Exemplo n.º 1
0
  OSPPickResult Renderer::pick(const vec2f &screenPos)
  {
    assert(getIE());

    OSPPickResult res;
    ispc::Renderer_pick(getIE(),
                        (const ispc::vec2f&)screenPos,
                        (ispc::vec3f&)res.position,
                        res.hit);

    return res;
  }
Exemplo n.º 2
0
 void AO16Material::commit() {
   Kd = getParam3f("color", getParam3f("kd", getParam3f("Kd", vec3f(.8f))));
   map_Kd = (Texture2D*)getParamObject("map_Kd", getParamObject("map_kd", NULL));
   ispc::AO16Material_set(getIE(),
                          (const ispc::vec3f&)Kd,
                          map_Kd.ptr!=NULL?map_Kd->getIE():NULL);
 }
Exemplo n.º 3
0
    void SciVisRenderer::commit()
    {
      Renderer::commit();

      lightData = (Data*)getParamData("lights");

      lightArray.clear();

      if (lightData) {
        for (int i = 0; i < lightData->size(); i++)
          lightArray.push_back(((Light**)lightData->data)[i]->getIE());
      }

      void **lightPtr = lightArray.empty() ? NULL : &lightArray[0];

      const bool shadowsEnabled = getParam1i("shadowsEnabled", 0);

      const int32 maxDepth = getParam1i("maxDepth", 10);

      int   numAOSamples = getParam1i("aoSamples", 0);
      float rayLength    = getParam1f("aoOcclusionDistance", 1e20f);
      float aoWeight     = getParam1f("aoWeight", 0.25f);

      ispc::SciVisRenderer_set(getIE(),
                               shadowsEnabled,
                               maxDepth,
                               numAOSamples,
                               rayLength,
                               aoWeight,
                               lightPtr,
                               lightArray.size());
    }
Exemplo n.º 4
0
void BasicRenderer::commit()
{
    AbstractRenderer::commit();
    ispc::BasicRenderer_set(getIE(),
                            (_bgMaterial ? _bgMaterial->getIE() : nullptr),
                            _timestamp, spp, _lightPtr, _lightArray.size());
}
Exemplo n.º 5
0
  void StreamLines::finalize(Model *model) 
  {
    radius     = getParam1f("radius",0.01f);
    vertexData = getParamData("vertex",NULL);
    indexData  = getParamData("index",NULL);
    colorData  = getParamData("vertex.color",getParamData("color"));

    Assert(radius > 0.f);
    Assert(vertexData);
    Assert(indexData);

    index       = (const uint32*)indexData->data;
    numSegments = indexData->numItems;
    vertex      = (const vec3fa*)vertexData->data;
    numVertices = vertexData->numItems;
    color       = colorData ? (const vec4f*)colorData->data : NULL;

    std::cout << "#osp: creating streamlines geometry, "
              << "#verts=" << numVertices << ", "
              << "#segments=" << numSegments << ", "
              << "radius=" << radius << std::endl;
    
    ispc::StreamLineGeometry_set(getIE(),model->getIE(),radius,
                                 (ispc::vec3fa*)vertex,numVertices,
                                 (uint32_t*)index,numSegments,
                                 (ispc::vec4f*)color);
  }
Exemplo n.º 6
0
  void SpotLight::commit()
  {
    Light::commit();
    position  = getParam3f("position", vec3f(0.f));
    direction = getParam3f("direction", vec3f(0.f, 0.f, 1.f));
    color     = getParam3f("color", vec3f(1.f));
    intensity = getParam1f("intensity", 1.f);
    openingAngle = getParam1f("openingAngle", 2.0f * getParam1f("halfAngle"/*deprecated*/, 90.f));
    penumbraAngle = getParam1f("penumbraAngle", 5.f);
    radius    = getParam1f("radius", 0.f);

