// Copyright 2017 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package sort import "reflect" // any is an alias for interface{} and is equivalent to interface{} in all ways. type any = interface{} // lessSwap is a pair of Less and Swap function for use with the // auto-generated func-optimized variant of sort.go in // zfuncversion.go. type lessSwap struct { Less func(i, j int) bool Swap func(i, j int) } // Slice sorts the slice x given the provided less function. // It panics if x is not a slice. // // The sort is not guaranteed to be stable: equal elements // may be reversed from their original order. // For a stable sort, use SliceStable. // // The less function must satisfy the same requirements as // the Interface type's Less method. func Slice(x any, less func(i, j int) bool) { rv := reflect.ValueOf(x) swap := reflect.Swapper(x) length := rv.Len() quickSort_func(lessSwap{less, swap}, 0, length, maxDepth(length)) } // maxDepth returns a threshold at which quicksort should switch // to heapsort. It returns 2*ceil(lg(n+1)). func maxDepth(n int) int { var depth int for i := n; i > 0; i >>= 1 { depth++ } return depth * 2 } // Auto-generated variant of sort.go:quickSort func quickSort_func(data lessSwap, a, b, maxDepth int) { for b-a > 12 { if maxDepth == 0 { heapSort_func(data, a, b) return } maxDepth-- mlo, mhi := doPivot_func(data, a, b) if mlo-a < b-mhi { quickSort_func(data, a, mlo, maxDepth) a = mhi } else { quickSort_func(data, mhi, b, maxDepth) b = mlo } } if b-a > 1 { for i := a + 6; i < b; i++ { if data.Less(i, i-6) { data.Swap(i, i-6) } } insertionSort_func(data, a, b) } } // Auto-generated variant of sort.go:heapSort func heapSort_func(data lessSwap, a, b int) { first := a lo := 0 hi := b - a for i := (hi - 1) / 2; i >= 0; i-- { siftDown_func(data, i, hi, first) } for i := hi - 1; i >= 0; i-- { data.Swap(first, first+i) siftDown_func(data, lo, i, first) } } // Auto-generated variant of sort.go:doPivot func doPivot_func(data lessSwap, lo, hi int) (midlo, midhi int) { m := int(uint(lo+hi) >> 1) if hi-lo > 40 { s := (hi - lo) / 8 medianOfThree_func(data, lo, lo+s, lo+2*s) medianOfThree_func(data, m, m-s, m+s) medianOfThree_func(data, hi-1, hi-1-s, hi-1-2*s) } medianOfThree_func(data, lo, m, hi-1) pivot := lo a, c := lo+1, hi-1 for ; a < c && data.Less(a, pivot); a++ { } b := a for { for ; b < c && !data.Less(pivot, b); b++ { } for ; b < c && data.Less(pivot, c-1); c-- { } if b >= c { break } data.Swap(b, c-1) b++ c-- } protect := hi-c < 5 if !protect && hi-c < (hi-lo)/4 { dups := 0 if !data.Less(pivot, hi-1) { data.Swap(c, hi-1) c++ dups++ } if !data.Less(b-1, pivot) { b-- dups++ } if !data.Less(m, pivot) { data.Swap(m, b-1) b-- dups++ } protect = dups > 1 } if protect { for { for ; a < b && !data.Less(b-1, pivot); b-- { } for ; a < b && data.Less(a, pivot); a++ { } if a >= b { break } data.Swap(a, b-1) a++ b-- } } data.Swap(pivot, b-1) return b - 1, c } // Auto-generated variant of sort.go:insertionSort func insertionSort_func(data lessSwap, a, b int) { for i := a + 1; i < b; i++ { for j := i; j > a && data.Less(j, j-1); j-- { data.Swap(j, j-1) } } } // Auto-generated variant of sort.go:siftDown func siftDown_func(data lessSwap, lo, hi, first int) { root := lo for { child := 2*root + 1 if child >= hi { break } if child+1 < hi && data.Less(first+child, first+child+1) { child++ } if !data.Less(first+root, first+child) { return } data.Swap(first+root, first+child) root = child } } // Auto-generated variant of sort.go:medianOfThree func medianOfThree_func(data lessSwap, m1, m0, m2 int) { if data.Less(m1, m0) { data.Swap(m1, m0) } if data.Less(m2, m1) { data.Swap(m2, m1) if data.Less(m1, m0) { data.Swap(m1, m0) } } }