C++ (Cpp) EnvMapping Examples

Programming Language: C++ (Cpp)

Method/Function: EnvMapping

Examples at hotexamples.com: 2

C++ (Cpp) EnvMapping - 2 examples found. These are the top rated real world C++ (Cpp) examples of EnvMapping extracted from open source projects. You can rate examples to help us improve the quality of examples.

Example #1

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File: shaders.cpp Project: valera-rozuvan/mandelbulber2

sRGBAfloat cRenderWorker::ObjectShader(
	const sShaderInputData &_input, sRGBAfloat *surfaceColour, sRGBAfloat *specularOut)
{
	sRGBAfloat output;

	// normal vector
	CVector3 vn = _input.normal;
	sShaderInputData input = _input;
	cMaterial *mat = input.material;
	input.normal = vn;

	// main light
	sRGBAfloat mainLight;
	mainLight.R = params->mainLightIntensity * params->mainLightColour.R / 65536.0;
	mainLight.G = params->mainLightIntensity * params->mainLightColour.G / 65536.0;
	mainLight.B = params->mainLightIntensity * params->mainLightColour.B / 65536.0;

	// calculate shading based on angle of incidence
	sRGBAfloat shade;
	if (params->mainLightEnable)
	{
		shade = MainShading(input);
		shade.R = params->mainLightIntensity * ((1.0 - mat->shading) + mat->shading * shade.R);
		shade.G = params->mainLightIntensity * ((1.0 - mat->shading) + mat->shading * shade.G);
		shade.B = params->mainLightIntensity * ((1.0 - mat->shading) + mat->shading * shade.B);
	}

	// calculate shadow
	sRGBAfloat shadow(1.0, 1.0, 1.0, 1.0);
	if (params->shadow && params->mainLightEnable) shadow = MainShadow(input);

	// calculate specular highlight
	sRGBAfloat specular;
	if (params->mainLightEnable)
	{
		specular = MainSpecular(input);
		specular.R *= mat->specular;
		specular.G *= mat->specular;
		specular.B *= mat->specular;
	}

	// calculate surface colour
	sRGBAfloat colour = SurfaceColour(input);
	double texColInt = mat->colorTextureIntensity;
	double texColIntN = 1.0 - mat->colorTextureIntensity;
	colour.R *= input.texColor.R * texColInt + texColIntN;
	colour.G *= input.texColor.G * texColInt + texColIntN;
	colour.B *= input.texColor.B * texColInt + texColIntN;
	*surfaceColour = colour;

	// ambient occlusion
	sRGBAfloat ambient(0.0, 0.0, 0.0, 0.0);
	if (params->ambientOcclusionEnabled)
	{
		// fast mode
		if (params->ambientOcclusionMode == params::AOmodeFast)
		{
			ambient = FastAmbientOcclusion(input);
		}
		else if (params->ambientOcclusionMode == params::AOmodeMultipeRays)
		{
			ambient = AmbientOcclusion(input);
		}
	}
	sRGBAfloat ambient2;
	ambient2.R = ambient.R * params->ambientOcclusion;
	ambient2.G = ambient.G * params->ambientOcclusion;
	ambient2.B = ambient.B * params->ambientOcclusion;

	// environment mapping
	sRGBAfloat envMapping(0.0, 0.0, 0.0, 0.0);
	if (params->envMappingEnable)
	{
		envMapping = EnvMapping(input);
	}
	envMapping.R *= mat->reflectance * input.texDiffuse.R;
	envMapping.G *= mat->reflectance * input.texDiffuse.G;
	envMapping.B *= mat->reflectance * input.texDiffuse.B;

	// additional lights
	sRGBAfloat auxLights;
	sRGBAfloat auxLightsSpecular;
	auxLights = AuxLightsShader(input, &auxLightsSpecular);

	// fake orbit trap lights
	sRGBAfloat fakeLights(0.0, 0.0, 0.0, 0.0);
	sRGBAfloat fakeLightsSpecular(0.0, 0.0, 0.0, 0.0);
	if (params->fakeLightsEnabled)
	{
		fakeLights = FakeLights(input, &fakeLightsSpecular);
	}

	// luminosity
	sRGBAfloat luminosity;
	luminosity.R = input.texLuminosity.R * mat->luminosityTextureIntensity
								 + mat->luminosity * mat->luminosityColor.R / 65536.0;
	luminosity.G = input.texLuminosity.G * mat->luminosityTextureIntensity
								 + mat->luminosity * mat->luminosityColor.G / 65536.0;
	luminosity.B = input.texLuminosity.B * mat->luminosityTextureIntensity
								 + mat->luminosity * mat->luminosityColor.B / 65536.0;