    // check ranges and pre-compute parameters
    vec3f power = color * intensity;
    direction = normalize(direction);
    openingAngle = clamp(openingAngle, 0.f, 180.f);
    penumbraAngle = clamp(penumbraAngle, 0.f, 0.5f*openingAngle);
    const float cosAngleMax = ospcommon::cos(deg2rad(0.5f*openingAngle));
    const float cosAngleMin = ospcommon::cos(deg2rad(0.5f*openingAngle - penumbraAngle));
    const float cosAngleScale = 1.0f/(cosAngleMin - cosAngleMax);

    ispc::SpotLight_set(getIE(),
                        (ispc::vec3f&)position,
                        (ispc::vec3f&)direction,
                        (ispc::vec3f&)power,
                        cosAngleMax,
                        cosAngleScale,
                        radius);
  }
Exemplo n.º 7
0
  void PerspectiveCamera::commit()
  {
    // ------------------------------------------------------------------
    // first, "parse" the expected parameters
    // ------------------------------------------------------------------
    pos    = getParam3f("pos",vec3fa(0.f));
    dir    = getParam3f("dir",vec3fa(0.f,0.0f,1.f));
    up     = getParam3f("up", vec3fa(0.f,1.0f,0.f));
    near   = getParamf("near",0.f);
    far    = getParamf("far", std::numeric_limits<float>::infinity());
    fovy   = getParamf("fovy",60.f);
    aspect = getParamf("aspect",1.f);

    // ------------------------------------------------------------------
    // now, update the local precomptued values
    // ------------------------------------------------------------------
    vec3f dz = normalize(dir);
    vec3f dx = normalize(cross(dz,up));
    vec3f dy = normalize(cross(dx,dz));

    float imgPlane_size_y = 2.f*sinf(fovy/2.f*M_PI/180.);
    float imgPlane_size_x = imgPlane_size_y * aspect;
    dir_00
      = dz
      - (.5f * imgPlane_size_x) * dx
      - (.5f * imgPlane_size_y) * dy;
    dir_du = dx * imgPlane_size_x;
    dir_dv = dy * imgPlane_size_y;

    ispc::PerspectiveCamera_set(getIE(),
                                (const ispc::vec3f&)pos,
                                (const ispc::vec3f&)dir_00,
                                (const ispc::vec3f&)dir_du,
                                (const ispc::vec3f&)dir_dv);
  }
Exemplo n.º 8
0
    void SciVisMaterial::commit()
    {
      map_d  = (Texture2D*)getParamObject("map_d", nullptr);
      map_Kd = (Texture2D*)getParamObject("map_Kd",
                                          getParamObject("map_kd", nullptr));
      map_Ks = (Texture2D*)getParamObject("map_Ks",
                                          getParamObject("map_ks", nullptr));
      map_Ns = (Texture2D*)getParamObject("map_Ns",
                                          getParamObject("map_ns", nullptr));
      map_Bump = (Texture2D*)getParamObject("map_Bump",
                                            getParamObject("map_bump",nullptr));

      d  = getParam1f("d", 1.f);
      Kd = getParam3f("kd", getParam3f("Kd", vec3f(.8f)));
      Ks = getParam3f("ks", getParam3f("Ks", vec3f(0.f)));
      Ns = getParam1f("ns", getParam1f("Ns", 10.f));
      volume = (Volume *)getParamObject("volume", nullptr);

      ispc::SciVisMaterial_set(getIE(),
                               map_d ? map_d->getIE() : nullptr,
                               d,
                               map_Kd ? map_Kd->getIE() : nullptr,
                               (ispc::vec3f&)Kd,
                               map_Ks ? map_Ks->getIE() : nullptr,
                               (ispc::vec3f&)Ks,
                               map_Ns ? map_Ns->getIE() : nullptr,
                               Ns,
                               map_Bump != nullptr ? map_Bump->getIE():nullptr,
                               volume ? volume->getIE() : nullptr);
    }
Exemplo n.º 9
0
    //! \brief commit the material's parameters
    void OBJMaterial::commit()
    {
      if (ispcEquivalent == NULL)
        ispcEquivalent = ispc::OBJMaterial_create(this);

