demotool/test/scene.c.glsl

#version 450 core
//! type compute

//! include /lib/raymarcher-cs.glsl
//! include /lib/hg_sdf.glsl

//! include /lib/shading-pbr.glsl
//! include /lib/shading-blinnphong.glsl
//! include /lib/fog.glsl


T_BPMaterial BPMaterials[1] = {
	{ vec3( .95 , .8 , 1 ) * .2 , vec3( 10 ) , 800 , 0 }
};

T_PBRMaterial PBRMaterials[1] = {
	{
		// Albedo color
		vec3( .9 , 1 , .9 ) ,
		// Roughness , metallic , subsurface , anisotropy
		.15 , .5 , .9 , .9 ,
		// Specular strength / tint%
		.5 , .5
	}
};

vec3 Glow[1] = {
	vec3( .95 , .8 , 1 ) * 5
};

void mapMaterial(
	in int matIndex ,
	out int type ,
	out int tIndex ,
	out int glowIndex )
{
	if ( matIndex == 0 ) {
		type = 1;
		glowIndex = -1;
	} else {
		type = 0;
		glowIndex = 0;
	}
	tIndex = 0;
}

vec2 RM_Map( vec3 pos )
{
	vec3 q = pos;
	HG_pMod2( q.xy , vec2( 8. ) );
	HG_pR( q.xz , 1 );
	return vec2( HG_fOpUnionStairs(
			HG_fBox( q , vec3( 2.3 ) ) ,
			HG_fSphere( q , 2.6 ) ,
			1. , 4 ) ,
		step( 0. , -HG_fSphere( pos , 3 ) ) );
}


vec3 pointlight(
	in T_PBRMaterial material ,
	in T_PBRPrecomputed pre ,
	in vec3 hitPos ,
	in vec3 rayDir ,
	in vec3 normal ,
	in vec3 lightPos ,
	in vec3 lightColor ,
	in float lightIntensity )
{
	vec3 lightRay = lightPos - hitPos;
	float lPwr =  lightIntensity / max( .001 , dot( lightRay , lightRay ) );
	if ( lPwr < .00005 ) {
		return vec3( 0 );
	}

	return lightColor * lPwr * PBR_Shade( material , pre ,
			-rayDir , normal , normalize( lightRay ) );
}


vec3 pointlight(
	in T_BPMaterial material ,
	in vec3 hitPos ,
	in vec3 rayDir ,
	in vec3 normal ,
	in vec3 lightPos ,
	in vec3 lightColor ,
	in float lightIntensity )
{
	vec3 lightRay = lightPos - hitPos;
	float lPwr =  lightIntensity / max( .1 , dot( lightRay , lightRay ) );
	if ( lPwr < .00005 ) {
		return vec3( 0 );
	}

	return lightColor * lPwr * BP_Shade(
			material , -rayDir , normal , lightRay );
}


void main( )
{
	vec2 res = imageSize( u_Output );
	ivec2 coords = ivec2( gl_GlobalInvocationID.xy );
	vec2 uv = ( vec2( coords ) / res ) * 2 - 1;
	vec3 camDir = normalize( u_LookAt - u_CamPos );
	vec3 side = normalize( cross( u_CamUp , camDir ) );
	vec3 up = normalize( cross( camDir , side ) );
	vec3 rayDir = normalize( camDir * u_NearPlane
			+ uv.x * side * res.x / res.y
			+ uv.y * up );

	float tanPhi = RM_TanPhi( uv , u_Render.z );

	vec3 r = RM_Advanced( u_CamPos , rayDir ,
			int( u_Render.x ) , u_Render.y ,
			tanPhi , .01 , u_Render.w );
	const vec3 background = vec3( .005 );

	vec3 bc = background;
	vec4 outValue;
	if ( r.y >= 0. ) {
		const vec3 hitPos = RM_ReduceDiscontinuity(
				u_CamPos , rayDir , r.x ,
				tanPhi , u_Correction );
		const vec3 normal = RM_GetNormal( hitPos );

		const int midx = int( r.y );
		const vec3 sunlightDir = normalize( vec3( 0 , 1 , 1 ) );
		const vec3 sunlightColor = vec3( 1 , 1 , .99 ) * .05;
		const vec3 pl1Pos = vec3( 3 , 3 , 5 );
		const vec3 pl1Color = vec3( 1 , .7 , .8 );
		const float pl1Power = 20;
		const vec3 pl2Pos = vec3( -3 , -3 , 5 );
		const vec3 pl2Color = vec3( .6 , 1 , .8 );
		const float pl2Power = 20;

