Fixed float printing

newfloat
mark 2023-09-03 15:56:33 -07:00
parent 84ebf89d6f
commit 4353548900
3 changed files with 43 additions and 47 deletions

View File

@ -8,7 +8,8 @@ use std::ops::{
use std::cmp::Ordering; use std::cmp::Ordering;
use super::ScalarBase; use super::ScalarBase;
use super::PRINT_LEN; use super::SHOW_SIG;
use super::MAX_LEN;
macro_rules! foward { macro_rules! foward {
( $x:ident ) => { ( $x:ident ) => {
@ -55,63 +56,57 @@ impl ToString for F64Base {
} }
// Pick significant digits and round
let mut s = String::from(s);
if s.len() > SHOW_SIG {
let round;
if s.len() != SHOW_SIG + 1 {
round = s[SHOW_SIG..SHOW_SIG+1].parse().unwrap();
} else { round = 0; }
s = String::from(&s[0..SHOW_SIG]);
if round >= 5 {
let new = s[s.len()-1..s.len()].parse::<u8>().unwrap() + 1u8;
if new != 10 {
s = format!("{}{new}", &s[0..s.len()-1]);
}
}
}
s = format!("{s}{}", "0".repeat(SHOW_SIG - s.len()));
// at this point, s is guaranteed to have exactly SHOW_SIG digits.
let neg = if neg {"-"} else {""}; let neg = if neg {"-"} else {""};
if (p.abs() as usize) < PRINT_LEN { if (p.abs() as usize) < MAX_LEN {
if p >= 0 { if p >= 0 {
let q = p as usize; let q = p as usize;
// Add zero padding let first = &s[0..q+1];
let t; let mut rest = &s[q+1..];
if s.len() < (q + 1) { rest = rest.trim_end_matches('0');
t = format!("{s}{}", "0".repeat(q + 1 - s.len())); if rest == "" {
} else { t = s.to_string() } return format!("{neg}{first}");
// Section before decimal point
let first = &t[0..q+1];
// The rest of the number, including a decimal point
let mut rest: String;
if first.len() == t.len() {
rest = String::from("");
} else { } else {
rest = format!(".{}", &t[q+1..]); return format!("{neg}{first}.{rest}");
} }
// Limit length of decimal portion
if rest.len() > PRINT_LEN {
rest = String::from(&rest[0..PRINT_LEN]);
}
return format!("{neg}{first}{rest}");
} else { } else {
let q = p.abs() as usize; let q = p.abs() as usize;
let t = format!("0.{}{s}", "0".repeat(q-1));
let t = format!("{neg}0.{}{s}", "0".repeat(q-1)); return format!("{neg}{}", t.trim_end_matches('0'));
return if t.len() > PRINT_LEN { String::from(&t[0..PRINT_LEN]) } else {t};
} }
// Print full scientific notation // Print full scientific notation
} else { } else {
// First (non-zero) digit of our number
let first = &s[0..1]; let first = &s[0..1];
let mut rest = &s[1..];
// The rest of the number, including a decimal point rest = rest.trim_end_matches('0');
let mut rest: String; if rest == "" {
if first.len() == s.len() { return format!("{neg}{first}e{p}");
rest = String::from("");
} else { } else {
rest = format!(".{}", &s[1..]); return format!("{neg}{first}.{rest}e{p}");
} }
// Limit length of decimal portion
if rest.len() > 5 {
rest = String::from(&rest[0..PRINT_LEN]);
}
return format!("{neg}{first}{rest}e{p}");
} }
} }
} }
@ -249,11 +244,11 @@ impl Rem<F64Base> for F64Base {
fn rem(self, modulus: F64Base) -> Self::Output { fn rem(self, modulus: F64Base) -> Self::Output {
if { if {
(!self.fract().unwrap().is_zero()) || (!self.is_int()) ||
(!modulus.fract().unwrap().is_zero()) (!modulus.is_int())
} { panic!() } } { panic!() }
F64Base{val : self.val.fract() % modulus.val.fract()} F64Base{val : self.val.round() % modulus.val.round()}
} }
} }

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@ -1,5 +1,6 @@
//const FLOAT_PRECISION: u32 = 1024; //const FLOAT_PRECISION: u32 = 1024;
const PRINT_LEN: usize = 5; // How many significant digits we will show in output const SHOW_SIG: usize = 5; // How many significant digits we will show in output
const MAX_LEN: usize = 5; // If a scientific exponent is >= this value, do not use scientific notation.
pub(in self) mod rationalbase; pub(in self) mod rationalbase;

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@ -131,7 +131,7 @@ fn operators() {
good_expr("125", "5^(+3)"); good_expr("125", "5^(+3)");
good_expr("125", "+5^3"); good_expr("125", "+5^3");
good_expr("0.2148", "3 ^ (-1.4)"); good_expr("0.21479", "3 ^ (-1.4)");
// Should parse as ((2^3)^4)^5 // Should parse as ((2^3)^4)^5
good_expr("1.1529e18", "2^3^4^5"); good_expr("1.1529e18", "2^3^4^5");