src/third_party/mozjs-45/mfbt/decimal/fix-wshadow-warnings.patch - cobalt - Git at Google

 diff --git a/mfbt/decimal/Decimal.cpp b/mfbt/decimal/Decimal.cpp
 --- a/mfbt/decimal/Decimal.cpp
 +++ b/mfbt/decimal/Decimal.cpp
 @@ -118,18 +118,18 @@ Decimal SpecialValueHandler::value() con
          ASSERT_NOT_REACHED();
          return m_lhs;
      }
  }

  // This class is used for 128 bit unsigned integer arithmetic.
  class UInt128 {
  public:
 -    UInt128(uint64_t low, uint64_t high)
 -        : m_high(high), m_low(low)
 +    UInt128(uint64_t aLow, uint64_t aHigh)
 +        : m_high(aHigh), m_low(aLow)
      {
      }

      UInt128& operator/=(uint32_t);

      uint64_t high() const { return m_high; }
      uint64_t low() const { return m_low; }

 @@ -224,68 +224,68 @@ static uint64_t scaleUp(uint64_t x, int
          z = z * z;
      }
  }

  } // namespace DecimalPrivate

  using namespace DecimalPrivate;

 -Decimal::EncodedData::EncodedData(Sign sign, FormatClass formatClass)
 +Decimal::EncodedData::EncodedData(Sign aSign, FormatClass aFormatClass)
      : m_coefficient(0)
      , m_exponent(0)
 -    , m_formatClass(formatClass)
 -    , m_sign(sign)
 +    , m_formatClass(aFormatClass)
 +    , m_sign(aSign)
  {
  }

 -Decimal::EncodedData::EncodedData(Sign sign, int exponent, uint64_t coefficient)
 -    : m_formatClass(coefficient ? ClassNormal : ClassZero)
 -    , m_sign(sign)
 +Decimal::EncodedData::EncodedData(Sign aSign, int aExponent, uint64_t aCoefficient)
 +    : m_formatClass(aCoefficient ? ClassNormal : ClassZero)
 +    , m_sign(aSign)
  {
 -    if (exponent >= ExponentMin && exponent <= ExponentMax) {
 -        while (coefficient > MaxCoefficient) {
 -            coefficient /= 10;
 -            ++exponent;
 +    if (aExponent >= ExponentMin && aExponent <= ExponentMax) {
 +        while (aCoefficient > MaxCoefficient) {
 +            aCoefficient /= 10;
 +            ++aExponent;
          }
      }

 -    if (exponent > ExponentMax) {
 +    if (aExponent > ExponentMax) {
          m_coefficient = 0;
          m_exponent = 0;
          m_formatClass = ClassInfinity;
          return;
      }

 -    if (exponent < ExponentMin) {
 +    if (aExponent < ExponentMin) {
          m_coefficient = 0;
          m_exponent = 0;
          m_formatClass = ClassZero;
          return;
      }

 -    m_coefficient = coefficient;
 -    m_exponent = static_cast<int16_t>(exponent);
 +    m_coefficient = aCoefficient;
 +    m_exponent = static_cast<int16_t>(aExponent);
  }

  bool Decimal::EncodedData::operator==(const EncodedData& another) const
  {
      return m_sign == another.m_sign
          && m_formatClass == another.m_formatClass
          && m_exponent == another.m_exponent
          && m_coefficient == another.m_coefficient;
  }

  Decimal::Decimal(int32_t i32)
      : m_data(i32 < 0 ? Negative : Positive, 0, i32 < 0 ? static_cast<uint64_t>(-static_cast<int64_t>(i32)) : static_cast<uint64_t>(i32))
  {
  }

 -Decimal::Decimal(Sign sign, int exponent, uint64_t coefficient)
 -    : m_data(sign, coefficient ? exponent : 0, coefficient)
 +Decimal::Decimal(Sign aSign, int aExponent, uint64_t aCoefficient)
 +    : m_data(aSign, aCoefficient ? aExponent : 0, aCoefficient)
  {
  }

  Decimal::Decimal(const EncodedData& data)
      : m_data(data)
  {
  }

 @@ -479,32 +479,32 @@ Decimal Decimal::operator/(const Decimal
      if (rhs.isZero())
          return lhs.isZero() ? nan() : infinity(resultSign);

      int resultExponent = lhs.exponent() - rhs.exponent();

      if (lhs.isZero())
          return Decimal(resultSign, resultExponent, 0);

