// Code generated by counterfeiter. DO NOT EDIT. package metricsfakes import ( "sync" "github.com/hyperledger/fabric/common/metrics" ) type Provider struct { NewCounterStub func(metrics.CounterOpts) metrics.Counter newCounterMutex sync.RWMutex newCounterArgsForCall []struct { arg1 metrics.CounterOpts } newCounterReturns struct { result1 metrics.Counter } newCounterReturnsOnCall map[int]struct { result1 metrics.Counter } NewGaugeStub func(metrics.GaugeOpts) metrics.Gauge newGaugeMutex sync.RWMutex newGaugeArgsForCall []struct { arg1 metrics.GaugeOpts } newGaugeReturns struct { result1 metrics.Gauge } newGaugeReturnsOnCall map[int]struct { result1 metrics.Gauge } NewHistogramStub func(metrics.HistogramOpts) metrics.Histogram newHistogramMutex sync.RWMutex newHistogramArgsForCall []struct { arg1 metrics.HistogramOpts } newHistogramReturns struct { result1 metrics.Histogram } newHistogramReturnsOnCall map[int]struct { result1 metrics.Histogram } invocations map[string][][]interface{} invocationsMutex sync.RWMutex } func (fake *Provider) NewCounter(arg1 metrics.CounterOpts) metrics.Counter { fake.newCounterMutex.Lock() ret, specificReturn := fake.newCounterReturnsOnCall[len(fake.newCounterArgsForCall)] fake.newCounterArgsForCall = append(fake.newCounterArgsForCall, struct { arg1 metrics.CounterOpts }{arg1}) fake.recordInvocation("NewCounter", []interface{}{arg1}) fake.newCounterMutex.Unlock() if fake.NewCounterStub != nil { return fake.NewCounterStub(arg1) } if specificReturn { return ret.result1 } fakeReturns := fake.newCounterReturns return fakeReturns.result1 } func (fake *Provider) NewCounterCallCount() int { fake.newCounterMutex.RLock() defer fake.newCounterMutex.RUnlock() return len(fake.newCounterArgsForCall) } func (fake *Provider) NewCounterCalls(stub func(metrics.CounterOpts) metrics.Counter) { fake.newCounterMutex.Lock() defer fake.newCounterMutex.Unlock() fake.NewCounterStub = stub } func (fake *Provider) NewCounterArgsForCall(i int) metrics.CounterOpts { fake.newCounterMutex.RLock() defer fake.newCounterMutex.RUnlock() argsForCall := fake.newCounterArgsForCall[i] return argsForCall.arg1 } func (fake *Provider) NewCounterReturns(result1 metrics.Counter) { fake.newCounterMutex.Lock() defer fake.newCounterMutex.Unlock() fake.NewCounterStub = nil fake.newCounterReturns = struct { result1 metrics.Counter }{result1} } func (fake *Provider) NewCounterReturnsOnCall(i int, result1 metrics.Counter) { fake.newCounterMutex.Lock() defer fake.newCounterMutex.Unlock() fake.NewCounterStub = nil if fake.newCounterReturnsOnCall == nil { fake.newCounterReturnsOnCall = make(map[int]struct { result1 metrics.Counter }) } fake.newCounterReturnsOnCall[i] = struct { result1 metrics.Counter }{result1} } func (fake *Provider) NewGauge(arg1 metrics.GaugeOpts) metrics.Gauge { fake.newGaugeMutex.Lock() ret, specificReturn := fake.newGaugeReturnsOnCall[len(fake.newGaugeArgsForCall)] fake.newGaugeArgsForCall = append(fake.newGaugeArgsForCall, struct { arg1 metrics.GaugeOpts }{arg1}) fake.recordInvocation("NewGauge", []interface{}{arg1}) fake.newGaugeMutex.Unlock() if fake.NewGaugeStub != nil { return fake.NewGaugeStub(arg1) } if specificReturn { return ret.result1 } fakeReturns := fake.newGaugeReturns return fakeReturns.result1 } func (fake *Provider) NewGaugeCallCount() int { fake.newGaugeMutex.RLock() defer fake.newGaugeMutex.RUnlock() return