const assert = @import("debug.zig").assert; const mem = @import("mem.zig"); const math = @import("math/index.zig"); pub const Cmp = math.Cmp; pub fn sort(comptime T: type, array: []T, comptime cmp: fn(a: &const T, b: &const T)->Cmp) { if (array.len > 0) { quicksort(T, array, 0, array.len - 1, cmp); } } fn quicksort(comptime T: type, array: []T, left: usize, right: usize, comptime cmp: fn(a: &const T, b: &const T)->Cmp) { var i = left; var j = right; const p = (i + j) / 2; while (i <= j) { while (cmp(array[i], array[p]) == Cmp.Less) { i += 1; } while (cmp(array[j], array[p]) == Cmp.Greater) { j -= 1; } if (i <= j) { const tmp = array[i]; array[i] = array[j]; array[j] = tmp; i += 1; if (j > 0) j -= 1; } } if (left < j) quicksort(T, array, left, j, cmp); if (i < right) quicksort(T, array, i, right, cmp); } pub fn i32asc(a: &const i32, b: &const i32) -> Cmp { return if (*a > *b) Cmp.Greater else if (*a < *b) Cmp.Less else Cmp.Equal } pub fn i32desc(a: &const i32, b: &const i32) -> Cmp { reverse(i32asc(a, b)) } pub fn u8asc(a: &const u8, b: &const u8) -> Cmp { if (*a > *b) Cmp.Greater else if (*a < *b) Cmp.Less else Cmp.Equal } pub fn u8desc(a: &const u8, b: &const u8) -> Cmp { reverse(u8asc(a, b)) } fn reverse(was: Cmp) -> Cmp { if (was == Cmp.Greater) Cmp.Less else if (was == Cmp.Less) Cmp.Greater else Cmp.Equal } // --------------------------------------- // tests test "testSort" { const u8cases = [][]const []const u8 { [][]const u8{"", ""}, [][]const u8{"a", "a"}, [][]const u8{"az", "az"}, [][]const u8{"za", "az"}, [][]const u8{"asdf", "adfs"}, [][]const u8{"one", "eno"}, }; for (u8cases) |case| { var buf: [8]u8 = undefined; const slice = buf[0..case[0].len]; mem.copy(u8, slice, case[0]); sort(u8, slice, u8asc); assert(mem.eql(u8, slice, case[1])); } const i32cases = [][]const []const i32 { [][]const i32{[]i32{}, []i32{}}, [][]const i32{[]i32{1}, []i32{1}}, [][]const i32{[]i32{0, 1}, []i32{0, 1}}, [][]const i32{[]i32{1, 0}, []i32{0, 1}}, [][]const i32{[]i32{1, -1, 0}, []i32{-1, 0, 1}}, [][]const i32{[]i32{2, 1, 3}, []i32{1, 2, 3}}, }; for (i32cases) |case| { var buf: [8]i32 = undefined; const slice = buf[0..case[0].len]; mem.copy(i32, slice, case[0]); sort(i32, slice, i32asc); assert(mem.eql(i32, slice, case[1])); } } test "testSortDesc" { const rev_cases = [][]const []const i32 { [][]const i32{[]i32{}, []i32{}}, [][]const i32{[]i32{1}, []i32{1}}, [][]const i32{[]i32{0, 1}, []i32{1, 0}}, [][]const i32{[]i32{1, 0}, []i32{1, 0}}, [][]const i32{[]i32{1, -1, 0}, []i32{1, 0, -1}}, [][]const i32{[]i32{2, 1, 3}, []i32{3, 2, 1}}, }; for (rev_cases) |case| { var buf: [8]i32 = undefined; const slice = buf[0..case[0].len]; mem.copy(i32, slice, case[0]); sort(i32, slice, i32desc); assert(mem.eql(i32, slice, case[1])); } }