Serious-Engine/Sources/Shaders/DisplaceShader.cpp

/* Copyright (c) 2002-2012 Croteam Ltd. All rights reserved. */

#include "Shaders/StdH.h"

#define TEXTURE_COUNT 2
#define UVMAPS_COUNT  1
#define COLOR_COUNT   2
#define FLOAT_COUNT   4
#define FLAGS_COUNT   2

#define BASE_TEXTURE 0
#define BASE_UVMAP   0
#define BASE_COLOR   0

#define DETAIL_TEXTURE 1
#define DETAIL_UVMAP   1
#define DETAIL_COLOR   1
#define DETAIL_TILING  0

#define BASE_DOUBLE_SIDED (1UL<<0) // Double sided
#define BASE_FULL_BRIGHT  (1UL<<1) // Full bright

#define FLOAT_UVMAPF    0
#define FLOAT_AMPLITUDE 1
#define FLOAT_RIPPLES   2
#define FLOAT_FREQUENCY 3

SHADER_MAIN(LavaDisplace)
{
  shaSetTexture(BASE_TEXTURE);
  shaSetTextureWrapping( GFX_REPEAT, GFX_REPEAT);
  shaSetUVMap(BASE_UVMAP);
  shaSetColor(BASE_COLOR);
  shaEnableDepthTest();
  shaDepthFunc(GFX_LESS_EQUAL);

  COLOR &colModelColor = shaGetModelColor();
  BOOL bDoubleSided = shaGetFlags()&BASE_DOUBLE_SIDED;
  BOOL bOpaque = (colModelColor&0xFF)==0xFF;

  if(bDoubleSided) {
    shaCullFace(GFX_NONE);
  } else {
    shaCullFace(GFX_BACK);
  }

  shaCalculateLight();

  // if fully opaque
  if(bOpaque) {
    // shaEnableAlphaTest(TRUE);
    shaDisableBlend();
    shaEnableDepthWrite();
  // if translucent
  } else {
    // shaEnableAlphaTest(FALSE);
    shaEnableBlend();
    shaBlendFunc(GFX_SRC_ALPHA, GFX_INV_SRC_ALPHA);
    shaDisableDepthWrite();
    shaModifyColorForFog();
  }

  if(shaOverBrightningEnabled()) shaSetTextureModulation(2);
  
  // displace geometry
  GFXVertex4 *paVertices = shaGetVertexArray();
  GFXVertex4 *paNewVertices = shaGetNewVertexArray();
  INDEX ctVertices = shaGetVertexCount();
  // get some values, but clamp them
  FLOAT fAmplitude = Clamp(shaGetFloat(FLOAT_AMPLITUDE), 0.0f, 0.75f);
  FLOAT fRipples   = shaGetFloat(FLOAT_RIPPLES);  
  FLOAT fFrequency = shaGetFloat(FLOAT_FREQUENCY);  
  Matrix12 &mInvAbsToViewer = *shaGetObjToAbsMatrix();
  Matrix12 mAbsToView;
  MatrixTranspose(mAbsToView, mInvAbsToViewer);
   
  // for each vertex
  for(INDEX ivx=0; ivx<ctVertices; ivx++) {
    paNewVertices[ivx] = paVertices[ivx];
    
    TransformVertex(paNewVertices[ivx],mInvAbsToViewer);
    paNewVertices[ivx].x *= 1.0f + fAmplitude * sin((paNewVertices[ivx].y+(_pTimer->GetLerpedCurrentTick()*fFrequency))*fRipples);
    paNewVertices[ivx].z *= 1.0f + fAmplitude * sin((paNewVertices[ivx].y+(_pTimer->GetLerpedCurrentTick()*fFrequency))*fRipples);
    //paNewVertices[ivx].x += fAmplitude * sin((paNewVertices[ivx].y+(_pTimer->GetLerpedCurrentTick()*fFrequency))*fRipples);
    //paNewVertices[ivx].y += vDisplace.y;
    //paNewVertices[ivx].z += vDisplace.z;
    TransformVertex(paNewVertices[ivx],mAbsToView);
  }
  shaSetVertexArray(paNewVertices, ctVertices);
  
  shaRender();

  if(bOpaque) {
    shaDoFogPass();
  }

  // do detail pass
  FLOAT fMul = shaGetFloat(DETAIL_TILING);
  shaBlendFunc( GFX_DST_COLOR, GFX_SRC_COLOR);
  shaSetTexture(DETAIL_TEXTURE);
  shaSetUVMap(DETAIL_UVMAP);
  shaSetColor(DETAIL_COLOR);
  shaCalculateLight();

  shaEnableBlend();

