package org.lwjgl.util.vma; import java.nio.ByteBuffer; import javax.annotation.Nullable; import org.lwjgl.BufferUtils; import org.lwjgl.system.MemoryStack; import org.lwjgl.system.MemoryUtil; import org.lwjgl.system.NativeResource; import org.lwjgl.system.NativeType; import org.lwjgl.system.Struct; import org.lwjgl.system.StructBuffer; public class VmaDefragmentationInfo extends Struct implements NativeResource { public static final int SIZEOF; public static final int ALIGNOF; public static final int FLAGS; public static final int POOL; public static final int MAXBYTESPERPASS; public static final int MAXALLOCATIONSPERPASS; public static final int PFNBREAKCALLBACK; public static final int PBREAKCALLBACKUSERDATA; protected VmaDefragmentationInfo(long address, @Nullable ByteBuffer container) { super(address, container); } protected VmaDefragmentationInfo create(long address, @Nullable ByteBuffer container) { return new VmaDefragmentationInfo(address, container); } public VmaDefragmentationInfo(ByteBuffer container) { super(MemoryUtil.memAddress(container), __checkContainer(container, SIZEOF)); } public int sizeof() { return SIZEOF; } @NativeType("VmaDefragmentationFlags") public int flags() { return nflags(this.address()); } @NativeType("VmaPool") public long pool() { return npool(this.address()); } @NativeType("VkDeviceSize") public long maxBytesPerPass() { return nmaxBytesPerPass(this.address()); } @NativeType("uint32_t") public int maxAllocationsPerPass() { return nmaxAllocationsPerPass(this.address()); } @Nullable @NativeType("PFN_vmaCheckDefragmentationBreakFunction") public VmaCheckDefragmentationBreakFunction pfnBreakCallback() { return npfnBreakCallback(this.address()); } @NativeType("void *") public long pBreakCallbackUserData() { return npBreakCallbackUserData(this.address()); } public VmaDefragmentationInfo flags(@NativeType("VmaDefragmentationFlags") int value) { nflags(this.address(), value); return this; } public VmaDefragmentationInfo pool(@NativeType("VmaPool") long value) { npool(this.address(), value); return this; } public VmaDefragmentationInfo maxBytesPerPass(@NativeType("VkDeviceSize") long value) { nmaxBytesPerPass(this.address(), value); return this; } public VmaDefragmentationInfo maxAllocationsPerPass(@NativeType("uint32_t") int value) { nmaxAllocationsPerPass(this.address(), value); return this; } public VmaDefragmentationInfo pfnBreakCallback(@Nullable @NativeType("PFN_vmaCheckDefragmentationBreakFunction") VmaCheckDefragmentationBreakFunctionI value) { npfnBreakCallback(this.address(), value); return this; } public VmaDefragmentationInfo pBreakCallbackUserData(@NativeType("void *") long value) { npBreakCallbackUserData(this.address(), value); return this; } public VmaDefragmentationInfo set(int flags, long pool, long maxBytesPerPass, int maxAllocationsPerPass, VmaCheckDefragmentationBreakFunctionI pfnBreakCallback, long pBreakCallbackUserData) { this.flags(flags); this.pool(pool); this.maxBytesPerPass(maxBytesPerPass); this.maxAllocationsPerPass(maxAllocationsPerPass); this.pfnBreakCallback(pfnBreakCallback); this.pBreakCallbackUserData(pBreakCallbackUserData); return this; } public VmaDefragmentationInfo set(VmaDefragmentationInfo src) { MemoryUtil.memCopy(src.address(), this.address(), (long)SIZEOF); return this; } public static VmaDefragmentationInfo malloc() { return new VmaDefragmentationInfo(MemoryUtil.nmemAllocChecked((long)SIZEOF), (ByteBuffer)null); } public static VmaDefragmentationInfo calloc() { return new VmaDefragmentationInfo(MemoryUtil.nmemCallocChecked(1L, (long)SIZEOF), (ByteBuffer)null); } public static VmaDefragmentationInfo