtil.memAddressSafe(pName));
}
public static void vmaSetPoolName(@NativeType("VmaAllocator") long allocator, @NativeType("VmaPool") long pool, @Nullable @NativeType("char const *") CharSequence pName) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(pool);
}
MemoryStack stack = MemoryStack.stackGet();
int stackPointer = stack.getPointer();
try {
stack.nASCIISafe(pName, true);
long pNameEncoded = pName == null ? 0L : stack.getPointerAddress();
nvmaSetPoolName(allocator, pool, pNameEncoded);
} finally {
stack.setPointer(stackPointer);
}
}
public static native int nvmaAllocateMemory(long var0, long var2, long var4, long var6, long var8);
@NativeType("VkResult")
public static int vmaAllocateMemory(@NativeType("VmaAllocator") long allocator, @NativeType("VkMemoryRequirements const *") VkMemoryRequirements pVkMemoryRequirements, @NativeType("VmaAllocationCreateInfo const *") VmaAllocationCreateInfo pCreateInfo, @NativeType("VmaAllocation *") PointerBuffer pAllocation, @Nullable @NativeType("VmaAllocationInfo *") VmaAllocationInfo pAllocationInfo) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(pAllocation, 1);
}
return nvmaAllocateMemory(allocator, pVkMemoryRequirements.address(), pCreateInfo.address(), MemoryUtil.memAddress(pAllocation), MemoryUtil.memAddressSafe(pAllocationInfo));
}
public static native int nvmaAllocateMemoryPages(long var0, long var2, long var4, long var6, long var8, long var10);
@NativeType("VkResult")
public static int vmaAllocateMemoryPages(@NativeType("VmaAllocator") long allocator, @NativeType("VkMemoryRequirements const *") VkMemoryRequirements pVkMemoryRequirements, @NativeType("VmaAllocationCreateInfo const *") VmaAllocationCreateInfo pCreateInfo, @NativeType("VmaAllocation *") PointerBuffer pAllocations, @Nullable @NativeType("VmaAllocationInfo *") VmaAllocationInfo.Buffer pAllocationInfo) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.checkSafe(pAllocationInfo, pAllocations.remaining());
Checks.check(pAllocations, 1);
}
return nvmaAllocateMemoryPages(allocator, pVkMemoryRequirements.address(), pCreateInfo.address(), (long)pAllocations.remaining(), MemoryUtil.memAddress(pAllocations), MemoryUtil.memAddressSafe(pAllocationInfo));
}
public static native int nvmaAllocateMemoryForBuffer(long var0, long var2, long var4, long var6, long var8);
@NativeType("VkResult")
public static int vmaAllocateMemoryForBuffer(@NativeType("VmaAllocator") long allocator, @NativeType("VkBuffer") long buffer, @NativeType("VmaAllocationCreateInfo const *") VmaAllocationCreateInfo pCreateInfo, @NativeType("VmaAllocation *") PointerBuffer pAllocation, @Nullable @NativeType("VmaAllocationInfo *") VmaAllocationInfo pAllocationInfo) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(pAllocation, 1);
}
return nvmaAllocateMemoryForBuffer(allocator, buffer, pCreateInfo.address(), MemoryUtil.memAddress(pAllocation), MemoryUtil.memAddressSafe(pAllocationInfo));
}
public static native int nvmaAllocateMemoryForImage(long var0, long var2, long var4, long var6, long var8);
@NativeType("VkResult")
public static int vmaAllocateMemoryForImage(@NativeType("VmaAllocator") long allocator, @NativeType("VkImage") long image, @NativeType("VmaAllocationCreateInfo const *") VmaAllocationCreateInfo pCreateInfo, @NativeType("VmaAllocation *") PointerBuffer pAllocation, @Nullable @NativeType("VmaAllocationInfo *") VmaAllocationInfo pAllocationInfo) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(pAllocation, 1);
}
return nvmaAllocateMemoryForImage(allocator, image, pCreateInfo.address(), MemoryUtil.memAddress(pAllocation), MemoryUtil.memAddressSafe(pAllocationInfo));
