core/spire.std/FloatIsField

FloatIsField

trait FloatIsField extends WithDefaultGCD[Float]
trait WithDefaultGCD[Float]
trait Field[Float]
trait EuclideanRing[Float]
trait GCDRing[Float]
trait Field[Float]
trait MultiplicativeCommutativeGroup[Float]
trait MultiplicativeGroup[Float]
trait CommutativeRing[Float]
trait CommutativeRng[Float]
trait CommutativeRig[Float]
trait MultiplicativeCommutativeMonoid[Float]
trait CommutativeSemiring[Float]
trait MultiplicativeCommutativeSemigroup[Float]
trait Ring[Float]
trait Rng[Float]
trait AdditiveCommutativeGroup[Float]
trait AdditiveGroup[Float]
trait Rig[Float]
trait MultiplicativeMonoid[Float]
trait Semiring[Float]
trait MultiplicativeSemigroup[Float]
trait AdditiveCommutativeMonoid[Float]
trait AdditiveCommutativeSemigroup[Float]
trait AdditiveMonoid[Float]
trait AdditiveSemigroup[Float]
trait Serializable
class Object
trait Matchable
class Any

Value members

Concrete methods

def div(a: Float, b: Float): Float
override
def fromDouble(n: Double): Float
Definition Classes
Field
override
def fromInt(n: Int): Float
Definition Classes
Ring
override
def minus(a: Float, b: Float): Float
Definition Classes
AdditiveGroup
def negate(a: Float): Float
def one: Float
def plus(a: Float, b: Float): Float
override
def pow(a: Float, b: Int): Float
Definition Classes
MultiplicativeGroup -> MultiplicativeMonoid -> MultiplicativeSemigroup
override
def times(a: Float, b: Float): Float
Definition Classes
MultiplicativeSemigroup
def zero: Float

Inherited methods

override
def additive: CommutativeGroup[Float]
Definition Classes
AdditiveCommutativeGroup -> AdditiveCommutativeMonoid -> AdditiveCommutativeSemigroup -> AdditiveGroup -> AdditiveMonoid -> AdditiveSemigroup
Inherited from
AdditiveCommutativeGroup
def emod(a: Float, b: Float): Float
Inherited from
Field
def equot(a: Float, b: Float): Float
Inherited from
Field
override
def equotmod(a: Float, b: Float): (Float, Float)
Definition Classes
Inherited from
Field
def euclideanFunction(a: Float): BigInt
Inherited from
Field
def fromBigInt(n: BigInt): Float

Convert the given BigInt to an instance of A.

Convert the given BigInt to an instance of A.

This is equivalent to n repeated summations of this ring's one, or -n summations of -one if n is negative.

Most type class instances should consider overriding this method for performance reasons.

Inherited from
Ring
override
def gcd(a: Float, b: Float)(implicit eqA: Eq[Float]): Float
Definition Classes
Inherited from
WithDefaultGCD
def isOne(a: Float)(implicit ev: Eq[Float]): Boolean

Tests if a is one.

Tests if a is one.

Inherited from
MultiplicativeMonoid
def isZero(a: Float)(implicit ev: Eq[Float]): Boolean

Tests if a is zero.

Tests if a is zero.

Inherited from
AdditiveMonoid
override
def lcm(a: Float, b: Float)(implicit eqA: Eq[Float]): Float
Definition Classes
Inherited from
WithDefaultGCD
override
def multiplicative: CommutativeGroup[Float]
Definition Classes
MultiplicativeCommutativeGroup -> MultiplicativeCommutativeMonoid -> MultiplicativeCommutativeSemigroup -> MultiplicativeGroup -> MultiplicativeMonoid -> MultiplicativeSemigroup
Inherited from
MultiplicativeCommutativeGroup
def product(as: IterableOnce[Float]): Float

Given a sequence of as, compute the product.

Given a sequence of as, compute the product.

Inherited from
MultiplicativeMonoid
def reciprocal(x: Float): Float
Inherited from
MultiplicativeGroup
def sum(as: IterableOnce[Float]): Float

Given a sequence of as, compute the sum.

Given a sequence of as, compute the sum.

Inherited from
AdditiveMonoid
override
def sumN(a: Float, n: Int): Float
Definition Classes
AdditiveGroup -> AdditiveMonoid -> AdditiveSemigroup
Inherited from
AdditiveGroup
override
def tryProduct(as: IterableOnce[Float]): Option[Float]
Definition Classes
MultiplicativeMonoid -> MultiplicativeSemigroup
Inherited from
MultiplicativeMonoid
override
def trySum(as: IterableOnce[Float]): Option[Float]
Definition Classes
AdditiveMonoid -> AdditiveSemigroup
Inherited from
AdditiveMonoid