  GFXTexCoord *ptxcOld = shaGetUVMap(0);
  GFXTexCoord *ptxcNew = shaGetNewTexCoordArray();
  INDEX ctTexCoords = shaGetVertexCount();
  if(ctTexCoords>0) {
    for(INDEX itxc=0;itxc<ctTexCoords;itxc++)
    {
      ptxcNew[itxc].uv.u = ptxcOld[itxc].uv.u * fMul;
      ptxcNew[itxc].uv.v = ptxcOld[itxc].uv.v * fMul;
    }
    shaSetTexCoords(ptxcNew);
  }
  shaRender();
  shaDisableBlend();

  if(shaOverBrightningEnabled()) shaSetTextureModulation(1);
}

SHADER_DESC(LavaDisplace, ShaderDesc &shDesc)
{
  shDesc.sd_astrTextureNames.New(TEXTURE_COUNT);
  shDesc.sd_astrTexCoordNames.New(UVMAPS_COUNT);
  shDesc.sd_astrColorNames.New(COLOR_COUNT);
  shDesc.sd_astrFloatNames.New(FLOAT_COUNT);
  shDesc.sd_astrFlagNames.New(FLAGS_COUNT);

  shDesc.sd_astrTextureNames[0] = "Base texture";
  shDesc.sd_astrTextureNames[1] = "Detail texture";
  shDesc.sd_astrTexCoordNames[0] = "Base UVMap";
  shDesc.sd_astrColorNames[0] = "Surface color";
  shDesc.sd_astrColorNames[1] = "Detail color";
  shDesc.sd_astrFloatNames[FLOAT_UVMAPF] = "UVMap factor";
  shDesc.sd_astrFlagNames[0] = "Double sided";
  shDesc.sd_astrFlagNames[1] = "Full bright";
  shDesc.sd_strShaderInfo = "Detail shader";
  shDesc.sd_astrFloatNames[FLOAT_AMPLITUDE] = "Amp (max 0.75)";
  shDesc.sd_astrFloatNames[FLOAT_RIPPLES]   = "Ripple density";
  shDesc.sd_astrFloatNames[FLOAT_FREQUENCY]    = "Ripple speed";
}
Uploading full engine sources 2016-03-11 14:57:17 +01:00			`/* Copyright (c) 2002-2012 Croteam Ltd. All rights reserved. */`

First attempt to hand-merge Ryan's Linux and Mac OS X port. This was a _ton_ of changes, made 15 years ago, so there are probably some problems to work out still. Among others: Engine/Base/Stream.* was mostly abandoned and will need to be re-ported. Still, this is a pretty good start, and probably holds a world record for lines of changes or something. :) 2016-03-29 03:03:54 +02:00			`#include "Shaders/StdH.h"`
Uploading full engine sources 2016-03-11 14:57:17 +01:00
			`#define TEXTURE_COUNT 2`
			`#define UVMAPS_COUNT 1`
			`#define COLOR_COUNT 2`
			`#define FLOAT_COUNT 4`
			`#define FLAGS_COUNT 2`

			`#define BASE_TEXTURE 0`
			`#define BASE_UVMAP 0`
			`#define BASE_COLOR 0`

			`#define DETAIL_TEXTURE 1`
			`#define DETAIL_UVMAP 1`
			`#define DETAIL_COLOR 1`
			`#define DETAIL_TILING 0`

			`#define BASE_DOUBLE_SIDED (1UL<<0) // Double sided`
			`#define BASE_FULL_BRIGHT (1UL<<1) // Full bright`

			`#define FLOAT_UVMAPF 0`
			`#define FLOAT_AMPLITUDE 1`
			`#define FLOAT_RIPPLES 2`
			`#define FLOAT_FREQUENCY 3`

			`SHADER_MAIN(LavaDisplace)`
			`{`
			`shaSetTexture(BASE_TEXTURE);`
			`shaSetTextureWrapping( GFX_REPEAT, GFX_REPEAT);`
			`shaSetUVMap(BASE_UVMAP);`
			`shaSetColor(BASE_COLOR);`
			`shaEnableDepthTest();`
			`shaDepthFunc(GFX_LESS_EQUAL);`

			`COLOR &colModelColor = shaGetModelColor();`
			`BOOL bDoubleSided = shaGetFlags()&BASE_DOUBLE_SIDED;`
			`BOOL bOpaque = (colModelColor&0xFF)==0xFF;`

			`if(bDoubleSided) {`
			`shaCullFace(GFX_NONE);`
			`} else {`
			`shaCullFace(GFX_BACK);`
			`}`

			`shaCalculateLight();`

			`// if fully opaque`
			`if(bOpaque) {`
			`// shaEnableAlphaTest(TRUE);`
			`shaDisableBlend();`
			`shaEnableDepthWrite();`
			`// if translucent`
			`} else {`
			`// shaEnableAlphaTest(FALSE);`
			`shaEnableBlend();`
			`shaBlendFunc(GFX_SRC_ALPHA, GFX_INV_SRC_ALPHA);`
			`shaDisableDepthWrite();`
			`shaModifyColorForFog();`
			`}`

