benchmath/aexact.go - perf - Git at Google

 // Copyright 2022 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 benchmath

 import "fmt"

 // AssumeExact is an assumption that a value can be measured exactly
 // and thus has no distribution and does not require repeated sampling.
 // It reports a warning if not all values in a sample are equal.
 var AssumeExact = assumeExact{}

 type assumeExact struct{}

 var _ Assumption = assumeExact{}

 func (assumeExact) SummaryLabel() string {
 	// Really the summary is the mode, but the point of this
 	// assumption is that the summary is the exact value.
 	return "exact"
 }

 func (assumeExact) Summary(s *Sample, confidence float64) Summary {
 	// Find the sample's mode. This checks if all samples are the
 	// same, and lets us return a reasonable summary even if they
 	// aren't all the same.
 	val, count := s.Values[0], 1
 	modeVal, modeCount := val, count
 	for _, v := range s.Values[1:] {
 		if v == val {
 			count++
 			if count > modeCount {
 				modeVal, modeCount = val, count
 			}
 		} else {
 			val, count = v, 1
 		}
 	}
 	summary := Summary{Center: modeVal, Lo: s.Values[0], Hi: s.Values[len(s.Values)-1], Confidence: 1}

 	if modeCount != len(s.Values) {
 		// They're not all the same. Report a warning.
 		summary.Warnings = []error{fmt.Errorf("exact distribution expected, but values range from %v to %v", s.Values[0], s.Values[len(s.Values)-1])}
 	}
 	return summary
 }

 func (assumeExact) Compare(s1, s2 *Sample) Comparison {
 	return Comparison{P: 0, N1: len(s1.Values), N2: len(s2.Values)}
 }
	// Copyright 2022 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 benchmath

	import "fmt"

	// AssumeExact is an assumption that a value can be measured exactly
	// and thus has no distribution and does not require repeated sampling.
	// It reports a warning if not all values in a sample are equal.
	var AssumeExact = assumeExact{}

	type assumeExact struct{}

	var _ Assumption = assumeExact{}

	func (assumeExact) SummaryLabel() string {
	// Really the summary is the mode, but the point of this
	// assumption is that the summary is the exact value.
	return "exact"
	}

	func (assumeExact) Summary(s *Sample, confidence float64) Summary {
	// Find the sample's mode. This checks if all samples are the
	// same, and lets us return a reasonable summary even if they
	// aren't all the same.
	val, count := s.Values[0], 1
	modeVal, modeCount := val, count
	for _, v := range s.Values[1:] {
	if v == val {
	count++
	if count > modeCount {
	modeVal, modeCount = val, count
	}
	} else {
	val, count = v, 1
	}
	}
	summary := Summary{Center: modeVal, Lo: s.Values[0], Hi: s.Values[len(s.Values)-1], Confidence: 1}

	if modeCount != len(s.Values) {
	// They're not all the same. Report a warning.
	summary.Warnings = []error{fmt.Errorf("exact distribution expected, but values range from %v to %v", s.Values[0], s.Values[len(s.Values)-1])}
	}
	return summary
	}

	func (assumeExact) Compare(s1, s2 *Sample) Comparison {
	return Comparison{P: 0, N1: len(s1.Values), N2: len(s2.Values)}
	}