rust/src/libcore/float.rs

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#[doc = "Operations and constants for `float`"];
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// FIXME find out why these have to be exported explicitly
export to_str_common, to_str_exact, to_str, from_str;
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export add, sub, mul, div, rem, lt, le, gt, eq, eq, ne;
export is_positive, is_negative, is_nonpositive, is_nonnegative;
export is_zero, is_infinite, is_finite;
export NaN, is_NaN, infinity, neg_infinity;
export consts;
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export logarithm;
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export acos, asin, atan, atan2, cbrt, ceil, copysign, cos, cosh, floor;
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export erf, erfc, exp, expm1, exp2, abs, abs_sub;
export mul_add, fmax, fmin, nextafter, frexp, hypot, ldexp;
export lgamma, ln, log_radix, ln1p, log10, log2, ilog_radix;
export modf, pow, round, sin, sinh, sqrt, tan, tanh, tgamma, trunc;
export signbit;
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export pow_with_uint;
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// export when m_float == c_double
export j0, j1, jn, y0, y1, yn;
// PORT this must match in width according to architecture
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import m_float = f64;
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import f64::*;
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/**
* Section: String Conversions
*/
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#[doc = "
Converts a float to a string
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# Arguments
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* num - The float value
* digits - The number of significant digits
* exact - Whether to enforce the exact number of significant digits
"]
fn to_str_common(num: float, digits: uint, exact: bool) -> str {
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if is_NaN(num) { ret "NaN"; }
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let mut (num, accum) = if num < 0.0 { (-num, "-") } else { (num, "") };
let trunc = num as uint;
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let mut frac = num - (trunc as float);
accum += uint::str(trunc);
if (frac < epsilon && !exact) || digits == 0u { ret accum; }
accum += ".";
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let mut i = digits;
let mut epsilon = 1. / pow_with_uint(10u, i);
while i > 0u && (frac >= epsilon || exact) {
frac *= 10.0;
epsilon *= 10.0;
let digit = frac as uint;
accum += uint::str(digit);
frac -= digit as float;
i -= 1u;
}
ret accum;
}
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#[doc = "
Converts a float to a string with exactly the number of
provided significant digits
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# Arguments
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* num - The float value
* digits - The number of significant digits
"]
fn to_str_exact(num: float, digits: uint) -> str {
to_str_common(num, digits, true)
}
#[test]
fn test_to_str_exact_do_decimal() {
let s = to_str_exact(5.0, 4u);
assert s == "5.0000";
}
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#[doc = "
Converts a float to a string with a maximum number of
significant digits
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# Arguments
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* num - The float value
* digits - The number of significant digits
"]
fn to_str(num: float, digits: uint) -> str {
to_str_common(num, digits, false)
}
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#[doc = "
Convert a string to a float
This function accepts strings such as
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* '3.14'
* '+3.14', equivalent to '3.14'
* '-3.14'
* '2.5E10', or equivalently, '2.5e10'
* '2.5E-10'
* '', or, equivalently, '.' (understood as 0)
* '5.'
* '.5', or, equivalently, '0.5'
Leading and trailing whitespace are ignored.
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# Arguments
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* num - A string
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# Return value
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`none` if the string did not represent a valid number. Otherwise, `some(n)`
where `n` is the floating-point number represented by `[num]`.
"]
fn from_str(num: str) -> option<float> {
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let mut pos = 0u; //Current byte position in the string.
//Used to walk the string in O(n).
let len = str::len(num); //Length of the string, in bytes.
if len == 0u { ret none; }
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let mut total = 0f; //Accumulated result
let mut c = 'z'; //Latest char.
//The string must start with one of the following characters.
alt str::char_at(num, 0u) {
'-' | '+' | '0' to '9' | '.' {}
_ { ret none; }
}
//Determine if first char is '-'/'+'. Set [pos] and [neg] accordingly.
