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A new generation graphics and compute API that provides high-efficiency, cross-platform access to modern GPUs used in a wide variety of devices from PCs and consoles to mobile phones and embedded platforms.

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/*
 * Copyright LWJGL. All rights reserved.
 * License terms: https://www.lwjgl.org/license
 * MACHINE GENERATED FILE, DO NOT EDIT
 */
package org.lwjgl.vulkan;

import java.nio.*;

import org.lwjgl.*;
import org.lwjgl.system.*;

import static org.lwjgl.system.MemoryUtil.*;
import static org.lwjgl.system.MemoryStack.*;

/**
 * Structure specifying a image subresource layers.
 * 
 * 
Valid Usage
* *
    *
  • If {@code aspectMask} contains {@link VK10#VK_IMAGE_ASPECT_COLOR_BIT IMAGE_ASPECT_COLOR_BIT}, it must not contain either of {@link VK10#VK_IMAGE_ASPECT_DEPTH_BIT IMAGE_ASPECT_DEPTH_BIT} or {@link VK10#VK_IMAGE_ASPECT_STENCIL_BIT IMAGE_ASPECT_STENCIL_BIT}
  • *
  • {@code aspectMask} must not contain {@link VK10#VK_IMAGE_ASPECT_METADATA_BIT IMAGE_ASPECT_METADATA_BIT}
  • *
  • {@code mipLevel} must be less than the {@code mipLevels} specified in {@link VkImageCreateInfo} when the image was created
  • *
  • (baseArrayLayer + layerCount) must be less than or equal to the {@code arrayLayers} specified in {@link VkImageCreateInfo} when the image was created
  • *
* *
Valid Usage (Implicit)
* *
    *
  • {@code aspectMask} must be a valid combination of {@code VkImageAspectFlagBits} values
  • *
  • {@code aspectMask} must not be 0
  • *
* *
See Also
* *

{@link VkBufferImageCopy}, {@link VkImageBlit}, {@link VkImageCopy}, {@link VkImageResolve}

* *

Member documentation

* *
    *
  • {@code aspectMask} – a combination of {@code VkImageAspectFlagBits}, selecting the color, depth and/or stencil aspects to be copied.
  • *
  • {@code mipLevel} – the mipmap level to copy from.
  • *
  • {@code baseArrayLayer} – {@code baseArrayLayer} and {@code layerCount} are the starting layer and number of layers to copy.
  • *
  • {@code layerCount} – see {@code baseArrayLayer}
  • *
* *

Layout

* *
struct VkImageSubresourceLayers {
    VkImageAspectFlags aspectMask;
    uint32_t mipLevel;
    uint32_t baseArrayLayer;
    uint32_t layerCount;
}
*/ public class VkImageSubresourceLayers extends Struct implements NativeResource { /** The struct size in bytes. */ public static final int SIZEOF; public static final int ALIGNOF; /** The struct member offsets. */ public static final int ASPECTMASK, MIPLEVEL, BASEARRAYLAYER, LAYERCOUNT; static { Layout layout = __struct( __member(4), __member(4), __member(4), __member(4) ); SIZEOF = layout.getSize(); ALIGNOF = layout.getAlignment(); ASPECTMASK = layout.offsetof(0); MIPLEVEL = layout.offsetof(1); BASEARRAYLAYER = layout.offsetof(2); LAYERCOUNT = layout.offsetof(3); } VkImageSubresourceLayers(long address, ByteBuffer container) { super(address, container); } /** * Creates a {@link VkImageSubresourceLayers} instance at the current position of the specified {@link ByteBuffer} container. Changes to the buffer's content will be * visible to the struct instance and vice versa. * *

The created instance holds a strong reference to the container object.