      map_d  = (Texture2D*)getParamObject("map_d", NULL);
      map_Kd = (Texture2D*)getParamObject("map_Kd", getParamObject("map_kd", NULL));
      map_Ks = (Texture2D*)getParamObject("map_Ks", getParamObject("map_ks", NULL));
      map_Ns = (Texture2D*)getParamObject("map_Ns", getParamObject("map_ns", NULL));
      map_Bump = (Texture2D*)getParamObject("map_Bump", getParamObject("map_bump", NULL));

      d  = getParam1f("d", 1.f);
      Kd = getParam3f("kd", getParam3f("Kd", vec3f(.8f)));
      Ks = getParam3f("ks", getParam3f("Ks", vec3f(0.f)));
      Ns = getParam1f("ns", getParam1f("Ns", 10.f));

      ispc::OBJMaterial_set(getIE(),
                            map_d ? map_d->getIE() : NULL,
                            d,
                            map_Kd ? map_Kd->getIE() : NULL,
                            (ispc::vec3f&)Kd,
                            map_Ks ? map_Ks->getIE() : NULL,
                            (ispc::vec3f&)Ks,
                            map_Ns ? map_Ns->getIE() : NULL,
                            Ns,
                            map_Bump != NULL ? map_Bump->getIE() : NULL );
    }
Exemplo n.º 10
0
  Model::~Model()
  {
    if (embreeSceneHandle)
      rtcReleaseScene(embreeSceneHandle);

    ispc::Model_cleanup(getIE());
  }
Exemplo n.º 11
0
      //! \brief commit the material's parameters
      virtual void commit() override
      {
        if (getIE() == nullptr) {
          ispcEquivalent = ispc::PathTracer_Glass_create();
        }

        const float etaInside = getParamf("etaInside", getParamf("eta", 1.5f));

        const float etaOutside = getParamf("etaOutside", 1.f);

        const vec3f& attenuationColorInside =
          getParam3f("attenuationColorInside",
          getParam3f("attenuationColor",
          getParam3f("color", vec3f(1.f))));

        const vec3f& attenuationColorOutside =
          getParam3f("attenuationColorOutside", vec3f(1.f));

        const float attenuationDistance =
          getParamf("attenuationDistance", getParamf("distance", 1.0f));

        ispc::PathTracer_Glass_set(
          ispcEquivalent,
          etaInside,
          (const ispc::vec3f&)attenuationColorInside,
          etaOutside,
          (const ispc::vec3f&)attenuationColorOutside,
          attenuationDistance);
      }
Exemplo n.º 12
0
      //! \brief commit the material's parameters
      virtual void commit() override
      {
        const vec3f& color = getParam3f("color", vec3f(0.9f));
        Texture2D *map_color = (Texture2D*)getParamObject("map_color");
        affine2f xform_color = getTextureTransform("map_color");

        const vec3f& edgeColor = getParam3f("edgeColor", vec3f(1.f));
        Texture2D *map_edgeColor = (Texture2D*)getParamObject("map_edgeColor");
        affine2f xform_edgeColor = getTextureTransform("map_edgeColor");

        const float roughness = getParamf("roughness", 0.1f);
        Texture2D *map_roughness = (Texture2D*)getParamObject("map_roughness");
        affine2f xform_roughness = getTextureTransform("map_roughness");

        ispc::PathTracer_Alloy_set(getIE()
            , (const ispc::vec3f&)color
            , map_color ? map_color->getIE() : nullptr
            , (const ispc::AffineSpace2f&)xform_color
            , (const ispc::vec3f&)edgeColor
            , map_edgeColor ? map_edgeColor->getIE() : nullptr
            , (const ispc::AffineSpace2f&)xform_edgeColor
            , roughness
            , map_roughness ? map_roughness->getIE() : nullptr
            , (const ispc::AffineSpace2f&)xform_roughness
            );
      }
Exemplo n.º 13
0
  void Camera::commit()
  {
    // "parse" the general expected parameters
    pos      = getParam3f("pos", vec3f(0.f));
    dir      = getParam3f("dir", vec3f(0.f, 0.f, 1.f));
    up       = getParam3f("up", vec3f(0.f, 1.f, 0.f));
    nearClip = getParam1f("nearClip", getParam1f("near_clip", 1e-6f));

