304 lines
14 KiB
C#
304 lines
14 KiB
C#
using System.Collections.Generic;
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using System.Linq;
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using UnityEngine;
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namespace SplashEdit.RuntimeCode
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{
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/// <summary>
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/// Represents a texture atlas that groups PSX textures by bit depth.
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/// Each atlas has a fixed height and a configurable width based on texture bit depth.
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/// </summary>
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public class TextureAtlas
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{
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public PSXBPP BitDepth; // Bit depth of textures in this atlas.
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public int PositionX; // X position of the atlas in VRAM.
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public int PositionY; // Y position of the atlas in VRAM.
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public int Width; // Width of the atlas.
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public const int Height = 256; // Fixed height for all atlases.
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public VRAMPixel[,] vramPixels;
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public List<PSXTexture2D> ContainedTextures = new List<PSXTexture2D>(); // Textures packed in this atlas.
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}
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/// <summary>
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/// Packs PSX textures into a simulated VRAM.
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/// It manages texture atlases, placement of textures, and allocation of color lookup tables (CLUTs).
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/// </summary>
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public class VRAMPacker
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{
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private List<TextureAtlas> _textureAtlases = new List<TextureAtlas>();
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private List<Rect> _reservedAreas; // Areas in VRAM where no textures can be placed.
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private List<TextureAtlas> _finalizedAtlases = new List<TextureAtlas>(); // Atlases that have been successfully placed.
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private List<Rect> _allocatedCLUTs = new List<Rect>(); // Allocated regions for CLUTs.
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private const int VRAM_WIDTH = 1024;
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private const int VRAM_HEIGHT = 512;
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private VRAMPixel[,] _vramPixels; // Simulated VRAM pixel data.
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/// <summary>
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/// Initializes the VRAMPacker with reserved areas from prohibited regions and framebuffers.
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/// </summary>
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/// <param name="framebuffers">Framebuffers to reserve in VRAM.</param>
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/// <param name="reservedAreas">Additional prohibited areas as ProhibitedArea instances.</param>
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public VRAMPacker(List<Rect> framebuffers, List<ProhibitedArea> reservedAreas)
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{
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// Convert ProhibitedArea instances to Unity Rects.
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List<Rect> areasConvertedToRect = new List<Rect>();
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foreach (ProhibitedArea area in reservedAreas)
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{
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areasConvertedToRect.Add(new Rect(area.X, area.Y, area.Width, area.Height));
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}
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_reservedAreas = areasConvertedToRect;
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// Reserve the two framebuffers.
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_reservedAreas.Add(framebuffers[0]);
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_reservedAreas.Add(framebuffers[1]);
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_vramPixels = new VRAMPixel[VRAM_WIDTH, VRAM_HEIGHT];
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}
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/// <summary>
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/// Packs the textures from the provided PSXObjectExporter array into VRAM.
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/// Returns the processed objects and the final VRAM pixel array.
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/// </summary>
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/// <param name="objects">Array of PSXObjectExporter objects to process.</param>
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/// <returns>Tuple containing processed objects and the VRAM pixel array.</returns>
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public (PSXObjectExporter[] processedObjects, TextureAtlas[] atlases, VRAMPixel[,] _vramPixels) PackTexturesIntoVRAM(PSXObjectExporter[] objects)
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{
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List<PSXTexture2D> uniqueTextures = new List<PSXTexture2D>();
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// Group objects by texture bit depth (high to low).
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var groupedObjects = objects.GroupBy(obj => obj.Texture.BitDepth).OrderByDescending(g => g.Key);
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foreach (var group in groupedObjects)
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{
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// Determine atlas width based on texture bit depth.
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int atlasWidth = group.Key switch
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{
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PSXBPP.TEX_16BIT => 256,
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PSXBPP.TEX_8BIT => 128,
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PSXBPP.TEX_4BIT => 64,
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_ => 256
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};
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// Create a new atlas for this group.
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TextureAtlas atlas = new TextureAtlas { BitDepth = group.Key, Width = atlasWidth, PositionX = 0, PositionY = 0 };
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_textureAtlases.Add(atlas);
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// Process each texture in descending order of area (width * height).
