gecko-dev/js/public/BigInt.h

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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/* BigInt. */
#ifndef js_BigInt_h
#define js_BigInt_h
#include "mozilla/Span.h" // mozilla::Span
#include <limits> // std::numeric_limits
#include <stdint.h> // int64_t, uint64_t
#include <type_traits> // std::enable_if_t, std::{true,false}_type, std::is_{integral,signed,unsigned}_v
#include "jstypes.h" // JS_PUBLIC_API
#include "js/TypeDecls.h"
namespace mozilla {
template <typename T>
class Range;
}
namespace JS {
class JS_PUBLIC_API BigInt;
namespace detail {
using Int64Limits = std::numeric_limits<int64_t>;
using Uint64Limits = std::numeric_limits<uint64_t>;
extern JS_PUBLIC_API BigInt* BigIntFromInt64(JSContext* cx, int64_t num);
extern JS_PUBLIC_API BigInt* BigIntFromUint64(JSContext* cx, uint64_t num);
extern JS_PUBLIC_API BigInt* BigIntFromBool(JSContext* cx, bool b);
template <typename T, typename = void>
struct NumberToBigIntConverter;
template <typename SignedIntT>
struct NumberToBigIntConverter<
SignedIntT,
std::enable_if_t<
std::is_integral_v<SignedIntT> && std::is_signed_v<SignedIntT> &&
Int64Limits::min() <= std::numeric_limits<SignedIntT>::min() &&
std::numeric_limits<SignedIntT>::max() <= Int64Limits::max()>> {
static BigInt* convert(JSContext* cx, SignedIntT num) {
return BigIntFromInt64(cx, num);
}
};
template <typename UnsignedIntT>
struct NumberToBigIntConverter<
UnsignedIntT,
std::enable_if_t<
std::is_integral_v<UnsignedIntT> && std::is_unsigned_v<UnsignedIntT> &&
std::numeric_limits<UnsignedIntT>::max() <= Uint64Limits::max()>> {
static BigInt* convert(JSContext* cx, UnsignedIntT num) {
return BigIntFromUint64(cx, num);
}
};
template <>
struct NumberToBigIntConverter<bool> {
static BigInt* convert(JSContext* cx, bool b) {
return BigIntFromBool(cx, b);
}
};
extern JS_PUBLIC_API bool BigIntIsInt64(const BigInt* bi, int64_t* result);
extern JS_PUBLIC_API bool BigIntIsUint64(const BigInt* bi, uint64_t* result);
template <typename T, typename = void>
struct BigIntToNumberChecker;
template <typename SignedIntT>
struct BigIntToNumberChecker<
SignedIntT,
std::enable_if_t<
std::is_integral_v<SignedIntT> && std::is_signed_v<SignedIntT> &&
Int64Limits::min() <= std::numeric_limits<SignedIntT>::min() &&
std::numeric_limits<SignedIntT>::max() <= Int64Limits::max()>> {
using TypeLimits = std::numeric_limits<SignedIntT>;
static bool fits(const BigInt* bi, SignedIntT* result) {
int64_t innerResult;
if (!BigIntIsInt64(bi, &innerResult)) {
return false;
}
if (TypeLimits::min() <= innerResult && innerResult <= TypeLimits::max()) {
*result = SignedIntT(innerResult);
return true;
}
return false;
}
};
template <typename UnsignedIntT>
struct BigIntToNumberChecker<
UnsignedIntT,
std::enable_if_t<
std::is_integral_v<UnsignedIntT> && std::is_unsigned_v<UnsignedIntT> &&
std::numeric_limits<UnsignedIntT>::max() <= Uint64Limits::max()>> {
static bool fits(const BigInt* bi, UnsignedIntT* result) {
uint64_t innerResult;
if (!BigIntIsUint64(bi, &innerResult)) {
return false;
}
if (innerResult <= std::numeric_limits<UnsignedIntT>::max()) {
*result = UnsignedIntT(innerResult);
return true;
}
return false;
}
};
} // namespace detail
/**
* Create a BigInt from an integer value. All integral types not larger than 64
* bits in size are supported.