    imageStart = getParam2f("imageStart", getParam2f("image_start", vec2f(0.f)));
    imageEnd   = getParam2f("imageEnd", getParam2f("image_end", vec2f(1.f)));

    shutterOpen = getParam1f("shutterOpen", 0.0f);
    shutterClose = getParam1f("shutterClose", 0.0f);

    linear3f frame;
    frame.vz = -normalize(dir);
    frame.vx = normalize(cross(up, frame.vz));
    frame.vy = cross(frame.vz, frame.vx);

    ispc::Camera_set(getIE()
        , (const ispc::vec3f&)pos
        , (const ispc::LinearSpace3f&)frame
        , nearClip
        , (const ispc::vec2f&)imageStart
        , (const ispc::vec2f&)imageEnd
        , shutterOpen
        , shutterClose
        );
  }
Exemplo n.º 14
0
void ExtendedCylinders::finalize(ospray::Model *model)
{
    radius            = getParam1f("radius",0.01f);
    materialID        = getParam1i("materialID",0);
    bytesPerCylinder  = getParam1i("bytes_per_cylinder",9*sizeof(float));
    offset_v0         = getParam1i("offset_v0",0);
    offset_v1         = getParam1i("offset_v1",3*sizeof(float));
    offset_radius     = getParam1i("offset_radius",6*sizeof(float));
    offset_timestamp  = getParam1i("offset_timestamp",7*sizeof(float));
    offset_value      = getParam1i("offset_value",8*sizeof(float));
    offset_materialID = getParam1i("offset_materialID",-1);
    data              = getParamData("extendedcylinders",nullptr);

    if (data.ptr == nullptr || bytesPerCylinder == 0)
        throw std::runtime_error("#ospray:geometry/extendedcylinders: " \
                                 "no 'extendedcylinders' data specified");
    numExtendedCylinders = data->numBytes / bytesPerCylinder;
    ispc::ExtendedCylindersGeometry_set(
                getIE(),
                model->getIE(),
                data->data,
                numExtendedCylinders,
                bytesPerCylinder,
                radius,
                materialID,
                offset_v0,
                offset_v1,
                offset_radius,
                offset_timestamp,
                offset_value,
                offset_materialID);
}
Exemplo n.º 15
0
  void RaycastVolumeRenderer::Material::commit()
  {
    Kd = getParam3f("color", getParam3f("kd", getParam3f("Kd", vec3f(1.0f))));
    volume = (Volume *)getParamObject("volume", NULL);

    ispc::RaycastVolumeRendererMaterial_set(getIE(), (const ispc::vec3f&)Kd, volume ? volume->getIE() : NULL);
  }
Exemplo n.º 16
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  void Model::commit()
  {
    useEmbreeDynamicSceneFlag = getParam<int>("dynamicScene", 0);
    useEmbreeCompactSceneFlag = getParam<int>("compactMode", 0);
    useEmbreeRobustSceneFlag = getParam<int>("robustMode", 0);

    postStatusMsg(2)
        << "=======================================================\n"
        << "Finalizing model, has " << geometry.size()
        << " geometries and " << volume.size() << " volumes";