}
public static native void nvmaFreeMemory(long var0, long var2);
public static void vmaFreeMemory(@NativeType("VmaAllocator") long allocator, @NativeType("VmaAllocation const") long allocation) {
if (Checks.CHECKS) {
Checks.check(allocator);
}
nvmaFreeMemory(allocator, allocation);
}
public static native void nvmaFreeMemoryPages(long var0, long var2, long var4);
public static void vmaFreeMemoryPages(@NativeType("VmaAllocator") long allocator, @NativeType("VmaAllocation const *") PointerBuffer pAllocations) {
if (Checks.CHECKS) {
Checks.check(allocator);
}
nvmaFreeMemoryPages(allocator, (long)pAllocations.remaining(), MemoryUtil.memAddress(pAllocations));
}
public static native void nvmaGetAllocationInfo(long var0, long var2, long var4);
public static void vmaGetAllocationInfo(@NativeType("VmaAllocator") long allocator, @NativeType("VmaAllocation") long allocation, @NativeType("VmaAllocationInfo *") VmaAllocationInfo pAllocationInfo) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(allocation);
}
nvmaGetAllocationInfo(allocator, allocation, pAllocationInfo.address());
}
public static native void nvmaSetAllocationUserData(long var0, long var2, long var4);
public static void vmaSetAllocationUserData(@NativeType("VmaAllocator") long allocator, @NativeType("VmaAllocation") long allocation, @NativeType("void *") long pUserData) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(allocation);
}
nvmaSetAllocationUserData(allocator, allocation, pUserData);
}
public static native void nvmaSetAllocationName(long var0, long var2, long var4);
public static void vmaSetAllocationName(@NativeType("VmaAllocator") long allocator, @NativeType("VmaAllocation") long allocation, @Nullable @NativeType("char const *") ByteBuffer pName) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(allocation);
Checks.checkNT1Safe(pName);
}
nvmaSetAllocationName(allocator, allocation, MemoryUtil.memAddressSafe(pName));
}
public static void vmaSetAllocationName(@NativeType("VmaAllocator") long allocator, @NativeType("VmaAllocation") long allocation, @Nullable @NativeType("char const *") CharSequence pName) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(allocation);
}
MemoryStack stack = MemoryStack.stackGet();
int stackPointer = stack.getPointer();
try {
stack.nUTF8Safe(pName, true);
long pNameEncoded = pName == null ? 0L : stack.getPointerAddress();
nvmaSetAllocationName(allocator, allocation, pNameEncoded);
} finally {
stack.setPointer(stackPointer);
}
}
public static native void nvmaGetAllocationMemoryProperties(long var0, long var2, long var4);
public static void vmaGetAllocationMemoryProperties(@NativeType("VmaAllocator") long allocator, @NativeType("VmaAllocation") long allocation, @NativeType("VkMemoryPropertyFlags *") IntBuffer pFlags) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(allocation);
Checks.check(pFlags, 1);
}
nvmaGetAllocationMemoryProperties(allocator, allocation, MemoryUtil.memAddress(pFlags));
}
public static native int nvmaMapMemory(long var0, long var2, long var4);
@NativeType("VkResult")
public static int vmaMapMemory(@NativeType("VmaAllocator") long allocator, @NativeType("VmaAllocation") long allocation, @NativeType("void **") PointerBuffer ppData) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(allocation);
Checks.check(ppData, 1);
}
return nvmaMapMemory(allocator, allocation, MemoryUtil.memAddress(ppData));
}
public static native void nvmaUnmapMemory(long var0, long var2);
public static void vmaUnmapMemory(@NativeType("VmaAllocator") long allocator, @NativeType("VmaAllocation") long allocation) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(allocation);