create() { ByteBuffer container = BufferUtils.createByteBuffer(SIZEOF); return new VmaDefragmentationInfo(MemoryUtil.memAddress(container), container); } public static VmaDefragmentationInfo create(long address) { return new VmaDefragmentationInfo(address, (ByteBuffer)null); } @Nullable public static VmaDefragmentationInfo createSafe(long address) { return address == 0L ? null : new VmaDefragmentationInfo(address, (ByteBuffer)null); } public static Buffer malloc(int capacity) { return new Buffer(MemoryUtil.nmemAllocChecked(__checkMalloc(capacity, SIZEOF)), capacity); } public static Buffer calloc(int capacity) { return new Buffer(MemoryUtil.nmemCallocChecked((long)capacity, (long)SIZEOF), capacity); } public static Buffer create(int capacity) { ByteBuffer container = __create(capacity, SIZEOF); return new Buffer(MemoryUtil.memAddress(container), container, -1, 0, capacity, capacity); } public static Buffer create(long address, int capacity) { return new Buffer(address, capacity); } @Nullable public static Buffer createSafe(long address, int capacity) { return address == 0L ? null : new Buffer(address, capacity); } /** @deprecated */ @Deprecated public static VmaDefragmentationInfo mallocStack() { return malloc(MemoryStack.stackGet()); } /** @deprecated */ @Deprecated public static VmaDefragmentationInfo callocStack() { return calloc(MemoryStack.stackGet()); } /** @deprecated */ @Deprecated public static VmaDefragmentationInfo mallocStack(MemoryStack stack) { return malloc(stack); } /** @deprecated */ @Deprecated public static VmaDefragmentationInfo callocStack(MemoryStack stack) { return calloc(stack); } /** @deprecated */ @Deprecated public static Buffer mallocStack(int capacity) { return malloc(capacity, MemoryStack.stackGet()); } /** @deprecated */ @Deprecated public static Buffer callocStack(int capacity) { return calloc(capacity, MemoryStack.stackGet()); } /** @deprecated */ @Deprecated public static Buffer mallocStack(int capacity, MemoryStack stack) { return malloc(capacity, stack); } /** @deprecated */ @Deprecated public static Buffer callocStack(int capacity, MemoryStack stack) { return calloc(capacity, stack); } public static VmaDefragmentationInfo malloc(MemoryStack stack) { return new VmaDefragmentationInfo(stack.nmalloc(ALIGNOF, SIZEOF), (ByteBuffer)null); } public static VmaDefragmentationInfo calloc(MemoryStack stack) { return new VmaDefragmentationInfo(stack.ncalloc(ALIGNOF, 1, SIZEOF), (ByteBuffer)null); } public static Buffer malloc(int capacity, MemoryStack stack) { return new Buffer(stack.nmalloc(ALIGNOF, capacity * SIZEOF), capacity); } public static Buffer calloc(int capacity, MemoryStack stack) { return new Buffer(stack.ncalloc(ALIGNOF, capacity, SIZEOF), capacity); } public static int nflags(long struct) { return UNSAFE.getInt((Object)null, struct + (long)FLAGS); } public static long npool(long struct) { return MemoryUtil.memGetAddress(struct + (long)POOL); } public static long nmaxBytesPerPass(long struct) { return UNSAFE.getLong((Object)null, struct + (long)MAXBYTESPERPASS); } public static int nmaxAllocationsPerPass(long struct) { return UNSAFE.getInt((Object)null, struct + (long)MAXALLOCATIONSPERPASS); } @Nullable public static VmaCheckDefragmentationBreakFunction npfnBreakCallback(long struct) { return VmaCheckDefragmentationBreakFunction.createSafe(MemoryUtil.memGetAddress(struct + (long)PFNBREAKCALLBACK)); } public static long npBreakCallbackUserData(long struct) { return MemoryUtil.memGetAddress(struct + (long)PBREAKCALLBACKUSERDATA); } public static void nflags(long struct, int value) { UNSAFE.putInt((Object)null, struct + (long)FLAGS, value); } public static void npool(long struct, long value) { MemoryUtil.memPutAddress(struct + (long)POOL, value); } public static void nmaxBytesPerPass(long struct, long value) { UNSAFE.putLong((Object)null, struct + (long)MAXBYTESPERPASS, value); } public static void nmaxAllocationsPerPass(long struct, int value) { UNSAFE.putInt((Object)null, struct + (long)MAXALLOCATIONSPERPASS, value); } public static void npfnBreakCallback(long struct, @Nullable VmaCheckDefragmentationBreakFunctionI value) { MemoryUtil.memPutAddress(struct + (long)PFNBREAKCALLBACK, MemoryUtil.memAddressSafe(value)); } public static void npBreakCallbackUserData(long struct, long value) { MemoryUtil.memPutAddress(struct + (long)PBREAKCALLBACKUSERDATA, value); } static { Struct.Layout layout = __struct(new Struct.Member[]{__member(4), __member(POINTER_SIZE), __member(8), __member(4), __member(POINTER_SIZE), __member(POINTER_SIZE)}); SIZEOF = layout.getSize(); ALIGNOF = layout.getAlignment(); FLAGS = layout.offsetof(0); POOL = layout.offsetof(1); MAXBYTESPERPASS = layout.offsetof(2); MAXALLOCATIONSPERPASS = layout.offsetof(3); PFNBREAKCALLBACK = layout.offsetof(4); PBREAKCALLBACKUSERDATA = layout.offsetof(5); } public static class Buffer extends StructBuffer implements NativeResource { private static final VmaDefragmentationInfo ELEMENT_FACTORY = VmaDefragmentationInfo.create(-1L); public Buffer(ByteBuffer container) { super(container, container.remaining() / VmaDefragmentationInfo.SIZEOF); } public Buffer(long address, int cap) { super(address, (ByteBuffer)null, -1, 0, cap, cap); } Buffer(long address, @Nullable ByteBuffer container, int mark, int pos, int lim, int cap) { super(address, container, mark, pos, lim, cap); } protected Buffer self() { return this; } protected VmaDefragmentationInfo getElementFactory() { return ELEMENT_FACTORY; } @NativeType("VmaDefragmentationFlags") public int flags() { return VmaDefragmentationInfo.nflags(this.address()); } @NativeType("VmaPool") public long pool() { return VmaDefragmentationInfo.npool(this.address()); } @NativeType("VkDeviceSize") public long maxBytesPerPass() { return VmaDefragmentationInfo.nmaxBytesPerPass(this.address()); } @NativeType("uint32_t") public int maxAllocationsPerPass() { return VmaDefragmentationInfo.nmaxAllocationsPerPass(this.address()); } @Nullable @NativeType("PFN_vmaCheckDefragmentationBreakFunction") public VmaCheckDefragmentationBreakFunction pfnBreakCallback() { return VmaDefragmentationInfo.npfnBreakCallback(this.address()); } @NativeType("void *") public long pBreakCallbackUserData() { return VmaDefragmentationInfo.npBreakCallbackUserData(this.address()); } public Buffer flags(@NativeType("VmaDefragmentationFlags") int value) { VmaDefragmentationInfo.nflags(this.address(), value); return this; } public Buffer pool(@NativeType("VmaPool") long value) { VmaDefragmentationInfo.npool(this.address(), value); return this; } public Buffer maxBytesPerPass(@NativeType("VkDeviceSize") long value) { VmaDefragmentationInfo.nmaxBytesPerPass(this.address(), value); return this; } public Buffer maxAllocationsPerPass(@NativeType("uint32_t") int value) { VmaDefragmentationInfo.nmaxAllocationsPerPass(this.address(), value); return this; } public Buffer pfnBreakCallback(@Nullable @NativeType("PFN_vmaCheckDefragmentationBreakFunction") VmaCheckDefragmentationBreakFunctionI value) { VmaDefragmentationInfo.npfnBreakCallback(this.address(), value); return this; } public Buffer pBreakCallbackUserData(@NativeType("void *") long value) { VmaDefragmentationInfo.npBreakCallbackUserData(this.address(), value); return this; } } }