// Copyright 2018 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.

namespace array {
  transitioning javascript builtin
  ArrayFindIndexLoopEagerDeoptContinuation(
      js-implicit context: Context, receiver: JSAny)(
      callback: JSAny, thisArg: JSAny, initialK: JSAny, length: JSAny): JSAny {
    // All continuation points in the optimized findIndex implementation are
    // after the ToObject(O) call that ensures we are dealing with a
    // JSReceiver.
    //
    // Also, this great mass of casts is necessary because the signature
    // of Torque javascript builtins requires JSAny type for all parameters
    // other than {context}.
    const jsreceiver = Cast<JSReceiver>(receiver) otherwise unreachable;
    const callbackfn = Cast<Callable>(callback) otherwise unreachable;
    const numberK = Cast<Number>(initialK) otherwise unreachable;
    const numberLength = Cast<Number>(length) otherwise unreachable;

    return ArrayFindIndexLoopContinuation(
        jsreceiver, callbackfn, thisArg, jsreceiver, numberK, numberLength);
  }

  transitioning javascript builtin
  ArrayFindIndexLoopLazyDeoptContinuation(
      js-implicit context: Context, receiver: JSAny)(
      _callback: JSAny, _thisArg: JSAny, _initialK: JSAny, _length: JSAny,
      _result: JSAny): JSAny {
    // This deopt continuation point is never actually called, it just
    // exists to make stack traces correct from a ThrowTypeError if the
    // callback was found to be non-callable.
    unreachable;
  }

  // Continuation that is called after a lazy deoptimization from TF that
  // happens right after the callback and it's returned value must be handled
  // before iteration continues.
  transitioning javascript builtin
  ArrayFindIndexLoopAfterCallbackLazyDeoptContinuation(
      js-implicit context: Context, receiver: JSAny)(
      callback: JSAny, thisArg: JSAny, initialK: JSAny, length: JSAny,
      foundValue: JSAny, isFound: JSAny): JSAny {
    // All continuation points in the optimized findIndex implementation are
    // after the ToObject(O) call that ensures we are dealing with a
    // JSReceiver.
    const jsreceiver = Cast<JSReceiver>(receiver) otherwise unreachable;
    const callbackfn = Cast<Callable>(callback) otherwise unreachable;
    const numberK = Cast<Number>(initialK) otherwise unreachable;
    const numberLength = Cast<Number>(length) otherwise unreachable;

    // This custom lazy deopt point is right after the callback. find() needs
    // to pick up at the next step, which is returning the element if the
    // callback value is truthy.  Otherwise, continue the search by calling the
    // continuation.

    if (ToBoolean(isFound)) {
      return foundValue;
    }

    return ArrayFindIndexLoopContinuation(
        jsreceiver, callbackfn, thisArg, jsreceiver, numberK, numberLength);
  }

  transitioning builtin ArrayFindIndexLoopContinuation(implicit context:
                                                           Context)(
      _receiver: JSReceiver, callbackfn: Callable, thisArg: JSAny,
      o: JSReceiver, initialK: Number, length: Number): Number {
    // 5. Let k be 0.
    // 6. Repeat, while k < len
    for (let k: Number = initialK; k < length; k++) {
      // 6a. Let Pk be ! ToString(k).
      // k is guaranteed to be a positive integer, hence ToString is
      // side-effect free and HasProperty/GetProperty do the conversion inline.

      // 6b. i. Let kValue be ? Get(O, Pk).
      const value: JSAny = GetProperty(o, k);

      // 6c. Let testResult be ToBoolean(? Call(predicate, T, <<kValue, k,
      // O>>)).
      const testResult: JSAny = Call(context, callbackfn, thisArg, value, k, o);

      // 6d. If testResult is true, return k.
      if (ToBoolean(testResult)) {
        return k;
      }

      // 6e. Increase k by 1. (done by the loop).
    }
    return Convert<Smi>(-1);
  }

  transitioning macro FastArrayFindIndex(implicit context: Context)(
      o: JSReceiver, len: Number, callbackfn: Callable, thisArg: JSAny): Number
      labels Bailout(Smi) {
    let k: Smi = 0;
    const smiLen = Cast<Smi>(len) otherwise goto Bailout(k);
    const fastO = Cast<FastJSArray>(o) otherwise goto Bailout(k);
    let fastOW = NewFastJSArrayWitness(fastO);

    // Build a fast loop over the smi array.
    for (; k < smiLen; k++) {
      fastOW.Recheck() otherwise goto Bailout(k);

      // Ensure that we haven't walked beyond a possibly updated length.
      if (k >= fastOW.Get().length) goto Bailout(k);

      const value: JSAny = fastOW.LoadElementOrUndefined(k);
      const testResult: JSAny =
          Call(context, callbackfn, thisArg, value, k, fastOW.Get());
      if (ToBoolean(testResult)) {
        return k;
      }
    }
    return -1;
  }

  // https://tc39.github.io/ecma262/#sec-array.prototype.findIndex
  transitioning javascript builtin
  ArrayPrototypeFindIndex(js-implicit context: Context, receiver: JSAny)(
      ...arguments): JSAny {
    try {
      RequireObjectCoercible(receiver, 'Array.prototype.findIndex');

      // 1. Let O be ? ToObject(this value).
      const o: JSReceiver = ToObject_Inline(context, receiver);

      // 2. Let len be ? ToLength(? Get(O, "length")).
      const len: Number = GetLengthProperty(o);

      // 3. If IsCallable(callbackfn) is false, throw a TypeError exception.
      if (arguments.length == 0) {
        goto NotCallableError;
      }
      const callbackfn =
          Cast<Callable>(arguments[0]) otherwise NotCallableError;

      // 4. If thisArg is present, let T be thisArg; else let T be undefined.
      const thisArg: JSAny = arguments.length > 1 ? arguments[1] : Undefined;

      // Special cases.
      try {
        return FastArrayFindIndex(o, len, callbackfn, thisArg)
            otherwise Bailout;
      }
      label Bailout(k: Smi) deferred {
        return ArrayFindIndexLoopContinuation(
            o, callbackfn, thisArg, o, k, len);
      }
    }
    label NotCallableError deferred {
      ThrowTypeError(kCalledNonCallable, arguments[0]);
    }
  }
}