}
nvmaUnmapMemory(allocator, allocation);
}
public static native void nvmaFlushAllocation(long var0, long var2, long var4, long var6);
public static void vmaFlushAllocation(@NativeType("VmaAllocator") long allocator, @NativeType("VmaAllocation") long allocation, @NativeType("VkDeviceSize") long offset, @NativeType("VkDeviceSize") long size) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(allocation);
}
nvmaFlushAllocation(allocator, allocation, offset, size);
}
public static native void nvmaInvalidateAllocation(long var0, long var2, long var4, long var6);
public static void vmaInvalidateAllocation(@NativeType("VmaAllocator") long allocator, @NativeType("VmaAllocation") long allocation, @NativeType("VkDeviceSize") long offset, @NativeType("VkDeviceSize") long size) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(allocation);
}
nvmaInvalidateAllocation(allocator, allocation, offset, size);
}
public static native int nvmaFlushAllocations(long var0, int var2, long var3, long var5, long var7);
@NativeType("VkResult")
public static int vmaFlushAllocations(@NativeType("VmaAllocator") long allocator, @NativeType("VmaAllocation const *") PointerBuffer allocations, @Nullable @NativeType("VkDeviceSize const *") LongBuffer offsets, @Nullable @NativeType("VkDeviceSize const *") LongBuffer sizes) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.checkSafe(offsets, allocations.remaining());
Checks.checkSafe(sizes, allocations.remaining());
}
return nvmaFlushAllocations(allocator, allocations.remaining(), MemoryUtil.memAddress(allocations), MemoryUtil.memAddressSafe(offsets), MemoryUtil.memAddressSafe(sizes));
}
public static native int nvmaInvalidateAllocations(long var0, int var2, long var3, long var5, long var7);
@NativeType("VkResult")
public static int vmaInvalidateAllocations(@NativeType("VmaAllocator") long allocator, @NativeType("VmaAllocation const *") PointerBuffer allocations, @Nullable @NativeType("VkDeviceSize const *") LongBuffer offsets, @Nullable @NativeType("VkDeviceSize const *") LongBuffer sizes) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.checkSafe(offsets, allocations.remaining());
Checks.checkSafe(sizes, allocations.remaining());
}
return nvmaInvalidateAllocations(allocator, allocations.remaining(), MemoryUtil.memAddress(allocations), MemoryUtil.memAddressSafe(offsets), MemoryUtil.memAddressSafe(sizes));
}
public static native int nvmaCheckCorruption(long var0, int var2);
@NativeType("VkResult")
public static int vmaCheckCorruption(@NativeType("VmaAllocator") long allocator, @NativeType("uint32_t") int memoryTypeBits) {
if (Checks.CHECKS) {
Checks.check(allocator);
}
return nvmaCheckCorruption(allocator, memoryTypeBits);
}
public static native int nvmaBeginDefragmentation(long var0, long var2, long var4);
@NativeType("VkResult")
public static int vmaBeginDefragmentation(@NativeType("VmaAllocator") long allocator, @NativeType("VmaDefragmentationInfo const *") VmaDefragmentationInfo pInfo, @NativeType("VmaDefragmentationContext *") PointerBuffer pContext) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(pContext, 1);
}
return nvmaBeginDefragmentation(allocator, pInfo.address(), MemoryUtil.memAddress(pContext));
}
public static native void nvmaEndDefragmentation(long var0, long var2, long var4);
public static void vmaEndDefragmentation(@NativeType("VmaAllocator") long allocator, @NativeType("VmaDefragmentationContext") long context, @Nullable @NativeType("VmaDefragmentationStats *") VmaDefragmentationStats pStats) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(context);
