Split format logic into another mod
This commit is contained in:
parent
c0cd93d0a5
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df59e45b80
155
src/format.rs
Normal file
155
src/format.rs
Normal file
@ -0,0 +1,155 @@
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// Based on https://stackoverflow.com/a/65266882
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pub fn scientific(f: f64, precision: usize) -> String {
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let mut ret = format!("{:.precision$E}", f, precision = precision);
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let exp = ret.split_off(ret.find('E').unwrap_or(0));
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let (exp_sign, exp) = if let Some(stripped) = exp.strip_prefix("E-") {
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('-', stripped)
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} else {
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('+', &exp[1..])
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};
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let sign = if !ret.starts_with('-') { " " } else { "" };
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format!("{}{} E{}{:0>pad$}", sign, ret, exp_sign, exp, pad = 2)
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}
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pub fn engineering(f: f64, precision: usize) -> String {
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// Format the string so the first digit is always in the first column, and remove '.'. Requested precision + 2 to account for using 1, 2, or 3 digits for the whole portion of the string
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// 1,000 => 1000E3
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let all = format!(" {:.precision$E}", f, precision = precision)
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// Remove . since it can be moved
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.replacen(".", "", 1)
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// Add 00E before E here so the length is enough for slicing below
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.replacen("E", "00E", 1);
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// Extract mantissa and the string representation of the exponent. Unwrap should be safe as formatter will insert E
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// 1000E3 => (1000, E3)
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let (num_str, exp_str) = all.split_at(all.find('E').unwrap());
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// Extract the exponent as an isize. This should always be true because f64 max will be ~400
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// E3 => 3 as isize
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let exp = exp_str[1..].parse::<isize>().unwrap();
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// Sign of the exponent. If string representation starts with E-, then negative
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let display_exp_sign = if let Some(stripped) = exp_str.strip_prefix("E-") {
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'-'
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} else {
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'+'
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};
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// The exponent to display. Always a multiple of 3 in engineering mode. Always positive because sign is added with display_exp_sign above
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// 100 => 0, 1000 => 3, .1 => 3 (but will show as -3)
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let display_exp = (exp.div_euclid(3) * 3).abs();
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// Number of whole digits. Always 1, 2, or 3 depending on exponent divisibility
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let num_whole_digits = exp.rem_euclid(3) as usize + 1;
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// If this is a negative number, strip off the added space, otherwise keep the space (and next digit)
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let num_str = if num_str.strip_prefix(" -").is_some() {
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&num_str[1..]
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} else {
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num_str
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};
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// Whole portion of number. Slice is safe because the num_whole_digits is always 3 and the num_str will always have length >= 3 since precision in all=2 (+original whole digit)
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// Original number is 1,000 => whole will be 1, if original is 0.01, whole will be 10
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let whole = &num_str[0..(num_whole_digits + 1)];
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// Decimal portion of the number. Sliced from the number of whole digits to the *requested* precision. Precision generated in all will be requested precision + 2
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let decimal = &num_str[(num_whole_digits + 1)..(precision + num_whole_digits + 1)];
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// Right align whole portion, always have decimal point
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format!(
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"{: >4}.{} E{}{:0>pad$}",
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// display_sign,
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whole,
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decimal,
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display_exp_sign,
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display_exp,
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pad = 2
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)
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}
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pub fn separated(f: f64, sep: char) -> String {
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let mut ret = f.to_string();
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let start = if ret.starts_with('-') { 1 } else { 0 };
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let end = ret.find('.').unwrap_or_else(|| ret.len());
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for i in 0..((end - start - 1).div_euclid(3)) {
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ret.insert(end - (i + 1) * 3, sep);
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}
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ret
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}
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#[cfg(test)]
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mod tests {
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use super::*;
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#[test]
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fn test_fmt_scientific() {
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for (f, p, s) in vec![
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// Basic
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(1.0, 0, " 1 E+00"),
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(-1.0, 0, "-1 E+00"),
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(100.0, 0, " 1 E+02"),
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(0.1, 0, " 1 E-01"),
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(0.01, 0, " 1 E-02"),
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(-0.1, 0, "-1 E-01"),
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// i
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(1.0, 0, " 1 E+00"),
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// Precision
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(-0.123456789, 3, "-1.235 E-01"),
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(-0.123456789, 2, "-1.23 E-01"),
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(-0.123456789, 2, "-1.23 E-01"),
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(-1e99, 2, "-1.00 E+99"),
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(-1e100, 2, "-1.00 E+100"),
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// Rounding
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(0.5, 2, " 5.00 E-01"),
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(0.5, 1, " 5.0 E-01"),
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(0.5, 0, " 5 E-01"),
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(1.5, 2, " 1.50 E+00"),
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(1.5, 1, " 1.5 E+00"),
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(1.5, 0, " 2 E+00"),
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] {
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assert_eq!(fmt_scientific(f, p), s);
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}
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}
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#[test]
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fn test_fmt_separated() {
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for (f, c, s) in vec![
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(100.0, ',', "100"),
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(100.0, ',', "100"),
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(-100.0, ',', "-100"),
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(1_000.0, ',', "1,000"),
