Reference Source

src/viewer/scene/models/VBOSceneModel/lib/layers/pointsBatching/renderers/PointsBatchingOcclusionRenderer.js

import {Program} from "../../../../../../webgl/Program.js";
import {createRTCViewMat, getPlaneRTCPos} from "../../../../../../math/rtcCoords.js";
import {math} from "../../../../../../math/math.js";
import {WEBGL_INFO} from "../../../../../../webglInfo.js";

const tempVec3a = math.vec3();

/**
 * @private
 */
class PointsBatchingOcclusionRenderer {

    constructor(scene) {
        this._scene = scene;
        this._hash = this._getHash();
        this._allocate();
    }

    getValid() {
        return this._hash === this._getHash();
    };

    _getHash() {
        return this._scene._sectionPlanesState.getHash() + (this._scene.pointsMaterial.hash);
    }

    drawLayer(frameCtx, pointsBatchingLayer, renderPass) {

        const model = pointsBatchingLayer.model;
        const scene = model.scene;
        const gl = scene.canvas.gl;
        const state = pointsBatchingLayer._state;
        const camera = scene.camera;
        const origin = pointsBatchingLayer._state.origin;
        const pointsMaterial = scene.pointsMaterial._state;

        if (!this._program) {
            this._allocate(pointsBatchingLayer);
            if (this.errors) {
                return;
            }
        }

        if (frameCtx.lastProgramId !== this._program.id) {
            frameCtx.lastProgramId = this._program.id;
            this._bindProgram();
        }

        gl.uniform1i(this._uRenderPass, renderPass);

        gl.uniformMatrix4fv(this._uViewMatrix, false, (origin) ? createRTCViewMat(camera.viewMatrix, origin) : camera.viewMatrix);
        gl.uniformMatrix4fv(this._uWorldMatrix, false, model.worldMatrix);

        const numSectionPlanes = scene._sectionPlanesState.sectionPlanes.length;
        if (numSectionPlanes > 0) {
            const sectionPlanes = scene._sectionPlanesState.sectionPlanes;
            const baseIndex = pointsBatchingLayer.layerIndex * numSectionPlanes;
            const renderFlags = model.renderFlags;
            for (let sectionPlaneIndex = 0; sectionPlaneIndex < numSectionPlanes; sectionPlaneIndex++) {
                const sectionPlaneUniforms = this._uSectionPlanes[sectionPlaneIndex];
                if (sectionPlaneUniforms) {
                    const active = renderFlags.sectionPlanesActivePerLayer[baseIndex + sectionPlaneIndex];
                    gl.uniform1i(sectionPlaneUniforms.active, active ? 1 : 0);
                    if (active) {
                        const sectionPlane = sectionPlanes[sectionPlaneIndex];
                        if (origin) {
                            const rtcSectionPlanePos = getPlaneRTCPos(sectionPlane.dist, sectionPlane.dir, origin, tempVec3a);
                            gl.uniform3fv(sectionPlaneUniforms.pos, rtcSectionPlanePos);
                        } else {
                            gl.uniform3fv(sectionPlaneUniforms.pos, sectionPlane.pos);
                        }
                        gl.uniform3fv(sectionPlaneUniforms.dir, sectionPlane.dir);
                    }
                }
            }
        }

        gl.uniformMatrix4fv(this._uPositionsDecodeMatrix, false, pointsBatchingLayer._state.positionsDecodeMatrix);

        this._aPosition.bindArrayBuffer(state.positionsBuf);

        if (this._aOffset) {
            this._aOffset.bindArrayBuffer(state.offsetsBuf);
        }

        this._aFlags.bindArrayBuffer(state.flagsBuf);

        if (this._aFlags2) { // Won't be in shader when not clipping
            this._aFlags2.bindArrayBuffer(state.flags2Buf);
        }

        gl.uniform1f(this._uPointSize, pointsMaterial.pointSize);
        const nearPlaneHeight = (scene.camera.projection === "ortho") ? 1.0 : (gl.drawingBufferHeight / (2 * Math.tan(0.5 * scene.camera.perspective.fov * Math.PI / 180.0)));
        gl.uniform1f(this._uNearPlaneHeight, nearPlaneHeight);

