molstar
Version:
A comprehensive macromolecular library.
142 lines (141 loc) • 7.03 kB
JavaScript
/**
* Copyright (c) 2018-2022 mol* contributors, licensed under MIT, See LICENSE file for more info.
*
* @author Alexander Rose <alexander.rose@weirdbyte.de>
*/
import { __assign } from "tslib";
import { ParamDefinition as PD } from '../../../mol-util/param-definition';
import { Structure, StructureElement, Unit } from '../../../mol-model/structure';
import { Vec3 } from '../../../mol-math/linear-algebra';
import { createLinkCylinderMesh, LinkCylinderParams } from './util/link';
import { UnitsMeshParams } from '../units-visual';
import { ComplexMeshVisual } from '../complex-visual';
import { LocationIterator } from '../../../mol-geo/util/location-iterator';
import { OrderedSet, Interval } from '../../../mol-data/int';
import { EmptyLoci } from '../../../mol-model/loci';
import { getElementIdx, MetalsSet } from '../../../mol-model/structure/structure/unit/bonds/common';
import { getAltResidueLociFromId, getAltResidueLoci } from './util/common';
import { Sphere3D } from '../../../mol-math/geometry';
function createCarbohydrateTerminalLinkCylinderMesh(ctx, structure, theme, props, mesh) {
var _a = structure.carbohydrates, terminalLinks = _a.terminalLinks, elements = _a.elements;
var terminalLinkSizeFactor = props.terminalLinkSizeFactor;
var location = StructureElement.Location.create(structure);
var builderProps = {
linkCount: terminalLinks.length,
position: function (posA, posB, edgeIndex) {
var l = terminalLinks[edgeIndex];
if (l.fromCarbohydrate) {
Vec3.copy(posA, elements[l.carbohydrateIndex].geometry.center);
l.elementUnit.conformation.position(l.elementUnit.elements[l.elementIndex], posB);
}
else {
l.elementUnit.conformation.position(l.elementUnit.elements[l.elementIndex], posA);
Vec3.copy(posB, elements[l.carbohydrateIndex].geometry.center);
}
},
radius: function (edgeIndex) {
var l = terminalLinks[edgeIndex];
if (l.fromCarbohydrate) {
var carb = elements[l.carbohydrateIndex];
var ring = carb.unit.rings.all[carb.ringIndex];
location.unit = carb.unit;
location.element = carb.unit.elements[ring[0]];
}
else {
location.unit = l.elementUnit;
location.element = l.elementUnit.elements[l.elementIndex];
}
return theme.size.size(location) * terminalLinkSizeFactor;
},
style: function (edgeIndex) {
var l = terminalLinks[edgeIndex];
var eI = l.elementUnit.elements[l.elementIndex];
var beI = getElementIdx(l.elementUnit.model.atomicHierarchy.atoms.type_symbol.value(eI));
return MetalsSet.has(beI) ? 1 /* LinkStyle.Dashed */ : 0 /* LinkStyle.Solid */;
}
};
var _b = createLinkCylinderMesh(ctx, builderProps, props, mesh), m = _b.mesh, boundingSphere = _b.boundingSphere;
if (boundingSphere) {
m.setBoundingSphere(boundingSphere);
}
else if (m.triangleCount > 0) {
var sphere = Sphere3D.expand(Sphere3D(), structure.boundary.sphere, 1 * terminalLinkSizeFactor);
m.setBoundingSphere(sphere);
}
return m;
}
export var CarbohydrateTerminalLinkParams = __assign(__assign(__assign({}, UnitsMeshParams), LinkCylinderParams), { terminalLinkSizeFactor: PD.Numeric(0.2, { min: 0, max: 3, step: 0.01 }) });
export function CarbohydrateTerminalLinkVisual(materialId) {
return ComplexMeshVisual({
defaultProps: PD.getDefaultValues(CarbohydrateTerminalLinkParams),
createGeometry: createCarbohydrateTerminalLinkCylinderMesh,
createLocationIterator: CarbohydrateTerminalLinkIterator,
getLoci: getTerminalLinkLoci,
eachLocation: eachTerminalLink,
setUpdateState: function (state, newProps, currentProps) {
state.createGeometry = (newProps.terminalLinkSizeFactor !== currentProps.terminalLinkSizeFactor ||
newProps.radialSegments !== currentProps.radialSegments ||
newProps.linkCap !== currentProps.linkCap);
}
}, materialId);
}
function CarbohydrateTerminalLinkIterator(structure) {
var _a = structure.carbohydrates, elements = _a.elements, terminalLinks = _a.terminalLinks;
var groupCount = terminalLinks.length;
var instanceCount = 1;
var location = StructureElement.Location.create(structure);
var getLocation = function (groupIndex) {
var terminalLink = terminalLinks[groupIndex];
if (terminalLink.fromCarbohydrate) {
var carb = elements[terminalLink.carbohydrateIndex];
var ring = carb.unit.rings.all[carb.ringIndex];
location.unit = carb.unit;
location.element = carb.unit.elements[ring[0]];
}
else {
location.unit = terminalLink.elementUnit;
location.element = terminalLink.elementUnit.elements[terminalLink.elementIndex];
}
return location;
};
return LocationIterator(groupCount, instanceCount, 1, getLocation, true);
}
function getTerminalLinkLoci(pickingId, structure, id) {
var objectId = pickingId.objectId, groupId = pickingId.groupId;
if (id === objectId) {
var _a = structure.carbohydrates, terminalLinks = _a.terminalLinks, elements = _a.elements;
var l = terminalLinks[groupId];
var carb = elements[l.carbohydrateIndex];
return StructureElement.Loci.union(getAltResidueLociFromId(structure, carb.unit, carb.residueIndex, carb.altId), getAltResidueLoci(structure, l.elementUnit, l.elementUnit.elements[l.elementIndex]));
}
return EmptyLoci;
}
var __linkIndicesSet = new Set();
function eachTerminalLink(loci, structure, apply) {
var changed = false;
if (!StructureElement.Loci.is(loci))
return false;
if (!Structure.areEquivalent(loci.structure, structure))
return false;
var getTerminalLinkIndices = structure.carbohydrates.getTerminalLinkIndices;
var _loop_1 = function (unit, indices) {
if (!Unit.isAtomic(unit))
return "continue";
__linkIndicesSet.clear();
OrderedSet.forEach(indices, function (v) {
var linkIndices = getTerminalLinkIndices(unit, unit.elements[v]);
for (var i = 0, il = linkIndices.length; i < il; ++i) {
if (!__linkIndicesSet.has(linkIndices[i])) {
__linkIndicesSet.add(linkIndices[i]);
if (apply(Interval.ofSingleton(linkIndices[i])))
changed = true;
}
}
});
};
for (var _i = 0, _a = loci.elements; _i < _a.length; _i++) {
var _b = _a[_i], unit = _b.unit, indices = _b.indices;
_loop_1(unit, indices);
}
return changed;
}