Function minimal_lexical::parse_float [−][src]
pub fn parse_float<'a, F, Iter1, Iter2>(
integer: Iter1,
fraction: Iter2,
exponent: i32
) -> F where
F: Float,
Iter1: Iterator<Item = &'a u8> + Clone,
Iter2: Iterator<Item = &'a u8> + Clone,
Expand description
Parse float from extracted float components.
integer
- Cloneable, forward iterator over integer digits.fraction
- Cloneable, forward iterator over integer digits.exponent
- Parsed, 32-bit exponent.
Preconditions
- The integer should not have leading zeros.
- The fraction should not have trailing zeros.
- All bytes in
integer
andfraction
should be valid digits, in the range [`b’0’, b’9’].
Panics
Although passing garbage input will not cause memory safety issues,
it is very likely to cause a panic with a large number of digits, or
in debug mode. The big-integer arithmetic without the alloc
feature
assumes a maximum, fixed-width input, which assumes at maximum a
value of 10^(769 + 342)
, or ~4000 bits of storage. Passing in
nonsensical digits may require up to ~6000 bits of storage, which will
panic when attempting to add it to the big integer. It is therefore
up to the caller to validate this input.
We cannot efficiently remove trailing zeros while only accepting a forward iterator.