//! Sorting methods import vec::{len, push}; import int::{eq, ord}; export le; export merge_sort; export quick_sort; export quick_sort3; type le = fn(T, T) -> bool; /** * Merge sort. Returns a new vector containing the sorted list. * * Has worst case O(n log n) performance, best case O(n), but * is not space efficient. This is a stable sort. */ fn merge_sort(le: le, v: ~[const T]) -> ~[T] { type slice = (uint, uint); ret merge_sort_(le, v, (0u, len(v))); fn merge_sort_(le: le, v: ~[const T], slice: slice) -> ~[T] { let begin = slice.first(); let end = slice.second(); let v_len = end - begin; if v_len == 0u { ret ~[]; } if v_len == 1u { ret ~[v[begin]]; } let mid = v_len / 2u + begin; let a = (begin, mid); let b = (mid, end); ret merge(le, merge_sort_(le, v, a), merge_sort_(le, v, b)); } fn merge(le: le, a: ~[T], b: ~[T]) -> ~[T] { let mut rs = ~[]; vec::reserve(rs, len(a) + len(b)); let a_len = len(a); let mut a_ix = 0u; let b_len = len(b); let mut b_ix = 0u; while a_ix < a_len && b_ix < b_len { if le(a[a_ix], b[b_ix]) { vec::push(rs, a[a_ix]); a_ix += 1u; } else { vec::push(rs, b[b_ix]); b_ix += 1u; } } rs = vec::append(rs, vec::slice(a, a_ix, a_len)); rs = vec::append(rs, vec::slice(b, b_ix, b_len)); ret rs; } } fn part(compare_func: le, arr: ~[mut T], left: uint, right: uint, pivot: uint) -> uint { let pivot_value = arr[pivot]; arr[pivot] <-> arr[right]; let mut storage_index: uint = left; let mut i: uint = left; while i < right { if compare_func(copy arr[i], pivot_value) { arr[i] <-> arr[storage_index]; storage_index += 1u; } i += 1u; } arr[storage_index] <-> arr[right]; ret storage_index; } fn qsort(compare_func: le, arr: ~[mut T], left: uint, right: uint) { if right > left { let pivot = (left + right) / 2u; let new_pivot = part::(compare_func, arr, left, right, pivot); if new_pivot != 0u { // Need to do this check before recursing due to overflow qsort::(compare_func, arr, left, new_pivot - 1u); } qsort::(compare_func, arr, new_pivot + 1u, right); } } /** * Quicksort. Sorts a mut vector in place. * * Has worst case O(n^2) performance, average case O(n log n). * This is an unstable sort. */ fn quick_sort(compare_func: le, arr: ~[mut T]) { if len::(arr) == 0u { ret; } qsort::(compare_func, arr, 0u, len::(arr) - 1u); } fn qsort3(compare_func_lt: le, compare_func_eq: le, arr: ~[mut T], left: int, right: int) { if right <= left { ret; } let v: T = arr[right]; let mut i: int = left - 1; let mut j: int = right; let mut p: int = i; let mut q: int = j; loop { i += 1; while compare_func_lt(copy arr[i], v) { i += 1; } j -= 1; while compare_func_lt(v, copy arr[j]) { if j == left { break; } j -= 1; } if i >= j { break; } arr[i] <-> arr[j]; if compare_func_eq(copy arr[i], v) { p += 1; arr[p] <-> arr[i]; } if compare_func_eq(v, copy arr[j]) { q -= 1; arr[j] <-> arr[q]; } } arr[i] <-> arr[right]; j = i - 1; i += 1; let mut k: int = left; while k < p { arr[k] <-> arr[j]; k += 1; j -= 1; if k == len::(arr) as int { break; } } k = right - 1; while k > q { arr[i] <-> arr[k]; k -= 1; i += 1; if k == 0 { break; } } qsort3::(compare_func_lt, compare_func_eq, arr, left, j); qsort3::(compare_func_lt, compare_func_eq, arr, i, right); } /** * Fancy