示例#1
0
void WaterSimulationApp::update(){
	////change status
	float dt = 1.f/60.0f;
	if(mAnimate){
		if(randomForce.lengthSquared()>0 && mAddNewForce) addForce(dt);
		fluidsys->step(dt);
		mParams->setOptions("status","label=`In animation:`");
	}else{
		mParams->setOptions("status","label=`Idle:`");
	}
}
示例#2
0
void GeometryApp::createParams()
{
#if ! defined( CINDER_GL_ES )
	vector<string> primitives = { "Capsule", "Cone", "Cube", "Cylinder", "Helix", "Icosahedron", "Icosphere", "Sphere", "Teapot", "Torus", "Plane" };
	vector<string> qualities = { "Low", "Default", "High" };
	vector<string> viewModes = { "Shaded", "Wireframe" };
	vector<string> texturingModes = { "None", "Procedural", "Sampler" };

	mParams = params::InterfaceGl::create( getWindow(), "Geometry Demo", toPixels( ivec2( 300, 200 ) ) );
	mParams->setOptions( "", "valueswidth=160 refresh=0.1" );

	mParams->addParam( "Primitive", primitives, (int*) &mPrimitiveSelected );
	mParams->addParam( "Quality", qualities, (int*) &mQualitySelected );
	mParams->addParam( "Viewing Mode", viewModes, (int*) &mViewMode );
	mParams->addParam( "Texturing Mode", texturingModes, (int*) &mTexturingMode );

	mParams->addSeparator();

	mParams->addParam( "Subdivision", &mSubdivision ).min( 1 ).max( 5 ).updateFn( [this] { createGeometry(); } );

	mParams->addSeparator();

	mParams->addParam( "Show Grid", &mShowGrid );
	mParams->addParam( "Show Normals", &mShowNormals );
	mParams->addParam( "Show Colors", &mShowColors ).updateFn( [this] { createGeometry(); } );
	mParams->addParam( "Face Culling", &mEnableFaceFulling ).updateFn( [this] { gl::enableFaceCulling( mEnableFaceFulling ); } );
#endif
}
示例#3
0
void TweakBarApp::button()
{
	app::console() << "Clicked!" << std::endl;
	mParams->setOptions( "text", "label=`Clicked!`" );
}
示例#4
0
文件: cApp.cpp 项目: stdmtb/uf_0.9.0 
void cApp::makeGui(){
    gui = params::InterfaceGl::create( getWindow(), "Ramses", vec2(300, getWindowHeight()) );
    gui->setOptions( "", "position=`0 0` valueswidth=100" );
    
    function<void(void)> update = [&](){
        for( int i=0; i<rms.size(); i++){
            rms[i].updateVbo(eye);
        }
    };
    
    
    function<void(void)> sx = [this](){
        saveXml();
    };
    
    function<void(void)> ld = [this](){
        loadXml();
        for( int i=0; i<rms.size(); i++){
            rms[i].eSimType = simType;
            rms[i].loadSimData(frame);
            rms[i].updateVbo(eye);
        }
    };

    function<void(void)> ren = [this](){
        bStart = true;
        mExp.startRender();
    };
    
    gui->addText( "main" );
    gui->addParam("start", &bStart );
    gui->addParam("frame", &frame ).updateFn(update);
    gui->addParam("ortho", &bOrtho );
    gui->addParam("xyz global scale", &Ramses::globalScale ).step(0.01).updateFn(update);
    //gui->addParam("r(x) resolution", &Ramses::boxelx, true );
    //gui->addParam("theta(y) resolution", &Ramses::boxely, true );
    gui->addButton("save XML", sx );
    gui->addButton("load XML", ld );
    gui->addButton("start Render", ren );

    gui->addSeparator();
    
    for( int i=0; i<6; i++){
        string p = to_string(simType) + "_"+  Ramses::prm[i];
        
        function<void(void)> up = [i, this](){
            rms[i].updateVbo(eye);
        };
        
        function<void(void)> up2 = [i, this](){
            rms[i].loadSimData(this->frame);
            rms[i].updateVbo(eye);
        };
        