*/ public VkImageSubresourceLayers(ByteBuffer container) { this(memAddress(container), checkContainer(container, SIZEOF)); } @Override public int sizeof() { return SIZEOF; } /** Returns the value of the {@code aspectMask} field. */ public int aspectMask() { return naspectMask(address()); } /** Returns the value of the {@code mipLevel} field. */ public int mipLevel() { return nmipLevel(address()); } /** Returns the value of the {@code baseArrayLayer} field. */ public int baseArrayLayer() { return nbaseArrayLayer(address()); } /** Returns the value of the {@code layerCount} field. */ public int layerCount() { return nlayerCount(address()); } /** Sets the specified value to the {@code aspectMask} field. */ public VkImageSubresourceLayers aspectMask(int value) { naspectMask(address(), value); return this; } /** Sets the specified value to the {@code mipLevel} field. */ public VkImageSubresourceLayers mipLevel(int value) { nmipLevel(address(), value); return this; } /** Sets the specified value to the {@code baseArrayLayer} field. */ public VkImageSubresourceLayers baseArrayLayer(int value) { nbaseArrayLayer(address(), value); return this; } /** Sets the specified value to the {@code layerCount} field. */ public VkImageSubresourceLayers layerCount(int value) { nlayerCount(address(), value); return this; } /** Initializes this struct with the specified values. */ public VkImageSubresourceLayers set( int aspectMask, int mipLevel, int baseArrayLayer, int layerCount ) { aspectMask(aspectMask); mipLevel(mipLevel); baseArrayLayer(baseArrayLayer); layerCount(layerCount); return this; } /** Unsafe version of {@link #set(VkImageSubresourceLayers) set}. */ public VkImageSubresourceLayers nset(long struct) { memCopy(struct, address(), SIZEOF); return this; } /** * Copies the specified struct data to this struct. * * @param src the source struct * * @return this struct */ public VkImageSubresourceLayers set(VkImageSubresourceLayers src) { return nset(src.address()); } // ----------------------------------- /** Returns a new {@link VkImageSubresourceLayers} instance allocated with {@link MemoryUtil#memAlloc memAlloc}. The instance must be explicitly freed. */ public static VkImageSubresourceLayers malloc() { return create(nmemAlloc(SIZEOF)); } /** Returns a new {@link VkImageSubresourceLayers} instance allocated with {@link MemoryUtil#memCalloc memCalloc}. The instance must be explicitly freed. */ public static VkImageSubresourceLayers calloc() { return create(nmemCalloc(1, SIZEOF)); } /** Returns a new {@link VkImageSubresourceLayers} instance allocated with {@link BufferUtils}. */ public static VkImageSubresourceLayers create() { return new VkImageSubresourceLayers(BufferUtils.createByteBuffer(SIZEOF)); } /** Returns a new {@link VkImageSubresourceLayers} instance for the specified memory address or {@code null} if the address is {@code NULL}. */ public static VkImageSubresourceLayers create(long address) { return address == NULL ? null : new VkImageSubresourceLayers(address, null); } /** * Returns a new {@link VkImageSubresourceLayers.Buffer} instance allocated with {@link MemoryUtil#memAlloc memAlloc}. The instance must be explicitly freed. * * @param capacity the buffer capacity */ public static Buffer malloc(int capacity) { return create(nmemAlloc(capacity * SIZEOF), capacity); } /** * Returns a new {@link VkImageSubresourceLayers.Buffer} instance allocated with {@link MemoryUtil#memCalloc memCalloc}. The instance must be explicitly freed. * * @param capacity the buffer capacity */ public static Buffer calloc(int capacity) { return create(nmemCalloc(capacity, SIZEOF), capacity); } /** * Returns a new {@link VkImageSubresourceLayers.Buffer} instance allocated with {@link BufferUtils}. * * @param capacity the buffer capacity */ public static Buffer create(int capacity) { return new Buffer(BufferUtils.createByteBuffer(capacity * SIZEOF)); } /** * Create a {@link VkImageSubresourceLayers.Buffer} instance at the specified memory. * * @param address the memory address * @param capacity the buffer capacity */ public static Buffer create(long address, int capacity) { return address == NULL ? null : new Buffer(address, null, -1, 0, capacity, capacity); } // ----------------------------------- /** Returns a new {@link VkImageSubresourceLayers} instance allocated on the thread-local {@link MemoryStack}. */ public static VkImageSubresourceLayers mallocStack() { return mallocStack(stackGet()); } /** Returns a new {@link VkImageSubresourceLayers} instance allocated on the thread-local {@link MemoryStack} and initializes all its bits to zero. */ public static VkImageSubresourceLayers callocStack() { return callocStack(stackGet()); } /** * Returns a new {@link VkImageSubresourceLayers} instance allocated on the specified {@link MemoryStack}. * * @param stack the stack from which to allocate */ public static VkImageSubresourceLayers mallocStack(MemoryStack stack) { return create(stack.nmalloc(ALIGNOF, SIZEOF)); } /** * Returns a new {@link VkImageSubresourceLayers} instance allocated on the specified {@link MemoryStack} and initializes all its bits to zero. * * @param stack the stack from which to allocate */ public static VkImageSubresourceLayers callocStack(MemoryStack stack) { return create(stack.ncalloc(ALIGNOF, 1, SIZEOF)); } /** * Returns a new {@link VkImageSubresourceLayers.Buffer} instance allocated on the thread-local {@link MemoryStack}. * * @param capacity the buffer capacity */ public static Buffer mallocStack(int capacity) { return mallocStack(capacity, stackGet()); } /** * Returns a new {@link VkImageSubresourceLayers.Buffer} instance allocated on the thread-local {@link MemoryStack} and initializes all its bits to zero. * * @param capacity the buffer capacity */ public static Buffer callocStack(int capacity) { return callocStack(capacity, stackGet()); } /** * Returns a new {@link VkImageSubresourceLayers.Buffer} instance allocated on the specified {@link MemoryStack}. * * @param stack the stack from which to allocate * @param capacity the buffer capacity */ public static Buffer mallocStack(int capacity, MemoryStack stack) { return create(stack.nmalloc(ALIGNOF, capacity * SIZEOF), capacity); } /** * Returns a new {@link VkImageSubresourceLayers.Buffer} instance allocated on the specified {@link MemoryStack} and initializes all its bits to zero. * * @param stack the stack from which to allocate * @param capacity the buffer capacity */ public static Buffer callocStack(int capacity, MemoryStack stack) { return create(stack.ncalloc(ALIGNOF, capacity, SIZEOF), capacity); } // ----------------------------------- /** Unsafe version of {@link #aspectMask}. */ public static int naspectMask(long struct) { return memGetInt(struct + VkImageSubresourceLayers.ASPECTMASK); } /** Unsafe version of {@link #mipLevel}. */ public static int nmipLevel(long struct) { return memGetInt(struct + VkImageSubresourceLayers.MIPLEVEL); } /** Unsafe version of {@link #baseArrayLayer}. */ public static int nbaseArrayLayer(long struct) { return memGetInt(struct + VkImageSubresourceLayers.BASEARRAYLAYER); } /** Unsafe version of {@link #layerCount}. */ public static int nlayerCount(long struct) { return memGetInt(struct + VkImageSubresourceLayers.LAYERCOUNT); } /** Unsafe version of {@link #aspectMask(int) aspectMask}. */ public static void naspectMask(long struct, int value) { memPutInt(struct + VkImageSubresourceLayers.ASPECTMASK, value); } /** Unsafe version of {@link #mipLevel(int) mipLevel}. */ public static void nmipLevel(long struct, int value) { memPutInt(struct + VkImageSubresourceLayers.MIPLEVEL, value); } /** Unsafe version of {@link #baseArrayLayer(int) baseArrayLayer}. */ public static void nbaseArrayLayer(long struct, int value) { memPutInt(struct + VkImageSubresourceLayers.BASEARRAYLAYER, value); } /** Unsafe version of {@link #layerCount(int) layerCount}. */ public static void nlayerCount(long struct, int value) { memPutInt(struct + VkImageSubresourceLayers.LAYERCOUNT, value); } // ----------------------------------- /** An array of {@link VkImageSubresourceLayers} structs. */ public static class Buffer extends StructBuffer implements NativeResource { /** * Creates a new {@link VkImageSubresourceLayers.Buffer} instance backed by the specified container. * * Changes to the container's content will be visible to the struct buffer instance and vice versa. The two buffers' position, limit, and mark values * will be independent. The new buffer's position will be zero, its capacity and its limit will be the number of bytes remaining in this buffer divided * by {@link VkImageSubresourceLayers#SIZEOF}, and its mark will be undefined. * *