    RTCDevice embreeDevice = (RTCDevice)ospray_getEmbreeDevice();

    int sceneFlags = 0;
    sceneFlags =
        sceneFlags | (useEmbreeDynamicSceneFlag ? RTC_SCENE_FLAG_DYNAMIC : 0);
    sceneFlags =
        sceneFlags | (useEmbreeCompactSceneFlag ? RTC_SCENE_FLAG_COMPACT : 0);
    sceneFlags =
        sceneFlags | (useEmbreeRobustSceneFlag ? RTC_SCENE_FLAG_ROBUST : 0);

    ispc::Model_init(getIE(),
                     embreeDevice,
                     sceneFlags,
                     geometry.size(),
                     volume.size());

    embreeSceneHandle = (RTCScene)ispc::Model_getEmbreeSceneHandle(getIE());

    bounds = empty;

    for (size_t i = 0; i < geometry.size(); i++) {
       postStatusMsg(2)
           << "=======================================================\n"
           << "Finalizing geometry " << i;

      geometry[i]->finalize(this);

      bounds.extend(geometry[i]->bounds);
      ispc::Model_setGeometry(getIE(), i, geometry[i]->getIE());
    }

    for (size_t i=0; i<volume.size(); i++)
      ispc::Model_setVolume(getIE(), i, volume[i]->getIE());

    rtcCommitScene(embreeSceneHandle);
  }
Exemplo n.º 17
0
void SimulationRenderer::commit( )
{
    Renderer::commit();

    lightData = ( ospray::Data* )getParamData( "lights" );
    lightArray.clear( );

    if( lightData )
        for( size_t i=0; i < lightData->size( ); ++i )
            lightArray.push_back(
                ( ( ospray::Light** )lightData->data )[ i ]->getIE( ));

    void **lightPtr = lightArray.empty() ? nullptr : &lightArray[0];

    ospray::vec3f bgColor = getParam3f( "bgColor", ospray::vec3f( 1.f ));

    shadowsEnabled = bool( getParam1i( "shadowsEnabled", 1 ));

    softShadowsEnabled = bool(getParam1i( "softShadowsEnabled", 1 ));
    ambientOcclusionStrength = getParam1f( "ambientOcclusionStrength", 0.f );
    shadingEnabled = bool( getParam1i( "shadingEnabled", 1 ));
    randomNumber = getParam1i( "randomNumber", 0 );
    moving = bool( getParam1i( "moving", 0 ));
    timestamp = getParam1f( "timestamp", 0.f );
    spp = getParam1i("spp", 1);
    electronShadingEnabled = bool( getParam1i( "electronShading", 0 ));
    ospray::vec3f scale = getParam3f( "scale", ospray::vec3f( 1.f ));
    simulationNbOffsets = getParam1i( "simulationNbOffsets", 0 );
    simulationNbFrames = getParam1i( "simulationNbFrames", 0 );

    // Those materials are used for simulation mapping only
    materialData = ( ospray::Data* )getParamData( "materials" );
    materialArray.clear( );
    if( materialData )
        for( size_t i = 0; i < materialData->size( ); ++i )
            materialArray.push_back(
                ( ( ospray::Material** )materialData->data )[i]->getIE( ));
    void **materialPtr = materialArray.empty( ) ? nullptr : &materialArray[0];

    ispc::SimulationRenderer_set(
                getIE( ),
                ( ispc::vec3f& )bgColor,
                ( ispc::vec3f& )scale,
                shadowsEnabled,
                softShadowsEnabled,
                ambientOcclusionStrength,
                shadingEnabled,
                randomNumber,
                moving,
                timestamp,
                spp,
                electronShadingEnabled,
                simulationNbOffsets,
                simulationNbFrames,
                lightPtr, lightArray.size( ),
                materialPtr, materialArray.size( ));
}
Exemplo n.º 18
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      //! \brief commit the material's parameters
      virtual void commit() override
      {
        const vec3f pigmentColor = getParam3f("pigmentColor",vec3f(1.f));
        const float eta          = getParamf("eta",1.4f);
        const float roughness    = getParamf("roughness",0.01f);