	// total shader
	output.R = envMapping.R + (ambient2.R + mainLight.R * shade.R * shadow.R) * colour.R;
	output.G = envMapping.G + (ambient2.G + mainLight.G * shade.G * shadow.G) * colour.G;
	output.B = envMapping.B + (ambient2.B + mainLight.B * shade.B * shadow.B) * colour.B;

	output.R += (auxLights.R + fakeLights.R) * colour.R;
	output.G += (auxLights.G + fakeLights.G) * colour.G;
	output.B += (auxLights.B + fakeLights.B) * colour.B;

	output.R += luminosity.R;
	output.G += luminosity.G;
	output.B += luminosity.B;

	output.A = 1.0;

	specularOut->R = auxLightsSpecular.R + fakeLightsSpecular.R + mainLight.R * specular.R * shadow.R;
	specularOut->G = auxLightsSpecular.G + fakeLightsSpecular.G + mainLight.G * specular.G * shadow.G;
	specularOut->B = auxLightsSpecular.B + fakeLightsSpecular.B + mainLight.B * specular.B * shadow.B;
	specularOut->A = output.A;

	return output;
}

Example #2

Show file

File: shaders.cpp Project: thunderk/mandelbulber2

sRGBAfloat cRenderWorker::ObjectShader(const sShaderInputData &_input, sRGBAfloat *surfaceColour,
		sRGBAfloat *specularOut)
{
	sRGBAfloat output;

	//normal vector
	CVector3 vn = _input.normal;
	sShaderInputData input = _input;
	input.normal = vn;

	sRGBAfloat mainLight;
	mainLight.R = params->mainLightIntensity * params->mainLightColour.R / 65536.0;
	mainLight.G = params->mainLightIntensity * params->mainLightColour.G / 65536.0;
	mainLight.B = params->mainLightIntensity * params->mainLightColour.B / 65536.0;

	//calculate shading based on angle of incidence
	sRGBAfloat shade;
	if (params->mainLightEnable)
	{
		shade = MainShading(input);
		shade.R = params->mainLightIntensity * ((1.0 - params->shading) + params->shading * shade.R);
		shade.G = params->mainLightIntensity * ((1.0 - params->shading) + params->shading * shade.G);
		shade.B = params->mainLightIntensity * ((1.0 - params->shading) + params->shading * shade.B);
	}

	//calculate shadow
	sRGBAfloat shadow(1.0, 1.0, 1.0, 1.0);
	if (params->shadow && params->mainLightEnable) shadow = MainShadow(input);

	//calculate specular highlight
	sRGBAfloat specular;
	if (params->mainLightEnable)
	{
		specular = MainSpecular(input);
		specular.R *= params->specular;
		specular.G *= params->specular;
		specular.B *= params->specular;
	}

	//calculate surface colour
	sRGBAfloat colour = SurfaceColour(input);
	*surfaceColour = colour;

	//ambient occlusion
	sRGBAfloat ambient(0.0, 0.0, 0.0, 0.0);
	if (params->ambientOcclusionEnabled)
	{
		//fast mode
		if (params->ambientOcclusionMode == params::AOmodeFast)
		{
			ambient = FastAmbientOcclusion(input);
		}
		else if (params->ambientOcclusionMode == params::AOmodeMultipeRays)
		{
			ambient = AmbientOcclusion(input);
		}
	}
	sRGBAfloat ambient2;
	ambient2.R = ambient.R * params->ambientOcclusion;
	ambient2.G = ambient.G * params->ambientOcclusion;
	ambient2.B = ambient.B * params->ambientOcclusion;

	//environment mapping
	sRGBAfloat envMapping(0.0, 0.0, 0.0, 0.0);
	if (params->envMappingEnable)
	{
		envMapping = EnvMapping(input);
	}
	envMapping.R *= params->reflect;
	envMapping.G *= params->reflect;
	envMapping.B *= params->reflect;

	//additional lights
	sRGBAfloat auxLights;
	sRGBAfloat auxLightsSpecular;
	auxLights = AuxLightsShader(input, &auxLightsSpecular);

	//fake orbit trap lights
	sRGBAfloat fakeLights(0.0, 0.0, 0.0, 0.0);
	sRGBAfloat fakeLightsSpecular(0.0, 0.0, 0.0, 0.0);
	if (params->fakeLightsEnabled)
	{
		fakeLights = FakeLights(input, &fakeLightsSpecular);
	}

	//total shader
	output.R = envMapping.R + (ambient2.R + mainLight.R * shade.R * shadow.R) * colour.R;
	output.G = envMapping.G + (ambient2.G + mainLight.G * shade.G * shadow.G) * colour.G;
	output.B = envMapping.B + (ambient2.B + mainLight.B * shade.B * shadow.B) * colour.B;

	output.R += (auxLights.R + fakeLights.R) * colour.R;
	output.G += (auxLights.G + fakeLights.G) * colour.G;
	output.B += (auxLights.B + fakeLights.B) * colour.B;
	output.A = 1.0;

	(*specularOut).R = auxLightsSpecular.R + fakeLightsSpecular.R
			+ mainLight.R * specular.R * shadow.R;
	(*specularOut).G = auxLightsSpecular.G + fakeLightsSpecular.G
			+ mainLight.G * specular.G * shadow.G;
	(*specularOut).B = auxLightsSpecular.B + fakeLightsSpecular.B
			+ mainLight.B * specular.B * shadow.B;
	(*specularOut).A = output.A;

	return output;
}