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foreach (var obj in group.OrderByDescending(obj => obj.Texture.QuantizedWidth * obj.Texture.Height))
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{
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// Remove duplicate textures
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/*if (uniqueTextures.Any(tex => tex.OriginalTexture.GetInstanceID() == obj.Texture.OriginalTexture.GetInstanceID() && tex.BitDepth == obj.Texture.BitDepth))
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{
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obj.Texture = uniqueTextures.First(tex => tex.OriginalTexture.GetInstanceID() == obj.Texture.OriginalTexture.GetInstanceID());
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continue;
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}*/
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// Try to place the texture in the current atlas.
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if (!TryPlaceTextureInAtlas(atlas, obj.Texture))
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{
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// If failed, create a new atlas and try again.
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atlas = new TextureAtlas { BitDepth = group.Key, Width = atlasWidth, PositionX = 0, PositionY = 0 };
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_textureAtlases.Add(atlas);
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if (!TryPlaceTextureInAtlas(atlas, obj.Texture))
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{
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Debug.LogError($"Failed to pack texture {obj.Texture}. It might not fit.");
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break;
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}
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}
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uniqueTextures.Add(obj.Texture);
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}
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}
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// Arrange atlases in the VRAM space.
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ArrangeAtlasesInVRAM();
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// Allocate color lookup tables (CLUTs) for textures that use palettes.
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AllocateCLUTs();
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// Build the final VRAM pixel array from placed textures and CLUTs.
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BuildVram();
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return (objects, _finalizedAtlases.ToArray(), _vramPixels);
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}
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/// <summary>
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/// Attempts to place a texture within the given atlas.
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/// Iterates over possible positions and checks for overlapping textures.
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/// </summary>
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/// <param name="atlas">The atlas where the texture should be placed.</param>
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/// <param name="texture">The texture to place.</param>
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/// <returns>True if the texture was placed successfully; otherwise, false.</returns>
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private bool TryPlaceTextureInAtlas(TextureAtlas atlas, PSXTexture2D texture)
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{
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// Iterate over potential Y positions.
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for (byte y = 0; y <= TextureAtlas.Height - texture.Height; y++)
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{
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// Iterate over potential X positions within the atlas.
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for (byte x = 0; x <= atlas.Width - texture.QuantizedWidth; x++)
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{
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var candidateRect = new Rect(x, y, texture.QuantizedWidth, texture.Height);
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// Check if candidateRect overlaps with any already placed texture.
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if (!atlas.ContainedTextures.Any(tex => new Rect(tex.PackingX, tex.PackingY, tex.QuantizedWidth, tex.Height).Overlaps(candidateRect)))
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{
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texture.PackingX = x;
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texture.PackingY = y;
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atlas.ContainedTextures.Add(texture);
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return true;
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}
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}
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}
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return false;
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}
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/// <summary>
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/// Arranges all texture atlases into the VRAM, ensuring they do not overlap reserved areas.
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/// Also assigns texpage indices for textures based on atlas position.
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/// </summary>
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private void ArrangeAtlasesInVRAM()
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{
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// Process each bit depth category in order.
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foreach (var bitDepth in new[] { PSXBPP.TEX_16BIT, PSXBPP.TEX_8BIT, PSXBPP.TEX_4BIT })
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{
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foreach (var atlas in _textureAtlases.Where(a => a.BitDepth == bitDepth))
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{
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bool placed = false;
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// Try every possible row (stepping by atlas height).
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for (int y = 0; y <= VRAM_HEIGHT - TextureAtlas.Height; y += 256)
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{
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// Try every possible column (stepping by 64 pixels).
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for (int x = 0; x <= VRAM_WIDTH - atlas.Width; x += 64)
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{
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// Only consider atlases that haven't been placed yet.
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if (atlas.PositionX == 0 && atlas.PositionY == 0)
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{
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var candidateRect = new Rect(x, y, atlas.Width, TextureAtlas.Height);
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if (IsPlacementValid(candidateRect))
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{
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atlas.PositionX = x;
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atlas.PositionY = y;
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_finalizedAtlases.Add(atlas);
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placed = true;
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Debug.Log($"Placed an atlas at: {x},{y}");
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break;
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}
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}
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}
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if (placed)
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{
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// Assign texpage coordinates for each texture within the atlas.
