/** * Copyright (c) 2019-2021 mol* contributors, licensed under MIT, See LICENSE file for more info. * * @author Alexander Rose */ import { ValueCell } from '../../../mol-util'; import { Sphere3D } from '../../../mol-math/geometry'; import { ParamDefinition as PD } from '../../../mol-util/param-definition'; import { LocationIterator } from '../../../mol-geo/util/location-iterator'; import { TransformData } from '../transform-data'; import { createColors } from '../color-data'; import { createMarkers } from '../marker-data'; import { GeometryUtils } from '../geometry'; import { Theme } from '../../../mol-theme/theme'; import { Color } from '../../../mol-util/color'; import { BaseGeometry } from '../base'; import { createEmptyOverpaint } from '../overpaint-data'; import { createEmptyTransparency } from '../transparency-data'; import { TextureMeshValues } from '../../../mol-gl/renderable/texture-mesh'; import { calculateTransformBoundingSphere } from '../../../mol-gl/renderable/util'; import { Texture } from '../../../mol-gl/webgl/texture'; import { Vec2, Vec4 } from '../../../mol-math/linear-algebra'; import { createEmptyClipping } from '../clipping-data'; import { NullLocation } from '../../../mol-model/location'; export interface TextureMesh { readonly kind: 'texture-mesh', /** Number of vertices in the texture-mesh */ vertexCount: number, /** Number of groups in the texture-mesh */ groupCount: number, readonly geoTextureDim: ValueCell, readonly vertexTexture: ValueCell, readonly groupTexture: ValueCell, readonly normalTexture: ValueCell, readonly doubleBuffer: TextureMesh.DoubleBuffer readonly boundingSphere: Sphere3D meta?: unknown } export namespace TextureMesh { export class DoubleBuffer { private index = 0; private textures: ({ vertex: Texture, group: Texture, normal: Texture } | undefined)[] = [] get() { return this.textures[this.index]; } set(vertex: Texture, group: Texture, normal: Texture) { this.textures[this.index] = Object.assign(this.textures[this.index] || {}, { vertex, group, normal }); this.index = (this.index + 1) % 2; } destroy() { for (const buffer of this.textures) { buffer!.vertex.destroy(); buffer!.group.destroy(); buffer!.normal.destroy(); } } } export function create(vertexCount: number, groupCount: number, vertexTexture: Texture, groupTexture: Texture, normalTexture: Texture, boundingSphere: Sphere3D, textureMesh?: TextureMesh): TextureMesh { const width = vertexTexture.getWidth(); const height = vertexTexture.getHeight(); if (textureMesh) { textureMesh.vertexCount = vertexCount; textureMesh.groupCount = groupCount; ValueCell.update(textureMesh.geoTextureDim, Vec2.set(textureMesh.geoTextureDim.ref.value, width, height)); ValueCell.update(textureMesh.vertexTexture, vertexTexture); ValueCell.update(textureMesh.groupTexture, groupTexture); ValueCell.update(textureMesh.normalTexture, normalTexture); textureMesh.doubleBuffer.set(vertexTexture, groupTexture, normalTexture); Sphere3D.copy(textureMesh.boundingSphere, boundingSphere); return textureMesh; } else { return { kind: 'texture-mesh', vertexCount, groupCount, geoTextureDim: ValueCell.create(Vec2.create(width, height)), vertexTexture: ValueCell.create(vertexTexture), groupTexture: ValueCell.create(groupTexture), normalTexture: ValueCell.create(normalTexture), doubleBuffer: new DoubleBuffer(), boundingSphere: Sphere3D.clone(boundingSphere), }; } } export function createEmpty(textureMesh?: TextureMesh): TextureMesh { return {} as TextureMesh; // TODO } export const Params = { ...BaseGeometry.Params, doubleSided: PD.Boolean(false, BaseGeometry.CustomQualityParamInfo), flipSided: PD.Boolean(false, BaseGeometry.ShadingCategory), flatShaded: