const std = @import("std");
const parse = @import("parse.zig");
const convertFast = @import("convert_fast.zig").convertFast;
const convertEiselLemire = @import("convert_eisel_lemire.zig").convertEiselLemire;
const convertSlow = @import("convert_slow.zig").convertSlow;
const convertHex = @import("convert_hex.zig").convertHex;
const optimize = true;
pub const ParseFloatError = error{
InvalidCharacter,
};
pub fn parseFloat(comptime T: type, s: []const u8) ParseFloatError!T {
if (s.len == 0) {
return error.InvalidCharacter;
}
var i: usize = 0;
const negative = s[i] == '-';
if (s[i] == '-' or s[i] == '+') {
i += 1;
}
if (s.len == i) {
return error.InvalidCharacter;
}
const n = parse.parseNumber(T, s[i..], negative) orelse {
return parse.parseInfOrNan(T, s[i..], negative) orelse error.InvalidCharacter;
};
if (n.hex) {
return convertHex(T, n);
}
if (optimize) {
if (convertFast(T, n)) |f| {
return f;
}
if (T == f16 or T == f32 or T == f64) {
if (convertEiselLemire(T, n.exponent, n.mantissa)) |bf| {
if (!n.many_digits) {
return bf.toFloat(T, n.negative);
}
if (convertEiselLemire(T, n.exponent, n.mantissa + 1)) |bf2| {
if (bf.eql(bf2)) {
return bf.toFloat(T, n.negative);
}
}
}
}
}
return convertSlow(T, s[i..]).toFloat(T, negative);
}