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(-1_000.0, ',', "-1,000"),
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(10_000.0, ',', "10,000"),
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(-10_000.0, ',', "-10,000"),
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(100_000.0, ',', "100,000"),
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(-100_000.0, ',', "-100,000"),
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(1_000_000.0, ',', "1,000,000"),
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(-1_000_000.0, ',', "-1,000,000"),
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(1_000_000.123456789, ',', "1,000,000.123456789"),
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(-1_000_000.123456789, ',', "-1,000,000.123456789"),
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(1_000_000.123456789, ' ', "1 000 000.123456789"),
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(1_000_000.123456789, ' ', "1 000 000.123456789"),
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] {
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assert_eq!(fmt_separated(f, c), s);
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}
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}
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#[test]
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fn test_fmt_engineering() {
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for (f, c, s) in vec![
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(100.0, 3, " 100.000 E+00"),
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(100.0, 3, " 100.000 E+00"),
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(-100.0, 3, "-100.000 E+00"),
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(100.0, 0, " 100. E+00"),
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(-100.0, 0, "-100. E+00"),
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(0.1, 2, " 100.00 E-03"),
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(0.01, 2, " 10.00 E-03"),
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(0.001, 2, " 1.00 E-03"),
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(0.0001, 2, " 100.00 E-06"),
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// Rounding
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(0.5, 2, " 500.00 E-03"),
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(0.5, 1, " 500.0 E-03"),
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(0.5, 0, " 500. E-03"),
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(1.5, 2, " 1.50 E+00"),
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(1.5, 1, " 1.5 E+00"),
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(1.5, 0, " 2. E+00"),
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] {
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assert_eq!(fmt_engineering(f, c), s);
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}
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}
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}
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162
src/main.rs
162
src/main.rs
@ -3,6 +3,7 @@
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mod calc;
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mod util;
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mod format;
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use calc::constants::{CalculatorDisplayMode, CalculatorState, RegisterState};
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use calc::errors::CalculatorResult;
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@ -161,13 +162,13 @@ fn main() -> Result<(), Box<dyn Error>> {
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match app.calculator.get_display_mode() {
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CalculatorDisplayMode::Default => format!("{:>2}: {}", i, *m),
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CalculatorDisplayMode::Separated { separator } => {
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format!("{:>2}: {}", i, fmt_separated(*m, *separator))
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format!("{:>2}: {}", i, format::separated(*m, *separator))
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}
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CalculatorDisplayMode::Scientific { precision } => {
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format!("{:>2}: {}", i, fmt_scientific(*m, *precision))
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format!("{:>2}: {}", i, format::scientific(*m, *precision))
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}
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CalculatorDisplayMode::Engineering { precision } => {
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format!("{:>2}: {}", i, fmt_engineering(*m, *precision))
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format!("{:>2}: {}", i, format::engineering(*m, *precision))
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}
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CalculatorDisplayMode::Fixed { precision } => {
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format!("{:>2}: {:.precision$}", i, m, precision = precision)
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@ -486,158 +487,3 @@ fn draw_clippy_rect<T: std::io::Write>(c: ClippyRectangle, f: &mut Frame<Crosste
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f.render_widget(help_message, area);
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}
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// Based on https://stackoverflow.com/a/65266882
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fn fmt_scientific(f: f64, precision: usize) -> String {
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let mut ret = format!("{:.precision$E}", f, precision = precision);
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let exp = ret.split_off(ret.find('E').unwrap_or(0));
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let (exp_sign, exp) = if let Some(stripped) = exp.strip_prefix("E-") {
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('-', stripped)
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} else {
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('+', &exp[1..])
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};
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let sign = if !ret.starts_with('-') { " " } else { "" };
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format!("{}{} E{}{:0>pad$}", sign, ret, exp_sign, exp, pad = 2)
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}
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fn fmt_engineering(f: f64, precision: usize) -> String {
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// Format the string so the first digit is always in the first column, and remove '.'. Requested precision + 2 to account for using 1, 2, or 3 digits for the whole portion of the string
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// 1,000 => 1000E3
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let all = format!(" {:.precision$E}", f, precision = precision)
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// Remove . since it can be moved
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.replacen(".", "", 1)
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// Add 00E before E here so the length is enough for slicing below
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.replacen("E", "00E", 1);
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// Extract mantissa and the string representation of the exponent. Unwrap should be safe as formatter will insert E
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// 1000E3 => (1000, E3)
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let (num_str, exp_str) = all.split_at(all.find('E').unwrap());
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// Extract the exponent as an isize. This should always be true because f64 max will be ~400
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// E3 => 3 as isize
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let exp = exp_str[1..].parse::<isize>().unwrap();
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// Sign of the exponent. If string representation starts with E-, then negative
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let display_exp_sign = if let Some(stripped) = exp_str.strip_prefix("E-") {
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'-'
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} else {
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'+'
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};
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// The exponent to display. Always a multiple of 3 in engineering mode. Always positive because sign is added with display_exp_sign above
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// 100 => 0, 1000 => 3, .1 => 3 (but will show as -3)
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let display_exp = (exp.div_euclid(3) * 3).abs();
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// Number of whole digits. Always 1, 2, or 3 depending on exponent divisibility
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let num_whole_digits = exp.rem_euclid(3) as usize + 1;
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// If this is a negative number, strip off the added space, otherwise keep the space (and next digit)
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let num_str = if num_str.strip_prefix(" -").is_some() {
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&num_str[1..]
