Kelsidavis-WoWee/assets/shaders/character.frag.glsl

#version 450

layout(set = 0, binding = 0) uniform PerFrame {
    mat4 view;
    mat4 projection;
    mat4 lightSpaceMatrix;
    vec4 lightDir;
    vec4 lightColor;
    vec4 ambientColor;
    vec4 viewPos;
    vec4 fogColor;
    vec4 fogParams;
    vec4 shadowParams;
};

layout(set = 1, binding = 0) uniform sampler2D uTexture;

layout(set = 1, binding = 1) uniform CharMaterial {
    float opacity;
    int alphaTest;
    int colorKeyBlack;
    int unlit;
    float emissiveBoost;
    vec3 emissiveTint;
    float specularIntensity;
    int enableNormalMap;
    int enablePOM;
    float pomScale;
    int pomMaxSamples;
    float heightMapVariance;
    float normalMapStrength;
};

layout(set = 1, binding = 2) uniform sampler2D uNormalHeightMap;

layout(set = 0, binding = 1) uniform sampler2DShadow uShadowMap;

layout(location = 0) in vec3 FragPos;
layout(location = 1) in vec3 Normal;
layout(location = 2) in vec2 TexCoord;
layout(location = 3) in vec3 Tangent;
layout(location = 4) in vec3 Bitangent;

layout(location = 0) out vec4 outColor;

const float SHADOW_TEXEL = 1.0 / 4096.0;

float sampleShadowPCF(sampler2DShadow smap, vec3 coords) {
    float shadow = 0.0;
    for (int x = -1; x <= 1; ++x) {
        for (int y = -1; y <= 1; ++y) {
            shadow += texture(smap, vec3(coords.xy + vec2(x, y) * SHADOW_TEXEL, coords.z));
        }
    }
    return shadow / 9.0;
}

// LOD factor from screen-space UV derivatives
float computeLodFactor() {
    vec2 dx = dFdx(TexCoord);
    vec2 dy = dFdy(TexCoord);
    float texelDensity = max(dot(dx, dx), dot(dy, dy));
    return smoothstep(0.0001, 0.005, texelDensity);
}

// Parallax Occlusion Mapping with angle-adaptive sampling
vec2 parallaxOcclusionMap(vec2 uv, vec3 viewDirTS, float lodFactor) {
    float VdotN = abs(viewDirTS.z);

    if (VdotN < 0.15) return uv;

    float angleFactor = clamp(VdotN, 0.15, 1.0);
    int maxS = pomMaxSamples;
    int minS = max(maxS / 4, 4);
    int numSamples = int(mix(float(minS), float(maxS), angleFactor));
    numSamples = int(mix(float(minS), float(numSamples), 1.0 - lodFactor));

    float layerDepth = 1.0 / float(numSamples);
    float currentLayerDepth = 0.0;

    vec2 P = viewDirTS.xy / max(VdotN, 0.15) * pomScale;
    float maxOffset = pomScale * 3.0;
    P = clamp(P, vec2(-maxOffset), vec2(maxOffset));
    vec2 deltaUV = P / float(numSamples);

    vec2 currentUV = uv;
    float currentDepthMapValue = 1.0 - texture(uNormalHeightMap, currentUV).a;

    for (int i = 0; i < 64; i++) {
        if (i >= numSamples || currentLayerDepth >= currentDepthMapValue) break;
        currentUV -= deltaUV;
        currentDepthMapValue = 1.0 - texture(uNormalHeightMap, currentUV).a;
        currentLayerDepth += layerDepth;
    }

    vec2 prevUV = currentUV + deltaUV;
    float afterDepth = currentDepthMapValue - currentLayerDepth;
    float beforeDepth = (1.0 - texture(uNormalHeightMap, prevUV).a) - currentLayerDepth + layerDepth;
    float weight = afterDepth / (afterDepth - beforeDepth + 0.0001);
    vec2 result = mix(currentUV, prevUV, weight);

    float fadeFactor = smoothstep(0.15, 0.35, VdotN);
    return mix(uv, result, fadeFactor);
}

void main() {
    float lodFactor = computeLodFactor();

    vec3 vertexNormal = normalize(Normal);
    if (!gl_FrontFacing) vertexNormal = -vertexNormal;

    vec2 finalUV = TexCoord;