        gl.drawArrays(gl.POINTS, 0, state.positionsBuf.numItems);
    }

    _allocate() {

        const scene = this._scene;
        const gl = scene.canvas.gl;

        this._program = new Program(gl, this._buildShader());

        if (this._program.errors) {
            this.errors = this._program.errors;
            return;
        }

        const program = this._program;

        this._uRenderPass = program.getLocation("renderPass");
        this._uPositionsDecodeMatrix = program.getLocation("positionsDecodeMatrix");
        this._uWorldMatrix = program.getLocation("worldMatrix");
        this._uViewMatrix = program.getLocation("viewMatrix");
        this._uProjMatrix = program.getLocation("projMatrix");
        this._uSectionPlanes = [];

        for (let i = 0, len = scene._sectionPlanesState.sectionPlanes.length; i < len; i++) {
            this._uSectionPlanes.push({
                active: program.getLocation("sectionPlaneActive" + i),
                pos: program.getLocation("sectionPlanePos" + i),
                dir: program.getLocation("sectionPlaneDir" + i)
            });
        }

        this._aPosition = program.getAttribute("position");
        this._aOffset = program.getAttribute("offset");
        this._aFlags = program.getAttribute("flags");
        this._aFlags2 = program.getAttribute("flags2");

        this._uPointSize = program.getLocation("pointSize");
        this._uNearPlaneHeight = program.getLocation("nearPlaneHeight");

        if (scene.logarithmicDepthBufferEnabled) {
            this._uLogDepthBufFC = program.getLocation("logDepthBufFC");
        }
    }

    _bindProgram() {

        const scene = this._scene;
        const gl = scene.canvas.gl;
        const project = scene.camera.project;

        this._program.bind();

        gl.uniformMatrix4fv(this._uProjMatrix, false, project.matrix);

        if (scene.logarithmicDepthBufferEnabled) {
            const logDepthBufFC = 2.0 / (Math.log(project.far + 1.0) / Math.LN2);
            gl.uniform1f(this._uLogDepthBufFC, logDepthBufFC);
        }
    }

    _buildShader() {
        return {
            vertex: this._buildVertexShader(),
            fragment: this._buildFragmentShader()
        };
    }

    _buildVertexShader() {
        const scene = this._scene;
        const clipping = scene._sectionPlanesState.sectionPlanes.length > 0;
        const pointsMaterial = scene.pointsMaterial._state;
        const src = [];
        src.push ('#version 300 es');
        src.push("// Points batching occlusion vertex shader");
        src.push("uniform int renderPass;");
        src.push("in vec3 position;");
        if (scene.entityOffsetsEnabled) {
            src.push("in vec3 offset;");
        }
        src.push("in vec4 flags;");
        src.push("in vec4 flags2;");

        src.push("uniform mat4 worldMatrix;");
        src.push("uniform mat4 viewMatrix;");
        src.push("uniform mat4 projMatrix;");
        src.push("uniform mat4 positionsDecodeMatrix;");

        src.push("uniform float pointSize;");
        if (pointsMaterial.perspectivePoints) {
            src.push("uniform float nearPlaneHeight;");
        }

        if (scene.logarithmicDepthBufferEnabled) {
            src.push("uniform float logDepthBufFC;");
            src.push("out float vFragDepth;");
        }
        if (clipping) {
            src.push("out vec4 vWorldPosition;");
            src.push("out vec4 vFlags2;");
        }
        src.push("void main(void) {");

