#[doc = "Operations and constants for `int`"]; /* Module: int */ /* Const: min_value The minumum value of an integer */ #[cfg(target_arch="x86")] const min_value: int = -1 << 31; #[cfg(target_arch="x86_64")] const min_value: int = -1 << 63; /* Const: max_value The maximum value of an integer */ // FIXME: Find another way to access the machine word size in a const expr #[cfg(target_arch="x86")] const max_value: int = (-1 << 31)-1; #[cfg(target_arch="x86_64")] const max_value: int = (-1 << 63)-1; pure fn min(x: int, y: int) -> int { if x < y { x } else { y } } pure fn max(x: int, y: int) -> int { if x > y { x } else { y } } /* Function: add */ pure fn add(x: int, y: int) -> int { ret x + y; } /* Function: sub */ pure fn sub(x: int, y: int) -> int { ret x - y; } /* Function: mul */ pure fn mul(x: int, y: int) -> int { ret x * y; } /* Function: div */ pure fn div(x: int, y: int) -> int { ret x / y; } /* Function: rem */ pure fn rem(x: int, y: int) -> int { ret x % y; } /* Predicate: lt */ pure fn lt(x: int, y: int) -> bool { ret x < y; } /* Predicate: le */ pure fn le(x: int, y: int) -> bool { ret x <= y; } /* Predicate: eq */ pure fn eq(x: int, y: int) -> bool { ret x == y; } /* Predicate: ne */ pure fn ne(x: int, y: int) -> bool { ret x != y; } /* Predicate: ge */ pure fn ge(x: int, y: int) -> bool { ret x >= y; } /* Predicate: gt */ pure fn gt(x: int, y: int) -> bool { ret x > y; } /* Predicate: positive */ pure fn positive(x: int) -> bool { ret x > 0; } /* Predicate: negative */ pure fn negative(x: int) -> bool { ret x < 0; } /* Predicate: nonpositive */ pure fn nonpositive(x: int) -> bool { ret x <= 0; } /* Predicate: nonnegative */ pure fn nonnegative(x: int) -> bool { ret x >= 0; } // FIXME: Make sure this works with negative integers. /* Function: hash Produce a uint suitable for use in a hash table */ fn hash(x: int) -> uint { ret x as uint; } /* Function: range Iterate over the range [`lo`..`hi`) */ fn range(lo: int, hi: int, it: fn(int)) { let i = lo; while i < hi { it(i); i += 1; } } /* Function: parse_buf Parse a buffer of bytes Parameters: buf - A byte buffer radix - The base of the number */ fn parse_buf(buf: [u8], radix: uint) -> option { if vec::len(buf) == 0u { ret none; } let i = vec::len(buf) - 1u; let start = 0u; let power = 1; if buf[0] == ('-' as u8) { power = -1; start = 1u; } let n = 0; while true { alt char::to_digit(buf[i] as char, radix) { some(d) { n += (d as int) * power; } none { ret none; } } power *= radix as int; if i <= start { ret some(n); } i -= 1u; } fail; } /* Function: from_str Parse a string to an int */ fn from_str(s: str) -> option { parse_buf(str::bytes(s), 10u) } /* Function: to_str Convert to a string in a given base */ fn to_str(n: int, radix: uint) -> str { assert (0u < radix && radix <= 16u); ret if n < 0 { "-" + uint::to_str(-n as uint, radix) } else { uint::to_str(n as uint, radix) }; } /* Function: str Convert to a string */ fn str(i: int) -> str { ret to_str(i, 10u); } /* Function: pow Returns `base` raised to the power of `exponent` */ fn pow(base: int, exponent: uint) -> int { if exponent == 0u { ret 1; } //Not mathemtically true if [base == 0] if base == 0 { ret 0; } let my_pow = exponent; let acc = 1; let multiplier = base; while(my_pow > 0u) { if my_pow % 2u == 1u { acc *= multiplier; } my_pow /= 2u; multiplier *= multiplier; } ret acc; } #[doc = "Computes the bitwise complement"] fn compl(i: int) -> int { uint::compl(i as uint) as int } #[doc = "Computes the absolute value"] fn abs(i: int) -> int { if negative(i) { -i } else { i } } #[test] fn test_from_str() { assert from_str("0") == some(0); assert from_str("3") == some(3); assert from_str("10") == some(10); assert from_str("123456789") == some(123456789); assert from_str("00100") == some(100); assert from_str("-1") == some(-1); assert from_str("-3") == some(-3); assert from_str("-10") == some(-10); assert from_str("-123456789") == some(-123456789); assert from_str("-00100") == some(-100); assert from_str(" ") == none; assert from_str("x") == none; } #[test] fn test_parse_buf() { import str::bytes; assert parse_buf(bytes("123"), 10u) == some(123); assert parse_buf(bytes("1001"), 2u) == some(9); assert parse_buf(bytes("123"), 8u) == some(83); assert parse_buf(bytes("123"), 16u) == some(291); assert parse_buf(bytes("ffff"), 16u) == some(65535); assert parse_buf(bytes("FFFF"), 16u) == some(65535); assert parse_buf(bytes("z"), 36u) == some(35); assert parse_buf(bytes("Z"), 36u) == some(35); assert parse_buf(bytes("-123"), 10u) == some(-123); assert parse_buf(bytes("-1001"), 2u) == some(-9); assert parse_buf(bytes("-123"), 8u) == some(-83); assert parse_buf(bytes("-123"), 16u) == some(-291); assert parse_buf(bytes("-ffff"), 16u) == some(-65535); assert parse_buf(bytes("-FFFF"), 16u) == some(-65535); assert parse_buf(bytes("-z"), 36u) == some(-35); assert parse_buf(bytes("-Z"), 36u) == some(-35); assert parse_buf(str::bytes("Z"), 35u) == none; assert parse_buf(str::bytes("-9"), 2u) == none; } #[test] fn test_to_str() { import str::eq; assert (eq(to_str(0, 10u), "0")); assert (eq(to_str(1, 10u), "1")); assert (eq(to_str(-1, 10u), "-1")); assert (eq(to_str(255, 16u), "ff")); assert (eq(to_str(100, 10u), "100")); } #[test] fn test_pow() { assert (pow(0, 0u) == 1); assert (pow(0, 1u) == 0); assert (pow(0, 2u) == 0); assert (pow(-1, 0u) == 1); assert (pow(1, 0u) == 1); assert (pow(-3, 2u) == 9); assert (pow(-3, 3u) == -27); assert (pow(4, 9u) == 262144); } #[test] fn test_overflows() { assert (max_value > 0); assert (min_value <= 0); assert (min_value + max_value + 1 == 0); } // Local Variables: // mode: rust; // fill-column: 78; // indent-tabs-mode: nil // c-basic-offset: 4 // buffer-file-coding-system: utf-8-unix // End: