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rust/src/test/run-pass/realloc-16687.rs
Ulrik Sverdrup 836f32e769 Use vec![elt; n] where possible 
The common pattern `iter::repeat(elt).take(n).collect::<Vec<_>>()` is
exactly equivalent to `vec![elt; n]`, do this replacement in the whole
tree.

(Actually, vec![] is smart enough to only call clone n - 1 times, while
the former solution would call clone n times, and this fact is
virtually irrelevant in practice.)
2015-07-09 11:05:32 +02:00

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// Copyright 2013-2014 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.
// alloc::heap::reallocate test.
//
// Ideally this would be revised to use no_std, but for now it serves
// well enough to reproduce (and illustrate) the bug from #16687.
#![feature(heap_api, alloc, oom)]
extern crate alloc;
use alloc::heap;
use std::ptr;
fn main() {
unsafe {
assert!(test_triangle());
}
}
unsafe fn test_triangle() -> bool {
static COUNT : usize = 16;
let mut ascend = vec![ptr::null_mut(); COUNT];
let ascend = &mut *ascend;
static ALIGN : usize = 1;
// Checks that `ascend` forms triangle of ascending size formed
// from pairs of rows (where each pair of rows is equally sized),
// and the elements of the triangle match their row-pair index.
unsafe fn sanity_check(ascend: &[*mut u8]) {
for i in 0..COUNT / 2 {
let (p0, p1, size) = (ascend[2*i], ascend[2*i+1], idx_to_size(i));
for j in 0..size {
assert_eq!(*p0.offset(j as isize), i as u8);
assert_eq!(*p1.offset(j as isize), i as u8);
}
}
}
static PRINT : bool = false;
unsafe fn allocate(size: usize, align: usize) -> *mut u8 {
if PRINT { println!("allocate(size={} align={})", size, align); }
let ret = heap::allocate(size, align);
if ret.is_null() { alloc::oom() }
if PRINT { println!("allocate(size={} align={}) ret: 0x{:010x}",
size, align, ret as usize);
}
ret
}
unsafe fn deallocate(ptr: *mut u8, size: usize, align: usize) {
if PRINT { println!("deallocate(ptr=0x{:010x} size={} align={})",
ptr as usize, size, align);
}
heap::deallocate(ptr, size, align);
}
unsafe fn reallocate(ptr: *mut u8, old_size: usize, size: usize, align: usize) -> *mut u8 {
if PRINT {
println!("reallocate(ptr=0x{:010x} old_size={} size={} align={})",
ptr as usize, old_size, size, align);
}
let ret = heap::reallocate(ptr, old_size, size, align);
if ret.is_null() { alloc::oom() }
if PRINT {
println!("reallocate(ptr=0x{:010x} old_size={} size={} align={}) \
ret: 0x{:010x}",
ptr as usize, old_size, size, align, ret as usize);
}
ret
}
fn idx_to_size(i: usize) -> usize { (i+1) * 10 }
// Allocate pairs of rows that form a triangle shape. (Hope is
// that at least two rows will be allocated near each other, so
// that we trigger the bug (a buffer overrun) in an observable
// way.)
for i in 0..COUNT / 2 {
let size = idx_to_size(i);
ascend[2*i] = allocate(size, ALIGN);
ascend[2*i+1] = allocate(size, ALIGN);
}
// Initialize each pair of rows to distinct value.
for i in 0..COUNT / 2 {
let (p0, p1, size) = (ascend[2*i], ascend[2*i+1], idx_to_size(i));
for j in 0..size {
*p0.offset(j as isize) = i as u8;
*p1.offset(j as isize) = i as u8;
}
}
sanity_check(&*ascend);
test_1(ascend); // triangle -> square
test_2(ascend); // square -> triangle
test_3(ascend); // triangle -> square
test_4(ascend); // square -> triangle
for i in 0..COUNT / 2 {
let size = idx_to_size(i);
deallocate(ascend[2*i], size, ALIGN);
deallocate(ascend[2*i+1], size, ALIGN);
}
return true;
// Test 1: turn the triangle into a square (in terms of
// allocation; initialized portion remains a triangle) by
// realloc'ing each row from top to bottom, and checking all the
// rows as we go.
unsafe fn test_1(ascend: &mut [*mut u8]) {
let new_size = idx_to_size(COUNT-1);
for i in 0..COUNT / 2 {
let (p0, p1, old_size) = (ascend[2*i], ascend[2*i+1], idx_to_size(i));
assert!(old_size < new_size);
ascend[2*i] = reallocate(p0, old_size, new_size, ALIGN);
sanity_check(&*ascend);
ascend[2*i+1] = reallocate(p1, old_size, new_size, ALIGN);
sanity_check(&*ascend);
}
}
// Test 2: turn the square back into a triangle, top to bottom.
unsafe fn test_2(ascend: &mut [*mut u8]) {
let old_size = idx_to_size(COUNT-1);
for i in 0..COUNT / 2 {
let (p0, p1, new_size) = (ascend[2*i], ascend[2*i+1], idx_to_size(i));
assert!(new_size < old_size);
ascend[2*i] = reallocate(p0, old_size, new_size, ALIGN);
sanity_check(&*ascend);
ascend[2*i+1] = reallocate(p1, old_size, new_size, ALIGN);
sanity_check(&*ascend);
}
}
// Test 3: turn triangle into a square, bottom to top.
unsafe fn test_3(ascend: &mut [*mut u8]) {
let new_size = idx_to_size(COUNT-1);
for i in (0..COUNT / 2).rev() {
let (p0, p1, old_size) = (ascend[2*i], ascend[2*i+1], idx_to_size(i));
assert!(old_size < new_size);
ascend[2*i+1] = reallocate(p1, old_size, new_size, ALIGN);
sanity_check(&*ascend);
ascend[2*i] = reallocate(p0, old_size, new_size, ALIGN);
sanity_check(&*ascend);
}
}
// Test 4: turn the square back into a triangle, bottom to top.
unsafe fn test_4(ascend: &mut [*mut u8]) {
let old_size = idx_to_size(COUNT-1);
for i in (0..COUNT / 2).rev() {
let (p0, p1, new_size) = (ascend[2*i], ascend[2*i+1], idx_to_size(i));
assert!(new_size < old_size);
ascend[2*i+1] = reallocate(p1, old_size, new_size, ALIGN);
sanity_check(&*ascend);
ascend[2*i] = reallocate(p0, old_size, new_size, ALIGN);
sanity_check(&*ascend);
}
}
}
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