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molstar

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A comprehensive macromolecular library.

github.com/molstar/molstar

molstar/molstar

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"use strict"; /** * Copyright (c) 2020 mol* contributors, licensed under MIT, See LICENSE file for more info. * * @author David Sehnal <david.sehnal@gmail.com> */ Object.defineProperty(exports, "__esModule", { value: true }); exports.CubeFormat = void 0; exports.trajectoryFromCube = trajectoryFromCube; const db_1 = require("../../mol-data/db"); const types_1 = require("../../mol-model/structure/model/types"); const mol_task_1 = require("../../mol-task"); const parser_1 = require("./basic/parser"); const schema_1 = require("./basic/schema"); const component_1 = require("./common/component"); const entity_1 = require("./common/entity"); async function getModels(cube, ctx) { const { atoms } = cube; const MOL = db_1.Column.ofConst('MOL', cube.atoms.count, db_1.Column.Schema.str); const A = db_1.Column.ofConst('A', cube.atoms.count, db_1.Column.Schema.str); const type_symbol = db_1.Column.ofArray({ array: db_1.Column.mapToArray(atoms.number, n => (0, types_1.getElementFromAtomicNumber)(n)), schema: db_1.Column.Schema.Aliased(db_1.Column.Schema.str) }); const seq_id = db_1.Column.ofConst(1, atoms.count, db_1.Column.Schema.int); const atom_site = db_1.Table.ofPartialColumns(schema_1.BasicSchema.atom_site, { auth_asym_id: A, auth_atom_id: type_symbol, auth_comp_id: MOL, auth_seq_id: seq_id, Cartn_x: db_1.Column.asArrayColumn(atoms.x, Float32Array), Cartn_y: db_1.Column.asArrayColumn(atoms.y, Float32Array), Cartn_z: db_1.Column.asArrayColumn(atoms.z, Float32Array), id: db_1.Column.range(0, atoms.count - 1), label_asym_id: A, label_atom_id: type_symbol, label_comp_id: MOL, label_seq_id: seq_id, label_entity_id: db_1.Column.ofConst('1', atoms.count, db_1.Column.Schema.str), occupancy: db_1.Column.ofConst(1, atoms.count, db_1.Column.Schema.float), type_symbol, pdbx_PDB_model_num: db_1.Column.ofConst(1, atoms.count, db_1.Column.Schema.int), }, atoms.count); const entityBuilder = new entity_1.EntityBuilder(); entityBuilder.setNames([['MOL', 'Unknown Entity']]); entityBuilder.getEntityId('MOL', types_1.MoleculeType.Unknown, 'A'); const componentBuilder = new component_1.ComponentBuilder(seq_id, type_symbol); componentBuilder.setNames([['MOL', 'Unknown Molecule']]); componentBuilder.add('MOL', 0); const basic = (0, schema_1.createBasic)({ entity: entityBuilder.getEntityTable(), chem_comp: componentBuilder.getChemCompTable(), atom_site }); return await (0, parser_1.createModels)(basic, CubeFormat.create(cube), ctx); } var CubeFormat; (function (CubeFormat) { function is(x) { return (x === null || x === void 0 ? void 0 : x.kind) === 'cube'; } CubeFormat.is = is; function create(cube) { return { kind: 'cube', name: cube.header.comment1, data: cube }; } CubeFormat.create = create; })(CubeFormat || (exports.CubeFormat = CubeFormat = {})); function trajectoryFromCube(cube) { return mol_task_1.Task.create('Parse Cube', ctx => getModels(cube, ctx)); }