FrenoCorp/node_modules/peerjs-js-binarypack/dist/binarypack.cjs

function $parcel$export(e, n, v, s) {
  Object.defineProperty(e, n, {get: v, set: s, enumerable: true, configurable: true});
}

$parcel$export(module.exports, "unpack", () => $305e16fc3067229c$export$417857010dc9287f);
$parcel$export(module.exports, "pack", () => $305e16fc3067229c$export$2a703dbb0cb35339);
$parcel$export(module.exports, "Packer", () => $305e16fc3067229c$export$b9ec4b114aa40074);
class $df5e3223d81bc678$export$93654d4f2d6cd524 {
    constructor(){
        this.encoder = new TextEncoder();
        this._pieces = [];
        this._parts = [];
    }
    append_buffer(data) {
        this.flush();
        this._parts.push(data);
    }
    append(data) {
        this._pieces.push(data);
    }
    flush() {
        if (this._pieces.length > 0) {
            const buf = new Uint8Array(this._pieces);
            this._parts.push(buf);
            this._pieces = [];
        }
    }
    toArrayBuffer() {
        const buffer = [];
        for (const part of this._parts)buffer.push(part);
        return $df5e3223d81bc678$var$concatArrayBuffers(buffer).buffer;
    }
}
function $df5e3223d81bc678$var$concatArrayBuffers(bufs) {
    let size = 0;
    for (const buf of bufs)size += buf.byteLength;
    const result = new Uint8Array(size);
    let offset = 0;
    for (const buf of bufs){
        const view = new Uint8Array(buf.buffer, buf.byteOffset, buf.byteLength);
        result.set(view, offset);
        offset += buf.byteLength;
    }
    return result;
}


function $305e16fc3067229c$export$417857010dc9287f(data) {
    const unpacker = new $305e16fc3067229c$var$Unpacker(data);
    return unpacker.unpack();
}
function $305e16fc3067229c$export$2a703dbb0cb35339(data) {
    const packer = new $305e16fc3067229c$export$b9ec4b114aa40074();
    const res = packer.pack(data);
    if (res instanceof Promise) return res.then(()=>packer.getBuffer());
    return packer.getBuffer();
}
class $305e16fc3067229c$var$Unpacker {
    constructor(data){
        this.index = 0;
        this.dataBuffer = data;
        this.dataView = new Uint8Array(this.dataBuffer);
        this.length = this.dataBuffer.byteLength;
    }
    unpack() {
        const type = this.unpack_uint8();
        if (type < 0x80) return type;
        else if ((type ^ 0xe0) < 0x20) return (type ^ 0xe0) - 0x20;
        let size;
        if ((size = type ^ 0xa0) <= 0x0f) return this.unpack_raw(size);
        else if ((size = type ^ 0xb0) <= 0x0f) return this.unpack_string(size);
        else if ((size = type ^ 0x90) <= 0x0f) return this.unpack_array(size);
        else if ((size = type ^ 0x80) <= 0x0f) return this.unpack_map(size);
        switch(type){
            case 0xc0:
                return null;
            case 0xc1:
                return undefined;
            case 0xc2:
                return false;
            case 0xc3:
                return true;
            case 0xca:
                return this.unpack_float();
            case 0xcb:
                return this.unpack_double();
            case 0xcc:
                return this.unpack_uint8();
            case 0xcd:
                return this.unpack_uint16();
            case 0xce:
                return this.unpack_uint32();
            case 0xcf:
                return this.unpack_uint64();
            case 0xd0:
                return this.unpack_int8();
            case 0xd1:
                return this.unpack_int16();
            case 0xd2:
                return this.unpack_int32();
            case 0xd3:
                return this.unpack_int64();
            case 0xd4:
                return undefined;
            case 0xd5:
                return undefined;
            case 0xd6:
                return undefined;
            case 0xd7:
                return undefined;
            case 0xd8:
                size = this.unpack_uint16();
                return this.unpack_string(size);
            case 0xd9:
                size = this.unpack_uint32();
                return this.unpack_string(size);
            case 0xda:
                size = this.unpack_uint16();
                return this.unpack_raw(size);
            case 0xdb:
                size = this.unpack_uint32();
                return this.unpack_raw(size);
            case 0xdc:
                size = this.unpack_uint16();
                return this.unpack_array(size);
            case 0xdd:
                size = this.unpack_uint32();
