@shapediver/sdk.sdtf-geometry
Version:
Extension containing sdTF geometry types
63 lines • 4.07 kB
JavaScript
;
var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) {
function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); }
return new (P || (P = Promise))(function (resolve, reject) {
function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } }
function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } }
function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); }
step((generator = generator.apply(thisArg, _arguments || [])).next());
});
};
Object.defineProperty(exports, "__esModule", { value: true });
exports.SdtfGeometryTypeReader = void 0;
const sdk_sdtf_core_1 = require("@shapediver/sdk.sdtf-core");
const SdtfGeometryTypeValidator_1 = require("./SdtfGeometryTypeValidator");
class SdtfGeometryTypeReader {
constructor() {
this.validator = new SdtfGeometryTypeValidator_1.SdtfGeometryTypeValidator();
}
readComponent(component) {
return __awaiter(this, void 0, void 0, function* () {
var _a;
const typeHint = (_a = component.typeHint) === null || _a === void 0 ? void 0 : _a.name;
if (!this.validator.validateComponent(typeHint, component.value, component.accessor)) {
throw new sdk_sdtf_core_1.SdtfError(`Cannot read value of type '${typeHint}': Invalid component.`);
}
switch (typeHint) {
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_ARC:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_BOUNDING_BOX:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_BOX:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_CIRCLE:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_COMPLEX:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_CONE:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_CYLINDER:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_ELLIPSE:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_INTERVAL:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_INTERVAL2:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_LINE:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_MATRIX:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_PLANE:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_POINT:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_POINT2D:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_POINT3D:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_POINT4D:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_POLYLINE:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_RAY:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_RECTANGLE:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_SPHERE:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_TORUS:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_TRANSFORM:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_TRANSFORM_LIST:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_VECTOR:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_VECTOR2D:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_VECTOR3D:
case sdk_sdtf_core_1.SdtfGeometryTypeHintName.GEOMETRY_VECTOR4D:
return component.value;
default:
(0, sdk_sdtf_core_1.sdAssertUnreachable)(typeHint);
}
});
}
}
exports.SdtfGeometryTypeReader = SdtfGeometryTypeReader;
//# sourceMappingURL=SdtfGeometryTypeReader.js.map