The created buffer instance holds a strong reference to the container object.

*/ public Buffer(ByteBuffer container) { super(container, container.remaining() / SIZEOF); } Buffer(long address, ByteBuffer container, int mark, int pos, int lim, int cap) { super(address, container, mark, pos, lim, cap); } @Override protected Buffer self() { return this; } @Override protected Buffer newBufferInstance(long address, ByteBuffer container, int mark, int pos, int lim, int cap) { return new Buffer(address, container, mark, pos, lim, cap); } @Override protected VkImageSubresourceLayers newInstance(long address) { return new VkImageSubresourceLayers(address, container); } @Override protected int sizeof() { return SIZEOF; } /** Returns the value of the {@code aspectMask} field. */ public int aspectMask() { return VkImageSubresourceLayers.naspectMask(address()); } /** Returns the value of the {@code mipLevel} field. */ public int mipLevel() { return VkImageSubresourceLayers.nmipLevel(address()); } /** Returns the value of the {@code baseArrayLayer} field. */ public int baseArrayLayer() { return VkImageSubresourceLayers.nbaseArrayLayer(address()); } /** Returns the value of the {@code layerCount} field. */ public int layerCount() { return VkImageSubresourceLayers.nlayerCount(address()); } /** Sets the specified value to the {@code aspectMask} field. */ public VkImageSubresourceLayers.Buffer aspectMask(int value) { VkImageSubresourceLayers.naspectMask(address(), value); return this; } /** Sets the specified value to the {@code mipLevel} field. */ public VkImageSubresourceLayers.Buffer mipLevel(int value) { VkImageSubresourceLayers.nmipLevel(address(), value); return this; } /** Sets the specified value to the {@code baseArrayLayer} field. */ public VkImageSubresourceLayers.Buffer baseArrayLayer(int value) { VkImageSubresourceLayers.nbaseArrayLayer(address(), value); return this; } /** Sets the specified value to the {@code layerCount} field. */ public VkImageSubresourceLayers.Buffer layerCount(int value) { VkImageSubresourceLayers.nlayerCount(address(), value); return this; } } }




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