Visual verification (Coldeve, Energy Crystal) showed acdream's Magical blue as a flat tint vs retail's gradient. Root cause: RenderIcons calls the SURFACE overload of SurfaceWindow::ReplaceColor (0x004415b0), which copies the textured effect tile pixel-by-pixel into the icon's pure-white pixels — not the flat color->color overload (0x00441530) I'd approximated with the tile's mean color. Port the surface overload exactly (dst[x,y]=src[x,y] where dst==white); confirmed via clean Ghidra decompile + named decomp. Retires AP-43 (mean-color approximation); IA-18 updated to the surface op. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
197 lines
9.5 KiB
C#
197 lines
9.5 KiB
C#
using System;
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using System.IO;
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using AcDream.App.UI;
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using AcDream.Core.Items;
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using DatReaderWriter;
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using DatReaderWriter.Options;
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namespace AcDream.App.Tests.UI;
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public class IconComposerTests
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{
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private static byte[] Solid(int w, int h, byte r, byte g, byte b, byte a)
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{
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var px = new byte[w * h * 4];
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for (int i = 0; i < w * h; i++) { px[i*4]=r; px[i*4+1]=g; px[i*4+2]=b; px[i*4+3]=a; }
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return px;
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}
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[Fact]
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public void Compose_alphaOver_topOpaqueLayerWins()
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{
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var bottom = (Solid(2, 2, 255, 0, 0, 255), 2, 2); // red, opaque
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var top = (Solid(2, 2, 0, 0, 255, 255), 2, 2); // blue, opaque
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var (rgba, w, h) = IconComposer.Compose(new[] { bottom, top });
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Assert.Equal(2, w); Assert.Equal(2, h);
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Assert.Equal(0, rgba[0]); // R
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Assert.Equal(0, rgba[1]); // G
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Assert.Equal(255, rgba[2]); // B — top layer won
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Assert.Equal(255, rgba[3]); // A
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}
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[Fact]
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public void Compose_alphaOver_transparentTopKeepsBottom()
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{
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var bottom = (Solid(1, 1, 255, 0, 0, 255), 1, 1);
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var top = (Solid(1, 1, 0, 0, 255, 0), 1, 1); // fully transparent blue
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var (rgba, _, _) = IconComposer.Compose(new[] { bottom, top });
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Assert.Equal(255, rgba[0]); // bottom red preserved
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Assert.Equal(0, rgba[2]);
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}
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/// <summary>
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/// Dat-free: when an opaque type-default underlay is prepended as layer 0,
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/// Compose yields a fully-opaque result even when the base icon is semi-transparent.
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/// This validates the bottom-up ordering that makes filled toolbar slots non-transparent
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/// (retail IconData::RenderIcons 407524: underlay is OPAQUE Blit_Normal first).
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/// </summary>
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[Fact]
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public void Compose_opaqueUnderlayFirst_resultIsFullyOpaque()
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{
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var underlay = (Solid(2, 2, 128, 64, 32, 255), 2, 2); // opaque tawny
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var baseIcon = (Solid(2, 2, 0, 0, 0, 128), 2, 2); // semi-transparent black
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var (rgba, w, h) = IconComposer.Compose(new[] { underlay, baseIcon });
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Assert.Equal(2, w); Assert.Equal(2, h);
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// All pixels fully opaque: underlay A=255, baseIcon blends over it.
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for (int i = 0; i < w * h; i++)
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Assert.Equal(255, rgba[i * 4 + 3]);
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}
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// ── Dat-gated golden tests ────────────────────────────────────────────────
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// These tests open the real Asheron's Call dats (ACDREAM_DAT_DIR or the default
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// Documents path) and verify the EnumIDMap 0x10000004 resolve chain against the
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// known golden DIDs from the dat (confirmed 2026-06-17 research).
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// Golden values: IconData::RenderIcons 0058d214 + DBCache::GetDIDFromEnum 0x413940.
