benchmark/single-source/SortIntPyramids.swift - third_party/swift - Git at Google

 import TestsUtils

 // This benchmark aims to measuare heapSort path of stdlib sorting function.
 // Datasets in this benchmark are influenced by stdlib partition function,
 // therefore if stdlib partion implementation changes we should correct these
 // datasets or disable/skip this benchmark
 public let SortIntPyramids = [
   BenchmarkInfo(
     name: "SortIntPyramid",
     runFunction: run_SortIntPyramid,
     tags: [.validation, .api, .algorithm]),
   BenchmarkInfo(
     name: "SortAdjacentIntPyramids",
     runFunction: run_SortAdjacentIntPyramids,
     tags: [.validation, .api, .algorithm]),
 ]

 // let A - array sorted in ascending order,
 // A^R - reversed array A, + - array concatenation operator
 // A indices are in range 1...A.length
 // define the pyramid as A + A^R
 // define pyramid height as A[A.length]

 // On 92% of following dataset stdlib sorting function will use heapSort.
 // number of ranges sorted by heapSort: 26
 // median heapSort range length: 198
 // maximum -||-: 1774
 // average -||-: 357

 // pyramid height
 let pH = 5000
 let pyramidTemplate: [Int] = (1...pH) + (1...pH).reversed()

 // let A - array sorted in ascending order,
 // A^R - reversed array A, + - array concatenation operator,
 // A indices are in range 1...A.length.
 // define adjacent pyramid as A + A^R + A + A^R,
 // defne adjacent pyramid hight as A[A.length].


 // On 25% of following dataset stdlib sorting function will use heapSort.
 // number of ranges sorted by heapSort: 71
 // median heapSort range length: 28
 // maximum -||-: 120
 // average -||-: 36

 // adjacent pyramids height.
 let aPH = pH / 2
 let adjacentPyramidsTemplate: [Int] = (1...aPH) + (1...aPH).reversed()
                                     + (1...aPH) + (1...aPH).reversed()

 @inline(never)
 public func run_SortIntPyramid(_ N: Int) {
   for _ in 1...25*N {
     var pyramid = pyramidTemplate

     // sort pyramid in place.
     pyramid.sort()

     // Check whether pyramid is sorted.
     CheckResults(pyramid[0] <= pyramid[pyramid.count/2])
   }
 }

 @inline(never)
 public func run_SortAdjacentIntPyramids(_ N: Int) {
   for _ in 1...25*N {
     var adjacentPyramids = adjacentPyramidsTemplate
     adjacentPyramids.sort()
     // Check whether pyramid is sorted.
     CheckResults(
       adjacentPyramids[0] <= adjacentPyramids[adjacentPyramids.count/2])
   }
 }
	import TestsUtils

	// This benchmark aims to measuare heapSort path of stdlib sorting function.
	// Datasets in this benchmark are influenced by stdlib partition function,
	// therefore if stdlib partion implementation changes we should correct these
	// datasets or disable/skip this benchmark
	public let SortIntPyramids = [
	BenchmarkInfo(
	name: "SortIntPyramid",
	runFunction: run_SortIntPyramid,
	tags: [.validation, .api, .algorithm]),
	BenchmarkInfo(
	name: "SortAdjacentIntPyramids",
	runFunction: run_SortAdjacentIntPyramids,
	tags: [.validation, .api, .algorithm]),
	]

	// let A - array sorted in ascending order,
	// A^R - reversed array A, + - array concatenation operator
	// A indices are in range 1...A.length
	// define the pyramid as A + A^R
	// define pyramid height as A[A.length]

	// On 92% of following dataset stdlib sorting function will use heapSort.
	// number of ranges sorted by heapSort: 26
	// median heapSort range length: 198
	// maximum -\|\|-: 1774
	// average -\|\|-: 357

	// pyramid height
	let pH = 5000
	let pyramidTemplate: [Int] = (1...pH) + (1...pH).reversed()

	// let A - array sorted in ascending order,
	// A^R - reversed array A, + - array concatenation operator,
	// A indices are in range 1...A.length.
	// define adjacent pyramid as A + A^R + A + A^R,
	// defne adjacent pyramid hight as A[A.length].


	// On 25% of following dataset stdlib sorting function will use heapSort.
	// number of ranges sorted by heapSort: 71
	// median heapSort range length: 28
	// maximum -\|\|-: 120
	// average -\|\|-: 36

	// adjacent pyramids height.
	let aPH = pH / 2
	let adjacentPyramidsTemplate: [Int] = (1...aPH) + (1...aPH).reversed()
	+ (1...aPH) + (1...aPH).reversed()

	@inline(never)
	public func run_SortIntPyramid(_ N: Int) {
	for _ in 1...25*N {
	var pyramid = pyramidTemplate

	// sort pyramid in place.
	pyramid.sort()

	// Check whether pyramid is sorted.
	CheckResults(pyramid[0] <= pyramid[pyramid.count/2])
	}
	}

	@inline(never)
	public func run_SortAdjacentIntPyramids(_ N: Int) {
	for _ in 1...25*N {
	var adjacentPyramids = adjacentPyramidsTemplate
	adjacentPyramids.sort()
	// Check whether pyramid is sorted.
	CheckResults(
	adjacentPyramids[0] <= adjacentPyramids[adjacentPyramids.count/2])
	}
	}