openmw/files/shaders/lib/light/lighting.glsl

#ifndef LIB_LIGHT_LIGHTING
#define LIB_LIGHT_LIGHTING

#include "lighting_util.glsl"

float calcLambert(vec3 viewNormal, vec3 lightDir, vec3 viewDir)
{
    float lambert = dot(viewNormal, lightDir);
#ifndef GROUNDCOVER
    lambert = max(lambert, 0.0);
#else
    float eyeCosine = dot(viewNormal, viewDir);
    if (lambert < 0.0)
    {
        lambert = -lambert;
        eyeCosine = -eyeCosine;
    }
    lambert *= clamp(-8.0 * (1.0 - 0.3) * eyeCosine + 1.0, 0.3, 1.0);
#endif
    return lambert;
}

#if PER_PIXEL_LIGHTING
void doLighting(vec3 viewPos, vec3 viewNormal, float shadowing, out vec3 diffuseLight, out vec3 ambientLight)
#else
void doLighting(vec3 viewPos, vec3 viewNormal, out vec3 diffuseLight, out vec3 ambientLight, out vec3 shadowDiffuse)
#endif
{
    vec3 viewDir = normalize(viewPos);

    diffuseLight = lcalcDiffuse(0).xyz * calcLambert(viewNormal, normalize(lcalcPosition(0)), viewDir);
    ambientLight = gl_LightModel.ambient.xyz;
#if PER_PIXEL_LIGHTING
    diffuseLight *= shadowing;
#else
    shadowDiffuse = diffuseLight;
    diffuseLight = vec3(0.0);
#endif

    for (int i = @startLight; i < @endLight; ++i)
    {
#if @lightingMethodUBO
        int lightIndex = PointLightIndex[i];
#else
        int lightIndex = i;
#endif
        vec3 lightPos = lcalcPosition(lightIndex) - viewPos;
        float lightDistance = length(lightPos);

        // cull non-FFP point lighting by radius, light is guaranteed to not fall outside this bound with our cutoff
#if !@lightingMethodFFP
        if (lightDistance > lcalcRadius(lightIndex) * 2.0)
            continue;
#endif

        vec3 lightDir = lightPos / lightDistance;

        float illumination = lcalcIllumination(lightIndex, lightDistance);
        ambientLight += lcalcAmbient(lightIndex) * illumination;
        diffuseLight += lcalcDiffuse(lightIndex) * calcLambert(viewNormal, lightDir, viewDir) * illumination;
    }
}

float calcSpecIntensity(vec3 viewNormal, vec3 viewDir, float shininess, vec3 lightDir)
{
    if (dot(viewNormal, lightDir) > 0.0)
    {
        vec3 halfVec = normalize(lightDir - viewDir);
        float NdotH = max(dot(viewNormal, halfVec), 0.0);
        return pow(NdotH, shininess);
    }

    return 0.0;
}

vec3 getSpecular(vec3 viewNormal, vec3 viewPos, float shininess, float shadowing)
{
    shininess = max(shininess, 1e-4);
    vec3 viewDir = normalize(viewPos);
    vec3 specularLight = lcalcSpecular(0).xyz * calcSpecIntensity(viewNormal, viewDir, shininess, normalize(lcalcPosition(0)));
    specularLight *= shadowing;

    for (int i = @startLight; i < @endLight; ++i)
    {
#if @lightingMethodUBO
        int lightIndex = PointLightIndex[i];
#else
        int lightIndex = i;
#endif

        vec3 lightPos = lcalcPosition(lightIndex) - viewPos;
        float lightDistance = length(lightPos);

#if !@lightingMethodFFP
        if (lightDistance > lcalcRadius(lightIndex) * 2.0)
            continue;
#endif

        float illumination = lcalcIllumination(lightIndex, lightDistance);
        float intensity = calcSpecIntensity(viewNormal, viewDir, shininess, normalize(lightPos));
        specularLight += lcalcSpecular(lightIndex).xyz * intensity * illumination;
    }

    return specularLight;
}

#endif
shade refactor 2023-02-25 11:03:39 -08:00			`#ifndef LIB_LIGHT_LIGHTING`
			`#define LIB_LIGHT_LIGHTING`

