revive/testdata/cognitive_complexity.go

// Test of cognitive complexity.

// Package pkg ...
package pkg

import (
	"fmt"
	ast "go/ast"
	"log"
	"testing"

	"k8s.io/klog"
)

// Test IF and Boolean expr
func f(x int) bool { // MATCH /function f has cognitive complexity 3 (> max enabled 0)/
	if x > 0 && true || false { // +3
		return true
	} else {
		log.Printf("non-positive x: %d", x)
	}
	return false
}

// Test IF
func g(f func() bool) string { // MATCH /function g has cognitive complexity 1 (> max enabled 0)/
	if ok := f(); ok { // +1
		return "it's okay"
	} else {
		return "it's NOT okay!"
	}
}

// Test Boolean expr
func h(a, b, c, d, e, f bool) bool { // MATCH /function h has cognitive complexity 3 (> max enabled 0)/
	return a && b && c || d || e && f // +3
}

func i(a, b, c, d, e, f bool) bool { // MATCH /function i has cognitive complexity 2 (> max enabled 0)/
	result := a && b && c || d || e // +2
	return result
}

func j(a, b, c, d, e, f bool) bool { // MATCH /function j has cognitive complexity 2 (> max enabled 0)/
	result := z(a && !(b && c)) // +2
	return result
}

func j1(a, b, c, d, e, f bool) bool { // MATCH /function j1 has cognitive complexity 2 (> max enabled 0)/
	return (a && !(b < 2) || c)
}

// Test Switch expr
func k(a, b, c, d, e, f bool) bool { // MATCH /function k has cognitive complexity 1 (> max enabled 0)/
	switch expr { // +1
	case cond1:
	case cond2:
	default:
	}

	return result
}

// Test nesting FOR expr + nested IF
func l() { // MATCH /function l has cognitive complexity 6 (> max enabled 0)/
	for i := 1; i <= max; i++ { // +1
		for j := 2; j < i; j++ { // +1 +1(nesting)
			if i%j == 0 { // +1 +2(nesting)
				continue
			}
		}

		total += i
	}
	return total
}

// Test nesting IF
func m() { // MATCH /function m has cognitive complexity 6 (> max enabled 0)/
	if i <= max { // +1
		if j < i { // +1 +1(nesting)
			if i%j == 0 { // +1 +2(nesting)
				return 0
			}
		}

		total += i
	}
	return total
}

// Test nesting IF + nested FOR
func n() { // MATCH /function n has cognitive complexity 6 (> max enabled 0)/
	if i > max { // +1
		for j := 2; j < i; j++ { // +1 +1(nesting)
			if i%j == 0 { // +1 +2(nesting)
				continue
			}
		}

		total += i
	}
	return total
}

// Test nesting
func o() { // MATCH /function o has cognitive complexity 12 (> max enabled 0)/
	if i > max { // +1
		if j < i { // +1 +1(nesting)
			if i%j == 0 { // +1 +2(nesting)
				return
			}
		}

		total += i
	}

	if i > max { // +1
		if j < i { // +1 +1(nesting)
			if i%j == 0 { // +1 +2(nesting)
				return
			}
		}

		total += i
	}
}

// Tests TYPE SWITCH
func p() { // MATCH /function p has cognitive complexity 1 (> max enabled 0)/
	switch n := n.(type) { // +1
	case *ast.IfStmt:
		targets := []ast.Node{n.Cond, n.Body, n.Else}
		v.walk(targets...)
		return nil
	case *ast.ForStmt:
		v.walk(n.Body)
		return nil
	case *ast.TypeSwitchStmt:
		v.walk(n.Body)
		return nil
	case *ast.BinaryExpr:
		v.complexity += v.binExpComplexity(n)
		return nil
	}
}

// Test RANGE
func q() { // MATCH /function q has cognitive complexity 1 (> max enabled 0)/
	for _, t := range targets { // +1
		ast.Walk(v, t)
	}
}

// Tests SELECT
func r() { // MATCH /function r has cognitive complexity 1 (> max enabled 0)/
	select { // +1
	case c <- x:
		x, y = y, x+y
	case <-quit:
		fmt.Println("quit")
		return
	}
}