}
nvmaEndDefragmentation(allocator, context, MemoryUtil.memAddressSafe(pStats));
}
public static native int nvmaBeginDefragmentationPass(long var0, long var2, long var4);
@NativeType("VkResult")
public static int vmaBeginDefragmentationPass(@NativeType("VmaAllocator") long allocator, @NativeType("VmaDefragmentationContext") long context, @NativeType("VmaDefragmentationPassMoveInfo *") VmaDefragmentationPassMoveInfo pInfo) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(context);
}
return nvmaBeginDefragmentationPass(allocator, context, pInfo.address());
}
public static native int nvmaEndDefragmentationPass(long var0, long var2, long var4);
@NativeType("VkResult")
public static int vmaEndDefragmentationPass(@NativeType("VmaAllocator") long allocator, @NativeType("VmaDefragmentationContext") long context, @NativeType("VmaDefragmentationPassMoveInfo *") VmaDefragmentationPassMoveInfo pPassInfo) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(context);
}
return nvmaEndDefragmentationPass(allocator, context, pPassInfo.address());
}
public static native int nvmaBindBufferMemory(long var0, long var2, long var4);
@NativeType("VkResult")
public static int vmaBindBufferMemory(@NativeType("VmaAllocator") long allocator, @NativeType("VmaAllocation") long allocation, @NativeType("VkBuffer") long buffer) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(allocation);
}
return nvmaBindBufferMemory(allocator, allocation, buffer);
}
public static native int nvmaBindBufferMemory2(long var0, long var2, long var4, long var6, long var8);
@NativeType("VkResult")
public static int vmaBindBufferMemory2(@NativeType("VmaAllocator") long allocator, @NativeType("VmaAllocation") long allocation, @NativeType("VkDeviceSize") long allocationLocalOffset, @NativeType("VkBuffer") long buffer, @NativeType("void const *") long pNext) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(allocation);
}
return nvmaBindBufferMemory2(allocator, allocation, allocationLocalOffset, buffer, pNext);
}
public static native int nvmaBindImageMemory(long var0, long var2, long var4);
@NativeType("VkResult")
public static int vmaBindImageMemory(@NativeType("VmaAllocator") long allocator, @NativeType("VmaAllocation") long allocation, @NativeType("VkImage") long image) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(allocation);
}
return nvmaBindImageMemory(allocator, allocation, image);
}
public static native int nvmaBindImageMemory2(long var0, long var2, long var4, long var6, long var8);
@NativeType("VkResult")
public static int vmaBindImageMemory2(@NativeType("VmaAllocator") long allocator, @NativeType("VmaAllocation") long allocation, @NativeType("VkDeviceSize") long allocationLocalOffset, @NativeType("VkImage") long image, @NativeType("void const *") long pNext) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(allocation);
}
return nvmaBindImageMemory2(allocator, allocation, allocationLocalOffset, image, pNext);
}
public static native int nvmaCreateBuffer(long var0, long var2, long var4, long var6, long var8, long var10);
@NativeType("VkResult")
public static int vmaCreateBuffer(@NativeType("VmaAllocator") long allocator, @NativeType("VkBufferCreateInfo const *") VkBufferCreateInfo pBufferCreateInfo, @NativeType("VmaAllocationCreateInfo const *") VmaAllocationCreateInfo pAllocationCreateInfo, @NativeType("VkBuffer *") LongBuffer pBuffer, @NativeType("VmaAllocation *") PointerBuffer pAllocation, @Nullable @NativeType("VmaAllocationInfo *") VmaAllocationInfo pAllocationInfo) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(pBuffer, 1);
Checks.check(pAllocation, 1);
}