len(fake.newGaugeArgsForCall) } func (fake *Provider) NewGaugeCalls(stub func(metrics.GaugeOpts) metrics.Gauge) { fake.newGaugeMutex.Lock() defer fake.newGaugeMutex.Unlock() fake.NewGaugeStub = stub } func (fake *Provider) NewGaugeArgsForCall(i int) metrics.GaugeOpts { fake.newGaugeMutex.RLock() defer fake.newGaugeMutex.RUnlock() argsForCall := fake.newGaugeArgsForCall[i] return argsForCall.arg1 } func (fake *Provider) NewGaugeReturns(result1 metrics.Gauge) { fake.newGaugeMutex.Lock() defer fake.newGaugeMutex.Unlock() fake.NewGaugeStub = nil fake.newGaugeReturns = struct { result1 metrics.Gauge }{result1} } func (fake *Provider) NewGaugeReturnsOnCall(i int, result1 metrics.Gauge) { fake.newGaugeMutex.Lock() defer fake.newGaugeMutex.Unlock() fake.NewGaugeStub = nil if fake.newGaugeReturnsOnCall == nil { fake.newGaugeReturnsOnCall = make(map[int]struct { result1 metrics.Gauge }) } fake.newGaugeReturnsOnCall[i] = struct { result1 metrics.Gauge }{result1} } func (fake *Provider) NewHistogram(arg1 metrics.HistogramOpts) metrics.Histogram { fake.newHistogramMutex.Lock() ret, specificReturn := fake.newHistogramReturnsOnCall[len(fake.newHistogramArgsForCall)] fake.newHistogramArgsForCall = append(fake.newHistogramArgsForCall, struct { arg1 metrics.HistogramOpts }{arg1}) fake.recordInvocation("NewHistogram", []interface{}{arg1}) fake.newHistogramMutex.Unlock() if fake.NewHistogramStub != nil { return fake.NewHistogramStub(arg1) } if specificReturn { return ret.result1 } fakeReturns := fake.newHistogramReturns return fakeReturns.result1 } func (fake *Provider) NewHistogramCallCount() int { fake.newHistogramMutex.RLock() defer fake.newHistogramMutex.RUnlock() return len(fake.newHistogramArgsForCall) } func (fake *Provider) NewHistogramCalls(stub func(metrics.HistogramOpts) metrics.Histogram) { fake.newHistogramMutex.Lock() defer fake.newHistogramMutex.Unlock() fake.NewHistogramStub = stub } func (fake *Provider) NewHistogramArgsForCall(i int) metrics.HistogramOpts { fake.newHistogramMutex.RLock() defer fake.newHistogramMutex.RUnlock() argsForCall := fake.newHistogramArgsForCall[i] return argsForCall.arg1 } func (fake *Provider) NewHistogramReturns(result1 metrics.Histogram) { fake.newHistogramMutex.Lock() defer fake.newHistogramMutex.Unlock() fake.NewHistogramStub = nil fake.newHistogramReturns = struct { result1 metrics.Histogram }{result1} } func (fake *Provider) NewHistogramReturnsOnCall(i int, result1 metrics.Histogram) { fake.newHistogramMutex.Lock() defer fake.newHistogramMutex.Unlock() fake.NewHistogramStub = nil if fake.newHistogramReturnsOnCall == nil { fake.newHistogramReturnsOnCall = make(map[int]struct { result1 metrics.Histogram }) } fake.newHistogramReturnsOnCall[i] = struct { result1 metrics.Histogram }{result1} } func (fake *Provider) Invocations() map[string][][]interface{} { fake.invocationsMutex.RLock() defer fake.invocationsMutex.RUnlock() fake.newCounterMutex.RLock() defer fake.newCounterMutex.RUnlock() fake.newGaugeMutex.RLock() defer fake.newGaugeMutex.RUnlock() fake.newHistogramMutex.RLock() defer fake.newHistogramMutex.RUnlock() copiedInvocations := map[string][][]interface{}{} for key, value := range fake.invocations { copiedInvocations[key] = value } return copiedInvocations } func (fake *Provider) 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 _ metrics.Provider = new(Provider)