remove old internal iterator range tests

The cases they test are well covered in the `std::iter` tests.
This commit is contained in:
Daniel Micay 2013-09-15 00:44:48 -04:00
parent 6e3d5c62e7
commit a05c4a1e5f
2 changed files with 0 additions and 254 deletions

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// Copyright 2013 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
use std::int;
use std::uint;
fn uint_range(lo: uint, hi: uint, it: &fn(uint) -> bool) -> bool {
range(lo, hi).advance(it)
}
fn int_range(lo: int, hi: int, it: &fn(int) -> bool) -> bool {
range(lo, hi).advance(it)
}
fn uint_range_rev(hi: uint, lo: uint, it: &fn(uint) -> bool) -> bool {
range(lo, hi).invert().advance(it)
}
fn int_range_rev(hi: int, lo: int, it: &fn(int) -> bool) -> bool {
range(lo, hi).invert().advance(it)
}
fn int_range_step(a: int, b: int, step: int, it: &fn(int) -> bool) -> bool {
std::iter::range_step(a, b, step).advance(it)
}
fn uint_range_step(a: uint, b: uint, step: int, it: &fn(uint) -> bool) -> bool {
std::iter::range_step(a, b, step).advance(it)
}
pub fn main() {
// int and uint have same result for
// Sum{100 > i >= 2} == (Sum{1 <= i <= 99} - 1) == n*(n+1)/2 - 1 for n=99
let mut sum = 0u;
do uint_range_rev(100, 2) |i| {
sum += i;
true
};
assert_eq!(sum, 4949);
let mut sum = 0i;
do int_range_rev(100, 2) |i| {
sum += i;
true
};
assert_eq!(sum, 4949);
// elements are visited in correct order
let primes = [2,3,5,7,11];
let mut prod = 1i;
do uint_range_rev(5, 0) |i| {
printfln!("uint 4 downto 0: %u", i);
prod *= int::pow(primes[i], i);
true
};
assert_eq!(prod, 11*11*11*11*7*7*7*5*5*3*1);
let mut prod = 1i;
do int_range_rev(5, 0) |i| {
printfln!("int 4 downto 0: %d", i);
prod *= int::pow(primes[i], i as uint);
true
};
assert_eq!(prod, 11*11*11*11*7*7*7*5*5*3*1);
// range and range_rev are symmetric.
let mut sum_up = 0u;
do uint_range(10, 30) |i| {
sum_up += i;
true
};
let mut sum_down = 0u;
do uint_range_rev(30, 10) |i| {
sum_down += i;
true
};
assert_eq!(sum_up, sum_down);
let mut sum_up = 0;
do int_range(-20, 10) |i| {
sum_up += i;
true
};
let mut sum_down = 0;
do int_range_rev(10, -20) |i| {
sum_down += i;
true
};
assert_eq!(sum_up, sum_down);
// empty ranges
do int_range_rev(10, 10) |_| {
fail!("range should be empty when start == stop");
true
};
do uint_range_rev(0, 1) |_| {
fail!("range should be empty when start-1 underflows");
true
};
// range iterations do not wrap/underflow
let mut uflo_loop_visited = ~[];
do int_range_step(int::min_value+15, int::min_value, -4) |x| {
uflo_loop_visited.push(x - int::min_value);
true
};
assert_eq!(uflo_loop_visited, ~[15, 11, 7, 3]);
let mut uflo_loop_visited = ~[];
do uint_range_step(uint::min_value+15, uint::min_value, -4) |x| {
uflo_loop_visited.push(x - uint::min_value);
true
};
assert_eq!(uflo_loop_visited, ~[15, 11, 7, 3]);
}

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// Copyright 2013 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
use std::int;
use std::uint;
fn uint_range(lo: uint, hi: uint, it: &fn(uint) -> bool) -> bool {
range(lo, hi).advance(it)
}
fn int_range(lo: int, hi: int, it: &fn(int) -> bool) -> bool {
range(lo, hi).advance(it)
}
fn int_range_step(a: int, b: int, step: int, it: &fn(int) -> bool) -> bool {
std::iter::range_step(a, b, step).advance(it)
}
fn uint_range_step(a: uint, b: uint, s: int, it: &fn(uint) -> bool) -> bool {
std::iter::range_step(a, b, s).advance(it)
}
pub fn main() {
println("num-range start");
// int and uint have same result for
// Sum{2 <= i < 100} == (Sum{1 <= i <= 99} - 1) == n*(n+1)/2 - 1 for n=99
let mut sum = 0u;
do uint_range(2, 100) |i| {
sum += i;
true
};
assert_eq!(sum, 4949);
let mut sum = 0i;
do int_range(2, 100) |i| {
sum += i;
true
};
assert_eq!(sum, 4949);
// elements are visited in correct order
let primes = [2,3,5,7];
let mut prod = 1i;
do uint_range(0, 4) |i| {
prod *= int::pow(primes[i], i);
true
};
assert_eq!(prod, 1*3*5*5*7*7*7);
let mut prod = 1i;
do int_range(0, 4) |i| {
prod *= int::pow(primes[i], i as uint);
true
};
assert_eq!(prod, 1*3*5*5*7*7*7);
// empty ranges
do int_range(10, 10) |_| {
fail!("range should be empty when start == stop");
true
};
do uint_range(10, 10) |_| {
fail!("range should be empty when start == stop");
true
};
// range iterations do not wrap/overflow
let mut oflo_loop_visited = ~[];
do uint_range_step(uint::max_value-15, uint::max_value, 4) |x| {
oflo_loop_visited.push(uint::max_value - x);
true
};
assert_eq!(oflo_loop_visited, ~[15, 11, 7, 3]);
let mut oflo_loop_visited = ~[];
do int_range_step(int::max_value-15, int::max_value, 4) |x| {
oflo_loop_visited.push(int::max_value - x);
true
};
assert_eq!(oflo_loop_visited, ~[15, 11, 7, 3]);
// range_step never passes nor visits the stop element
do int_range_step(0, 21, 3) |x| {
assert!(x < 21);
true
};
// range_step_inclusive will never pass stop element, and may skip it.
let mut saw21 = false;
for x in std::iter::range_step_inclusive(0, 21, 4) {
assert!(x <= 21);
if x == 21 { saw21 = true; }
}
assert!(!saw21);
let mut saw21 = false;
for x in std::iter::range_step_inclusive(0, 21, 4) {
assert!(x <= 21);
if x == 21 { saw21 = true; }
}
assert!(!saw21);
// range_step_inclusive will never pass stop element, but may visit it.
let mut saw21 = false;
for x in std::iter::range_step_inclusive(0, 21, 3) {
assert!(x <= 21);
printfln!("saw: %u", x);
if x == 21 { saw21 = true; }
}
assert!(saw21);
let mut saw21 = false;
for x in std::iter::range_step_inclusive(0, 21, 3) {
assert!(x <= 21);
if x == 21 { saw21 = true; }
}
assert!(saw21);
}