PD.Boolean(false, BaseGeometry.ShadingCategory), ignoreLight: PD.Boolean(false, BaseGeometry.ShadingCategory), xrayShaded: PD.Boolean(false, BaseGeometry.ShadingCategory), }; export type Params = typeof Params export const Utils: GeometryUtils = { Params, createEmpty, createValues, createValuesSimple, updateValues, updateBoundingSphere, createRenderableState: BaseGeometry.createRenderableState, updateRenderableState: BaseGeometry.updateRenderableState, createPositionIterator: () => LocationIterator(1, 1, 1, () => NullLocation) }; function createValues(textureMesh: TextureMesh, transform: TransformData, locationIt: LocationIterator, theme: Theme, props: PD.Values): TextureMeshValues { const { instanceCount, groupCount } = locationIt; const positionIt = Utils.createPositionIterator(textureMesh, transform); const color = createColors(locationIt, positionIt, theme.color); const marker = createMarkers(instanceCount * groupCount); const overpaint = createEmptyOverpaint(); const transparency = createEmptyTransparency(); const clipping = createEmptyClipping(); const counts = { drawCount: textureMesh.vertexCount, vertexCount: textureMesh.vertexCount, groupCount, instanceCount }; const invariantBoundingSphere = Sphere3D.clone(textureMesh.boundingSphere); const boundingSphere = calculateTransformBoundingSphere(invariantBoundingSphere, transform.aTransform.ref.value, instanceCount); return { uGeoTexDim: textureMesh.geoTextureDim, tPosition: textureMesh.vertexTexture, tGroup: textureMesh.groupTexture, tNormal: textureMesh.normalTexture, boundingSphere: ValueCell.create(boundingSphere), invariantBoundingSphere: ValueCell.create(invariantBoundingSphere), uInvariantBoundingSphere: ValueCell.create(Vec4.ofSphere(invariantBoundingSphere)), ...color, ...marker, ...overpaint, ...transparency, ...clipping, ...transform, ...BaseGeometry.createValues(props, counts), dDoubleSided: ValueCell.create(props.doubleSided), dFlatShaded: ValueCell.create(props.flatShaded), dFlipSided: ValueCell.create(props.flipSided), dIgnoreLight: ValueCell.create(props.ignoreLight), dXrayShaded: ValueCell.create(props.xrayShaded), dGeoTexture: ValueCell.create(true), }; } function createValuesSimple(textureMesh: TextureMesh, props: Partial>, colorValue: Color, sizeValue: number, transform?: TransformData) { const s = BaseGeometry.createSimple(colorValue, sizeValue, transform); const p = { ...PD.getDefaultValues(Params), ...props }; return createValues(textureMesh, s.transform, s.locationIterator, s.theme, p); } function updateValues(values: TextureMeshValues, props: PD.Values) { BaseGeometry.updateValues(values, props); ValueCell.updateIfChanged(values.dDoubleSided, props.doubleSided); ValueCell.updateIfChanged(values.dFlatShaded, props.flatShaded); ValueCell.updateIfChanged(values.dFlipSided, props.flipSided); ValueCell.updateIfChanged(values.dIgnoreLight, props.ignoreLight); ValueCell.updateIfChanged(values.dXrayShaded, props.xrayShaded); } function updateBoundingSphere(values: TextureMeshValues, textureMesh: TextureMesh) { const invariantBoundingSphere = Sphere3D.clone(textureMesh.boundingSphere); const boundingSphere = calculateTransformBoundingSphere(invariantBoundingSphere, values.aTransform.ref.value, values.instanceCount.ref.value); if (!Sphere3D.equals(boundingSphere, values.boundingSphere.ref.value)) { ValueCell.update(values.boundingSphere, boundingSphere); } if (!Sphere3D.equals(invariantBoundingSphere, values.invariantBoundingSphere.ref.value)) { ValueCell.update(values.invariantBoundingSphere, invariantBoundingSphere); ValueCell.update(values.uInvariantBoundingSphere, Vec4.fromSphere(values.uInvariantBoundingSphere.ref.value, invariantBoundingSphere)); } } }