    // Build TBN matrix
    vec3 T = normalize(Tangent);
    vec3 B = normalize(Bitangent);
    vec3 N = vertexNormal;
    mat3 TBN = mat3(T, B, N);

    if (enablePOM != 0 && heightMapVariance > 0.001 && lodFactor < 0.99) {
        mat3 TBN_inv = transpose(TBN);
        vec3 viewDirWorld = normalize(viewPos.xyz - FragPos);
        vec3 viewDirTS = TBN_inv * viewDirWorld;
        finalUV = parallaxOcclusionMap(TexCoord, viewDirTS, lodFactor);
    }

    vec4 texColor = texture(uTexture, finalUV);

    if (alphaTest != 0 && texColor.a < 0.5) discard;
    if (colorKeyBlack != 0) {
        float lum = dot(texColor.rgb, vec3(0.299, 0.587, 0.114));
        float ck = smoothstep(0.12, 0.30, lum);
        texColor.a *= ck;
        if (texColor.a < 0.01) discard;
    }

    // Compute normal (with normal mapping if enabled)
    vec3 norm = vertexNormal;
    if (enableNormalMap != 0 && lodFactor < 0.99 && normalMapStrength > 0.001) {
        vec3 mapNormal = texture(uNormalHeightMap, finalUV).rgb * 2.0 - 1.0;
        mapNormal.xy *= normalMapStrength;
        mapNormal = normalize(mapNormal);
        vec3 worldNormal = normalize(TBN * mapNormal);
        if (!gl_FrontFacing) worldNormal = -worldNormal;
        float blendFactor = max(lodFactor, 1.0 - normalMapStrength);
        norm = normalize(mix(worldNormal, vertexNormal, blendFactor));
    }

    vec3 result;

    if (unlit != 0) {
        vec3 warm = emissiveTint * emissiveBoost;
        result = texColor.rgb * (1.0 + warm);
    } else {
        vec3 ldir = normalize(-lightDir.xyz);
        float diff = max(dot(norm, ldir), 0.0);

        vec3 viewDir = normalize(viewPos.xyz - FragPos);
        vec3 halfDir = normalize(ldir + viewDir);
        float spec = pow(max(dot(norm, halfDir), 0.0), 32.0) * specularIntensity;

        float shadow = 1.0;
        if (shadowParams.x > 0.5) {
            float normalOffset = SHADOW_TEXEL * 2.0 * (1.0 - abs(dot(norm, ldir)));
            vec3 biasedPos = FragPos + norm * normalOffset;
            vec4 lsPos = lightSpaceMatrix * vec4(biasedPos, 1.0);
            vec3 proj = lsPos.xyz / lsPos.w;
            proj.xy = proj.xy * 0.5 + 0.5;
            if (proj.x >= 0.0 && proj.x <= 1.0 &&
                proj.y >= 0.0 && proj.y <= 1.0 &&
                proj.z >= 0.0 && proj.z <= 1.0) {
                float bias = max(0.0005 * (1.0 - dot(norm, ldir)), 0.00005);
                shadow = sampleShadowPCF(uShadowMap, vec3(proj.xy, proj.z - bias));
            }
            shadow = mix(1.0, shadow, shadowParams.y);
        }

        result = ambientColor.rgb * texColor.rgb
               + shadow * (diff * lightColor.rgb * texColor.rgb + spec * lightColor.rgb);
    }

    float dist = length(viewPos.xyz - FragPos);
    float fogFactor = clamp((fogParams.y - dist) / (fogParams.y - fogParams.x), 0.0, 1.0);
    result = mix(fogColor.rgb, result, fogFactor);

    outColor = vec4(result, texColor.a * opacity);
}
Vulcan Nightmare Experimentally bringing up vulcan support 2026-02-21 19:41:21 -08:00			`#version 450`