                return this.unpack_array(size);
            case 0xde:
                size = this.unpack_uint16();
                return this.unpack_map(size);
            case 0xdf:
                size = this.unpack_uint32();
                return this.unpack_map(size);
        }
    }
    unpack_uint8() {
        const byte = this.dataView[this.index] & 0xff;
        this.index++;
        return byte;
    }
    unpack_uint16() {
        const bytes = this.read(2);
        const uint16 = (bytes[0] & 0xff) * 256 + (bytes[1] & 0xff);
        this.index += 2;
        return uint16;
    }
    unpack_uint32() {
        const bytes = this.read(4);
        const uint32 = ((bytes[0] * 256 + bytes[1]) * 256 + bytes[2]) * 256 + bytes[3];
        this.index += 4;
        return uint32;
    }
    unpack_uint64() {
        const bytes = this.read(8);
        const uint64 = ((((((bytes[0] * 256 + bytes[1]) * 256 + bytes[2]) * 256 + bytes[3]) * 256 + bytes[4]) * 256 + bytes[5]) * 256 + bytes[6]) * 256 + bytes[7];
        this.index += 8;
        return uint64;
    }
    unpack_int8() {
        const uint8 = this.unpack_uint8();
        return uint8 < 0x80 ? uint8 : uint8 - 256;
    }
    unpack_int16() {
        const uint16 = this.unpack_uint16();
        return uint16 < 0x8000 ? uint16 : uint16 - 65536;
    }
    unpack_int32() {
        const uint32 = this.unpack_uint32();
        return uint32 < 2 ** 31 ? uint32 : uint32 - 2 ** 32;
    }
    unpack_int64() {
        const uint64 = this.unpack_uint64();
        return uint64 < 2 ** 63 ? uint64 : uint64 - 2 ** 64;
    }
    unpack_raw(size) {
        if (this.length < this.index + size) throw new Error(`BinaryPackFailure: index is out of range ${this.index} ${size} ${this.length}`);
        const buf = this.dataBuffer.slice(this.index, this.index + size);
        this.index += size;
        return buf;
    }
    unpack_string(size) {
        const bytes = this.read(size);
        let i = 0;
        let str = "";
        let c;
        let code;
        while(i < size){
            c = bytes[i];
            // The length of a UTF-8 sequence is specified in the first byte:
            // 0xxxxxxx means length 1,
            // 110xxxxx means length 2,
            // 1110xxxx means length 3,
            // 11110xxx means length 4.
            // 10xxxxxx is for non-initial bytes.
            if (c < 0xa0) {
                // One-byte sequence: bits 0xxxxxxx
                code = c;
                i++;
            } else if ((c ^ 0xc0) < 0x20) {
                // Two-byte sequence: bits 110xxxxx 10xxxxxx
                code = (c & 0x1f) << 6 | bytes[i + 1] & 0x3f;
                i += 2;
            } else if ((c ^ 0xe0) < 0x10) {
                // Three-byte sequence: bits 1110xxxx 10xxxxxx 10xxxxxx
                code = (c & 0x0f) << 12 | (bytes[i + 1] & 0x3f) << 6 | bytes[i + 2] & 0x3f;
                i += 3;
            } else {
                // Four-byte sequence: bits 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx
                code = (c & 0x07) << 18 | (bytes[i + 1] & 0x3f) << 12 | (bytes[i + 2] & 0x3f) << 6 | bytes[i + 3] & 0x3f;
                i += 4;
            }
            str += String.fromCodePoint(code);
        }
        this.index += size;
        return str;
    }
    unpack_array(size) {
        const objects = new Array(size);
        for(let i = 0; i < size; i++)objects[i] = this.unpack();
        return objects;
    }
    unpack_map(size) {
        const map = {};
        for(let i = 0; i < size; i++){
            const key = this.unpack();
            map[key] = this.unpack();
        }
        return map;
    }
    unpack_float() {
        const uint32 = this.unpack_uint32();
        const sign = uint32 >> 31;
        const exp = (uint32 >> 23 & 0xff) - 127;
        const fraction = uint32 & 0x7fffff | 0x800000;
        return (sign === 0 ? 1 : -1) * fraction * 2 ** (exp - 23);
    }
    unpack_double() {
        const h32 = this.unpack_uint32();
        const l32 = this.unpack_uint32();
        const sign = h32 >> 31;
        const exp = (h32 >> 20 & 0x7ff) - 1023;
        const hfrac = h32 & 0xfffff | 0x100000;
        const frac = hfrac * 2 ** (exp - 20) + l32 * 2 ** (exp - 52);
        return (sign === 0 ? 1 : -1) * frac;
    }
    read(length) {
        const j = this.index;
        if (j + length <= this.length) return this.dataView.subarray(j, j + length);
        else throw new Error("BinaryPackFailure: read index out of range");
