doom3-bfg/base/renderprogs/interaction.vertex

/*
===========================================================================

Doom 3 BFG Edition GPL Source Code
Copyright (C) 1993-2012 id Software LLC, a ZeniMax Media company. 
Copyright (C) 2014 Robert Beckebans

This file is part of the Doom 3 BFG Edition GPL Source Code ("Doom 3 BFG Edition Source Code").  

Doom 3 BFG Edition Source Code is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.

Doom 3 BFG Edition Source Code is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with Doom 3 BFG Edition Source Code.  If not, see <http://www.gnu.org/licenses/>.

In addition, the Doom 3 BFG Edition Source Code is also subject to certain additional terms. You should have received a copy of these additional terms immediately following the terms and conditions of the GNU General Public License which accompanied the Doom 3 BFG Edition Source Code.  If not, please request a copy in writing from id Software at the address below.

If you have questions concerning this license or the applicable additional terms, you may contact in writing id Software LLC, c/o ZeniMax Media Inc., Suite 120, Rockville, Maryland 20850 USA.

===========================================================================
*/

#include "renderprogs/global.inc"

#if defined( USE_GPU_SKINNING )
uniform matrices_ubo { float4 matrices[408]; };
#endif

struct VS_IN {
	float4 position : POSITION;
	float2 texcoord : TEXCOORD0;
	float4 normal : NORMAL;
	float4 tangent : TANGENT;
	float4 color : COLOR0;
	float4 color2 : COLOR1;
};

struct VS_OUT {
	float4 position		: POSITION;
	float4 texcoord0	: TEXCOORD0;
	float4 texcoord1	: TEXCOORD1;
	float4 texcoord2	: TEXCOORD2;
	float4 texcoord3	: TEXCOORD3;
	float4 texcoord4	: TEXCOORD4;
	float4 texcoord5	: TEXCOORD5;
	float4 texcoord6	: TEXCOORD6;
	float4 color		: COLOR0;
};

void main( VS_IN vertex, out VS_OUT result ) {

	float4 vNormal = vertex.normal * 2.0 - 1.0;
	float4 vTangent = vertex.tangent * 2.0 - 1.0;
	float3 vBitangent = cross( vNormal.xyz, vTangent.xyz ) * vTangent.w;

#if defined( USE_GPU_SKINNING )
	//--------------------------------------------------------------
	// GPU transformation of the normal / tangent / bitangent
	//
	// multiplying with 255.1 give us the same result and is faster than floor( w * 255 + 0.5 )
	//--------------------------------------------------------------
	const float w0 = vertex.color2.x;
	const float w1 = vertex.color2.y;
	const float w2 = vertex.color2.z;
	const float w3 = vertex.color2.w;

	float4 matX, matY, matZ;	// must be float4 for vec4
	float joint = vertex.color.x * 255.1 * 3;
	matX = matrices[int(joint+0)] * w0;
	matY = matrices[int(joint+1)] * w0;
	matZ = matrices[int(joint+2)] * w0;

	joint = vertex.color.y * 255.1 * 3;
	matX += matrices[int(joint+0)] * w1;
	matY += matrices[int(joint+1)] * w1;
	matZ += matrices[int(joint+2)] * w1;

	joint = vertex.color.z * 255.1 * 3;
	matX += matrices[int(joint+0)] * w2;
	matY += matrices[int(joint+1)] * w2;
	matZ += matrices[int(joint+2)] * w2;

	joint = vertex.color.w * 255.1 * 3;
	matX += matrices[int(joint+0)] * w3;
	matY += matrices[int(joint+1)] * w3;
	matZ += matrices[int(joint+2)] * w3;

	float3 normal;
	normal.x = dot3( matX, vNormal );
	normal.y = dot3( matY, vNormal );
	normal.z = dot3( matZ, vNormal );
	normal = normalize( normal );

	float3 tangent;
	tangent.x = dot3( matX, vTangent );
	tangent.y = dot3( matY, vTangent );
	tangent.z = dot3( matZ, vTangent );
	tangent = normalize( tangent );

	float3 bitangent;
	bitangent.x = dot3( matX, vBitangent );
	bitangent.y = dot3( matY, vBitangent );
	bitangent.z = dot3( matZ, vBitangent );
	bitangent = normalize( bitangent );

	float4 modelPosition;
	modelPosition.x = dot4( matX, vertex.position );
	modelPosition.y = dot4( matY, vertex.position );
	modelPosition.z = dot4( matZ, vertex.position );
	modelPosition.w = 1.0;