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private static string? ResolveDatDir()
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{
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var fromEnv = Environment.GetEnvironmentVariable("ACDREAM_DAT_DIR");
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if (!string.IsNullOrWhiteSpace(fromEnv) && Directory.Exists(fromEnv))
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return fromEnv;
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var def = Path.Combine(
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Environment.GetFolderPath(Environment.SpecialFolder.UserProfile),
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"Documents", "Asheron's Call");
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return Directory.Exists(def) ? def : null;
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}
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[Fact]
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public void ResolveUnderlayDid_goldenValues_matchDat()
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{
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var datDir = ResolveDatDir();
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if (datDir is null)
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return; // dats absent (CI) — skip cleanly
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using var dats = new DatCollection(datDir, DatAccessType.Read);
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// TextureCache is not needed for the resolve path; pass a null-safe stub
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// via IconComposer — the underlay-resolve methods only touch _dats.
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// We cannot construct TextureCache without GL, so use a bare IconComposer
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// with a null cache guard: ResolveUnderlayDid is internal and pure-dat.
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var composer = new IconComposer(dats, null!);
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// Golden values confirmed against C:/Users/erikn/Documents/Asheron's Call
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// (IconData::RenderIcons decomp 407524; DBCache::GetDIDFromEnum 0x413940):
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// MeleeWeapon (0x1) → index 1 → 0x060011CB
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// Armor (0x2) → index 2 → 0x060011CF
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// Clothing (0x4) → index 3 → 0x060011F3
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// Jewelry (0x8) → index 4 → 0x060011D5
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// None (0x0) → index 0x21 (fallback) → 0x060011D4
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Assert.Equal(0x060011CBu, composer.ResolveUnderlayDid(ItemType.MeleeWeapon));
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Assert.Equal(0x060011CFu, composer.ResolveUnderlayDid(ItemType.Armor));
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Assert.Equal(0x060011F3u, composer.ResolveUnderlayDid(ItemType.Clothing));
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Assert.Equal(0x060011D5u, composer.ResolveUnderlayDid(ItemType.Jewelry));
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Assert.Equal(0x060011D4u, composer.ResolveUnderlayDid(ItemType.None));
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}
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[Fact]
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public void ResolveEffectDid_goldenValues_matchDat()
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{
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var datDir = ResolveDatDir();
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if (datDir is null) return; // dats absent (CI) — skip cleanly
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using var dats = new DatCollection(datDir, DatAccessType.Read);
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var composer = new IconComposer(dats, null!);
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// Golden values (live dat, MasterMap 0x25000000 → effect submap 0x25000009;
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// index = LowestSetBit(UiEffects)+1, fallback 0x21):
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// Magical (0x0001) → idx 1 → 0x060011CA
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// Poisoned (0x0002) → idx 2 → 0x060011C6
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// BoostHealth (0x0004) → idx 3 → 0x06001B05
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// BoostStamina (0x0010) → idx 5 → 0x06001B06
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// Nether (0x1000) → idx 13 (absent) → fallback 0x21 → 0x060011C5
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// none (0x0000) → idx 0 (zero) → fallback 0x21 → 0x060011C5
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Assert.Equal(0x060011CAu, composer.ResolveEffectDid(0x0001u));
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Assert.Equal(0x060011C6u, composer.ResolveEffectDid(0x0002u));
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Assert.Equal(0x06001B05u, composer.ResolveEffectDid(0x0004u));
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Assert.Equal(0x06001B06u, composer.ResolveEffectDid(0x0010u));
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Assert.Equal(0x060011C5u, composer.ResolveEffectDid(0x1000u));
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Assert.Equal(0x060011C5u, composer.ResolveEffectDid(0x0000u));
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}
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[Fact]
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public void TryGetEffectTile_noEffectBlack_magicalTextured()
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{
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var datDir = ResolveDatDir();
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if (datDir is null) return; // dats absent (CI) — skip cleanly
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using var dats = new DatCollection(datDir, DatAccessType.Read);
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var composer = new IconComposer(dats, null!);
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// effects==0 → 0x21 fallback → 0x060011C5, a 32x32 SOLID-BLACK tile. Copying it
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// per-pixel blackens an icon's pure-white pixels (retail-faithful no-mana scroll edge).