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foreach (PSXTexture2D texture in atlas.ContainedTextures)
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{
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int colIndex = atlas.PositionX / 64;
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int rowIndex = atlas.PositionY / 256;
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texture.TexpageX = (byte)colIndex;
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texture.TexpageY = (byte)rowIndex;
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}
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break;
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}
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}
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if (!placed)
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{
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Debug.LogError($"Atlas with BitDepth {atlas.BitDepth} and Width {atlas.Width} could not be placed in VRAM.");
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}
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}
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}
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}
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/// <summary>
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/// Allocates color lookup table (CLUT) regions in VRAM for textures with palettes.
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/// </summary>
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private void AllocateCLUTs()
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{
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foreach (var texture in _finalizedAtlases.SelectMany(atlas => atlas.ContainedTextures))
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{
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// Skip textures without a color palette.
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if (texture.ColorPalette == null || texture.ColorPalette.Count == 0)
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continue;
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int clutWidth = texture.ColorPalette.Count;
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int clutHeight = 1;
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bool placed = false;
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// Iterate over possible CLUT positions in VRAM.
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for (ushort x = 0; x < VRAM_WIDTH; x += 16)
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{
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for (ushort y = 0; y <= VRAM_HEIGHT; y++)
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{
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var candidate = new Rect(x, y, clutWidth, clutHeight);
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if (IsPlacementValid(candidate))
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{
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_allocatedCLUTs.Add(candidate);
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texture.ClutPackingX = (ushort)(x/16);
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texture.ClutPackingY = y;
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placed = true;
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break;
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}
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}
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if (placed) break;
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}
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if (!placed)
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{
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Debug.LogError($"Failed to allocate CLUT for texture at {texture.PackingX}, {texture.PackingY}");
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}
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}
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}
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/// <summary>
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/// Builds the final VRAM by copying texture image data and color palettes into the VRAM pixel array.
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/// </summary>
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private void BuildVram()
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{
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foreach (TextureAtlas atlas in _finalizedAtlases)
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{
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atlas.vramPixels = new VRAMPixel[atlas.Width, TextureAtlas.Height];
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foreach (PSXTexture2D texture in atlas.ContainedTextures)
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{
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// Copy texture image data into VRAM using atlas and texture packing offsets.
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for (int y = 0; y < texture.Height; y++)
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{
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for (int x = 0; x < texture.QuantizedWidth; x++)
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{
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atlas.vramPixels[x + texture.PackingX, y + texture.PackingY] = texture.ImageData[x, y];
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_vramPixels[x + atlas.PositionX + texture.PackingX, y + atlas.PositionY + texture.PackingY] = texture.ImageData[x, y];
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}
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}
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// For non-16-bit textures, copy the color palette into VRAM.
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if (texture.BitDepth != PSXBPP.TEX_16BIT)
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{
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for (int x = 0; x < texture.ColorPalette.Count; x++)
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{
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_vramPixels[x + texture.ClutPackingX, texture.ClutPackingY] = texture.ColorPalette[x];
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}
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}
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}
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}
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}
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/// <summary>
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/// Checks if a given rectangle can be placed in VRAM without overlapping existing atlases,
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/// reserved areas, or allocated CLUT regions.
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/// </summary>
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/// <param name="rect">The rectangle representing a candidate placement.</param>
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/// <returns>True if the placement is valid; otherwise, false.</returns>
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private bool IsPlacementValid(Rect rect)
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{
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// Ensure the rectangle fits within VRAM boundaries.
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if (rect.x + rect.width > VRAM_WIDTH) return false;
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if (rect.y + rect.height > VRAM_HEIGHT) return false;
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// Check for overlaps with existing atlases.
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bool overlapsAtlas = _finalizedAtlases.Any(a => new Rect(a.PositionX, a.PositionY, a.Width, TextureAtlas.Height).Overlaps(rect));
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// Check for overlaps with reserved VRAM areas.
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bool overlapsReserved = _reservedAreas.Any(r => r.Overlaps(rect));
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// Check for overlaps with already allocated CLUT regions.
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bool overlapsCLUT = _allocatedCLUTs.Any(c => c.Overlaps(rect));
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return !(overlapsAtlas || overlapsReserved || overlapsCLUT);
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}
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}
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}
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