        gui->addParam(p+" show", &rms[i].bShow ).group(p).updateFn(up2);
        //gui->addParam(p+" polar coordinate", &rms[i].bPolar ).group(p).updateFn(up2);
        
        gui->addParam(p+" Auto Min Max", &rms[i].bAutoMinMax ).group(p).updateFn(up);
        gui->addParam(p+" in min", &rms[i].in_min).step(0.05f).group(p).updateFn(up);
        gui->addParam(p+" in max", &rms[i].in_max).step(0.05f).group(p).updateFn(up);
        
        gui->addParam(p+" z extrude", &rms[i].extrude).step(1.0f).group(p).updateFn(up);
        //gui->addParam(p+" x offset", &rms[i].xoffset).step(1.0f).group(p).updateFn(up);
        //gui->addParam(p+" y offset", &rms[i].yoffset).step(1.0f).group(p).updateFn(up);
        //gui->addParam(p+" z offset", &rms[i].zoffset).step(1.0f).group(p).updateFn(up);
        
        gui->addParam(p+" xy scale", &rms[i].scale).step(1.0f).group(p).updateFn(up);
        //gui->addParam(p+" visible thresh", &rms[i].visible_thresh).step(0.005f).min(0.0f).max(1.0f).group(p).updateFn(up);
        gui->addParam(p+" log", &rms[i].eStretch).step(1).min(0).max(1).group(p).updateFn(up2);
        
        // read only
        //gui->addParam(p+" r(x) resolution", &rms[eSimType][i].boxelx, true );
        //gui->addParam(p+" theta(y) resolution", &rms[eSimType][i].boxely, true );
        
        //gui->addParam(p+" visible rate(%)", &rms[i].visible_rate, true ).group(p);
        //gui->addParam(p+" num particle", &rms[i].nParticle, true).group(p);
        
        gui->addSeparator();
        
    }
}
示例#5
0
文件: cApp.cpp 项目: stdmtb/uf_0.9.0 
void cApp::makeGui(){
    gui = params::InterfaceGl::create( getWindow(), Ramses::simType[eSimType], vec2(300, getWindowHeight()) );
    gui->setOptions( "", "position=`0 0` valueswidth=100" );
    
    function<void(void)> update = [&](){
        for( int i=0; i<rms.size(); i++){ rms[i].updateVbo(resolution); }
    };
    
    function<void(void)> changeSym = [this](){
        for( int i=0; i<rms.size(); i++){
            rms[i].eSimType = eSimType;
            rms[i].loadSimData(frame);
            rms[i].updateVbo(resolution);
        }
    };
    
    function<void(void)> sx = [this](){
        saveXml();
    };
    
    function<void(void)> ld = [this](){
        loadXml();
        for( int i=0; i<rms.size(); i++){
            rms[i].eSimType = eSimType;
            rms[i].loadSimData(frame);
            rms[i].updateVbo(resolution);
        }
    };
    
    function<void(void)> ren = [this](){
        bStart = true;
        mExp.startRender();
    };
    
    function<void(void)> norm = [this](){

        norms.resetCol();
        norms.resetPos();
        norms.resetVbo();
        
        for( int i=0; i<rms.size(); i++){
            if(rms[i].bShow){
                feature3d( rms[i].pos );
            }
        }
        norms.init(GL_LINES);
    };
    
    gui->addText( "main" );
    gui->addParam("simType", &eSimType ).min(0).max(4).updateFn( changeSym );
    gui->addParam("start", &bStart );
    gui->addParam("frame", &frame ).updateFn(update);
    gui->addParam("ortho", &bOrtho );
    gui->addButton("Compute Norm", norm );

    gui->addParam("xyz global scale", &Ramses::globalScale ).step(0.01).updateFn(update);
    gui->addParam("r(x) resolution", &Ramses::boxelx, true );
    gui->addParam("theta(y) resolution", &Ramses::boxely, true );
    gui->addButton("save XML", sx );
    gui->addButton("load XML", ld );
    gui->addButton("start render", ren );
    
    gui->addSeparator();
    
    for( int i=0; i<6; i++){
        string p = Ramses::prm[i];
        //gui->addText( p );
        