return nvmaCreateBuffer(allocator, pBufferCreateInfo.address(), pAllocationCreateInfo.address(), MemoryUtil.memAddress(pBuffer), MemoryUtil.memAddress(pAllocation), MemoryUtil.memAddressSafe(pAllocationInfo));
}
public static native int nvmaCreateBufferWithAlignment(long var0, long var2, long var4, long var6, long var8, long var10, long var12);
@NativeType("VkResult")
public static int vmaCreateBufferWithAlignment(@NativeType("VmaAllocator") long allocator, @NativeType("VkBufferCreateInfo const *") VkBufferCreateInfo pBufferCreateInfo, @NativeType("VmaAllocationCreateInfo const *") VmaAllocationCreateInfo pAllocationCreateInfo, @NativeType("VkDeviceSize") long minAlignment, @NativeType("VkBuffer *") LongBuffer pBuffer, @NativeType("VmaAllocation *") PointerBuffer pAllocation, @Nullable @NativeType("VmaAllocationInfo *") VmaAllocationInfo pAllocationInfo) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(pBuffer, 1);
Checks.check(pAllocation, 1);
}
return nvmaCreateBufferWithAlignment(allocator, pBufferCreateInfo.address(), pAllocationCreateInfo.address(), minAlignment, MemoryUtil.memAddress(pBuffer), MemoryUtil.memAddress(pAllocation), MemoryUtil.memAddressSafe(pAllocationInfo));
}
public static native int nvmaCreateAliasingBuffer(long var0, long var2, long var4, long var6);
@NativeType("VkResult")
public static int vmaCreateAliasingBuffer(@NativeType("VmaAllocator") long allocator, @NativeType("VmaAllocation") long allocation, @NativeType("VkBufferCreateInfo const *") VkBufferCreateInfo pBufferCreateInfo, @NativeType("VkBuffer *") LongBuffer pBuffer) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(allocation);
Checks.check(pBuffer, 1);
}
return nvmaCreateAliasingBuffer(allocator, allocation, pBufferCreateInfo.address(), MemoryUtil.memAddress(pBuffer));
}
public static native int nvmaCreateAliasingBuffer2(long var0, long var2, long var4, long var6, long var8);
@NativeType("VkResult")
public static int vmaCreateAliasingBuffer2(@NativeType("VmaAllocator") long allocator, @NativeType("VmaAllocation") long allocation, @NativeType("VkDeviceSize") long allocationLocalOffset, @NativeType("VkBufferCreateInfo const *") VkBufferCreateInfo pBufferCreateInfo, @NativeType("VkBuffer *") LongBuffer pBuffer) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(allocation);
Checks.check(pBuffer, 1);
}
return nvmaCreateAliasingBuffer2(allocator, allocation, allocationLocalOffset, pBufferCreateInfo.address(), MemoryUtil.memAddress(pBuffer));
}
public static native void nvmaDestroyBuffer(long var0, long var2, long var4);
public static void vmaDestroyBuffer(@NativeType("VmaAllocator") long allocator, @NativeType("VkBuffer") long buffer, @NativeType("VmaAllocation") long allocation) {
if (Checks.CHECKS) {
Checks.check(allocator);
}
nvmaDestroyBuffer(allocator, buffer, allocation);
}
public static native int nvmaCreateImage(long var0, long var2, long var4, long var6, long var8, long var10);
@NativeType("VkResult")
public static int vmaCreateImage(@NativeType("VmaAllocator") long allocator, @NativeType("VkImageCreateInfo const *") VkImageCreateInfo pImageCreateInfo, @NativeType("VmaAllocationCreateInfo const *") VmaAllocationCreateInfo pAllocationCreateInfo, @NativeType("VkImage *") LongBuffer pImage, @NativeType("VmaAllocation *") PointerBuffer pAllocation, @Nullable @NativeType("VmaAllocationInfo *") VmaAllocationInfo pAllocationInfo) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(pImage, 1);
Checks.check(pAllocation, 1);
}
return nvmaCreateImage(allocator, pImageCreateInfo.address(), pAllocationCreateInfo.address(), MemoryUtil.memAddress(pImage), MemoryUtil.memAddress(pAllocation), MemoryUtil.memAddressSafe(pAllocationInfo));