Make life not suck for whoever wants to edit lighting shaders 2021-04-08 12:42:11 -07:00			`#include "lighting_util.glsl"`
Move doLighting to separate file 2016-02-17 23:29:26 +01:00
Deduplicate lambert calculations, consolidate doLighting 2023-12-15 09:17:24 +03:00			`float calcLambert(vec3 viewNormal, vec3 lightDir, vec3 viewDir)`
initial commit 2021-02-21 10:38:15 -08:00			`{`
Deduplicate lambert calculations, consolidate doLighting 2023-12-15 09:17:24 +03:00			`float lambert = dot(viewNormal, lightDir);`
Implement instanced groundcover 2020-01-12 11:42:47 +04:00			`#ifndef GROUNDCOVER`
			`lambert = max(lambert, 0.0);`
			`#else`
Deduplicate lambert calculations, consolidate doLighting 2023-12-15 09:17:24 +03:00			`float eyeCosine = dot(viewNormal, viewDir);`
Optimise groundcover lighting 2021-02-09 21:56:21 +00:00			`if (lambert < 0.0)`
Implement instanced groundcover 2020-01-12 11:42:47 +04:00			`{`
Optimise groundcover lighting 2021-02-09 21:56:21 +00:00			`lambert = -lambert;`
			`eyeCosine = -eyeCosine;`
Implement instanced groundcover 2020-01-12 11:42:47 +04:00			`}`
Optimise groundcover lighting 2021-02-09 21:56:21 +00:00			`lambert = clamp(-8.0 (1.0 - 0.3) * eyeCosine + 1.0, 0.3, 1.0);`
Implement instanced groundcover 2020-01-12 11:42:47 +04:00			`#endif`
Deduplicate lambert calculations, consolidate doLighting 2023-12-15 09:17:24 +03:00			`return lambert;`
Adjust shaders to support shadows 2017-09-21 00:25:48 +01:00			`}`

Fix issue with shader preprocessor variables 2017-10-08 00:44:35 +01:00			`#if PER_PIXEL_LIGHTING`
Clean up shader lighting 2020-12-19 20:17:42 +03:00			`void doLighting(vec3 viewPos, vec3 viewNormal, float shadowing, out vec3 diffuseLight, out vec3 ambientLight)`
Adjust shaders to support shadows 2017-09-21 00:25:48 +01:00			`#else`
Clean up shader lighting 2020-12-19 20:17:42 +03:00			`void doLighting(vec3 viewPos, vec3 viewNormal, out vec3 diffuseLight, out vec3 ambientLight, out vec3 shadowDiffuse)`
Adjust shaders to support shadows 2017-09-21 00:25:48 +01:00			`#endif`
			`{`
Deduplicate lambert calculations, consolidate doLighting 2023-12-15 09:17:24 +03:00			`vec3 viewDir = normalize(viewPos);`
initial commit 2021-02-21 10:38:15 -08:00
Deduplicate lambert calculations, consolidate doLighting 2023-12-15 09:17:24 +03:00			`diffuseLight = lcalcDiffuse(0).xyz * calcLambert(viewNormal, normalize(lcalcPosition(0)), viewDir);`
Fixed error in calculating viewspace sun dir, minor cleanup 2021-04-12 01:08:45 -07:00			`ambientLight = gl_LightModel.ambient.xyz;`
Fix the same shader preprocessor variable issue for the third time now 2017-10-08 01:34:54 +01:00			`#if PER_PIXEL_LIGHTING`
Deduplicate lambert calculations, consolidate doLighting 2023-12-15 09:17:24 +03:00			`diffuseLight *= shadowing;`
Adjust shaders to support shadows 2017-09-21 00:25:48 +01:00			`#else`
Deduplicate lambert calculations, consolidate doLighting 2023-12-15 09:17:24 +03:00			`shadowDiffuse = diffuseLight;`
Code review fixes, remove implicit GLSL casts 2021-04-13 11:00:48 -07:00			`diffuseLight = vec3(0.0);`
Adjust shaders to support shadows 2017-09-21 00:25:48 +01:00			`#endif`
Rewrite, support different lighting methods 2021-03-14 21:42:34 -07:00
Make life not suck for whoever wants to edit lighting shaders 2021-04-08 12:42:11 -07:00			`for (int i = @startLight; i < @endLight; ++i)`
Rewrite, support different lighting methods 2021-03-14 21:42:34 -07:00			`{`
Make life not suck for whoever wants to edit lighting shaders 2021-04-08 12:42:11 -07:00			`#if @lightingMethodUBO`
Deduplicate lambert calculations, consolidate doLighting 2023-12-15 09:17:24 +03:00			`int lightIndex = PointLightIndex[i];`
Make life not suck for whoever wants to edit lighting shaders 2021-04-08 12:42:11 -07:00			`#else`
Deduplicate lambert calculations, consolidate doLighting 2023-12-15 09:17:24 +03:00			`int lightIndex = i;`
Make life not suck for whoever wants to edit lighting shaders 2021-04-08 12:42:11 -07:00			`#endif`
Deduplicate lambert calculations, consolidate doLighting 2023-12-15 09:17:24 +03:00			`vec3 lightPos = lcalcPosition(lightIndex) - viewPos;`
			`float lightDistance = length(lightPos);`