        //function<void(void)> up = bind(&Ramses::updateVbo, &rms[i]);
        function<void(void)> up = [i, this](){
            rms[i].updateVbo(resolution);
        };
        
        function<void(void)> up2 = [i, this](){
            rms[i].loadSimData(this->frame);
            rms[i].updateVbo(resolution);
        };
        
        gui->addParam(p+" show", &rms[i].bShow ).group(p).updateFn(up2);
        gui->addParam(p+" polar coordinate", &rms[i].bPolar ).group(p).updateFn(up2);
        gui->addParam(p+" Auto Min Max", &rms[i].bAutoMinMax ).group(p).updateFn(up);
        gui->addParam(p+" in min", &rms[i].in_min).step(0.05f).group(p).updateFn(up);
        gui->addParam(p+" in max", &rms[i].in_max).step(0.05f).group(p).updateFn(up);
        
        gui->addParam(p+" z extrude", &rms[i].extrude).step(1.0f).group(p).updateFn(up);
        gui->addParam(p+" x offset", &rms[i].xoffset).step(1.0f).group(p).updateFn(up);
        gui->addParam(p+" y offset", &rms[i].yoffset).step(1.0f).group(p).updateFn(up);
        gui->addParam(p+" z offset", &rms[i].zoffset).step(1.0f).group(p).updateFn(up);
        
        gui->addParam(p+" xy scale", &rms[i].scale).step(1.0f).group(p).updateFn(up);
        //gui->addParam(p+" visible thresh", &rms[i].visible_thresh).step(0.005f).min(0.0f).max(1.0f).group(p).updateFn(up);
        gui->addParam(p+" log", &rms[i].eStretch).step(1).min(0).max(1).group(p).updateFn(up2);
        gui->addParam(p+" inAngle", &rms[i].inAngle).step(1).min(-180).max(180).group(p).updateFn(up);
        gui->addParam(p+" outAngle", &rms[i].outAngle).step(1).min(-180).max(180).group(p).updateFn(up);
        gui->addParam(p+" offsetRotateAngle", &rms[i].offsetRotateAngle).step(0.01).group(p).updateFn(up);
        gui->addParam(p+" rotateSpeed", &rms[i].rotateSpeed).step(0.01).group(p).updateFn(up);
        
        // read only
        //gui->addParam(p+" visible rate(%)", &rms[i].visible_rate, true ).group(p);
        //gui->addParam(p+" num particle", &rms[i].nParticle, true).group(p);
        
        gui->addSeparator();
    }
}
示例#6
0
void GeometryApp::createParams()
{
#if ! defined( CINDER_GL_ES )
	vector<string> primitives = { "Capsule", "Cone", "Cube", "Cylinder", "Helix", "Icosahedron", "Icosphere", "Sphere", "Teapot", "Torus", "Torus Knot", "Plane", "Rectangle", "Rounded Rectangle", "Circle", "Ring" };
	vector<string> qualities = { "Low", "Default", "High" };
	vector<string> viewModes = { "Shaded", "Wireframe" };
	vector<string> texturingModes = { "None", "Procedural", "Sampler" };

	mParams = params::InterfaceGl::create( getWindow(), "Geometry Demo", toPixels( ivec2( 300, 400 ) ) );
	mParams->setOptions( "", "valueswidth=100 refresh=0.1" );

	mParams->addParam( "Primitive", primitives, (int*)&mPrimitiveSelected ).updateFn( std::bind( &GeometryApp::updateParams, this ) );
	mParams->addParam( "Quality", qualities, (int*)&mQualitySelected );
	mParams->addParam( "Viewing Mode", viewModes, (int*)&mViewMode );
	mParams->addParam( "Texturing Mode", texturingModes, (int*)&mTexturingMode );

	mParams->addSeparator();

	mParams->addParam( "Show Grid", &mShowGrid );
	mParams->addParam( "Show Normals", &mShowNormals );
	mParams->addParam( "Show Tangents", &mShowTangents );
	mParams->addParam( "Show Colors", &mShowColors ).updateFn( [this] { createGeometry(); } );
	mParams->addParam( "Face Culling", &mEnableFaceFulling ).updateFn( [this] { gl::enableFaceCulling( mEnableFaceFulling ); } );

	mParams->addSeparator();

	mParams->addParam( "Show Wire Primitive", &mShowWirePrimitive );
	mParams->addParam( "Show Solid Primitive", &mShowSolidPrimitive );

	mParams->addSeparator();