		// Remap materials through mapMaterials
		int mtype , mtidx , glowidx;
		mapMaterial( midx , mtype , mtidx , glowidx );
		if ( mtype == 0 ) {
			T_BPMaterial mat = BPMaterials[ mtidx ];
			bc = sunlightColor * BP_Shade( mat ,
					-rayDir , normal , sunlightDir );
			bc += pointlight( mat ,
					hitPos , rayDir , normal ,
					pl1Pos , pl1Color , pl1Power );
			bc += pointlight( mat ,
					hitPos , rayDir , normal ,
					pl2Pos , pl2Color , pl2Power );
		} else {
			T_PBRMaterial mat = PBRMaterials[ mtidx ];
			T_PBRPrecomputed pre = PBR_Precompute(
					mat , -rayDir , normal );
			bc = sunlightColor * PBR_Shade( mat , pre ,
					-rayDir , normal , sunlightDir );
			bc += pointlight( mat , pre ,
					hitPos , rayDir , normal ,
					pl1Pos , pl1Color , pl1Power );
			bc += pointlight( mat , pre ,
					hitPos , rayDir , normal ,
					pl2Pos , pl2Color , pl2Power );
		}

		if ( glowidx >= 0 ) {
			bc += Glow[ glowidx ];
		}
		bc = FOG_Apply( bc , length( u_CamPos - hitPos ) ,
				u_FogAttenuation , background );
		outValue.w = r.x;
	} else {
		outValue.w = u_Render.w;
	}

	outValue.xyz = bc;
	imageStore( u_Output , coords , outValue );
}
Test - Compute shaders for raymarching 2017-12-25 10:12:17 +01:00			`#version 450 core`
			`//! type compute`

Shaders - Relative paths Shaders are no longer found under /shaders in the project; they can be anywhere. In addition, paths for both (program) instructions in the script and include directives in shader source code are relative to the file which contains them. 2017-12-29 11:33:15 +01:00			`//! include /lib/raymarcher-cs.glsl`
			`//! include /lib/hg_sdf.glsl`
Test - Compute shaders for raymarching 2017-12-25 10:12:17 +01:00
Shaders - Relative paths Shaders are no longer found under /shaders in the project; they can be anywhere. In addition, paths for both (program) instructions in the script and include directives in shader source code are relative to the file which contains them. 2017-12-29 11:33:15 +01:00			`//! include /lib/shading-pbr.glsl`
			`//! include /lib/shading-blinnphong.glsl`
			`//! include /lib/fog.glsl`
Test - Compute shaders for raymarching 2017-12-25 10:12:17 +01:00

			`T_BPMaterial BPMaterials[1] = {`
			`{ vec3( .95 , .8 , 1 ) * .2 , vec3( 10 ) , 800 , 0 }`
			`};`

			`T_PBRMaterial PBRMaterials[1] = {`
			`{`
			`// Albedo color`
			`vec3( .9 , 1 , .9 ) ,`
			`// Roughness , metallic , subsurface , anisotropy`
			`.15 , .5 , .9 , .9 ,`
			`// Specular strength / tint%`
			`.5 , .5`
			`}`
			`};`

			`vec3 Glow[1] = {`
			`vec3( .95 , .8 , 1 ) * 5`
			`};`

			`void mapMaterial(`
			`in int matIndex ,`
			`out int type ,`
			`out int tIndex ,`
			`out int glowIndex )`
			`{`
			`if ( matIndex == 0 ) {`
			`type = 1;`
			`glowIndex = -1;`
			`} else {`
			`type = 0;`
			`glowIndex = 0;`
			`}`
			`tIndex = 0;`
			`}`

			`vec2 RM_Map( vec3 pos )`
			`{`
			`vec3 q = pos;`
			`HG_pMod2( q.xy , vec2( 8. ) );`
			`HG_pR( q.xz , 1 );`
			`return vec2( HG_fOpUnionStairs(`
			`HG_fBox( q , vec3( 2.3 ) ) ,`
			`HG_fSphere( q , 2.6 ) ,`
			`1. , 4 ) ,`
			`step( 0. , -HG_fSphere( pos , 3 ) ) );`
			`}`


			`vec3 pointlight(`
			`in T_PBRMaterial material ,`
			`in T_PBRPrecomputed pre ,`
			`in vec3 hitPos ,`
			`in vec3 rayDir ,`
			`in vec3 normal ,`
			`in vec3 lightPos ,`
			`in vec3 lightColor ,`
			`in float lightIntensity )`
			`{`
			`vec3 lightRay = lightPos - hitPos;`
			`float lPwr = lightIntensity / max( .001 , dot( lightRay , lightRay ) );`
			`if ( lPwr < .00005 ) {`
			`return vec3( 0 );`
			`}`