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} else {
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num_str
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};
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// Whole portion of number. Slice is safe because the num_whole_digits is always 3 and the num_str will always have length >= 3 since precision in all=2 (+original whole digit)
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// Original number is 1,000 => whole will be 1, if original is 0.01, whole will be 10
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let whole = &num_str[0..(num_whole_digits + 1)];
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// Decimal portion of the number. Sliced from the number of whole digits to the *requested* precision. Precision generated in all will be requested precision + 2
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let decimal = &num_str[(num_whole_digits + 1)..(precision + num_whole_digits + 1)];
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// Right align whole portion, always have decimal point
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format!(
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"{: >4}.{} E{}{:0>pad$}",
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// display_sign,
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whole,
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decimal,
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display_exp_sign,
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display_exp,
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pad = 2
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)
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}
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fn fmt_separated(f: f64, sep: char) -> String {
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let mut ret = f.to_string();
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let start = if ret.starts_with('-') { 1 } else { 0 };
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let end = ret.find('.').unwrap_or_else(|| ret.len());
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for i in 0..((end - start - 1).div_euclid(3)) {
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ret.insert(end - (i + 1) * 3, sep);
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}
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ret
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}
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#[cfg(test)]
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mod tests {
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use super::*;
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#[test]
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fn test_fmt_scientific() {
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for (f, p, s) in vec![
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// Basic
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(1.0, 0, " 1 E+00"),
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(-1.0, 0, "-1 E+00"),
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(100.0, 0, " 1 E+02"),
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(0.1, 0, " 1 E-01"),
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(0.01, 0, " 1 E-02"),
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(-0.1, 0, "-1 E-01"),
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// i
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(1.0, 0, " 1 E+00"),
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// Precision
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(-0.123456789, 3, "-1.235 E-01"),
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(-0.123456789, 2, "-1.23 E-01"),
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(-0.123456789, 2, "-1.23 E-01"),
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(-1e99, 2, "-1.00 E+99"),
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(-1e100, 2, "-1.00 E+100"),
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// Rounding
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(0.5, 2, " 5.00 E-01"),
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(0.5, 1, " 5.0 E-01"),
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(0.5, 0, " 5 E-01"),
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(1.5, 2, " 1.50 E+00"),
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(1.5, 1, " 1.5 E+00"),
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(1.5, 0, " 2 E+00"),
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] {
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assert_eq!(fmt_scientific(f, p), s);
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}
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}
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#[test]
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fn test_fmt_separated() {
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for (f, c, s) in vec![
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(100.0, ',', "100"),
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(100.0, ',', "100"),
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(-100.0, ',', "-100"),
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(1_000.0, ',', "1,000"),
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(-1_000.0, ',', "-1,000"),
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(10_000.0, ',', "10,000"),
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(-10_000.0, ',', "-10,000"),
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(100_000.0, ',', "100,000"),
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(-100_000.0, ',', "-100,000"),
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(1_000_000.0, ',', "1,000,000"),
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(-1_000_000.0, ',', "-1,000,000"),
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(1_000_000.123456789, ',', "1,000,000.123456789"),
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(-1_000_000.123456789, ',', "-1,000,000.123456789"),
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(1_000_000.123456789, ' ', "1 000 000.123456789"),
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(1_000_000.123456789, ' ', "1 000 000.123456789"),
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] {
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assert_eq!(fmt_separated(f, c), s);
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}
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}
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#[test]
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fn test_fmt_engineering() {
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for (f, c, s) in vec![
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(100.0, 3, " 100.000 E+00"),
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(100.0, 3, " 100.000 E+00"),
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(-100.0, 3, "-100.000 E+00"),
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(100.0, 0, " 100. E+00"),
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(-100.0, 0, "-100. E+00"),
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(0.1, 2, " 100.00 E-03"),
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(0.01, 2, " 10.00 E-03"),
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(0.001, 2, " 1.00 E-03"),
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(0.0001, 2, " 100.00 E-06"),
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// Rounding
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(0.5, 2, " 500.00 E-03"),
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(0.5, 1, " 500.0 E-03"),
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(0.5, 0, " 500. E-03"),
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(1.5, 2, " 1.50 E+00"),
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(1.5, 1, " 1.5 E+00"),
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(1.5, 0, " 2. E+00"),
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] {
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assert_eq!(fmt_engineering(f, c), s);
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}
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}
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}
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