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Assert.True(composer.TryGetEffectTile(0u, out var black));
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Assert.Equal(32, black.Width);
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Assert.Equal(32, black.Height);
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Assert.True(black.Rgba8[0] <= 8 && black.Rgba8[1] <= 8 && black.Rgba8[2] <= 8);
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// Magical (0x1) → 0x060011CA, a TEXTURED blue tile (NOT a flat color) — this is the
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// gradient retail copies per-pixel into the icon's white pixels (the Energy Crystal
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// blue). Assert the tile is non-uniform so a future flat-color regression fails here.
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Assert.True(composer.TryGetEffectTile(0x1u, out var magic));
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bool uniform = true;
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for (int i = 4; i < magic.Width * magic.Height * 4 && uniform; i += 4)
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if (magic.Rgba8[i] != magic.Rgba8[0] || magic.Rgba8[i + 1] != magic.Rgba8[1] ||
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magic.Rgba8[i + 2] != magic.Rgba8[2])
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uniform = false;
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Assert.False(uniform); // textured → gradient, not flat
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}
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[Fact]
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public void ReplaceWhiteFromSurface_copiesSourcePixelForPureWhiteOpaque()
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{
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// 2x2 dest: [white-opaque, red-opaque, white-transparent, white-opaque]
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var dst = new byte[]
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{
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255,255,255,255, // pure white opaque → takes src(0,0)
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255, 0, 0,255, // red → untouched
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255,255,255, 0, // white but alpha 0 → untouched (not 0xFFFFFFFF)
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255,255,255,255, // pure white opaque → takes src(1,1)
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};
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// 2x2 src — distinct per-pixel colors (a "gradient").
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var src = new byte[]
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{
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10, 20, 30,255, // (0,0)
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40, 50, 60,255, // (1,0)
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70, 80, 90,255, // (0,1)
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100,110,120,255, // (1,1)
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};
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IconComposer.ReplaceWhiteFromSurface(dst, 2, 2, src, 2, 2);
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Assert.Equal(new byte[] { 10, 20, 30, 255 }, dst[0..4]); // copied src(0,0)
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Assert.Equal(new byte[] { 255, 0, 0, 255 }, dst[4..8]); // untouched (not white)
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Assert.Equal(new byte[] { 255, 255, 255, 0 }, dst[8..12]); // untouched (transparent)
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Assert.Equal(new byte[] { 100, 110, 120, 255 }, dst[12..16]); // copied src(1,1) — per-pixel
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}
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[Fact]
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public void TwoStageWithEffect_copiesTilePixelBeforeUnderlay()
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{
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// drag = base (white pixel); copy the effect tile's pixel into the white; then over
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// an opaque tawny underlay. The white pixel must become the tile's pixel in the final.
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var baseIcon = (new byte[] { 255,255,255,255 }, 1, 1); // 1x1 white opaque
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var drag = IconComposer.Compose(new[] { baseIcon });
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var tile = new byte[] { 0, 0, 255, 255 }; // 1x1 blue tile pixel
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IconComposer.ReplaceWhiteFromSurface(drag.rgba, drag.w, drag.h, tile, 1, 1);
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var underlay = (new byte[] { 105, 70, 50, 255 }, 1, 1); // tawny opaque
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var final = IconComposer.Compose(new[] { underlay, (drag.rgba, drag.w, drag.h) });
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Assert.Equal(new byte[] { 0, 0, 255, 255 }, final.rgba); // tile pixel on top
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}
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}
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