        // flags.x = NOT_RENDERED | COLOR_OPAQUE | COLOR_TRANSPARENT
        // renderPass = COLOR_OPAQUE
        // Only opaque objects can be occluders

        src.push(`if (int(flags.x) != renderPass) {`);
        src.push("      gl_Position = vec4(0.0, 0.0, 0.0, 0.0);"); // Cull vertex

        src.push("  } else {");
        src.push("      vec4 worldPosition = worldMatrix * (positionsDecodeMatrix * vec4(position, 1.0)); ");
        if (scene.entityOffsetsEnabled) {
            src.push("      worldPosition.xyz = worldPosition.xyz + offset;");
        }

        src.push("      vec4 viewPosition  = viewMatrix * worldPosition; ");
        if (clipping) {
            src.push("      vWorldPosition = worldPosition;");
            src.push("      vFlags2 = flags2;");
        }
        src.push("vec4 clipPos = projMatrix * viewPosition;");
        if (scene.logarithmicDepthBufferEnabled) {
           src.push("vFragDepth = 1.0 + clipPos.w;");
        }
        src.push("  gl_Position = clipPos;");
        if (pointsMaterial.perspectivePoints) {
            src.push("gl_PointSize = (nearPlaneHeight * pointSize) / clipPos.w;");
            src.push("gl_PointSize = max(gl_PointSize, " + Math.floor(pointsMaterial.minPerspectivePointSize) + ".0);");
            src.push("gl_PointSize = min(gl_PointSize, " + Math.floor(pointsMaterial.maxPerspectivePointSize) + ".0);");
        } else {
            src.push("gl_PointSize = pointSize;");
        }
        src.push("  }");
        src.push("}");
        return src;
    }

    _buildFragmentShader() {
        const scene = this._scene;
        const sectionPlanesState = scene._sectionPlanesState;
        const clipping = sectionPlanesState.sectionPlanes.length > 0;
        const src = [];
        src.push("// Points batching occlusion fragment shader");
        src.push("#ifdef GL_FRAGMENT_PRECISION_HIGH");
        src.push("precision highp float;");
        src.push("precision highp int;");
        src.push("#else");
        src.push("precision mediump float;");
        src.push("precision mediump int;");
        src.push("#endif");
        if (scene.logarithmicDepthBufferEnabled) {
            src.push("uniform float logDepthBufFC;");
            src.push("in float vFragDepth;");
        }
        if (clipping) {
            src.push("in vec4 vWorldPosition;");
            src.push("in vec4 vFlags2;");
            for (let i = 0; i < sectionPlanesState.sectionPlanes.length; i++) {
                src.push("uniform bool sectionPlaneActive" + i + ";");
                src.push("uniform vec3 sectionPlanePos" + i + ";");
                src.push("uniform vec3 sectionPlaneDir" + i + ";");
            }
        }
        src.push("out vec4 outColor;");
        src.push("void main(void) {");
        if (scene.pointsMaterial.roundPoints) {
            src.push("  vec2 cxy = 2.0 * gl_PointCoord - 1.0;");
            src.push("  float r = dot(cxy, cxy);");
            src.push("  if (r > 1.0) {");
            src.push("       discard;");
            src.push("  }");
        }
        if (clipping) {
            src.push("  bool clippable = (float(vFlags2.x) > 0.0);");
            src.push("  if (clippable) {");
            src.push("      float dist = 0.0;");
            for (let i = 0; i < sectionPlanesState.sectionPlanes.length; i++) {
                src.push("      if (sectionPlaneActive" + i + ") {");
                src.push("          dist += clamp(dot(-sectionPlaneDir" + i + ".xyz, vWorldPosition.xyz - sectionPlanePos" + i + ".xyz), 0.0, 1000.0);");
                src.push("      }");
            }
            src.push("      if (dist > 0.0) { discard; }");
            src.push("  }");
        }
        if (scene.logarithmicDepthBufferEnabled) {
            src.push("gl_FragDepth = log2( vFragDepth ) * logDepthBufFC * 0.5;");
        }
        src.push("   outColor = vec4(0.0, 0.0, 1.0, 1.0); "); // Occluders are blue
        src.push("}");
        return src;
    }

    webglContextRestored() {
        this._program = null;
    }

    destroy() {
        if (this._program) {
            this._program.destroy();
        }
        this._program = null;
    }
}

export {PointsBatchingOcclusionRenderer};