        ispc::PathTracer_Plastic_set
          (getIE(), (const ispc::vec3f&)pigmentColor,eta,roughness);
      }
Exemplo n.º 19
0
  void Renderer::commit()
  {
    autoEpsilon = getParam1i("autoEpsilon", true);
    epsilon = getParam1f("epsilon", 1e-6f);
    spp = std::max(1, getParam1i("spp", 1));
    const int32 maxDepth = getParam1i("maxDepth", 20);
    const float minContribution = getParam1f("minContribution", 0.001f);
    errorThreshold = getParam1f("varianceThreshold", 0.f);
    maxDepthTexture = (Texture2D*)getParamObject("maxDepthTexture", nullptr);
    model = (Model*)getParamObject("model", getParamObject("world"));

    if (maxDepthTexture) {
      if (maxDepthTexture->type != OSP_TEXTURE_R32F
          || !(maxDepthTexture->flags & OSP_TEXTURE_FILTER_NEAREST)) {
        static WarnOnce warning("maxDepthTexture provided to the renderer "
                                "needs to be of type OSP_TEXTURE_R32F and have "
                                "the OSP_TEXTURE_FILTER_NEAREST flag");
      }
    }

    vec3f bgColor3 = getParam3f("bgColor", vec3f(getParam1f("bgColor", 0.f)));
    bgColor = getParam4f("bgColor", vec4f(bgColor3, 0.f));

    if (getIE()) {
      ManagedObject* camera = getParamObject("camera");
      if (model) {
        const float diameter = model->bounds.empty() ?
                               1.0f : length(model->bounds.size());
        epsilon *= diameter;
      }

      ispc::Renderer_set(getIE()
          , model ? model->getIE() : nullptr
          , camera ? camera->getIE() : nullptr
          , autoEpsilon
          , epsilon
          , spp
          , maxDepth
          , minContribution
          , (ispc::vec4f&)bgColor
          , maxDepthTexture ? maxDepthTexture->getIE() : nullptr
          );
    }
  }
Exemplo n.º 20
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  void AmbientLight::commit()
  {
    Light::commit();

    color     = getParam3f("color", vec3f(1.f));
    intensity = getParam1f("intensity", 1.f);

    vec3f radiance = getRadiance();
    ispc::AmbientLight_set(getIE(), (ispc::vec3f&)radiance);
  }
Exemplo n.º 21
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void SimulationMaterial::commit()
{
    if (ispcEquivalent == nullptr)
        ispcEquivalent = ispc::SimulationMaterial_create(this);

    DefaultMaterial::commit();

    const bool withSimulationOffsets = getParam1i("apply_simulation", 0) == 1;
    ispc::SimulationMaterial_set(getIE(), withSimulationOffsets);
}
Exemplo n.º 22
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  //! Commit parameters understood by the PointLight
  void PointLight::commit() {
    position  = getParam3f("position", vec3f(0.f));
    color     = getParam3f("color", vec3f(1.f));
    intensity = getParam1f("intensity", 1.f);
    radius    = getParam1f("radius", 0.f);

    vec3f power = color * intensity;

    ispc::PointLight_set(getIE(), (ispc::vec3f&)position, (ispc::vec3f&)power, radius);
  }
Exemplo n.º 23
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      //! \brief commit the material's parameters
      virtual void commit() {
        if (getIE() != NULL) return;

        const vec3f pigmentColor = getParam3f("pigmentColor",vec3f(1.f));
        const float eta          = getParamf("eta",1.4f);
        const float roughness    = getParamf("roughness",0.01f);
        // const float rcpRoughness = rcpf(roughness);

