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// Copyright 2018-2022 the Deno authors. All rights reserved. MIT license.// Copyright 2015 Fedor Indutny. All rights reserved. MIT license.// deno-lint-ignore-file no-var
import {  assert,  assertEquals,  assertThrows,} from "../../../../testing/asserts.ts";import { Buffer } from "../../../buffer.ts";import { BN } from "./bn.js";
Deno.test("BN.js/Constructor", async function (t) {  await t.step("with Smi input", async function (t) {    await t.step("should accept one limb number", function () {      assertEquals(new BN(12345).toString(16), "3039");    });
    await t.step("should accept two-limb number", function () {      assertEquals(new BN(0x4123456).toString(16), "4123456");    });
    await t.step("should accept 52 bits of precision", function () {      var num = Math.pow(2, 52);      assertEquals(new BN(num, 10).toString(10), num.toString(10));    });
    await t.step("should accept max safe integer", function () {      var num = Math.pow(2, 53) - 1;      assertEquals(new BN(num, 10).toString(10), num.toString(10));    });
    await t.step("should not accept an unsafe integer", function () {      var num = Math.pow(2, 53);
      assertThrows(function () {        return new BN(num, 10);      }, /^Error: Assertion failed$/);    });
    await t.step("should accept two-limb LE number", function () {      assertEquals(new BN(0x4123456, null, "le").toString(16), "56341204");    });  });
  await t.step("with String input", async function (t) {    await t.step("should accept base-16", function () {      assertEquals(new BN("1A6B765D8CDF", 16).toString(16), "1a6b765d8cdf");      assertEquals(new BN("1A6B765D8CDF", 16).toString(), "29048849665247");    });
    await t.step("should accept base-hex", function () {      assertEquals(new BN("FF", "hex").toString(), "255");    });
    await t.step("should accept base-16 with spaces", function () {      var num = "a89c e5af8724 c0a23e0e 0ff77500";      assertEquals(new BN(num, 16).toString(16), num.replace(/ /g, ""));    });
    await t.step("should accept long base-16", function () {      var num = "123456789abcdef123456789abcdef123456789abcdef";      assertEquals(new BN(num, 16).toString(16), num);    });
    await t.step("should accept positive base-10", function () {      assertEquals(new BN("10654321").toString(), "10654321");      assertEquals(new BN("29048849665247").toString(16), "1a6b765d8cdf");    });
    await t.step("should accept negative base-10", function () {      assertEquals(new BN("-29048849665247").toString(16), "-1a6b765d8cdf");    });
    await t.step("should accept long base-10", function () {      var num = "10000000000000000";      assertEquals(new BN(num).toString(10), num);    });
    await t.step("should accept base-2", function () {      var base2 = "11111111111111111111111111111111111111111111111111111";      assertEquals(new BN(base2, 2).toString(2), base2);    });
    await t.step("should accept base-36", function () {      var base36 = "zzZzzzZzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzz";      assertEquals(new BN(base36, 36).toString(36), base36.toLowerCase());    });
    await t.step("should not overflow limbs during base-10", function () {      var num = "65820182292848241686198767302293" +        "20890292528855852623664389292032";      assert(new BN(num).words[0] < 0x4000000);    });
    await t.step("should accept base-16 LE integer", function () {      assertEquals(        new BN("1A6B765D8CDF", 16, "le").toString(16),        "df8c5d766b1a",      );    });
    await t.step(      "should accept base-16 LE integer with leading zeros",      function () {        assertEquals(new BN("0010", 16, "le").toNumber(), 4096);        assertEquals(new BN("-010", 16, "le").toNumber(), -4096);        assertEquals(new BN("010", 16, "le").toNumber(), 4096);      },    );
    await t.step("should not accept wrong characters for base", function () {      assertThrows(function () {        return new BN("01FF");      }, /^Error: Invalid character$/);    });
    await t.step("should not accept decimal", function () {      assertThrows(function () {        new BN("10.00", 10); // eslint-disable-line no-new      }, /Invalid character/);
      assertThrows(function () {        new BN("16.00", 16); // eslint-disable-line no-new      }, /Invalid character/);    });
    await t.step("should not accept non-hex characters", function () {      [        "0000000z",        "000000gg",        "0000gg00",        "fffggfff",        "/0000000",        "0-000000", // if -, is first, that is OK        "ff.fffff",        "hexadecimal",      ].forEach(function (str) {        assertThrows(function () {          new BN(str, 16); // eslint-disable-line no-new        }, /Invalid character in /);      });    });  });
  await t.step("with Array input", async function (t) {    await t.step("should not fail on empty array", function () {      assertEquals(new BN([]).toString(16), "0");    });
    await t.step("should import/export big endian", function () {      assertEquals(new BN([0, 1], 16).toString(16), "1");      assertEquals(new BN([1, 2, 3]).toString(16), "10203");      assertEquals(new BN([1, 2, 3, 4]).toString(16), "1020304");      assertEquals(new BN([1, 2, 3, 4, 5]).toString(16), "102030405");      assertEquals(        new BN([1, 2, 3, 4, 5, 6, 7, 8]).toString(16),        "102030405060708",      );      assertEquals(new BN([1, 2, 3, 4]).toArray().join(","), "1,2,3,4");      assertEquals(        new BN([1, 2, 3, 4, 5, 6, 7, 8]).toArray().join(","),        "1,2,3,4,5,6,7,8",      );    });
    await t.step("should import little endian", function () {      assertEquals(new BN([0, 1], 16, "le").toString(16), "100");      assertEquals(new BN([1, 2, 3], 16, "le").toString(16), "30201");      assertEquals(new BN([1, 2, 3, 4], 16, "le").toString(16), "4030201");      assertEquals(new BN([1, 2, 3, 4, 5], 16, "le").toString(16), "504030201");      assertEquals(        new BN([1, 2, 3, 4, 5, 6, 7, 8], "le").toString(16),        "807060504030201",      );      assertEquals(new BN([1, 2, 3, 4]).toArray("le").join(","), "4,3,2,1");      assertEquals(        new BN([1, 2, 3, 4, 5, 6, 7, 8]).toArray("le").join(","),        "8,7,6,5,4,3,2,1",      );    });
    await t.step("should import big endian with implicit base", function () {      assertEquals(new BN([1, 2, 3, 4, 5], "le").toString(16), "504030201");    });  });
  // the Array code is able to handle Buffer  await t.step("with Buffer input", async function (t) {    await t.step("should not fail on empty Buffer", function () {      assertEquals(new BN(Buffer.alloc(0)).toString(16), "0");    });
    await t.step("should import/export big endian", function () {      assertEquals(new BN(Buffer.from("010203", "hex")).toString(16), "10203");    });
    await t.step("should import little endian", function () {      assertEquals(        new BN(Buffer.from("010203", "hex"), "le").toString(16),        "30201",      );    });  });
  await t.step("with BN input", async function (t) {    await t.step("should clone BN", function () {      var num = new BN(12345);      assertEquals(new BN(num).toString(10), "12345");    });  });});