Trait malachite_base::num::arithmetic::traits::OverflowingAddMulAssign

source · []
pub trait OverflowingAddMulAssign<Y = Self, Z = Self> {
    fn overflowing_add_mul_assign(&mut self, y: Y, z: Z) -> bool;
}
Expand description

Adds a number and the product of two other numbers, in place.

Returns a tuple of the result along with a boolean indicating whether an arithmetic overflow occurred. If an overflow occurred, then the wrapped number is returned.

Required Methods

Implementations on Foreign Types

Adds a number and the product of two other numbers, in place.

Returns a boolean indicating whether an arithmetic overflow occurred. If an overflow occurred, then the wrapped value is assigned.

Worst-case complexity

Constant time and additional memory.

Examples

See here.

Adds a number and the product of two other numbers, in place.

Returns a boolean indicating whether an arithmetic overflow occurred. If an overflow occurred, then the wrapped value is assigned.

Worst-case complexity

Constant time and additional memory.

Examples

See here.

Adds a number and the product of two other numbers, in place.

Returns a boolean indicating whether an arithmetic overflow occurred. If an overflow occurred, then the wrapped value is assigned.

Worst-case complexity

Constant time and additional memory.

Examples

See here.

Adds a number and the product of two other numbers, in place.

Returns a boolean indicating whether an arithmetic overflow occurred. If an overflow occurred, then the wrapped value is assigned.

Worst-case complexity

Constant time and additional memory.

Examples

See here.

Adds a number and the product of two other numbers, in place.

Returns a boolean indicating whether an arithmetic overflow occurred. If an overflow occurred, then the wrapped value is assigned.

Worst-case complexity

Constant time and additional memory.

Examples

See here.

Adds a number and the product of two other numbers, in place.

Returns a boolean indicating whether an arithmetic overflow occurred. If an overflow occurred, then the wrapped value is assigned.

Worst-case complexity

Constant time and additional memory.

Examples

See here.

Adds a number and the product of two other numbers, in place.

Returns a boolean indicating whether an arithmetic overflow occurred. If an overflow occurred, then the wrapped value is assigned.

Worst-case complexity

Constant time and additional memory.

Examples

See here.

Adds a number and the product of two other numbers, in place.

Returns a boolean indicating whether an arithmetic overflow occurred. If an overflow occurred, then the wrapped value is assigned.

Worst-case complexity

Constant time and additional memory.

Examples

See here.

Adds a number and the product of two other numbers, in place.

Returns a boolean indicating whether an arithmetic overflow occurred. If an overflow occurred, then the wrapped value is assigned.

Worst-case complexity

Constant time and additional memory.

Examples

See here.

Adds a number and the product of two other numbers, in place.

Returns a boolean indicating whether an arithmetic overflow occurred. If an overflow occurred, then the wrapped value is assigned.

Worst-case complexity

Constant time and additional memory.

Examples

See here.

Adds a number and the product of two other numbers, in place.

Returns a boolean indicating whether an arithmetic overflow occurred. If an overflow occurred, then the wrapped value is assigned.

Worst-case complexity

Constant time and additional memory.

Examples

See here.

Adds a number and the product of two other numbers, in place.

Returns a boolean indicating whether an arithmetic overflow occurred. If an overflow occurred, then the wrapped value is assigned.

Worst-case complexity

Constant time and additional memory.

Examples

See here.

Implementors