import { gc } from "bun"; import { describe, it, expect, beforeEach, afterEach } from "bun:test"; import { gc } from "./gc"; beforeEach(() => gc()); afterEach(() => gc()); it("buffer", () => { var buf = new Buffer(20); gc(); // if this fails or infinitely loops, it means there is a memory issue with the JSC::Structure object expect(Object.keys(buf).length > 0).toBe(true); gc(); expect(buf.write("hello world ")).toBe(12); expect(buf.write("hello world ", "utf8")).toBe(12); gc(); expect(buf.toString("utf8", 0, "hello world ".length)).toBe("hello world "); gc(); expect(buf.toString("base64url", 0, "hello world ".length)).toBe( btoa("hello world ") ); gc(); expect(buf instanceof Uint8Array).toBe(true); gc(); expect(buf instanceof Buffer).toBe(true); gc(); expect(buf.slice() instanceof Uint8Array).toBe(true); gc(); expect(buf.slice(0, 1) instanceof Buffer).toBe(true); gc(); expect(buf.slice(0, 1) instanceof Uint8Array).toBe(true); gc(); expect(buf.slice(0, 1) instanceof Buffer).toBe(true); gc(); }); it("Buffer", () => { var inputs = [ "hello world", "hello world".repeat(100), `πŸ˜‹ Get Emoji β€” All Emojis to βœ‚οΈ Copy and πŸ“‹ Paste πŸ‘Œ`, ]; var good = inputs.map((a) => new TextEncoder().encode(a)); for (let i = 0; i < inputs.length; i++) { var input = inputs[i]; expect(new Buffer(input).toString("utf8")).toBe(inputs[i]); gc(); expect(Array.from(new Buffer(input)).join(",")).toBe(good[i].join(",")); gc(); expect(Buffer.byteLength(input)).toBe(good[i].length); gc(); expect(Buffer.from(input).byteLength).toBe(Buffer.byteLength(input)); } }); it("Buffer.byteLength", () => { expect(Buffer.byteLength("πŸ˜€πŸ˜ƒπŸ˜„πŸ˜πŸ˜†πŸ˜…πŸ˜‚πŸ€£β˜ΊοΈπŸ˜ŠπŸ˜ŠπŸ˜‡")).toBe( new TextEncoder().encode("πŸ˜€πŸ˜ƒπŸ˜„πŸ˜πŸ˜†πŸ˜…πŸ˜‚πŸ€£β˜ΊοΈπŸ˜ŠπŸ˜ŠπŸ˜‡").byteLength ); }); it("Buffer.isBuffer", () => { expect(Buffer.isBuffer(new Buffer(1))).toBe(true); gc(); expect(Buffer.isBuffer(new Buffer(0))).toBe(true); gc(); expect(Buffer.isBuffer(new Uint8Array(0))).toBe(false); gc(); expect(Buffer.isBuffer(new Uint8Array(1))).toBe(false); gc(); var a = new Uint8Array(1); gc(); expect(Buffer.isBuffer(a)).toBe(false); gc(); Buffer.toBuffer(a); gc(); expect(Buffer.isBuffer(a)).toBe(true); gc(); }); it("Buffer.toBuffer throws", () => { const checks = [ [], {}, "foo", new Uint16Array(), new DataView(new Uint8Array(14).buffer), ]; for (let i = 0; i < checks.length; i++) { try { Buffer.toBuffer(checks[i]); expect(false).toBe(true); } catch (exception) { expect(exception.message).toBe("Expected Uint8Array"); } } expect(true).toBe(true); }); it("Buffer.toBuffer works", () => { var array = new Uint8Array(20); expect(array instanceof Buffer).toBe(false); var buf = Buffer.toBuffer(array); expect(array instanceof Buffer).toBe(true); // if this fails or infinitely loops, it means there is a memory issue with the JSC::Structure object expect(Object.keys(buf).length > 0).toBe(true); expect(buf.write("hello world ")).toBe(12); gc(); expect(buf.toString("utf8", 0, "hello world ".length)).toBe("hello world "); gc(); expect(buf.toString("base64url", 0, "hello world ".length)).toBe( btoa("hello world ") ); gc(); expect(buf instanceof Uint8Array).toBe(true); expect(buf instanceof Buffer).toBe(true); expect(buf.slice() instanceof Uint8Array).toBe(true); expect(buf.slice(0, 1) instanceof Buffer).toBe(true); expect(buf.slice(0, 1) instanceof Uint8Array).toBe(true); expect(buf.slice(0, 1) instanceof Buffer).toBe(true); expect(new Buffer(buf) instanceof Buffer).toBe(true); expect(new Buffer(buf.buffer) instanceof Buffer).toBe(true); }); it("writeInt", () => { var buf = new Buffer(1024); var data = new DataView(buf.buffer); buf.writeInt32BE(100); expect(data.getInt32(0, false)).toBe(100); buf.writeInt32BE(100); expect(data.getInt32(0, false)).toBe(100); var childBuf = buf.subarray(0, 4); expect(data.getInt32(0, false)).toBe(100); expect(childBuf.readInt32BE(0, false)).toBe(100); }); it("Buffer.from", () => { expect(Buffer.from("hello