*/
template <typename NumericT>
static inline BigInt* NumberToBigInt(JSContext* cx, NumericT val) {
return detail::NumberToBigIntConverter<NumericT>::convert(cx, val);
}
/**
* Create a BigInt from a floating-point value. If the number isn't integral
* (that is, if it's NaN, an infinity, or contains a fractional component),
* this function returns null and throws an exception.
*
* Passing -0.0 will produce the bigint 0n.
*/
extern JS_PUBLIC_API BigInt* NumberToBigInt(JSContext* cx, double num);
/**
* Create a BigInt by parsing a string using the ECMAScript StringToBigInt
* algorithm (https://tc39.es/ecma262/#sec-stringtobigint). Latin1 and two-byte
* character ranges are supported. It may be convenient to use
* JS::ConstLatin1Chars or JS::ConstTwoByteChars.
*
* (StringToBigInt performs parsing similar to that performed by the |Number|
* global function when passed a string, but it doesn't allow infinities,
* decimal points, or exponential notation, and neither algorithm allows numeric
* separators or an 'n' suffix character. This fast-and-loose description is
* offered purely as a convenience to the reader: see the specification
* algorithm for exact behavior.)
*
* If parsing fails, this function returns null and throws an exception.
*/
extern JS_PUBLIC_API BigInt* StringToBigInt(
JSContext* cx, mozilla::Range<const Latin1Char> chars);
extern JS_PUBLIC_API BigInt* StringToBigInt(
JSContext* cx, mozilla::Range<const char16_t> chars);
/**
* Create a BigInt by parsing a string consisting of an optional sign character
* followed by one or more alphanumeric ASCII digits in the provided radix.
*
* If the radix is not in the range [2, 36], or the string fails to parse, this
* function returns null and throws an exception.
*/
extern JS_PUBLIC_API BigInt* SimpleStringToBigInt(
JSContext* cx, mozilla::Span<const char> chars, uint8_t radix);
/**
* Convert a JS::Value to a BigInt using the ECMAScript ToBigInt algorithm
* (https://tc39.es/ecma262/#sec-tobigint).
*
* (Note in particular that this will throw if passed a value whose type is
* 'number'. To convert a number to a BigInt, use one of the overloads of
* JS::NumberToBigInt().)
*/
extern JS_PUBLIC_API BigInt* ToBigInt(JSContext* cx, Handle<Value> val);
/**
* Convert the given BigInt, modulo 2**64, to a signed 64-bit integer.
*/
extern JS_PUBLIC_API int64_t ToBigInt64(const BigInt* bi);
/**
* Convert the given BigInt, modulo 2**64, to an unsigned 64-bit integer.
*/
extern JS_PUBLIC_API uint64_t ToBigUint64(const BigInt* bi);
/**
* Convert the given BigInt to a Number value as if calling the Number
* constructor on it
* (https://tc39.es/ecma262/#sec-number-constructor-number-value). The value
* may be rounded if it doesn't fit without loss of precision.
*/
extern JS_PUBLIC_API double BigIntToNumber(const BigInt* bi);
/**
* Return true if the given BigInt is negative.
*/
extern JS_PUBLIC_API bool BigIntIsNegative(const BigInt* bi);
/**
* Return true if the given BigInt fits inside the given NumericT type without
* loss of precision, and store the value in the out parameter. Otherwise return
* false and leave the value of the out parameter unspecified.
*/
template <typename NumericT>
static inline bool BigIntFits(const BigInt* bi, NumericT* out) {
return detail::BigIntToNumberChecker<NumericT>::fits(bi, out);
}
/**
* Same as BigIntFits(), but checks if the value fits inside a JS Number value.
*/
extern JS_PUBLIC_API bool BigIntFitsNumber(const BigInt* bi, double* out);
/**
* Convert the given BigInt to a String value as if toString() were called on
* it.
*
* If the radix is not in the range [2, 36], then this function returns null and
* throws an exception.
*/
extern JS_PUBLIC_API JSString* BigIntToString(JSContext* cx, Handle<BigInt*> bi,
uint8_t radix);
} // namespace JS
#endif /* js_BigInt_h */