ducjs/dist/flatbuffers/duc/tolerance-clause.js

The duc 2D CAD file format is a cornerstone of our advanced design system, conceived to cater to professionals seeking precision and efficiency in their design work.

// automatically generated by the FlatBuffers compiler, do not modify
/* eslint-disable @typescript-eslint/no-unused-vars, @typescript-eslint/no-explicit-any, @typescript-eslint/no-non-null-assertion */
import * as flatbuffers from 'flatbuffers';
export class ToleranceClause {
    constructor() {
        this.bb = null;
        this.bb_pos = 0;
    }
    __init(i, bb) {
        this.bb_pos = i;
        this.bb = bb;
        return this;
    }
    static getRootAsToleranceClause(bb, obj) {
        return (obj || new ToleranceClause()).__init(bb.readInt32(bb.position()) + bb.position(), bb);
    }
    static getSizePrefixedRootAsToleranceClause(bb, obj) {
        bb.setPosition(bb.position() + flatbuffers.SIZE_PREFIX_LENGTH);
        return (obj || new ToleranceClause()).__init(bb.readInt32(bb.position()) + bb.position(), bb);
    }
    value(optionalEncoding) {
        const offset = this.bb.__offset(this.bb_pos, 4);
        return offset ? this.bb.__string(this.bb_pos + offset, optionalEncoding) : null;
    }
    zoneType() {
        const offset = this.bb.__offset(this.bb_pos, 6);
        return offset ? this.bb.readUint8(this.bb_pos + offset) : null;
    }
    featureModifiers(index) {
        const offset = this.bb.__offset(this.bb_pos, 8);
        return offset ? this.bb.readUint8(this.bb.__vector(this.bb_pos + offset) + index) : 0;
    }
    featureModifiersLength() {
        const offset = this.bb.__offset(this.bb_pos, 8);
        return offset ? this.bb.__vector_len(this.bb_pos + offset) : 0;
    }
    featureModifiersArray() {
        const offset = this.bb.__offset(this.bb_pos, 8);
        return offset ? new Uint8Array(this.bb.bytes().buffer, this.bb.bytes().byteOffset + this.bb.__vector(this.bb_pos + offset), this.bb.__vector_len(this.bb_pos + offset)) : null;
    }
    materialCondition() {
        const offset = this.bb.__offset(this.bb_pos, 10);
        return offset ? this.bb.readUint8(this.bb_pos + offset) : null;
    }
    static startToleranceClause(builder) {
        builder.startObject(4);
    }
    static addValue(builder, valueOffset) {
        builder.addFieldOffset(0, valueOffset, 0);
    }
    static addZoneType(builder, zoneType) {
        builder.addFieldInt8(1, zoneType, null);
    }
    static addFeatureModifiers(builder, featureModifiersOffset) {
        builder.addFieldOffset(2, featureModifiersOffset, 0);
    }
    static createFeatureModifiersVector(builder, data) {
        builder.startVector(1, data.length, 1);
        for (let i = data.length - 1; i >= 0; i--) {
            builder.addInt8(data[i]);
        }
        return builder.endVector();
    }
    static startFeatureModifiersVector(builder, numElems) {
        builder.startVector(1, numElems, 1);
    }
    static addMaterialCondition(builder, materialCondition) {
        builder.addFieldInt8(3, materialCondition, null);
    }
    static endToleranceClause(builder) {
        const offset = builder.endObject();
        return offset;
    }
    static createToleranceClause(builder, valueOffset, zoneType, featureModifiersOffset, materialCondition) {
        ToleranceClause.startToleranceClause(builder);
        ToleranceClause.addValue(builder, valueOffset);
        if (zoneType !== null)
            ToleranceClause.addZoneType(builder, zoneType);
        ToleranceClause.addFeatureModifiers(builder, featureModifiersOffset);
        if (materialCondition !== null)
            ToleranceClause.addMaterialCondition(builder, materialCondition);
        return ToleranceClause.endToleranceClause(builder);
    }
}