quicksort. Sorts a mut vector in place. * * Based on algorithm presented by ~[Sedgewick and Bentley] * (http://www.cs.princeton.edu/~rs/talks/QuicksortIsOptimal.pdf). * According to these slides this is the algorithm of choice for * 'randomly ordered keys, abstract compare' & 'small number of key values'. * * This is an unstable sort. */ fn quick_sort3(arr: ~[mut T]) { if len::(arr) == 0u { ret; } qsort3::(|x, y| x.lt(y), |x, y| x.eq(y), arr, 0, (len::(arr) as int) - 1); } #[cfg(test)] mod test_qsort3 { fn check_sort(v1: ~[mut int], v2: ~[mut int]) { let len = vec::len::(v1); quick_sort3::(v1); let mut i = 0u; while i < len { log(debug, v2[i]); assert (v2[i] == v1[i]); i += 1u; } } #[test] fn test() { { let v1 = ~[mut 3, 7, 4, 5, 2, 9, 5, 8]; let v2 = ~[mut 2, 3, 4, 5, 5, 7, 8, 9]; check_sort(v1, v2); } { let v1 = ~[mut 1, 1, 1]; let v2 = ~[mut 1, 1, 1]; check_sort(v1, v2); } { let v1: ~[mut int] = ~[mut]; let v2: ~[mut int] = ~[mut]; check_sort(v1, v2); } { let v1 = ~[mut 9]; let v2 = ~[mut 9]; check_sort(v1, v2); } { let v1 = ~[mut 9, 3, 3, 3, 9]; let v2 = ~[mut 3, 3, 3, 9, 9]; check_sort(v1, v2); } } } #[cfg(test)] mod test_qsort { fn check_sort(v1: ~[mut int], v2: ~[mut int]) { let len = vec::len::(v1); fn leual(&&a: int, &&b: int) -> bool { ret a <= b; } let f = leual; quick_sort::(f, v1); let mut i = 0u; while i < len { log(debug, v2[i]); assert (v2[i] == v1[i]); i += 1u; } } #[test] fn test() { { let v1 = ~[mut 3, 7, 4, 5, 2, 9, 5, 8]; let v2 = ~[mut 2, 3, 4, 5, 5, 7, 8, 9]; check_sort(v1, v2); } { let v1 = ~[mut 1, 1, 1]; let v2 = ~[mut 1, 1, 1]; check_sort(v1, v2); } { let v1: ~[mut int] = ~[mut]; let v2: ~[mut int] = ~[mut]; check_sort(v1, v2); } { let v1 = ~[mut 9]; let v2 = ~[mut 9]; check_sort(v1, v2); } { let v1 = ~[mut 9, 3, 3, 3, 9]; let v2 = ~[mut 3, 3, 3, 9, 9]; check_sort(v1, v2); } } // Regression test for #750 #[test] fn test_simple() { let names = ~[mut 2, 1, 3]; let expected = ~[1, 2, 3]; fn le(&&a: int, &&b: int) -> bool { int::le(a, b) } sort::quick_sort(le, names); let immut_names = vec::from_mut(names); let pairs = vec::zip(expected, immut_names); for vec::each(pairs) |p| { let (a, b) = p; #debug("%d %d", a, b); assert (a == b); } } } #[cfg(test)] mod tests { fn check_sort(v1: ~[int], v2: ~[int]) { let len = vec::len::(v1); fn le(&&a: int, &&b: int) -> bool { ret a <= b; } let f = le; let v3 = merge_sort::(f, v1); let mut i = 0u; while i < len { log(debug, v3[i]); assert (v3[i] == v2[i]); i += 1u; } } #[test] fn test() { { let v1 = ~[3, 7, 4, 5, 2, 9, 5, 8]; let v2 = ~[2, 3, 4, 5, 5, 7, 8, 9]; check_sort(v1, v2); } { let v1 = ~[1, 1, 1]; let v2 = ~[1, 1, 1]; check_sort(v1, v2); } { let v1:~[int] = ~[]; let v2:~[int] = ~[]; check_sort(v1, v2); } { let v1 = ~[9]; let v2 = ~[9]; check_sort(v1, v2); } { let v1 = ~[9, 3, 3, 3, 9]; let v2 = ~[3, 3, 3, 9, 9]; check_sort(v1, v2); } } #[test] fn test_merge_sort_mutable() { fn le(&&a: int, &&b: int) -> bool { ret a <= b; } let v1 = ~[mut 3, 2, 1]; let v2 = merge_sort(le, v1); assert v2 == ~[1, 2, 3]; } } // Local Variables: // mode: rust; // fill-column: 78; // indent-tabs-mode: nil // c-basic-offset: 4 // buffer-file-coding-system: utf-8-unix // End: