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molstar

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A comprehensive macromolecular library.

github.com/molstar/molstar

molstar/molstar

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/** * Copyright (c) 2018-2023 mol* contributors, licensed under MIT, See LICENSE file for more info. * * @author Alexander Rose <alexander.rose@weirdbyte.de> * @author Gianluca Tomasello <giagitom@gmail.com> */ import { ChunkedArray } from '../../../mol-data/util'; import { Lines } from './lines'; import { Vec3 } from '../../../mol-math/linear-algebra'; const tmpVecA = Vec3(); const tmpVecB = Vec3(); const tmpDir = Vec3(); // avoiding namespace lookup improved performance in Chrome (Aug 2020) const caAdd = ChunkedArray.add; const caAdd3 = ChunkedArray.add3; export var LinesBuilder; (function (LinesBuilder) { function create(initialCount = 2048, chunkSize = 1024, lines) { const groups = ChunkedArray.create(Float32Array, 1, chunkSize, lines ? lines.groupBuffer.ref.value : initialCount); const starts = ChunkedArray.create(Float32Array, 3, chunkSize, lines ? lines.startBuffer.ref.value : initialCount); const ends = ChunkedArray.create(Float32Array, 3, chunkSize, lines ? lines.endBuffer.ref.value : initialCount); const add = (startX, startY, startZ, endX, endY, endZ, group) => { for (let i = 0; i < 4; ++i) { caAdd3(starts, startX, startY, startZ); caAdd3(ends, endX, endY, endZ); caAdd(groups, group); } }; const addVec = (start, end, group) => { for (let i = 0; i < 4; ++i) { caAdd3(starts, start[0], start[1], start[2]); caAdd3(ends, end[0], end[1], end[2]); caAdd(groups, group); } }; const addFixedCountDashes = (start, end, segmentCount, group) => { const d = Vec3.distance(start, end); const isOdd = segmentCount % 2 !== 0; const s = Math.floor((segmentCount + 1) / 2); const step = d / (segmentCount + 0.5); Vec3.setMagnitude(tmpDir, Vec3.sub(tmpDir, end, start), step); Vec3.copy(tmpVecA, start); for (let j = 0; j < s; ++j) { Vec3.add(tmpVecA, tmpVecA, tmpDir); if (isOdd && j === s - 1) { Vec3.copy(tmpVecB, end); } else { Vec3.add(tmpVecB, tmpVecA, tmpDir); } add(tmpVecA[0], tmpVecA[1], tmpVecA[2], tmpVecB[0], tmpVecB[1], tmpVecB[2], group); Vec3.add(tmpVecA, tmpVecA, tmpDir); } }; return { add, addVec, addFixedCountDashes, addFixedLengthDashes: (start, end, segmentLength, group) => { const d = Vec3.distance(start, end); addFixedCountDashes(start, end, d / segmentLength, group); }, addCage: (t, cage, group) => { const { vertices, edges } = cage; for (let i = 0, il = edges.length; i < il; i += 2) { Vec3.fromArray(tmpVecA, vertices, edges[i] * 3); Vec3.fromArray(tmpVecB, vertices, edges[i + 1] * 3); Vec3.transformMat4(tmpVecA, tmpVecA, t); Vec3.transformMat4(tmpVecB, tmpVecB, t); add(tmpVecA[0], tmpVecA[1], tmpVecA[2], tmpVecB[0], tmpVecB[1], tmpVecB[2], group); } }, getLines: () => { const lineCount = groups.elementCount / 4; const gb = ChunkedArray.compact(groups, true); const sb = ChunkedArray.compact(starts, true); const eb = ChunkedArray.compact(ends, true); const mb = lines && lineCount <= lines.lineCount ? lines.mappingBuffer.ref.value : new Float32Array(lineCount * 8); const ib = lines && lineCount <= lines.lineCount ? lines.indexBuffer.ref.value : new Uint32Array(lineCount * 6); if (!lines || lineCount > lines.lineCount) fillMappingAndIndices(lineCount, mb, ib); return Lines.create(mb, ib, gb, sb, eb, lineCount, lines); } }; } LinesBuilder.create = create; })(LinesBuilder || (LinesBuilder = {})); function fillMappingAndIndices(n, mb, ib) { for (let i = 0; i < n; ++i) { const mo = i * 8; mb[mo] = -1; mb[mo + 1] = -1; mb[mo + 2] = 1; mb[mo + 3] = -1; mb[mo + 4] = -1; mb[mo + 5] = 1; mb[mo + 6] = 1; mb[mo + 7] = 1; } for (let i = 0; i < n; ++i) { const o = i * 4; const io = i * 6; ib[io] = o; ib[io + 1] = o + 1; ib[io + 2] = o + 2; ib[io + 3] = o + 1; ib[io + 4] = o + 3; ib[io + 5] = o + 2; } }