	//
	mPrimitiveParams.resize( PRIMITIVE_COUNT );

	// Capsule
	mPrimitiveParams[CAPSULE].push_back( mParams->addParam( "Capsule: Radius", &mCapsuleRadius ).step( 0.01f ).updateFn( [this] { createGeometry(); } ) );
	mPrimitiveParams[CAPSULE].push_back( mParams->addParam( "Capsule: Length", &mCapsuleLength ).step( 0.05f ).updateFn( [this] { createGeometry(); } ) );

	// Cone
	mPrimitiveParams[CONE].push_back( mParams->addParam( "Cone: Ratio", &mConeRatio ).step( 0.01f ).updateFn( [this] { createGeometry(); } ) );

	// Helix
	mPrimitiveParams[HELIX].push_back( mParams->addParam( "Helix: Ratio", &mHelixRatio ).step( 0.01f ).updateFn( [this] { createGeometry(); } ) );
	mPrimitiveParams[HELIX].push_back( mParams->addParam( "Helix: Coils", &mHelixCoils ).step( 0.1f ).updateFn( [this] { createGeometry(); } ) );
	mPrimitiveParams[HELIX].push_back( mParams->addParam( "Helix: Twist", &mHelixTwist ).updateFn( [this] { createGeometry(); } ) );
	mPrimitiveParams[HELIX].push_back( mParams->addParam( "Helix: Twist Offset", &mHelixOffset ).step( 0.05f ).updateFn( [this] { createGeometry(); } ) );

	// Ring
	mPrimitiveParams[RING].push_back( mParams->addParam( "Ring: Width", &mRingWidth ).step( 0.01f ).updateFn( [this] { createGeometry(); } ) );

	// Rounded Rect
	mPrimitiveParams[ROUNDEDRECT].push_back( mParams->addParam( "Corner Radius", &mRoundedRectRadius ).step( 0.01f ).updateFn( [this] { createGeometry(); } ) );

	// Torus
	mPrimitiveParams[TORUS].push_back( mParams->addParam( "Torus: Ratio", &mTorusRatio ).step( 0.01f ).updateFn( [this] { createGeometry(); } ) );
	mPrimitiveParams[TORUS].push_back( mParams->addParam( "Torus: Twist", &mTorusTwist ).updateFn( [this] { createGeometry(); } ) );
	mPrimitiveParams[TORUS].push_back( mParams->addParam( "Torus: Twist Offset", &mTorusOffset ).step( 0.05f ).updateFn( [this] { createGeometry(); } ) );

	// Torus Knot
	mPrimitiveParams[TORUSKNOT].push_back( mParams->addParam( "Torus Knot: Parameter P", &mTorusKnotP ).updateFn( [this] { createGeometry(); } ) );
	mPrimitiveParams[TORUSKNOT].push_back( mParams->addParam( "Torus Knot: Parameter Q", &mTorusKnotQ ).updateFn( [this] { createGeometry(); } ) );
	mPrimitiveParams[TORUSKNOT].push_back( mParams->addParam( "Torus Knot: Scale X", &mTorusKnotScale.x ).step( 0.1f ).updateFn( [this] { createGeometry(); } ) );
	mPrimitiveParams[TORUSKNOT].push_back( mParams->addParam( "Torus Knot: Scale Y", &mTorusKnotScale.y ).step( 0.1f ).updateFn( [this] { createGeometry(); } ) );
	mPrimitiveParams[TORUSKNOT].push_back( mParams->addParam( "Torus Knot: Scale Z", &mTorusKnotScale.z ).step( 0.1f ).updateFn( [this] { createGeometry(); } ) );
	mPrimitiveParams[TORUSKNOT].push_back( mParams->addParam( "Torus Knot: Radius", &mTorusKnotRadius ).step( 0.05f ).updateFn( [this] { createGeometry(); } ) );

	updateParams();
#endif
}