world").toString("utf8")).toBe("hello world"); expect(Buffer.from("hello world", "ascii").toString("utf8")).toBe( "hello world" ); expect(Buffer.from("hello world", "latin1").toString("utf8")).toBe( "hello world" ); gc(); expect(Buffer.from([254]).join(",")).toBe("254"); expect(Buffer.from(123).join(",")).toBe(Uint8Array.from(123).join(",")); expect(Buffer.from({ length: 124 }).join(",")).toBe( Uint8Array.from({ length: 124 }).join(",") ); expect(Buffer.from(new ArrayBuffer(1024), 0, 512).join(",")).toBe( new Uint8Array(512).join(",") ); expect(Buffer.from(new Buffer(new ArrayBuffer(1024), 0, 512)).join(",")).toBe( new Uint8Array(512).join(",") ); gc(); }); it("Buffer.equals", () => { var a = new Uint8Array(10); a[2] = 1; var b = new Uint8Array(10); b[2] = 1; Buffer.toBuffer(a); Buffer.toBuffer(b); expect(a.equals(b)).toBe(true); b[2] = 0; expect(a.equals(b)).toBe(false); }); it("Buffer.compare", () => { var a = new Uint8Array(10); a[2] = 1; var b = new Uint8Array(10); b[2] = 1; Buffer.toBuffer(a); Buffer.toBuffer(b); expect(a.compare(b)).toBe(0); b[2] = 0; expect(a.compare(b)).toBe(1); expect(b.compare(a)).toBe(-1); }); it("Buffer.copy", () => { var array1 = new Uint8Array(128); array1.fill(100); Buffer.toBuffer(array1); var array2 = new Uint8Array(128); array2.fill(200); Buffer.toBuffer(array2); var array3 = new Uint8Array(128); Buffer.toBuffer(array3); gc(); expect(array1.copy(array2)).toBe(128); expect(array1.join("")).toBe(array2.join("")); }); it("Buffer.concat", () => { var array1 = new Uint8Array(128); array1.fill(100); var array2 = new Uint8Array(128); array2.fill(200); var array3 = new Uint8Array(128); array3.fill(300); gc(); expect(Buffer.concat([array1, array2, array3]).join("")).toBe( array1.join("") + array2.join("") + array3.join("") ); expect(Buffer.concat([array1, array2, array3], 222).length).toBe(222); expect( Buffer.concat([array1, array2, array3], 222).subarray(0, 128).join("") ).toBe("100".repeat(128)); expect( Buffer.concat([array1, array2, array3], 222).subarray(129, 222).join("") ).toBe("200".repeat(222 - 129)); }); it("read", () => { var buf = new Buffer(1024); var data = new DataView(buf.buffer); function reset() { new Uint8Array(buf.buffer).fill(0); } data.setBigInt64(0, BigInt(1000), false); expect(buf.readBigInt64BE(0)).toBe(BigInt(1000)); reset(); data.setBigInt64(0, BigInt(1000), false); expect(buf.readBigInt64LE(0)).toBe(BigInt(1000)); reset(); data.setBigUint64(0, BigInt(1000), false); expect(buf.readBigUInt64BE(0)).toBe(BigInt(1000)); reset(); data.setBigUint64(0, BigInt(1000), false); expect(buf.readBigUInt64LE(0)).toBe(BigInt(1000)); reset(); data.setFloat64(0, 1000, false); expect(buf.readDoubleBE(0)).toBe(1000); reset(); data.setFloat64(0, 1000, true); expect(buf.readDoubleLE(0)).toBe(1000); reset(); data.setFloat32(0, 1000, false); expect(buf.readFloatBE(0)).toBe(1000); reset(); data.setFloat32(0, 1000, true); expect(buf.readFloatLE(0)).toBe(1000); reset(); data.setInt16(0, 1000, false); expect(buf.readInt16BE(0)).toBe(1000); reset(); data.setInt16(0, 1000, true); expect(buf.readInt16LE(0)).toBe(1000); reset(); data.setInt32(0, 1000, false); expect(buf.readInt32BE(0)).toBe(1000); reset(); data.setInt32(0, 1000, true); expect(buf.readInt32LE(0)).toBe(1000); reset(); data.setInt8(0, 100, false); expect(buf.readInt8(0)).toBe(100); reset(); data.setUint16(0, 1000, false); expect(buf.readUInt16BE(0)).toBe(1000); reset(); data.setUint16(0, 1000, true); expect(buf.readUInt16LE(0)).toBe(1000); reset(); data.setUint32(0, 1000, false); expect(buf.readUInt32BE(0)).toBe(1000); reset(); data.setUint32(0, 1000, true); expect(buf.readUInt32LE(0)).toBe(1000); reset(); data.setUint8(0, 255, false); expect(buf.readUInt8(0)).toBe(255); reset(); data.setUint8(0, 255, false); expect(buf.readUInt8(0)).toBe(255); reset(); });