			`return lightColor * lPwr * PBR_Shade( material , pre ,`
			`-rayDir , normal , normalize( lightRay ) );`
			`}`


			`vec3 pointlight(`
			`in T_BPMaterial material ,`
			`in vec3 hitPos ,`
			`in vec3 rayDir ,`
			`in vec3 normal ,`
			`in vec3 lightPos ,`
			`in vec3 lightColor ,`
			`in float lightIntensity )`
			`{`
			`vec3 lightRay = lightPos - hitPos;`
			`float lPwr = lightIntensity / max( .1 , dot( lightRay , lightRay ) );`
			`if ( lPwr < .00005 ) {`
			`return vec3( 0 );`
			`}`

			`return lightColor * lPwr * BP_Shade(`
			`material , -rayDir , normal , lightRay );`
			`}`


			`void main( )`
			`{`
			`vec2 res = imageSize( u_Output );`
			`ivec2 coords = ivec2( gl_GlobalInvocationID.xy );`
			`vec2 uv = ( vec2( coords ) / res ) * 2 - 1;`
			`vec3 camDir = normalize( u_LookAt - u_CamPos );`
			`vec3 side = normalize( cross( u_CamUp , camDir ) );`
			`vec3 up = normalize( cross( camDir , side ) );`
			`vec3 rayDir = normalize( camDir * u_NearPlane`
			`+ uv.x * side * res.x / res.y`
			`+ uv.y * up );`

			`float tanPhi = RM_TanPhi( uv , u_Render.z );`

			`vec3 r = RM_Advanced( u_CamPos , rayDir ,`
			`int( u_Render.x ) , u_Render.y ,`
			`tanPhi , .01 , u_Render.w );`
			`const vec3 background = vec3( .005 );`

			`vec3 bc = background;`
			`vec4 outValue;`
			`if ( r.y >= 0. ) {`
			`const vec3 hitPos = RM_ReduceDiscontinuity(`
			`u_CamPos , rayDir , r.x ,`
			`tanPhi , u_Correction );`
			`const vec3 normal = RM_GetNormal( hitPos );`

			`const int midx = int( r.y );`
			`const vec3 sunlightDir = normalize( vec3( 0 , 1 , 1 ) );`
			`const vec3 sunlightColor = vec3( 1 , 1 , .99 ) * .05;`
			`const vec3 pl1Pos = vec3( 3 , 3 , 5 );`
			`const vec3 pl1Color = vec3( 1 , .7 , .8 );`
			`const float pl1Power = 20;`
			`const vec3 pl2Pos = vec3( -3 , -3 , 5 );`
			`const vec3 pl2Color = vec3( .6 , 1 , .8 );`
			`const float pl2Power = 20;`

			`// Remap materials through mapMaterials`
			`int mtype , mtidx , glowidx;`
			`mapMaterial( midx , mtype , mtidx , glowidx );`
			`if ( mtype == 0 ) {`
			`T_BPMaterial mat = BPMaterials[ mtidx ];`
			`bc = sunlightColor * BP_Shade( mat ,`
			`-rayDir , normal , sunlightDir );`
			`bc += pointlight( mat ,`
			`hitPos , rayDir , normal ,`
			`pl1Pos , pl1Color , pl1Power );`
			`bc += pointlight( mat ,`
			`hitPos , rayDir , normal ,`
			`pl2Pos , pl2Color , pl2Power );`
			`} else {`
			`T_PBRMaterial mat = PBRMaterials[ mtidx ];`
			`T_PBRPrecomputed pre = PBR_Precompute(`
			`mat , -rayDir , normal );`
			`bc = sunlightColor * PBR_Shade( mat , pre ,`
			`-rayDir , normal , sunlightDir );`
			`bc += pointlight( mat , pre ,`
			`hitPos , rayDir , normal ,`
			`pl1Pos , pl1Color , pl1Power );`
			`bc += pointlight( mat , pre ,`
			`hitPos , rayDir , normal ,`
			`pl2Pos , pl2Color , pl2Power );`
			`}`

			`if ( glowidx >= 0 ) {`
			`bc += Glow[ glowidx ];`
			`}`
			`bc = FOG_Apply( bc , length( u_CamPos - hitPos ) ,`
			`u_FogAttenuation , background );`
			`outValue.w = r.x;`
			`} else {`
			`outValue.w = u_Render.w;`
			`}`

			`outValue.xyz = bc;`
			`imageStore( u_Output , coords , outValue );`
			`}`