        ispcEquivalent = ispc::PathTracer_Plastic_create
          ((const ispc::vec3f&)pigmentColor,eta,roughness);
      }
Exemplo n.º 24
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 void LocalFrameBuffer::setTile(Tile &tile)
 {
   if (pixelOp)
     pixelOp->preAccum(tile);
   if (accumBuffer) {
     const float err = ispc::LocalFrameBuffer_accumulateTile(getIE(),(ispc::Tile&)tile);
     if ((tile.accumID & 1) == 1)
       tileErrorRegion.update(tile.region.lower/TILE_SIZE, err);
   }
   if (hasAlbedoBuffer)
     ispc::LocalFrameBuffer_accumulateAuxTile(getIE(),(ispc::Tile&)tile,
         (ispc::vec3f*)albedoBuffer, tile.ar, tile.ag, tile.ab);
   if (hasNormalBuffer)
     ispc::LocalFrameBuffer_accumulateAuxTile(getIE(),(ispc::Tile&)tile,
         (ispc::vec3f*)normalBuffer, tile.nx, tile.ny, tile.nz);
   if (pixelOp)
     pixelOp->postAccum(tile);
   if (colorBuffer) {
     switch (colorBufferFormat) {
     case OSP_FB_RGBA8:
       ispc::LocalFrameBuffer_writeTile_RGBA8(getIE(),(ispc::Tile&)tile);
       break;
     case OSP_FB_SRGBA:
       ispc::LocalFrameBuffer_writeTile_SRGBA(getIE(),(ispc::Tile&)tile);
       break;
     case OSP_FB_RGBA32F:
       ispc::LocalFrameBuffer_writeTile_RGBA32F(getIE(),(ispc::Tile&)tile);
       break;
     default:
       NOTIMPLEMENTED;
     }
   }
 }
Exemplo n.º 25
0
  void Slices::finalize(Model *model) 
  {
    planesData = getParamData("planes", NULL);
    volume     = (Volume *)getParamObject("volume", NULL);

    Assert(planesData);
    Assert(volume);

    numPlanes = planesData->numItems;
    planes    = (const vec4f*)planesData->data;

    ispc::Slices_set(getIE(), model->getIE(), numPlanes, (ispc::vec4f*)planes, volume->getIE());
  }
Exemplo n.º 26
0
  void AO16Renderer<NUM_SAMPLES_PER_FRAME>::commit()
  {
    Renderer::commit();

    model  = (Model  *)getParamObject("world",NULL); // old naming
    model  = (Model  *)getParamObject("model",model); // new naming
    camera = (Camera *)getParamObject("camera",NULL);
    bgColor = getParam3f("bgColor",vec3f(1.f));
    ispc::AO16Renderer_set(getIE(),
                           NUM_SAMPLES_PER_FRAME,
                           (const ispc::vec3f&)bgColor,                           
                           model?model->getIE():NULL,
                           camera?camera->getIE():NULL);
  }
Exemplo n.º 27
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  //! Commit parameters understood by the DirectionalLight
  void DirectionalLight::commit() {
    direction = getParam3f("direction", vec3f(0.f, 0.f, 1.f));
    color     = getParam3f("color", vec3f(1.f));
    intensity = getParam1f("intensity", 1.f);
    angularDiameter = getParam1f("angularDiameter", .0f);

    const vec3f radiance = color * intensity;
    direction = -normalize(direction); // the ispc::DirLight expects direction towards light source

    angularDiameter = clamp(angularDiameter, 0.f, 180.f);
    const float cosAngle = cos(deg2rad(0.5f*angularDiameter));

    ispc::DirectionalLight_set(getIE(), (ispc::vec3f&)direction, (ispc::vec3f&)radiance, cosAngle);
  }
Exemplo n.º 28
0
void LocalFrameBuffer::setTile(Tile &tile)
{
    if (pixelOp)
        pixelOp->preAccum(tile);
    if (accumBuffer)
        ispc::LocalFrameBuffer_accumulateTile(getIE(),(ispc::Tile&)tile);
    if (pixelOp)
        pixelOp->postAccum(tile);
    if (colorBuffer) {
        switch (colorBufferFormat) {
        case OSP_FB_RGBA8:
            ispc::LocalFrameBuffer_writeTile_RGBA8(getIE(),(ispc::Tile&)tile);
            break;
        case OSP_FB_SRGBA:
            ispc::LocalFrameBuffer_writeTile_SRGBA(getIE(),(ispc::Tile&)tile);
            break;
        case OSP_FB_RGBA32F:
            ispc::LocalFrameBuffer_writeTile_RGBA32F(getIE(),(ispc::Tile&)tile);
            break;
        default:
            NOTIMPLEMENTED;
        }
    }
}
Exemplo n.º 29
0
void ProximityRenderer::commit( )
{
    Renderer::commit( );