			`layout(set = 0, binding = 0) uniform PerFrame {`
			`mat4 view;`
			`mat4 projection;`
			`mat4 lightSpaceMatrix;`
			`vec4 lightDir;`
			`vec4 lightColor;`
			`vec4 ambientColor;`
			`vec4 viewPos;`
			`vec4 fogColor;`
			`vec4 fogParams;`
			`vec4 shadowParams;`
			`};`

			`layout(set = 1, binding = 0) uniform sampler2D uTexture;`

			`layout(set = 1, binding = 1) uniform CharMaterial {`
			`float opacity;`
			`int alphaTest;`
			`int colorKeyBlack;`
			`int unlit;`
			`float emissiveBoost;`
			`vec3 emissiveTint;`
			`float specularIntensity;`
Add normal mapping and parallax occlusion mapping for character models Extends the WMO normal mapping/POM system to character M2 models with bone-skinned tangents. Auto-generates normal/height maps from diffuse textures using luminance→height, Sobel→normals (same algorithm as WMO). - Expand vertex buffer from M2Vertex (48B) to CharVertexGPU (56B) with tangent vec4 computed via Lengyel's method in setupModelBuffers() - Tangents are bone-transformed and Gram-Schmidt orthogonalized in the vertex shader, output as TBN for fragment shader consumption - Fragment shader gains POM ray marching, normal map blending, and LOD crossfade via dFdx/dFdy (identical to WMO shader) - Descriptor set 1 extended with binding 2 for normal/height sampler - Settings (enable, strength, POM quality) wired from game_screen.cpp to both WMO and character renderers via shared UI controls 2026-02-23 01:40:23 -08:00			`int enableNormalMap;`
			`int enablePOM;`
			`float pomScale;`
			`int pomMaxSamples;`
			`float heightMapVariance;`
			`float normalMapStrength;`
Vulcan Nightmare Experimentally bringing up vulcan support 2026-02-21 19:41:21 -08:00			`};`

Add normal mapping and parallax occlusion mapping for character models Extends the WMO normal mapping/POM system to character M2 models with bone-skinned tangents. Auto-generates normal/height maps from diffuse textures using luminance→height, Sobel→normals (same algorithm as WMO). - Expand vertex buffer from M2Vertex (48B) to CharVertexGPU (56B) with tangent vec4 computed via Lengyel's method in setupModelBuffers() - Tangents are bone-transformed and Gram-Schmidt orthogonalized in the vertex shader, output as TBN for fragment shader consumption - Fragment shader gains POM ray marching, normal map blending, and LOD crossfade via dFdx/dFdy (identical to WMO shader) - Descriptor set 1 extended with binding 2 for normal/height sampler - Settings (enable, strength, POM quality) wired from game_screen.cpp to both WMO and character renderers via shared UI controls 2026-02-23 01:40:23 -08:00			`layout(set = 1, binding = 2) uniform sampler2D uNormalHeightMap;`

Vulcan Nightmare Experimentally bringing up vulcan support 2026-02-21 19:41:21 -08:00			`layout(set = 0, binding = 1) uniform sampler2DShadow uShadowMap;`

			`layout(location = 0) in vec3 FragPos;`
			`layout(location = 1) in vec3 Normal;`
			`layout(location = 2) in vec2 TexCoord;`
Add normal mapping and parallax occlusion mapping for character models Extends the WMO normal mapping/POM system to character M2 models with bone-skinned tangents. Auto-generates normal/height maps from diffuse textures using luminance→height, Sobel→normals (same algorithm as WMO). - Expand vertex buffer from M2Vertex (48B) to CharVertexGPU (56B) with tangent vec4 computed via Lengyel's method in setupModelBuffers() - Tangents are bone-transformed and Gram-Schmidt orthogonalized in the vertex shader, output as TBN for fragment shader consumption - Fragment shader gains POM ray marching, normal map blending, and LOD crossfade via dFdx/dFdy (identical to WMO shader) - Descriptor set 1 extended with binding 2 for normal/height sampler - Settings (enable, strength, POM quality) wired from game_screen.cpp to both WMO and character renderers via shared UI controls 2026-02-23 01:40:23 -08:00			`layout(location = 3) in vec3 Tangent;`
			`layout(location = 4) in vec3 Bitangent;`
Vulcan Nightmare Experimentally bringing up vulcan support 2026-02-21 19:41:21 -08:00
			`layout(location = 0) out vec4 outColor;`