			`if(shaOverBrightningEnabled()) shaSetTextureModulation(2);`

			`// displace geometry`
			`GFXVertex4 *paVertices = shaGetVertexArray();`
			`GFXVertex4 *paNewVertices = shaGetNewVertexArray();`
			`INDEX ctVertices = shaGetVertexCount();`
			`// get some values, but clamp them`
			`FLOAT fAmplitude = Clamp(shaGetFloat(FLOAT_AMPLITUDE), 0.0f, 0.75f);`
			`FLOAT fRipples = shaGetFloat(FLOAT_RIPPLES);`
			`FLOAT fFrequency = shaGetFloat(FLOAT_FREQUENCY);`
			`Matrix12 &mInvAbsToViewer = *shaGetObjToAbsMatrix();`
			`Matrix12 mAbsToView;`
			`MatrixTranspose(mAbsToView, mInvAbsToViewer);`

			`// for each vertex`
			`for(INDEX ivx=0; ivx<ctVertices; ivx++) {`
			`paNewVertices[ivx] = paVertices[ivx];`

			`TransformVertex(paNewVertices[ivx],mInvAbsToViewer);`
			`paNewVertices[ivx].x = 1.0f + fAmplitude sin((paNewVertices[ivx].y+(_pTimer->GetLerpedCurrentTick()fFrequency))fRipples);`
			`paNewVertices[ivx].z = 1.0f + fAmplitude sin((paNewVertices[ivx].y+(_pTimer->GetLerpedCurrentTick()fFrequency))fRipples);`
			`//paNewVertices[ivx].x += fAmplitude * sin((paNewVertices[ivx].y+(_pTimer->GetLerpedCurrentTick()fFrequency))fRipples);`
			`//paNewVertices[ivx].y += vDisplace.y;`
			`//paNewVertices[ivx].z += vDisplace.z;`
			`TransformVertex(paNewVertices[ivx],mAbsToView);`
			`}`
			`shaSetVertexArray(paNewVertices, ctVertices);`

			`shaRender();`

			`if(bOpaque) {`
			`shaDoFogPass();`
			`}`

			`// do detail pass`
			`FLOAT fMul = shaGetFloat(DETAIL_TILING);`
			`shaBlendFunc( GFX_DST_COLOR, GFX_SRC_COLOR);`
			`shaSetTexture(DETAIL_TEXTURE);`
			`shaSetUVMap(DETAIL_UVMAP);`
			`shaSetColor(DETAIL_COLOR);`
			`shaCalculateLight();`

			`shaEnableBlend();`

			`GFXTexCoord *ptxcOld = shaGetUVMap(0);`
			`GFXTexCoord *ptxcNew = shaGetNewTexCoordArray();`
			`INDEX ctTexCoords = shaGetVertexCount();`
			`if(ctTexCoords>0) {`
			`for(INDEX itxc=0;itxc<ctTexCoords;itxc++)`
			`{`
First attempt to hand-merge Ryan's Linux and Mac OS X port. This was a _ton_ of changes, made 15 years ago, so there are probably some problems to work out still. Among others: Engine/Base/Stream.* was mostly abandoned and will need to be re-ported. Still, this is a pretty good start, and probably holds a world record for lines of changes or something. :) 2016-03-29 03:03:54 +02:00			`ptxcNew[itxc].uv.u = ptxcOld[itxc].uv.u * fMul;`
			`ptxcNew[itxc].uv.v = ptxcOld[itxc].uv.v * fMul;`
Uploading full engine sources 2016-03-11 14:57:17 +01:00			`}`
			`shaSetTexCoords(ptxcNew);`
			`}`
			`shaRender();`
			`shaDisableBlend();`

			`if(shaOverBrightningEnabled()) shaSetTextureModulation(1);`
			`}`

			`SHADER_DESC(LavaDisplace, ShaderDesc &shDesc)`
			`{`
			`shDesc.sd_astrTextureNames.New(TEXTURE_COUNT);`
			`shDesc.sd_astrTexCoordNames.New(UVMAPS_COUNT);`
			`shDesc.sd_astrColorNames.New(COLOR_COUNT);`
			`shDesc.sd_astrFloatNames.New(FLOAT_COUNT);`
			`shDesc.sd_astrFlagNames.New(FLAGS_COUNT);`

			`shDesc.sd_astrTextureNames[0] = "Base texture";`
			`shDesc.sd_astrTextureNames[1] = "Detail texture";`
			`shDesc.sd_astrTexCoordNames[0] = "Base UVMap";`
			`shDesc.sd_astrColorNames[0] = "Surface color";`
			`shDesc.sd_astrColorNames[1] = "Detail color";`
			`shDesc.sd_astrFloatNames[FLOAT_UVMAPF] = "UVMap factor";`
			`shDesc.sd_astrFlagNames[0] = "Double sided";`
			`shDesc.sd_astrFlagNames[1] = "Full bright";`
			`shDesc.sd_strShaderInfo = "Detail shader";`
			`shDesc.sd_astrFloatNames[FLOAT_AMPLITUDE] = "Amp (max 0.75)";`
			`shDesc.sd_astrFloatNames[FLOAT_RIPPLES] = "Ripple density";`
			`shDesc.sd_astrFloatNames[FLOAT_FREQUENCY] = "Ripple speed";`
			`}`