}
public static native int nvmaCreateAliasingImage(long var0, long var2, long var4, long var6);
@NativeType("VkResult")
public static int vmaCreateAliasingImage(@NativeType("VmaAllocator") long allocator, @NativeType("VmaAllocation") long allocation, @NativeType("VkImageCreateInfo const *") VkImageCreateInfo pImageCreateInfo, @NativeType("VkImage *") LongBuffer pImage) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(allocation);
Checks.check(pImage, 1);
}
return nvmaCreateAliasingImage(allocator, allocation, pImageCreateInfo.address(), MemoryUtil.memAddress(pImage));
}
public static native int nvmaCreateAliasingImage2(long var0, long var2, long var4, long var6, long var8);
@NativeType("VkResult")
public static int vmaCreateAliasingImage2(@NativeType("VmaAllocator") long allocator, @NativeType("VmaAllocation") long allocation, @NativeType("VkDeviceSize") long allocationLocalOffset, @NativeType("VkImageCreateInfo const *") VkImageCreateInfo pImageCreateInfo, @NativeType("VkImage *") LongBuffer pImage) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(allocation);
Checks.check(pImage, 1);
}
return nvmaCreateAliasingImage2(allocator, allocation, allocationLocalOffset, pImageCreateInfo.address(), MemoryUtil.memAddress(pImage));
}
public static native void nvmaDestroyImage(long var0, long var2, long var4);
public static void vmaDestroyImage(@NativeType("VmaAllocator") long allocator, @NativeType("VkImage") long image, @NativeType("VmaAllocation") long allocation) {
if (Checks.CHECKS) {
Checks.check(allocator);
}
nvmaDestroyImage(allocator, image, allocation);
}
public static native int nvmaCreateVirtualBlock(long var0, long var2);
@NativeType("VkResult")
public static int vmaCreateVirtualBlock(@NativeType("VmaVirtualBlockCreateInfo const *") VmaVirtualBlockCreateInfo pCreateInfo, @NativeType("VmaVirtualBlock *") PointerBuffer pVirtualBlock) {
if (Checks.CHECKS) {
Checks.check(pVirtualBlock, 1);
}
return nvmaCreateVirtualBlock(pCreateInfo.address(), MemoryUtil.memAddress(pVirtualBlock));
}
public static native void nvmaDestroyVirtualBlock(long var0);
public static void vmaDestroyVirtualBlock(@NativeType("VmaVirtualBlock") long virtualBlock) {
if (Checks.CHECKS) {
Checks.check(virtualBlock);
}
nvmaDestroyVirtualBlock(virtualBlock);
}
public static native int nvmaIsVirtualBlockEmpty(long var0);
@NativeType("VkBool32")
public static boolean vmaIsVirtualBlockEmpty(@NativeType("VmaVirtualBlock") long virtualBlock) {
if (Checks.CHECKS) {
Checks.check(virtualBlock);
}
return nvmaIsVirtualBlockEmpty(virtualBlock) != 0;
}
public static native void nvmaGetVirtualAllocationInfo(long var0, long var2, long var4);
public static void vmaGetVirtualAllocationInfo(@NativeType("VmaVirtualBlock") long virtualBlock, @NativeType("VmaVirtualAllocation") long allocation, @NativeType("VmaVirtualAllocationInfo *") VmaVirtualAllocationInfo pVirtualAllocInfo) {
if (Checks.CHECKS) {
Checks.check(virtualBlock);
Checks.check(allocation);
}
nvmaGetVirtualAllocationInfo(virtualBlock, allocation, pVirtualAllocInfo.address());
}
public static native int nvmaVirtualAllocate(long var0, long var2, long var4, long var6);
@NativeType("VkResult")
public static int vmaVirtualAllocate(@NativeType("VmaVirtualBlock") long virtualBlock, @NativeType("VmaVirtualAllocationCreateInfo const *") VmaVirtualAllocationCreateInfo pCreateInfo, @NativeType("VmaVirtualAllocation *") PointerBuffer pAllocation, @Nullable @NativeType("VkDeviceSize *") LongBuffer pOffset) {
if (Checks.CHECKS) {
Checks.check(virtualBlock);
Checks.check(pAllocation, 1);