    lightData = ( ospray::Data* )getParamData( "lights" );
    lightArray.clear( );

    if( lightData )
        for( size_t i = 0; i < lightData->size( ); ++i )
            lightArray.push_back(((Light**)lightData->data)[i]->getIE());

    void **lightPtr = lightArray.empty( ) ? NULL : &lightArray[0];

    vec3f bgColor = getParam3f( "bgColor", vec3f( 0.f ));
    vec3f nearColor = getParam3f( "detectionNearColor", vec3f( 0.f, 1.f, 0.f ));
    vec3f farColor = getParam3f( "detectionFarColor", vec3f( 1.f, 0.f, 0.f ));
    detectionDistance = getParam1f( "detectionDistance", 1.f );
    detectionOnDifferentMaterial =
        bool( getParam1i( "detectionOnDifferentMaterial", 0 ));
    randomNumber = getParam1i( "randomNumber", 0 );
    timestamp = getParam1f( "timestamp", 0.f );
    spp = getParam1i( "spp", 1 );
    electronShadingEnabled = bool( getParam1i( "electronShading", 1 ));

    // Those materials are used for skybox mapping only
    materialData = ( ospray::Data* )getParamData( "materials" );
    materialArray.clear( );
    if( materialData )
        for( size_t i = 0; i < materialData->size( ); ++i )
            materialArray.push_back(
                ( ( ospray::Material** )materialData->data )[i]->getIE( ));
    void **materialArrayPtr =
        materialArray.empty( ) ? nullptr : &materialArray[0];

    ispc::ProximityRenderer_set(
                getIE( ),
                ( ispc::vec3f& )bgColor,
                ( ispc::vec3f& )nearColor,
                ( ispc::vec3f& )farColor,
                detectionDistance,
                detectionOnDifferentMaterial,
                randomNumber,
                timestamp,
                spp,
                electronShadingEnabled,
                lightPtr, lightArray.size( ),
                materialArrayPtr, materialArray.size( ));
}
Exemplo n.º 30
0
    void SciVisRenderer::commit()
    {
      Renderer::commit();

      lightData = (Data*)getParamData("lights");

      lightArray.clear();
      vec3f aoColor = vec3f(0.f);
      bool ambientLights = false;

      if (lightData) {
        for (uint32_t i = 0; i < lightData->size(); i++)
        {
          const Light* const light = ((Light**)lightData->data)[i];
          // extract color from ambient lights and remove them
          const AmbientLight* const ambient = dynamic_cast<const AmbientLight*>(light);
          if (ambient) {
            ambientLights = true;
            aoColor += ambient->getRadiance();
          } else
            lightArray.push_back(light->getIE());
        }
      }

      void **lightPtr = lightArray.empty() ? nullptr : &lightArray[0];

      const bool shadowsEnabled = getParam1i("shadowsEnabled", 0);
      int aoSamples = getParam1i("aoSamples", 0);
      float aoDistance = getParam1f("aoDistance",
                          getParam1f("aoOcclusionDistance"/*old name*/, 1e20f));
      // "aoWeight" is deprecated, use an ambient light instead
      if (!ambientLights)
        aoColor = vec3f(getParam1f("aoWeight", 0.f));
      const bool aoTransparencyEnabled = getParam1i("aoTransparencyEnabled", 0);
      const bool oneSidedLighting = getParam1i("oneSidedLighting", 1);

      ispc::SciVisRenderer_set(getIE(),
                               shadowsEnabled,
                               aoSamples,
                               aoDistance,
                               (ispc::vec3f&)aoColor,
                               aoTransparencyEnabled,
                               lightPtr,
                               lightArray.size(),
                               oneSidedLighting);
    }