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Support negative light intensities on pointlights
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parent
4b05dccb8a
commit
67bd6c62ab
2 changed files with 21 additions and 23 deletions
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@ -229,9 +229,9 @@ void FLevel::CreateLights()
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if (thing->type != THING_POINTLIGHT_STATIC && thing->type != THING_SPOTLIGHT_STATIC)
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continue;
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uint32_t lightcolor = 0xffffff;
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float lightintensity = 1.0f;
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float lightdistance = 0.0f;
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vec3 lightColor(0, 0, 0);
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float lightIntensity = 1.0f;
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float lightDistance = 0.0f;
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float innerAngleCos = -1.0f;
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float outerAngleCos = -1.0f;
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@ -242,50 +242,48 @@ void FLevel::CreateLights()
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int r = thing->args[0];
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int g = thing->args[1];
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int b = thing->args[2];
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int rgb = r;
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rgb = rgb << 8;
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rgb |= g;
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rgb = rgb << 8;
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rgb |= b;
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lightcolor = (uint32_t)rgb;
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lightColor = vec3(r / 255.0, g / 255.0, b / 255.0);
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}
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else if (thing->type == THING_SPOTLIGHT_STATIC)
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{
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lightcolor = (uint32_t)thing->args[0];
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auto rgb = (uint32_t)thing->args[0];
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// UDB's color picker will assign the color as a hex string, stored
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// in the arg0str field. detect this, so that it can be converted into an int
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if (thing->arg0str.Len() > 0)
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{
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FString hex = "0x" + thing->arg0str;
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int rgb = hex.ToULong();
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lightcolor = (uint32_t)rgb;
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rgb = (uint32_t)hex.ToULong();
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}
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lightColor = vec3(
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((rgb >> 16) & 0xFF) / 255.0,
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((rgb >> 8) & 0xFF) / 255.0,
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((rgb) & 0xFF) / 255.0
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);
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innerAngleCos = std::cos((float)thing->args[1] * 3.14159265359f / 180.0f);
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outerAngleCos = std::cos((float)thing->args[2] * 3.14159265359f / 180.0f);
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}
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// this is known as "intensity" on dynamic lights (and in UDB)
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lightdistance = thing->args[3];
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lightDistance = thing->args[3];
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// static light intensity (not to be confused with dynamic lights' intensity, which is actually static light distance
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lightintensity = thing->alpha;
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lightIntensity = thing->alpha;
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if (lightdistance > 0.0f && lightintensity > 0.0f && lightcolor != 0)
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if (lightDistance > 0.0f && lightIntensity > 0.0f && lightColor != vec3(0, 0, 0))
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{
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int x = thing->x >> FRACBITS;
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int y = thing->y >> FRACBITS;
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ThingLight thingLight;
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thingLight.mapThing = thing;
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thingLight.rgb.x = ((lightcolor >> 16) & 0xff) / 255.0f;
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thingLight.rgb.y = ((lightcolor >> 8) & 0xff) / 255.0f;
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thingLight.rgb.z = (lightcolor & 0xff) / 255.0f;
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thingLight.intensity = lightintensity;
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thingLight.rgb = lightColor;
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thingLight.intensity = lightIntensity;
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thingLight.innerAngleCos = std::max(innerAngleCos, outerAngleCos);
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thingLight.outerAngleCos = outerAngleCos;
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thingLight.radius = lightdistance;
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thingLight.radius = lightDistance;
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thingLight.height = thing->height;
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thingLight.bCeiling = false;
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thingLight.ssect = PointInSubSector(x, y);
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@ -444,9 +444,9 @@ void LevelMesh::FinishSurface(RectPacker& packer, Surface* surface)
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int offs = ((textureWidth * (i + surface->atlasY)) + surface->atlasX) * 3;
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// convert RGB to bytes
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currentTexture[offs + j * 3 + 0] = floatToHalf(clamp(colorSamples[i * sampleWidth + j].x, -65000.0f, 65000.0f));
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currentTexture[offs + j * 3 + 1] = floatToHalf(clamp(colorSamples[i * sampleWidth + j].y, -65000.0f, 65000.0f));
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currentTexture[offs + j * 3 + 2] = floatToHalf(clamp(colorSamples[i * sampleWidth + j].z, -65000.0f, 65000.0f));
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currentTexture[offs + j * 3 + 0] = floatToHalf(clamp(colorSamples[i * sampleWidth + j].x, 0.0f, 65000.0f));
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currentTexture[offs + j * 3 + 1] = floatToHalf(clamp(colorSamples[i * sampleWidth + j].y, 0.0f, 65000.0f));
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currentTexture[offs + j * 3 + 2] = floatToHalf(clamp(colorSamples[i * sampleWidth + j].z, 0.0f, 65000.0f));
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}
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}
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}
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