Add 9-tap PCF soft shadows and normal-offset bias to all fragment shaders Replaces single-tap shadow sampling with 3x3 grid PCF (36-sample equivalent with hardware bilinear filtering) for smooth shadow edges. Adds normal-offset bias to eliminate shadow acne on oblique surfaces without peter-panning. 2026-02-23 04:14:27 -08:00			`const float SHADOW_TEXEL = 1.0 / 4096.0;`

			`float sampleShadowPCF(sampler2DShadow smap, vec3 coords) {`
			`float shadow = 0.0;`
			`for (int x = -1; x <= 1; ++x) {`
			`for (int y = -1; y <= 1; ++y) {`
			`shadow += texture(smap, vec3(coords.xy + vec2(x, y) * SHADOW_TEXEL, coords.z));`
			`}`
			`}`
			`return shadow / 9.0;`
			`}`

Add normal mapping and parallax occlusion mapping for character models Extends the WMO normal mapping/POM system to character M2 models with bone-skinned tangents. Auto-generates normal/height maps from diffuse textures using luminance→height, Sobel→normals (same algorithm as WMO). - Expand vertex buffer from M2Vertex (48B) to CharVertexGPU (56B) with tangent vec4 computed via Lengyel's method in setupModelBuffers() - Tangents are bone-transformed and Gram-Schmidt orthogonalized in the vertex shader, output as TBN for fragment shader consumption - Fragment shader gains POM ray marching, normal map blending, and LOD crossfade via dFdx/dFdy (identical to WMO shader) - Descriptor set 1 extended with binding 2 for normal/height sampler - Settings (enable, strength, POM quality) wired from game_screen.cpp to both WMO and character renderers via shared UI controls 2026-02-23 01:40:23 -08:00			`// LOD factor from screen-space UV derivatives`
			`float computeLodFactor() {`
			`vec2 dx = dFdx(TexCoord);`
			`vec2 dy = dFdy(TexCoord);`
			`float texelDensity = max(dot(dx, dx), dot(dy, dy));`
			`return smoothstep(0.0001, 0.005, texelDensity);`
			`}`

			`// Parallax Occlusion Mapping with angle-adaptive sampling`
			`vec2 parallaxOcclusionMap(vec2 uv, vec3 viewDirTS, float lodFactor) {`
			`float VdotN = abs(viewDirTS.z);`

			`if (VdotN < 0.15) return uv;`

			`float angleFactor = clamp(VdotN, 0.15, 1.0);`
			`int maxS = pomMaxSamples;`
			`int minS = max(maxS / 4, 4);`
			`int numSamples = int(mix(float(minS), float(maxS), angleFactor));`
			`numSamples = int(mix(float(minS), float(numSamples), 1.0 - lodFactor));`

			`float layerDepth = 1.0 / float(numSamples);`
			`float currentLayerDepth = 0.0;`

			`vec2 P = viewDirTS.xy / max(VdotN, 0.15) * pomScale;`
			`float maxOffset = pomScale * 3.0;`
			`P = clamp(P, vec2(-maxOffset), vec2(maxOffset));`
			`vec2 deltaUV = P / float(numSamples);`

			`vec2 currentUV = uv;`
			`float currentDepthMapValue = 1.0 - texture(uNormalHeightMap, currentUV).a;`

			`for (int i = 0; i < 64; i++) {`
			`if (i >= numSamples \|\| currentLayerDepth >= currentDepthMapValue) break;`
			`currentUV -= deltaUV;`
			`currentDepthMapValue = 1.0 - texture(uNormalHeightMap, currentUV).a;`
			`currentLayerDepth += layerDepth;`
			`}`