#else
	float4 modelPosition = vertex.position;
	float3 normal = vNormal.xyz;
	float3 tangent = vTangent.xyz;
	float3 bitangent = vBitangent.xyz;
#endif

	result.position.x = dot4( modelPosition, rpMVPmatrixX );
	result.position.y = dot4( modelPosition, rpMVPmatrixY );
	result.position.z = dot4( modelPosition, rpMVPmatrixZ );
	result.position.w = dot4( modelPosition, rpMVPmatrixW );

	float4 defaultTexCoord = float4( 0.0f, 0.5f, 0.0f, 1.0f );

	//calculate vector to light
	float4 toLight = rpLocalLightOrigin - modelPosition;

	//--------------------------------------------------------------

	//result.texcoord0 is the direction to the light in tangent space
	result.texcoord0.x = dot3( tangent, toLight );
	result.texcoord0.y = dot3( bitangent, toLight );
	result.texcoord0.z = dot3( normal, toLight );
	result.texcoord0.w = 1.0f;

	//textures 1 takes the base coordinates by the texture matrix
	result.texcoord1 = defaultTexCoord;
	result.texcoord1.x = dot4( vertex.texcoord.xy, rpBumpMatrixS );
	result.texcoord1.y = dot4( vertex.texcoord.xy, rpBumpMatrixT );

	//# texture 2 has one texgen
	result.texcoord2 = defaultTexCoord;
	result.texcoord2.x = dot4( modelPosition, rpLightFalloffS );

	//# texture 3 has three texgens
	result.texcoord3.x = dot4( modelPosition, rpLightProjectionS );
	result.texcoord3.y = dot4( modelPosition, rpLightProjectionT );
	result.texcoord3.z = 0.0f;
	result.texcoord3.w = dot4( modelPosition, rpLightProjectionQ );

	//# textures 4 takes the base coordinates by the texture matrix
	result.texcoord4 = defaultTexCoord;
	result.texcoord4.x = dot4( vertex.texcoord.xy, rpDiffuseMatrixS );
	result.texcoord4.y = dot4( vertex.texcoord.xy, rpDiffuseMatrixT );

	//# textures 5 takes the base coordinates by the texture matrix
	result.texcoord5 = defaultTexCoord;
	result.texcoord5.x = dot4( vertex.texcoord.xy, rpSpecularMatrixS );
	result.texcoord5.y = dot4( vertex.texcoord.xy, rpSpecularMatrixT );

	//# texture 6's texcoords will be the halfangle in texture space

	//# calculate normalized vector to light in R0
	toLight = normalize( toLight );

	//# calculate normalized vector to viewer in R1
	float4 toView = normalize( rpLocalViewOrigin - modelPosition );
	
	//# add together to become the half angle vector in object space (non-normalized)
	float4 halfAngleVector = toLight + toView;

	//# put into texture space
	result.texcoord6.x = dot3( tangent, halfAngleVector );
	result.texcoord6.y = dot3( bitangent, halfAngleVector );
	result.texcoord6.z = dot3( normal, halfAngleVector );
	result.texcoord6.w = 1.0f;

#if defined( USE_GPU_SKINNING )
	// for joint transformation of the tangent space, we use color and
	// color2 for weighting information, so hopefully there aren't any
	// effects that need vertex color...
	result.color = float4( 1.0f, 1.0f, 1.0f, 1.0f );
#else
	//# generate the vertex color, which can be 1.0, color, or 1.0 - color
	//# for 1.0 : env[16] = 0, env[17] = 1
	//# for color : env[16] = 1, env[17] = 0
	//# for 1.0-color : env[16] = -1, env[17] = 1	
	result.color = ( swizzleColor( vertex.color ) * rpVertexColorModulate ) + rpVertexColorAdd;
#endif
}