Checks.checkSafe(pOffset, 1);
}
return nvmaVirtualAllocate(virtualBlock, pCreateInfo.address(), MemoryUtil.memAddress(pAllocation), MemoryUtil.memAddressSafe(pOffset));
}
public static native void nvmaVirtualFree(long var0, long var2);
public static void vmaVirtualFree(@NativeType("VmaVirtualBlock") long virtualBlock, @NativeType("VmaVirtualAllocation") long allocation) {
if (Checks.CHECKS) {
Checks.check(virtualBlock);
}
nvmaVirtualFree(virtualBlock, allocation);
}
public static native void nvmaClearVirtualBlock(long var0);
public static void vmaClearVirtualBlock(@NativeType("VmaVirtualBlock") long virtualBlock) {
if (Checks.CHECKS) {
Checks.check(virtualBlock);
}
nvmaClearVirtualBlock(virtualBlock);
}
public static native void nvmaSetVirtualAllocationUserData(long var0, long var2, long var4);
public static void vmaSetVirtualAllocationUserData(@NativeType("VmaVirtualBlock") long virtualBlock, @NativeType("VmaVirtualAllocation") long allocation, @NativeType("void *") long pUserData) {
if (Checks.CHECKS) {
Checks.check(virtualBlock);
Checks.check(allocation);
Checks.check(pUserData);
}
nvmaSetVirtualAllocationUserData(virtualBlock, allocation, pUserData);
}
public static native void nvmaGetVirtualBlockStatistics(long var0, long var2);
public static void vmaGetVirtualBlockStatistics(@NativeType("VmaVirtualBlock") long virtualBlock, @NativeType("VmaStatistics *") VmaStatistics pStats) {
if (Checks.CHECKS) {
Checks.check(virtualBlock);
}
nvmaGetVirtualBlockStatistics(virtualBlock, pStats.address());
}
public static native void nvmaCalculateVirtualBlockStatistics(long var0, long var2);
public static void vmaCalculateVirtualBlockStatistics(@NativeType("VmaVirtualBlock") long virtualBlock, @NativeType("VmaDetailedStatistics *") VmaDetailedStatistics pStats) {
if (Checks.CHECKS) {
Checks.check(virtualBlock);
}
nvmaCalculateVirtualBlockStatistics(virtualBlock, pStats.address());
}
public static native void nvmaBuildVirtualBlockStatsString(long var0, long var2, int var4);
public static void vmaBuildVirtualBlockStatsString(@NativeType("VmaVirtualBlock") long virtualBlock, @NativeType("char **") PointerBuffer ppStatsString, @NativeType("VkBool32") boolean detailedMap) {
if (Checks.CHECKS) {
Checks.check(virtualBlock);
Checks.check(ppStatsString, 1);
}
nvmaBuildVirtualBlockStatsString(virtualBlock, MemoryUtil.memAddress(ppStatsString), detailedMap ? 1 : 0);
}
public static native void nvmaFreeVirtualBlockStatsString(long var0, long var2);
public static void vmaFreeVirtualBlockStatsString(@NativeType("VmaVirtualBlock") long virtualBlock, @NativeType("char *") ByteBuffer pStatsString) {
if (Checks.CHECKS) {
Checks.check(virtualBlock);
}
nvmaFreeVirtualBlockStatsString(virtualBlock, MemoryUtil.memAddress(pStatsString));
}
public static native void nvmaBuildStatsString(long var0, long var2, int var4);
public static void vmaBuildStatsString(@NativeType("VmaAllocator") long allocator, @NativeType("char **") PointerBuffer ppStatsString, @NativeType("VkBool32") boolean detailedMap) {
if (Checks.CHECKS) {
Checks.check(allocator);
Checks.check(ppStatsString, 1);
}
nvmaBuildStatsString(allocator, MemoryUtil.memAddress(ppStatsString), detailedMap ? 1 : 0);
}
public static native void nvmaFreeStatsString(long var0, long var2);
public static void vmaFreeStatsString(@NativeType("VmaAllocator") long allocator, @NativeType("char *") ByteBuffer pStatsString) {
if (Checks.CHECKS) {
Checks.check(allocator);
}
nvmaFreeStatsString(allocator, MemoryUtil.memAddress(pStatsString));
}
static {
LibVma.initialize();
}
}
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