 -    uint64_t remainder = lhs.m_data.coefficient();
 +    uint64_t lhsRemainder = lhs.m_data.coefficient();
      const uint64_t divisor = rhs.m_data.coefficient();
      uint64_t result = 0;
      while (result < MaxCoefficient / 100) {
 -        while (remainder < divisor) {
 -            remainder *= 10;
 +        while (lhsRemainder < divisor) {
 +            lhsRemainder *= 10;
              result *= 10;
              --resultExponent;
          }
 -        result += remainder / divisor;
 -        remainder %= divisor;
 -        if (!remainder)
 +        result += lhsRemainder / divisor;
 +        lhsRemainder %= divisor;
 +        if (!lhsRemainder)
              break;
      }

 -    if (remainder > divisor / 2)
 +    if (lhsRemainder > divisor / 2)
          ++result;

      return Decimal(resultSign, resultExponent, result);
  }

  bool Decimal::operator==(const Decimal& rhs) const
  {
      if (isNaN() || rhs.isNaN())
 diff --git a/mfbt/decimal/Decimal.h b/mfbt/decimal/Decimal.h
 --- a/mfbt/decimal/Decimal.h
 +++ b/mfbt/decimal/Decimal.h
 @@ -88,17 +88,17 @@ public:
          int countDigits() const;
          int exponent() const { return m_exponent; }
          bool isFinite() const { return !isSpecial(); }
          bool isInfinity() const { return m_formatClass == ClassInfinity; }
          bool isNaN() const { return m_formatClass == ClassNaN; }
          bool isSpecial() const { return m_formatClass == ClassInfinity || m_formatClass == ClassNaN; }
          bool isZero() const { return m_formatClass == ClassZero; }
          Sign sign() const { return m_sign; }
 -        void setSign(Sign sign) { m_sign = sign; }
 +        void setSign(Sign aSign) { m_sign = aSign; }

      private:
          enum FormatClass {
              ClassInfinity,
              ClassNormal,
              ClassNaN,
              ClassZero,
          };
	diff --git a/mfbt/decimal/Decimal.cpp b/mfbt/decimal/Decimal.cpp
	--- a/mfbt/decimal/Decimal.cpp
	+++ b/mfbt/decimal/Decimal.cpp
	@@ -118,18 +118,18 @@ Decimal SpecialValueHandler::value() con
	ASSERT_NOT_REACHED();
	return m_lhs;
	}
	}

	// This class is used for 128 bit unsigned integer arithmetic.
	class UInt128 {
	public:
	- UInt128(uint64_t low, uint64_t high)
	- : m_high(high), m_low(low)
	+ UInt128(uint64_t aLow, uint64_t aHigh)
	+ : m_high(aHigh), m_low(aLow)
	{
	}

	UInt128& operator/=(uint32_t);

	uint64_t high() const { return m_high; }
	uint64_t low() const { return m_low; }

	@@ -224,68 +224,68 @@ static uint64_t scaleUp(uint64_t x, int
	z = z * z;
	}
	}

	} // namespace DecimalPrivate

	using namespace DecimalPrivate;

	-Decimal::EncodedData::EncodedData(Sign sign, FormatClass formatClass)
	+Decimal::EncodedData::EncodedData(Sign aSign, FormatClass aFormatClass)
	: m_coefficient(0)
	, m_exponent(0)
	- , m_formatClass(formatClass)
	- , m_sign(sign)
	+ , m_formatClass(aFormatClass)
	+ , m_sign(aSign)
	{
	}

	-Decimal::EncodedData::EncodedData(Sign sign, int exponent, uint64_t coefficient)
	- : m_formatClass(coefficient ? ClassNormal : ClassZero)
	- , m_sign(sign)
	+Decimal::EncodedData::EncodedData(Sign aSign, int aExponent, uint64_t aCoefficient)
	+ : m_formatClass(aCoefficient ? ClassNormal : ClassZero)
	+ , m_sign(aSign)
	{
	- if (exponent >= ExponentMin && exponent <= ExponentMax) {
	- while (coefficient > MaxCoefficient) {
	- coefficient /= 10;
	- ++exponent;
	+ if (aExponent >= ExponentMin && aExponent <= ExponentMax) {
	+ while (aCoefficient > MaxCoefficient) {
	+ aCoefficient /= 10;
	+ ++aExponent;
	}
	}

