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fake_step.go
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fake_step.go
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// Code generated by counterfeiter. DO NOT EDIT.
package execfakes
import (
"os"
"sync"
"github.com/concourse/atc/exec"
)
type FakeStep struct {
RunStub func(signals <-chan os.Signal, ready chan<- struct{}) error
runMutex sync.RWMutex
runArgsForCall []struct {
signals <-chan os.Signal
ready chan<- struct{}
}
runReturns struct {
result1 error
}
runReturnsOnCall map[int]struct {
result1 error
}
SucceededStub func() bool
succeededMutex sync.RWMutex
succeededArgsForCall []struct{}
succeededReturns struct {
result1 bool
}
succeededReturnsOnCall map[int]struct {
result1 bool
}
invocations map[string][][]interface{}
invocationsMutex sync.RWMutex
}
func (fake *FakeStep) Run(signals <-chan os.Signal, ready chan<- struct{}) error {
fake.runMutex.Lock()
ret, specificReturn := fake.runReturnsOnCall[len(fake.runArgsForCall)]
fake.runArgsForCall = append(fake.runArgsForCall, struct {
signals <-chan os.Signal
ready chan<- struct{}
}{signals, ready})
fake.recordInvocation("Run", []interface{}{signals, ready})
fake.runMutex.Unlock()
if fake.RunStub != nil {
return fake.RunStub(signals, ready)
}
if specificReturn {
return ret.result1
}
return fake.runReturns.result1
}
func (fake *FakeStep) RunCallCount() int {
fake.runMutex.RLock()
defer fake.runMutex.RUnlock()
return len(fake.runArgsForCall)
}
func (fake *FakeStep) RunArgsForCall(i int) (<-chan os.Signal, chan<- struct{}) {
fake.runMutex.RLock()
defer fake.runMutex.RUnlock()
return fake.runArgsForCall[i].signals, fake.runArgsForCall[i].ready
}
func (fake *FakeStep) RunReturns(result1 error) {
fake.RunStub = nil
fake.runReturns = struct {
result1 error
}{result1}
}
func (fake *FakeStep) RunReturnsOnCall(i int, result1 error) {
fake.RunStub = nil
if fake.runReturnsOnCall == nil {
fake.runReturnsOnCall = make(map[int]struct {
result1 error
})
}
fake.runReturnsOnCall[i] = struct {
result1 error
}{result1}
}
func (fake *FakeStep) Succeeded() bool {
fake.succeededMutex.Lock()
ret, specificReturn := fake.succeededReturnsOnCall[len(fake.succeededArgsForCall)]
fake.succeededArgsForCall = append(fake.succeededArgsForCall, struct{}{})
fake.recordInvocation("Succeeded", []interface{}{})
fake.succeededMutex.Unlock()
if fake.SucceededStub != nil {
return fake.SucceededStub()
}
if specificReturn {
return ret.result1
}
return fake.succeededReturns.result1
}
func (fake *FakeStep) SucceededCallCount() int {
fake.succeededMutex.RLock()
defer fake.succeededMutex.RUnlock()
return len(fake.succeededArgsForCall)
}
func (fake *FakeStep) SucceededReturns(result1 bool) {
fake.SucceededStub = nil
fake.succeededReturns = struct {
result1 bool
}{result1}
}
func (fake *FakeStep) SucceededReturnsOnCall(i int, result1 bool) {
fake.SucceededStub = nil
if fake.succeededReturnsOnCall == nil {
fake.succeededReturnsOnCall = make(map[int]struct {
result1 bool
})
}
fake.succeededReturnsOnCall[i] = struct {
result1 bool
}{result1}
}
func (fake *FakeStep) Invocations() map[string][][]interface{} {
fake.invocationsMutex.RLock()
defer fake.invocationsMutex.RUnlock()
fake.runMutex.RLock()
defer fake.runMutex.RUnlock()
fake.succeededMutex.RLock()
defer fake.succeededMutex.RUnlock()
copiedInvocations := map[string][][]interface{}{}
for key, value := range fake.invocations {
copiedInvocations[key] = value
}
return copiedInvocations
}
func (fake *FakeStep) recordInvocation(key string, args []interface{}) {
fake.invocationsMutex.Lock()
defer fake.invocationsMutex.Unlock()
if fake.invocations == nil {
fake.invocations = map[string][][]interface{}{}
}
if fake.invocations[key] == nil {
fake.invocations[key] = [][]interface{}{}
}
fake.invocations[key] = append(fake.invocations[key], args)
}
var _ exec.Step = new(FakeStep)