    }
}
class $305e16fc3067229c$export$b9ec4b114aa40074 {
    getBuffer() {
        return this._bufferBuilder.toArrayBuffer();
    }
    pack(value) {
        if (typeof value === "string") this.pack_string(value);
        else if (typeof value === "number") {
            if (Math.floor(value) === value) this.pack_integer(value);
            else this.pack_double(value);
        } else if (typeof value === "boolean") {
            if (value === true) this._bufferBuilder.append(0xc3);
            else if (value === false) this._bufferBuilder.append(0xc2);
        } else if (value === undefined) this._bufferBuilder.append(0xc0);
        else if (typeof value === "object") {
            if (value === null) this._bufferBuilder.append(0xc0);
            else {
                const constructor = value.constructor;
                if (value instanceof Array) {
                    const res = this.pack_array(value);
                    if (res instanceof Promise) return res.then(()=>this._bufferBuilder.flush());
                } else if (value instanceof ArrayBuffer) this.pack_bin(new Uint8Array(value));
                else if ("BYTES_PER_ELEMENT" in value) {
                    const v = value;
                    this.pack_bin(new Uint8Array(v.buffer, v.byteOffset, v.byteLength));
                } else if (value instanceof Date) this.pack_string(value.toString());
                else if (value instanceof Blob) return value.arrayBuffer().then((buffer)=>{
                    this.pack_bin(new Uint8Array(buffer));
                    this._bufferBuilder.flush();
                });
                else if (constructor == Object || constructor.toString().startsWith("class")) {
                    const res = this.pack_object(value);
                    if (res instanceof Promise) return res.then(()=>this._bufferBuilder.flush());
                } else throw new Error(`Type "${constructor.toString()}" not yet supported`);
            }
        } else throw new Error(`Type "${typeof value}" not yet supported`);
        this._bufferBuilder.flush();
    }
    pack_bin(blob) {
        const length = blob.length;
        if (length <= 0x0f) this.pack_uint8(0xa0 + length);
        else if (length <= 0xffff) {
            this._bufferBuilder.append(0xda);
            this.pack_uint16(length);
        } else if (length <= 0xffffffff) {
            this._bufferBuilder.append(0xdb);
            this.pack_uint32(length);
        } else throw new Error("Invalid length");
        this._bufferBuilder.append_buffer(blob);
    }
    pack_string(str) {
        const encoded = this._textEncoder.encode(str);
        const length = encoded.length;
        if (length <= 0x0f) this.pack_uint8(0xb0 + length);
        else if (length <= 0xffff) {
            this._bufferBuilder.append(0xd8);
            this.pack_uint16(length);
        } else if (length <= 0xffffffff) {
            this._bufferBuilder.append(0xd9);
            this.pack_uint32(length);
        } else throw new Error("Invalid length");
        this._bufferBuilder.append_buffer(encoded);
    }
    pack_array(ary) {
        const length = ary.length;
        if (length <= 0x0f) this.pack_uint8(0x90 + length);
        else if (length <= 0xffff) {
            this._bufferBuilder.append(0xdc);
            this.pack_uint16(length);
        } else if (length <= 0xffffffff) {
            this._bufferBuilder.append(0xdd);
            this.pack_uint32(length);
        } else throw new Error("Invalid length");
        const packNext = (index)=>{
            if (index < length) {
                const res = this.pack(ary[index]);
                if (res instanceof Promise) return res.then(()=>packNext(index + 1));
                return packNext(index + 1);
            }
        };
        return packNext(0);
    }
    pack_integer(num) {
        if (num >= -32 && num <= 0x7f) this._bufferBuilder.append(num & 0xff);
        else if (num >= 0x00 && num <= 0xff) {
            this._bufferBuilder.append(0xcc);
            this.pack_uint8(num);
        } else if (num >= -128 && num <= 0x7f) {
            this._bufferBuilder.append(0xd0);
            this.pack_int8(num);
        } else if (num >= 0x0000 && num <= 0xffff) {
            this._bufferBuilder.append(0xcd);
            this.pack_uint16(num);
        } else if (num >= -32768 && num <= 0x7fff) {
            this._bufferBuilder.append(0xd1);
            this.pack_int16(num);
        } else if (num >= 0x00000000 && num <= 0xffffffff) {