			`// cull non-FFP point lighting by radius, light is guaranteed to not fall outside this bound with our cutoff`
			`#if !@lightingMethodFFP`
			`if (lightDistance > lcalcRadius(lightIndex) * 2.0)`
			`continue;`
			`#endif`

			`vec3 lightDir = lightPos / lightDistance;`

			`float illumination = lcalcIllumination(lightIndex, lightDistance);`
			`ambientLight += lcalcAmbient(lightIndex) * illumination;`
			`diffuseLight += lcalcDiffuse(lightIndex) * calcLambert(viewNormal, lightDir, viewDir) * illumination;`
Move doLighting to separate file 2016-02-17 23:29:26 +01:00			`}`
			`}`
Add specular mapping for objects 2016-02-20 19:02:11 +01:00
Support point specular lighting (#6188) Fix passing light specular colors with shader lighting methods (with help from wazabear) 2023-11-02 23:24:58 +03:00			`float calcSpecIntensity(vec3 viewNormal, vec3 viewDir, float shininess, vec3 lightDir)`
Add specular mapping for objects 2016-02-20 19:02:11 +01:00			`{`
Support point specular lighting (#6188) Fix passing light specular colors with shader lighting methods (with help from wazabear) 2023-11-02 23:24:58 +03:00			`if (dot(viewNormal, lightDir) > 0.0)`
			`{`
			`vec3 halfVec = normalize(lightDir - viewDir);`
			`float NdotH = max(dot(viewNormal, halfVec), 0.0);`
			`return pow(NdotH, shininess);`
			`}`

			`return 0.0;`
			`}`

			`vec3 getSpecular(vec3 viewNormal, vec3 viewPos, float shininess, float shadowing)`
			`{`
			`shininess = max(shininess, 1e-4);`
			`vec3 viewDir = normalize(viewPos);`
			`vec3 specularLight = lcalcSpecular(0).xyz * calcSpecIntensity(viewNormal, viewDir, shininess, normalize(lcalcPosition(0)));`
			`specularLight *= shadowing;`

			`for (int i = @startLight; i < @endLight; ++i)`
			`{`
			`#if @lightingMethodUBO`
			`int lightIndex = PointLightIndex[i];`
			`#else`
			`int lightIndex = i;`
			`#endif`

			`vec3 lightPos = lcalcPosition(lightIndex) - viewPos;`
			`float lightDistance = length(lightPos);`

			`#if !@lightingMethodFFP`
			`if (lightDistance > lcalcRadius(lightIndex) * 2.0)`
			`continue;`
			`#endif`

			`float illumination = lcalcIllumination(lightIndex, lightDistance);`
			`float intensity = calcSpecIntensity(viewNormal, viewDir, shininess, normalize(lightPos));`
			`specularLight += lcalcSpecular(lightIndex).xyz * intensity * illumination;`
			`}`

			`return specularLight;`
Add specular mapping for objects 2016-02-20 19:02:11 +01:00			`}`
shade refactor 2023-02-25 11:03:39 -08:00
			`#endif`