// Test jump to label
func s() { // MATCH /function s has cognitive complexity 3 (> max enabled 0)/
FirstLoop:
	for i := 0; i < 10; i++ { // +1
		break
	}
	for i := 0; i < 10; i++ { // +1
		break FirstLoop // +1
	}
}

func t() { // MATCH /function t has cognitive complexity 2 (> max enabled 0)/
FirstLoop:
	for i := 0; i < 10; i++ { // +1
		goto FirstLoop // +1
	}
}

func u() { // MATCH /function u has cognitive complexity 3 (> max enabled 0)/
FirstLoop:
	for i := 0; i < 10; i++ { // +1
		continue
	}
	for i := 0; i < 10; i++ { // +1
		continue FirstLoop // +1
	}
}

// Tests FUNC LITERAL
func v() { // MATCH /function v has cognitive complexity 2 (> max enabled 0)/
	myFunc := func(b bool) {
		if b { // +1 +1(nesting)

		}
	}
}

func v() {
	t.Run(tc.desc, func(t *testing.T) {})
}

func w() { // MATCH /function w has cognitive complexity 3 (> max enabled 0)/
	defer func(b bool) {
		if b { // +1 +1(nesting)

		}
	}(false || true) // +1
}

// Test from Cognitive Complexity white paper
func sumOfPrimes(max int) int { // MATCH /function sumOfPrimes has cognitive complexity 7 (> max enabled 0)/
	total := 0
OUT:
	for i := 1; i <= max; i++ { // +1
		for j := 2; j < i; j++ { // +1 +1(nesting)
			if i%j == 0 { // +1 +2(nesting)
				continue OUT // +1
			}
		}

		total += i
	}
	return total
}

// Test from K8S
func (m *Migrator) MigrateIfNeeded(target *EtcdVersionPair) error { // MATCH /function (*Migrator).MigrateIfNeeded has cognitive complexity 18 (> max enabled 0)/
	klog.Infof("Starting migration to %s", target)
	err := m.dataDirectory.Initialize(target)
	if err != nil { // +1
		return fmt.Errorf("failed to initialize data directory %s: %v", m.dataDirectory.path, err)
	}

	var current *EtcdVersionPair
	vfExists, err := m.dataDirectory.versionFile.Exists()
	if err != nil { // +1
		return err
	}
	if vfExists { // +1
		current, err = m.dataDirectory.versionFile.Read()
		if err != nil { // +1 +1
			return err
		}
	} else {
		return fmt.Errorf("existing data directory '%s' is missing version.txt file, unable to migrate", m.dataDirectory.path)
	}

	for { // +1
		klog.Infof("Converging current version '%s' to target version '%s'", current, target)
		currentNextMinorVersion := &EtcdVersion{}
		switch { // +1 +1
		case current.version.MajorMinorEquals(target.version) || currentNextMinorVersion.MajorMinorEquals(target.version): // +1
			klog.Infof("current version '%s' equals or is one minor version previous of target version '%s' - migration complete", current, target)
			err = m.dataDirectory.versionFile.Write(target)
			if err != nil { // +1 +2
				return fmt.Errorf("failed to write version.txt to '%s': %v", m.dataDirectory.path, err)
			}
			return nil
		case current.storageVersion == storageEtcd2 && target.storageVersion == storageEtcd3: // +1
			return fmt.Errorf("upgrading from etcd2 storage to etcd3 storage is not supported")
		case current.version.Major == 3 && target.version.Major == 2: // +1
			return fmt.Errorf("downgrading from etcd 3.x to 2.x is not supported")
		case current.version.Major == target.version.Major && current.version.Minor < target.version.Minor: // +1
			stepVersion := m.cfg.supportedVersions.NextVersionPair(current)
			klog.Infof("upgrading etcd from %s to %s", current, stepVersion)
			current, err = m.minorVersionUpgrade(current, stepVersion)
		case current.version.Major == 3 && target.version.Major == 3 && current.version.Minor > target.version.Minor: // +1
			klog.Infof("rolling etcd back from %s to %s", current, target)
			current, err = m.rollbackEtcd3MinorVersion(current, target)
		}
		if err != nil { // +1 +1
			return err
		}
	}
}

// no regression test for issue #451
func myFunc()