	- if (exponent > ExponentMax) {
	+ if (aExponent > ExponentMax) {
	m_coefficient = 0;
	m_exponent = 0;
	m_formatClass = ClassInfinity;
	return;
	}

	- if (exponent < ExponentMin) {
	+ if (aExponent < ExponentMin) {
	m_coefficient = 0;
	m_exponent = 0;
	m_formatClass = ClassZero;
	return;
	}

	- m_coefficient = coefficient;
	- m_exponent = static_cast<int16_t>(exponent);
	+ m_coefficient = aCoefficient;
	+ m_exponent = static_cast<int16_t>(aExponent);
	}

	bool Decimal::EncodedData::operator==(const EncodedData& another) const
	{
	return m_sign == another.m_sign
	&& m_formatClass == another.m_formatClass
	&& m_exponent == another.m_exponent
	&& m_coefficient == another.m_coefficient;
	}

	Decimal::Decimal(int32_t i32)
	: m_data(i32 < 0 ? Negative : Positive, 0, i32 < 0 ? static_cast<uint64_t>(-static_cast<int64_t>(i32)) : static_cast<uint64_t>(i32))
	{
	}

	-Decimal::Decimal(Sign sign, int exponent, uint64_t coefficient)
	- : m_data(sign, coefficient ? exponent : 0, coefficient)
	+Decimal::Decimal(Sign aSign, int aExponent, uint64_t aCoefficient)
	+ : m_data(aSign, aCoefficient ? aExponent : 0, aCoefficient)
	{
	}

	Decimal::Decimal(const EncodedData& data)
	: m_data(data)
	{
	}

	@@ -479,32 +479,32 @@ Decimal Decimal::operator/(const Decimal
	if (rhs.isZero())
	return lhs.isZero() ? nan() : infinity(resultSign);

	int resultExponent = lhs.exponent() - rhs.exponent();

	if (lhs.isZero())
	return Decimal(resultSign, resultExponent, 0);

	- uint64_t remainder = lhs.m_data.coefficient();
	+ uint64_t lhsRemainder = lhs.m_data.coefficient();
	const uint64_t divisor = rhs.m_data.coefficient();
	uint64_t result = 0;
	while (result < MaxCoefficient / 100) {
	- while (remainder < divisor) {
	- remainder *= 10;
	+ while (lhsRemainder < divisor) {
	+ lhsRemainder *= 10;
	result *= 10;
	--resultExponent;
	}
	- result += remainder / divisor;
	- remainder %= divisor;
	- if (!remainder)
	+ result += lhsRemainder / divisor;
	+ lhsRemainder %= divisor;
	+ if (!lhsRemainder)
	break;
	}

	- if (remainder > divisor / 2)
	+ if (lhsRemainder > divisor / 2)
	++result;

	return Decimal(resultSign, resultExponent, result);
	}

	bool Decimal::operator==(const Decimal& rhs) const
	{
	if (isNaN() \|\| rhs.isNaN())
	diff --git a/mfbt/decimal/Decimal.h b/mfbt/decimal/Decimal.h
	--- a/mfbt/decimal/Decimal.h
	+++ b/mfbt/decimal/Decimal.h
	@@ -88,17 +88,17 @@ public:
	int countDigits() const;
	int exponent() const { return m_exponent; }
	bool isFinite() const { return !isSpecial(); }
	bool isInfinity() const { return m_formatClass == ClassInfinity; }
	bool isNaN() const { return m_formatClass == ClassNaN; }
	bool isSpecial() const { return m_formatClass == ClassInfinity \|\| m_formatClass == ClassNaN; }
	bool isZero() const { return m_formatClass == ClassZero; }
	Sign sign() const { return m_sign; }
	- void setSign(Sign sign) { m_sign = sign; }
	+ void setSign(Sign aSign) { m_sign = aSign; }

	private:
	enum FormatClass {
	ClassInfinity,
	ClassNormal,
	ClassNaN,
	ClassZero,
	};