normalize

Normalize a possible sequence of leading zeros.

[1, 2, 3, 4, 0] -> [1, 2, 3, 4] [1, 2, 0, 0, 0] -> [1, 2] [0, 0, 0, 0, 0] -> [0]

Function parameters

Parameters

Used to indicate either limit of a 2s-complement integer.

TwosCompIntLimit: Used to indicate either limit of a 2s-complement integer.
Round
Exactness
Mutable: A arbitrary-precision big integer, with a fixed set of mutable limbs.
Const: A arbitrary-precision big integer, with a fixed set of immutable limbs.
Managed: An arbitrary-precision big integer along with an allocator which manages the memory.

Returns the number of limbs needed to store `scalar`, which must be a

calcLimbLen: Returns the number of limbs needed to store `scalar`, which must be a
calcToStringLimbsBufferLen
calcDivLimbsBufferLen
calcMulLimbsBufferLen
calcMulWrapLimbsBufferLen
calcSetStringLimbsBufferLen
calcSetStringLimbCount: Assumes `string_len` doesn't account for minus signs if the number is negative.
calcPowLimbsBufferLen
calcSqrtLimbsBufferLen
calcNonZeroTwosCompLimbCount: Compute the number of limbs required to store a 2s-complement number of `bit_count` bits.
calcTwosCompLimbCount: Compute the number of limbs required to store a 2s-complement number of `bit_count` bits.
addMulLimbWithCarry: a + b * c + *carry, sets carry to the overflow bits
llcmp: Returns -1, 0, 1 if |a| < |b|, |a| == |b| or |a| > |b| respectively for limbs.

Source

pub fn normalize(r: *Mutable, length: usize) void {
    r.len = llnormalize(r.limbs[0..length]);
}