141 lines
3.2 KiB
GLSL
141 lines
3.2 KiB
GLSL
//! type library
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//! include lib/utils.glsl
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vec2 RM_Map( in vec3 pos );
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// -----------------------------------------------------------------------------
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vec3 RM_GetNormal(
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in vec3 pos )
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{
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vec2 v = vec2( .0005 , 0 );
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return normalize( vec3(
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RM_Map( pos + v.xyy ).x - RM_Map( pos - v.xyy ).x ,
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RM_Map( pos + v.yxy ).x - RM_Map( pos - v.yxy ).x ,
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RM_Map( pos + v.yyx ).x - RM_Map( pos - v.yyx ).x ) );
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}
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// -----------------------------------------------------------------------------
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vec3 RM_Basic(
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in vec3 origin ,
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in vec3 direction ,
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in int steps ,
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in float factor ,
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in float epsilon ,
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in float dMin ,
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in float dMax )
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{
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int i = 0;
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float dist = dMin , mat = -1;
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for ( ; i < steps ; ++ i ) {
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vec2 res = RM_Map( origin + direction * dist );
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if ( abs( res.x ) < epsilon || dist > dMax ) {
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break;
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}
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dist += res.x * factor;
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mat = res.y;
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}
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return vec3( dist , dist >= dMax ? -1 : mat , i );
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}
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vec3 RM_Advanced(
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in vec3 origin ,
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in vec3 direction ,
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in int steps ,
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in float factor ,
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in float epsilon ,
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in float dMin ,
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in float dMax )
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{
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int i = 0;
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float dist = dMin ,
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omega = factor ,
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cError = 1 / 0. ,
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cDist = dMin ,
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pRad = 0 ,
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sLen = 0;
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for ( ; i < steps ; ++ i ) {
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vec2 res = RM_Map( origin + direction * dist );
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float rad = abs( res.x );
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bool sorFail = omega > 1 && ( rad + pRad ) < sLen;
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if ( sorFail ) {
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sLen -= omega * sLen;
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omega = 1;
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} else {
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sLen = res.x * omega;
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}
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pRad = rad;
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float error = rad / dist;
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if ( !sorFail && error < cError ) {
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cError = error;
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cDist = dist;
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}
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if ( !sorFail && error < epsilon || dist > dMax ) {
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break;
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}
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dist += sLen;
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}
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if ( dist <= dMax && cError <= epsilon ) {
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return vec3( cDist , RM_Map( origin + direction * cDist ).y , i );
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}
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return vec3( cDist , -1 , steps );
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}
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float RM_TanPhi(
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in vec2 uv ,
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in float pixelRadius )
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{
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// 1 / tan( FOV * PI / 360 )
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// u_NearPlane = 2 * tan( PI * ( 180 - FOV ) / 360 );
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// atan( u_NearPlane / 2 ) = PI * ( 180 - FOV ) / 360
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// = PI / 2 - PI * FOV / 360
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// atan( u_NearPlane / 2 ) - PI / 2 = - PI * FOV / 360
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// PI / 2 - atan( u_NearPlane / 2 ) = PI * FOV / 360
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// ...
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// ...
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// or we could just pass it as a fucking uniform
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const float hfov = ( PI * .5 - atan( u_NearPlane * .5 ) ) * .5;
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vec2 e = ( abs( uv.x ) > abs( uv.y ) )
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? vec2( uv.x < 0 ? -1 : 1 , 0 )
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: vec2( 0 , uv.y < 0 ? -1 : 1 );
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vec3 d = normalize( vec3( uv , -1 / tan( hfov ) ) ) ,
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a = vec3( ( e + e.yx ) * pixelRadius + uv ,
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-1 / tan( hfov ) ) ,
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b = vec3( ( e - e.yx ) * pixelRadius + uv ,
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-1 / tan( hfov ) ) ,
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p2ca = a / dot( a , d ) ,
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p2cb = a / dot( b , d ) ,
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diff = p2cb - p2ca ,
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de = mix( p2ca , p2cb , M_Saturate(
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dot( d - p2ca , diff ) / M_LengthSqr( diff ) ) );
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float sinPhiSquared = M_LengthSqr( cross( d , normalize( de ) ) );
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return sqrt( sinPhiSquared / ( 1 - sinPhiSquared ) );
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}
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vec3 RM_ReduceDiscontinuity(
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in vec3 origin ,
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in vec3 rayDir ,
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in float hitDist ,
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in float tanPhi ,
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in int iterations )
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{
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vec3 hitPos = origin + hitDist * rayDir;
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for ( int i = 0 ; i < iterations ; i ++ ) {
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const float err = length( origin - hitPos ) * tanPhi;
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hitPos = hitPos + rayDir * (
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RM_Map( hitPos ).x - tanPhi
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);
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}
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return hitPos;
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}
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