threex
Version:
Game Extensions for three.js http://www.threejsgames.com/extensions/
207 lines (118 loc) • 4.5 kB
JavaScript
THREE.WebGLRenderer.LineRenderer = function ( lowlevelrenderer, info ) {
THREE.WebGLRenderer.Object3DRenderer.call( this, lowlevelrenderer, info );
};
THREE.WebGLRenderer.LineRenderer.prototype = Object.create( THREE.WebGLRenderer.Object3DRenderer.prototype );
THREE.extend( THREE.WebGLRenderer.LineRenderer.prototype, {
createBuffers: function ( geometry ) {
var renderer = this.renderer;
geometry.__webglVertexBuffer = renderer.createBuffer();
geometry.__webglColorBuffer = renderer.createBuffer();
geometry.__webglLineDistanceBuffer = renderer.createBuffer();
this.info.memory.geometries ++;
},
initBuffers: function ( geometry, object ) {
var nvertices = geometry.vertices.length;
geometry.__vertexArray = new Float32Array( nvertices * 3 );
geometry.__colorArray = new Float32Array( nvertices * 3 );
geometry.__lineDistanceArray = new Float32Array( nvertices * 1 );
geometry.__webglLineCount = nvertices;
this.initCustomAttributes ( geometry, object );
},
setBuffers: function ( geometry, object ) {
var renderer = this.renderer;
var v, c, d, vertex, offset, color,
vertices = geometry.vertices,
colors = geometry.colors,
lineDistances = geometry.lineDistances,
vl = vertices.length,
cl = colors.length,
dl = lineDistances.length,
vertexArray = geometry.__vertexArray,
colorArray = geometry.__colorArray,
lineDistanceArray = geometry.__lineDistanceArray,
dirtyVertices = geometry.verticesNeedUpdate,
dirtyColors = geometry.colorsNeedUpdate,
dirtyLineDistances = geometry.lineDistancesNeedUpdate,
customAttributes = geometry.__webglCustomAttributesList,
i, il,
a, ca, cal, value,
customAttribute;
if ( dirtyVertices ) {
for ( v = 0; v < vl; v ++ ) {
vertex = vertices[ v ];
offset = v * 3;
vertexArray[ offset ] = vertex.x;
vertexArray[ offset + 1 ] = vertex.y;
vertexArray[ offset + 2 ] = vertex.z;
}
renderer.setDynamicArrayBuffer(geometry.__webglVertexBuffer,vertexArray);
}
if ( dirtyColors ) {
for ( c = 0; c < cl; c ++ ) {
color = colors[ c ];
offset = c * 3;
colorArray[ offset ] = color.r;
colorArray[ offset + 1 ] = color.g;
colorArray[ offset + 2 ] = color.b;
}
renderer.setDynamicArrayBuffer(geometry.__webglColorBuffer,colorArray);
}
if ( dirtyLineDistances ) {
for ( d = 0; d < dl; d ++ ) {
lineDistanceArray[ d ] = lineDistances[ d ];
}
renderer.setDynamicArrayBuffer( geometry.__webglLineDistanceBuffer,lineDistanceArray);
}
if ( customAttributes ) {
for ( i = 0, il = customAttributes.length; i < il; i ++ ) {
customAttribute = customAttributes[ i ];
if ( customAttribute.needsUpdate &&
( customAttribute.boundTo === undefined ||
customAttribute.boundTo === "vertices" ) ) {
offset = 0;
cal = customAttribute.value.length;
if ( customAttribute.size === 1 ) {
for ( ca = 0; ca < cal; ca ++ ) {
customAttribute.array[ ca ] = customAttribute.value[ ca ];
}
} else if ( customAttribute.size === 2 ) {
for ( ca = 0; ca < cal; ca ++ ) {
value = customAttribute.value[ ca ];
customAttribute.array[ offset ] = value.x;
customAttribute.array[ offset + 1 ] = value.y;
offset += 2;
}
} else if ( customAttribute.size === 3 ) {
if ( customAttribute.type === "c" ) {
for ( ca = 0; ca < cal; ca ++ ) {
value = customAttribute.value[ ca ];
customAttribute.array[ offset ] = value.r;
customAttribute.array[ offset + 1 ] = value.g;
customAttribute.array[ offset + 2 ] = value.b;
offset += 3;
}
} else {
for ( ca = 0; ca < cal; ca ++ ) {
value = customAttribute.value[ ca ];
customAttribute.array[ offset ] = value.x;
customAttribute.array[ offset + 1 ] = value.y;
customAttribute.array[ offset + 2 ] = value.z;
offset += 3;
}
}
} else if ( customAttribute.size === 4 ) {
for ( ca = 0; ca < cal; ca ++ ) {
value = customAttribute.value[ ca ];
customAttribute.array[ offset ] = value.x;
customAttribute.array[ offset + 1 ] = value.y;
customAttribute.array[ offset + 2 ] = value.z;
customAttribute.array[ offset + 3 ] = value.w;
offset += 4;
}
}
renderer.setDynamicArrayBuffer( customAttribute.buffer,customAttribute.array);
}
}
}
}
} );