            this._bufferBuilder.append(0xce);
            this.pack_uint32(num);
        } else if (num >= -2147483648 && num <= 0x7fffffff) {
            this._bufferBuilder.append(0xd2);
            this.pack_int32(num);
        } else if (num >= -9223372036854776000 && num <= 0x7fffffffffffffff) {
            this._bufferBuilder.append(0xd3);
            this.pack_int64(num);
        } else if (num >= 0x0000000000000000 && num <= 0xffffffffffffffff) {
            this._bufferBuilder.append(0xcf);
            this.pack_uint64(num);
        } else throw new Error("Invalid integer");
    }
    pack_double(num) {
        let sign = 0;
        if (num < 0) {
            sign = 1;
            num = -num;
        }
        const exp = Math.floor(Math.log(num) / Math.LN2);
        const frac0 = num / 2 ** exp - 1;
        const frac1 = Math.floor(frac0 * 2 ** 52);
        const b32 = 2 ** 32;
        const h32 = sign << 31 | exp + 1023 << 20 | frac1 / b32 & 0x0fffff;
        const l32 = frac1 % b32;
        this._bufferBuilder.append(0xcb);
        this.pack_int32(h32);
        this.pack_int32(l32);
    }
    pack_object(obj) {
        const keys = Object.keys(obj);
        const length = keys.length;
        if (length <= 0x0f) this.pack_uint8(0x80 + length);
        else if (length <= 0xffff) {
            this._bufferBuilder.append(0xde);
            this.pack_uint16(length);
        } else if (length <= 0xffffffff) {
            this._bufferBuilder.append(0xdf);
            this.pack_uint32(length);
        } else throw new Error("Invalid length");
        const packNext = (index)=>{
            if (index < keys.length) {
                const prop = keys[index];
                // eslint-disable-next-line no-prototype-builtins
                if (obj.hasOwnProperty(prop)) {
                    this.pack(prop);
                    const res = this.pack(obj[prop]);
                    if (res instanceof Promise) return res.then(()=>packNext(index + 1));
                }
                return packNext(index + 1);
            }
        };
        return packNext(0);
    }
    pack_uint8(num) {
        this._bufferBuilder.append(num);
    }
    pack_uint16(num) {
        this._bufferBuilder.append(num >> 8);
        this._bufferBuilder.append(num & 0xff);
    }
    pack_uint32(num) {
        const n = num & 0xffffffff;
        this._bufferBuilder.append((n & 0xff000000) >>> 24);
        this._bufferBuilder.append((n & 0x00ff0000) >>> 16);
        this._bufferBuilder.append((n & 0x0000ff00) >>> 8);
        this._bufferBuilder.append(n & 0x000000ff);
    }
    pack_uint64(num) {
        const high = num / 2 ** 32;
        const low = num % 2 ** 32;
        this._bufferBuilder.append((high & 0xff000000) >>> 24);
        this._bufferBuilder.append((high & 0x00ff0000) >>> 16);
        this._bufferBuilder.append((high & 0x0000ff00) >>> 8);
        this._bufferBuilder.append(high & 0x000000ff);
        this._bufferBuilder.append((low & 0xff000000) >>> 24);
        this._bufferBuilder.append((low & 0x00ff0000) >>> 16);
        this._bufferBuilder.append((low & 0x0000ff00) >>> 8);
        this._bufferBuilder.append(low & 0x000000ff);
    }
    pack_int8(num) {
        this._bufferBuilder.append(num & 0xff);
    }
    pack_int16(num) {
        this._bufferBuilder.append((num & 0xff00) >> 8);
        this._bufferBuilder.append(num & 0xff);
    }
    pack_int32(num) {
        this._bufferBuilder.append(num >>> 24 & 0xff);
        this._bufferBuilder.append((num & 0x00ff0000) >>> 16);
        this._bufferBuilder.append((num & 0x0000ff00) >>> 8);
        this._bufferBuilder.append(num & 0x000000ff);
    }
    pack_int64(num) {
        const high = Math.floor(num / 2 ** 32);
        const low = num % 2 ** 32;
        this._bufferBuilder.append((high & 0xff000000) >>> 24);
        this._bufferBuilder.append((high & 0x00ff0000) >>> 16);
        this._bufferBuilder.append((high & 0x0000ff00) >>> 8);
        this._bufferBuilder.append(high & 0x000000ff);
        this._bufferBuilder.append((low & 0xff000000) >>> 24);
        this._bufferBuilder.append((low & 0x00ff0000) >>> 16);
        this._bufferBuilder.append((low & 0x0000ff00) >>> 8);
        this._bufferBuilder.append(low & 0x000000ff);
    }
    constructor(){
        this._bufferBuilder = new (0, $df5e3223d81bc678$export$93654d4f2d6cd524)();
        this._textEncoder = new TextEncoder();
    }
}


//# sourceMappingURL=binarypack.cjs.map