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let mut neg = false; //Sign of the result
alt str::char_at(num, 0u) {
'-' {
neg = true;
pos = 1u;
}
'+' {
pos = 1u;
}
_ {}
}
//Examine the following chars until '.', 'e', 'E'
while(pos < len) {
let char_range = str::char_range_at(num, pos);
c = char_range.ch;
pos = char_range.next;
alt c {
'0' to '9' {
total = total * 10f;
total += ((c as int) - ('0' as int)) as float;
}
'.' | 'e' | 'E' {
break;
}
_ {
ret none;
}
}
}
if c == '.' {//Examine decimal part
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let mut decimal = 1f;
while(pos < len) {
let char_range = str::char_range_at(num, pos);
c = char_range.ch;
pos = char_range.next;
alt c {
'0' | '1' | '2' | '3' | '4' | '5' | '6'| '7' | '8' | '9' {
decimal /= 10f;
total += (((c as int) - ('0' as int)) as float)*decimal;
}
'e' | 'E' {
break;
}
_ {
ret none;
}
}
}
}
if (c == 'e') | (c == 'E') {//Examine exponent
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let mut exponent = 0u;
let mut neg_exponent = false;
if(pos < len) {
let char_range = str::char_range_at(num, pos);
c = char_range.ch;
alt c {
'+' {
pos = char_range.next;
}
'-' {
pos = char_range.next;
neg_exponent = true;
}
_ {}
}
while(pos < len) {
let char_range = str::char_range_at(num, pos);
c = char_range.ch;
alt c {
'0' | '1' | '2' | '3' | '4' | '5' | '6'| '7' | '8' | '9' {
exponent *= 10u;
exponent += ((c as uint) - ('0' as uint));
}
_ {
break;
}
}
pos = char_range.next;
}
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let multiplier = pow_with_uint(10u, exponent);
//Note: not [int::pow], otherwise, we'll quickly
//end up with a nice overflow
if neg_exponent {
total = total / multiplier;
} else {
total = total * multiplier;
}
} else {
ret none;
}
}
if(pos < len) {
ret none;
} else {
if(neg) {
total *= -1f;
}
ret some(total);
}
}
/**
* Section: Arithmetics
*/
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#[doc = "
Compute the exponentiation of an integer by another integer as a float
# Arguments
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* x - The base
* pow - The exponent
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# Return value
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`NaN` if both `x` and `pow` are `0u`, otherwise `x^pow`
"]
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fn pow_with_uint(base: uint, pow: uint) -> float {
if base == 0u {
if pow == 0u {
ret NaN;
}
ret 0.;
}
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let mut my_pow = pow;
let mut total = 1f;
let mut multiplier = base as float;
while (my_pow > 0u) {
if my_pow % 2u == 1u {
total = total * multiplier;
}
my_pow /= 2u;
multiplier *= multiplier;
}
ret total;
}
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#[test]
fn test_from_str() {
assert from_str("3") == some(3.);
assert from_str("3") == some(3.);
assert from_str("3.14") == some(3.14);
assert from_str("+3.14") == some(3.14);
assert from_str("-3.14") == some(-3.14);
assert from_str("2.5E10") == some(25000000000.);
assert from_str("2.5e10") == some(25000000000.);
assert from_str("25000000000.E-10") == some(2.5);
assert from_str(".") == some(0.);
assert from_str(".e1") == some(0.);
assert from_str(".e-1") == some(0.);
assert from_str("5.") == some(5.);
assert from_str(".5") == some(0.5);
assert from_str("0.5") == some(0.5);
assert from_str("0.5") == some(0.5);
assert from_str("0.5") == some(0.5);
assert from_str("-.5") == some(-0.5);
assert from_str("-.5") == some(-0.5);
assert from_str("-5") == some(-5.);
assert from_str("") == none;
assert from_str("x") == none;
assert from_str(" ") == none;
assert from_str(" ") == none;
assert from_str("e") == none;
assert from_str("E") == none;
assert from_str("E1") == none;
assert from_str("1e1e1") == none;
assert from_str("1e1.1") == none;
assert from_str("1e1-1") == none;
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}
#[test]
fn test_positive() {
assert(is_positive(infinity));
assert(is_positive(1.));
assert(is_positive(0.));
assert(!is_positive(-1.));
assert(!is_positive(neg_infinity));
assert(!is_positive(1./neg_infinity));
assert(!is_positive(NaN));
}
#[test]
fn test_negative() {
assert(!is_negative(infinity));
assert(!is_negative(1.));
assert(!is_negative(0.));
assert(is_negative(-1.));
assert(is_negative(neg_infinity));
assert(is_negative(1./neg_infinity));
assert(!is_negative(NaN));
}
#[test]
fn test_nonpositive() {
assert(!is_nonpositive(infinity));
assert(!is_nonpositive(1.));
assert(!is_nonpositive(0.));
assert(is_nonpositive(-1.));
assert(is_nonpositive(neg_infinity));
assert(is_nonpositive(1./neg_infinity));
assert(!is_nonpositive(NaN));
}
#[test]
fn test_nonnegative() {
assert(is_nonnegative(infinity));
assert(is_nonnegative(1.));
assert(is_nonnegative(0.));
assert(!is_nonnegative(-1.));
assert(!is_nonnegative(neg_infinity));
assert(!is_nonnegative(1./neg_infinity));
assert(!is_nonnegative(NaN));
}
//
// Local Variables:
// mode: rust
// fill-column: 78;
// indent-tabs-mode: nil
// c-basic-offset: 4
// buffer-file-coding-system: utf-8-unix
// End:
//
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