module std::sort; import std::sort::qs; <* Sort list using the quick sort algorithm. @require @is_sortable(list) : "The list must be indexable and support .len or .len()" @require @is_valid_cmp_fn(cmp, list, context) : "Expected a comparison function which compares values" @require @is_valid_context(cmp, context) : "Expected a valid context" *> macro quicksort(list, cmp = EMPTY_MACRO_SLOT, context = EMPTY_MACRO_SLOT) @builtin { $if $kindof(list) == POINTER &&& ($kindof(*list) == ARRAY || $kindof(*list) == VECTOR): $typeof((*list)[0])[] list2 = list; qs::qsort{$typeof(list2), $typeof(cmp), $typeof(context)}(list2, 0, (isz)list.len - 1, cmp, context); $else usz len = sort::len_from_list(list); qs::qsort{$typeof(list), $typeof(cmp), $typeof(context)}(list, 0, (isz)len - 1, cmp, context); $endif } <* Select the (k+1)th smallest element in an unordered list using Hoare's selection algorithm (Quickselect). k should be between 0 and len-1. The data list will be partially sorted. @require @is_sortable(list) : "The list must be indexable and support .len or .len()" @require @is_valid_cmp_fn(cmp, list, context) : "expected a comparison function which compares values" @require @is_valid_context(cmp, context) : "Expected a valid context" *> macro quickselect(list, isz k, cmp = EMPTY_MACRO_SLOT, context = EMPTY_MACRO_SLOT) @builtin { usz len = sort::len_from_list(list); return qs::qselect{$typeof(list), $typeof(cmp), $typeof(context)}(list, 0, (isz)len - 1, k, cmp, context); } module std::sort::qs{Type, CmpFn, Context}; alias ElementType = $typeof(((Type){})[0]); struct StackElementItem @private { isz low; isz high; } alias Stack @private = StackElementItem[64]; // Based on https://alienryderflex.com/quicksort by Darel Rex Finley, Public Domain. fn void qsort(Type list, isz low, isz high, CmpFn cmp, Context context) { if (low >= 0 && high >= 0 && low < high) { Stack stack; stack[0].low = low; stack[0].high = high; isz i; isz l; isz h; while (i >= 0) { l = stack[i].low; h = stack[i].high; if (l < h) { l = @partition(list, l, h, cmp, context); stack[i + 1].low = l + 1; stack[i + 1].high = stack[i].high; stack[i++].high = l; if (stack[i].high - stack[i].low > stack[i - 1].high - stack[i - 1].low) { @swap(stack[i], stack[i - 1]); } } else { i--; } } } } <* @require low <= k : "kth smallest element is smaller than lower bounds" @require k <= high : "kth smallest element is larger than upper bounds" *> fn ElementType? qselect(Type list, isz low, isz high, isz k, CmpFn cmp, Context context) { if (low >= 0 && high >= 0 && low < high) { isz l = low; isz h = high; isz pivot; usz max_retries = 64; while (l <= h && max_retries--) { pivot = @partition(list, l, h, cmp, context); if (k == pivot) return list[k]; if (k < pivot) { h = pivot - 1; } else { l = pivot + 1; } } } return NOT_FOUND?; } macro @partition(Type list, isz l, isz h, CmpFn cmp, Context context) { var $has_cmp = @is_valid_macro_slot(cmp); var $has_context = @is_valid_macro_slot(context); var $cmp_by_value = $has_cmp &&& $defined($typefrom(CmpFn.paramsof[0].type) v = list[0]); ElementType pivot = list[l]; while (l < h) { $switch: $case $cmp_by_value && $has_context: while (cmp(list[h], pivot, context) >= 0 && l < h) h--; if (l < h) list[l++] = list[h]; while (cmp(list[l], pivot, context) <= 0 && l < h) l++; $case $cmp_by_value: while (cmp(list[h], pivot) >= 0 && l < h) h--; if (l < h) list[l++] = list[h]; while (cmp(list[l], pivot) <= 0 && l < h) l++; $case $has_cmp && $has_context: while (cmp(&list[h], &pivot, context) >= 0 && l < h) h--; if (l < h) list[l++] = list[h]; while (cmp(&list[l], &pivot, context) <= 0 && l < h) l++; $case $has_cmp: while (cmp(&list[h], &pivot) >= 0 && l < h) h--; if (l < h) list[l++] = list[h]; while (cmp(&list[l], &pivot) <= 0 && l < h) l++; $default: while (greater_eq(list[h], pivot) && l < h) h--; if (l < h) list[l++] = list[h]; while (less_eq(list[l], pivot) && l < h) l++; $endswitch if (l < h) list[h--] = list[l]; } list[l] = pivot; return l; }