			`vec2 prevUV = currentUV + deltaUV;`
			`float afterDepth = currentDepthMapValue - currentLayerDepth;`
			`float beforeDepth = (1.0 - texture(uNormalHeightMap, prevUV).a) - currentLayerDepth + layerDepth;`
			`float weight = afterDepth / (afterDepth - beforeDepth + 0.0001);`
			`vec2 result = mix(currentUV, prevUV, weight);`

			`float fadeFactor = smoothstep(0.15, 0.35, VdotN);`
			`return mix(uv, result, fadeFactor);`
			`}`

Vulcan Nightmare Experimentally bringing up vulcan support 2026-02-21 19:41:21 -08:00			`void main() {`
Add normal mapping and parallax occlusion mapping for character models Extends the WMO normal mapping/POM system to character M2 models with bone-skinned tangents. Auto-generates normal/height maps from diffuse textures using luminance→height, Sobel→normals (same algorithm as WMO). - Expand vertex buffer from M2Vertex (48B) to CharVertexGPU (56B) with tangent vec4 computed via Lengyel's method in setupModelBuffers() - Tangents are bone-transformed and Gram-Schmidt orthogonalized in the vertex shader, output as TBN for fragment shader consumption - Fragment shader gains POM ray marching, normal map blending, and LOD crossfade via dFdx/dFdy (identical to WMO shader) - Descriptor set 1 extended with binding 2 for normal/height sampler - Settings (enable, strength, POM quality) wired from game_screen.cpp to both WMO and character renderers via shared UI controls 2026-02-23 01:40:23 -08:00			`float lodFactor = computeLodFactor();`

			`vec3 vertexNormal = normalize(Normal);`
			`if (!gl_FrontFacing) vertexNormal = -vertexNormal;`

			`vec2 finalUV = TexCoord;`

			`// Build TBN matrix`
			`vec3 T = normalize(Tangent);`
			`vec3 B = normalize(Bitangent);`
			`vec3 N = vertexNormal;`
			`mat3 TBN = mat3(T, B, N);`

			`if (enablePOM != 0 && heightMapVariance > 0.001 && lodFactor < 0.99) {`
			`mat3 TBN_inv = transpose(TBN);`
			`vec3 viewDirWorld = normalize(viewPos.xyz - FragPos);`
			`vec3 viewDirTS = TBN_inv * viewDirWorld;`
			`finalUV = parallaxOcclusionMap(TexCoord, viewDirTS, lodFactor);`
			`}`

			`vec4 texColor = texture(uTexture, finalUV);`
Vulcan Nightmare Experimentally bringing up vulcan support 2026-02-21 19:41:21 -08:00
			`if (alphaTest != 0 && texColor.a < 0.5) discard;`
			`if (colorKeyBlack != 0) {`
			`float lum = dot(texColor.rgb, vec3(0.299, 0.587, 0.114));`
			`float ck = smoothstep(0.12, 0.30, lum);`
			`texColor.a *= ck;`
			`if (texColor.a < 0.01) discard;`
			`}`

Add normal mapping and parallax occlusion mapping for character models Extends the WMO normal mapping/POM system to character M2 models with bone-skinned tangents. Auto-generates normal/height maps from diffuse textures using luminance→height, Sobel→normals (same algorithm as WMO). - Expand vertex buffer from M2Vertex (48B) to CharVertexGPU (56B) with tangent vec4 computed via Lengyel's method in setupModelBuffers() - Tangents are bone-transformed and Gram-Schmidt orthogonalized in the vertex shader, output as TBN for fragment shader consumption - Fragment shader gains POM ray marching, normal map blending, and LOD crossfade via dFdx/dFdy (identical to WMO shader) - Descriptor set 1 extended with binding 2 for normal/height sampler - Settings (enable, strength, POM quality) wired from game_screen.cpp to both WMO and character renderers via shared UI controls 2026-02-23 01:40:23 -08:00			`// Compute normal (with normal mapping if enabled)`
			`vec3 norm = vertexNormal;`
			`if (enableNormalMap != 0 && lodFactor < 0.99 && normalMapStrength > 0.001) {`
			`vec3 mapNormal = texture(uNormalHeightMap, finalUV).rgb * 2.0 - 1.0;`
			`mapNormal.xy *= normalMapStrength;`
			`mapNormal = normalize(mapNormal);`
			`vec3 worldNormal = normalize(TBN * mapNormal);`
			`if (!gl_FrontFacing) worldNormal = -worldNormal;`
			`float blendFactor = max(lodFactor, 1.0 - normalMapStrength);`
			`norm = normalize(mix(worldNormal, vertexNormal, blendFactor));`
			`}`
Vulcan Nightmare Experimentally bringing up vulcan support 2026-02-21 19:41:21 -08:00
			`vec3 result;`

			`if (unlit != 0) {`
			`vec3 warm = emissiveTint * emissiveBoost;`
			`result = texColor.rgb * (1.0 + warm);`
			`} else {`
			`vec3 ldir = normalize(-lightDir.xyz);`
			`float diff = max(dot(norm, ldir), 0.0);`

			`vec3 viewDir = normalize(viewPos.xyz - FragPos);`
			`vec3 halfDir = normalize(ldir + viewDir);`
			`float spec = pow(max(dot(norm, halfDir), 0.0), 32.0) * specularIntensity;`

			`float shadow = 1.0;`
			`if (shadowParams.x > 0.5) {`
Add 9-tap PCF soft shadows and normal-offset bias to all fragment shaders Replaces single-tap shadow sampling with 3x3 grid PCF (36-sample equivalent with hardware bilinear filtering) for smooth shadow edges. Adds normal-offset bias to eliminate shadow acne on oblique surfaces without peter-panning. 2026-02-23 04:14:27 -08:00			`float normalOffset = SHADOW_TEXEL * 2.0 * (1.0 - abs(dot(norm, ldir)));`
			`vec3 biasedPos = FragPos + norm * normalOffset;`
			`vec4 lsPos = lightSpaceMatrix * vec4(biasedPos, 1.0);`
Stabilize Vulkan shadow pipeline diagnostics and compatibility path - Fix shadow depth image layout transitions by tracking per-frame old/new layouts. - Update receiver shadow projection to Vulkan clip-depth convention. - Test inverted shadow compare op path (GREATER_OR_EQUAL). - Switch shadow compare samplers to NEAREST filtering for broader Vulkan compatibility. - Expand shadow caster coverage by disabling caster cull filtering in WMO/M2/Character shadow pipelines. - Keep light-space matrix path on stable character-centered framing. 2026-02-22 10:23:20 -08:00			`vec3 proj = lsPos.xyz / lsPos.w;`
			`proj.xy = proj.xy * 0.5 + 0.5;`
			`if (proj.x >= 0.0 && proj.x <= 1.0 &&`
			`proj.y >= 0.0 && proj.y <= 1.0 &&`
			`proj.z >= 0.0 && proj.z <= 1.0) {`
			`float bias = max(0.0005 * (1.0 - dot(norm, ldir)), 0.00005);`
Add 9-tap PCF soft shadows and normal-offset bias to all fragment shaders Replaces single-tap shadow sampling with 3x3 grid PCF (36-sample equivalent with hardware bilinear filtering) for smooth shadow edges. Adds normal-offset bias to eliminate shadow acne on oblique surfaces without peter-panning. 2026-02-23 04:14:27 -08:00			`shadow = sampleShadowPCF(uShadowMap, vec3(proj.xy, proj.z - bias));`
Vulcan Nightmare Experimentally bringing up vulcan support 2026-02-21 19:41:21 -08:00			`}`
			`shadow = mix(1.0, shadow, shadowParams.y);`
			`}`

			`result = ambientColor.rgb * texColor.rgb`
			`+ shadow * (diff * lightColor.rgb * texColor.rgb + spec * lightColor.rgb);`
			`}`

			`float dist = length(viewPos.xyz - FragPos);`
			`float fogFactor = clamp((fogParams.y - dist) / (fogParams.y - fogParams.x), 0.0, 1.0);`
			`result = mix(fogColor.rgb, result, fogFactor);`

			`outColor = vec4(result, texColor.a * opacity);`
			`}`