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expectation.message.go
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/
expectation.message.go
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package testkit
import (
"fmt"
"reflect"
"github.com/dogmatiq/configkit/message"
"github.com/dogmatiq/dogma"
"github.com/dogmatiq/testkit/envelope"
"github.com/dogmatiq/testkit/fact"
"github.com/dogmatiq/testkit/internal/inflect"
"github.com/dogmatiq/testkit/internal/report"
"github.com/dogmatiq/testkit/internal/typecmp"
)
// ToExecuteCommand returns an expectation that passes if a command is executed
// that is equal to m.
func ToExecuteCommand(m dogma.Message) Expectation {
if err := validateMessage(m); err != nil {
panic(fmt.Sprintf("ToExecuteCommand(%T): %s", m, err))
}
return &messageExpectation{
expectedMessage: m,
expectedType: message.TypeOf(m),
expectedRole: message.CommandRole,
}
}
// ToRecordEvent returns an expectation that passes if an event is recorded that
// is equal to m.
func ToRecordEvent(m dogma.Message) Expectation {
if err := validateMessage(m); err != nil {
panic(fmt.Sprintf("ToRecordEvent(%T): %s", m, err))
}
return &messageExpectation{
expectedMessage: m,
expectedType: message.TypeOf(m),
expectedRole: message.EventRole,
}
}
// messageTypeExpectation is an Expectation that checks that specific message is
// produced.
//
// It is the implementation used by ToExecuteCommand() and ToRecordEvent().
type messageExpectation struct {
expectedMessage dogma.Message
expectedType message.Type
expectedRole message.Role
}
func (e *messageExpectation) Caption() string {
return inflect.Sprintf(
e.expectedRole,
"to <produce> a specific '%s' <message>",
e.expectedType,
)
}
func (e *messageExpectation) Predicate(s PredicateScope) (Predicate, error) {
return &messagePredicate{
messageComparator: s.Options.MessageComparator,
expectedMessage: e.expectedMessage,
expectedType: e.expectedType,
expectedRole: e.expectedRole,
bestMatchDistance: typecmp.Unrelated,
tracker: tracker{
role: e.expectedRole,
options: s.Options,
},
}, validateRole(s, e.expectedType, e.expectedRole)
}
// messagePredicate is the Predicate implementation for messageExpectation.
type messagePredicate struct {
messageComparator MessageComparator
expectedMessage dogma.Message
expectedRole message.Role
expectedType message.Type
ok bool
bestMatch *envelope.Envelope
bestMatchDistance typecmp.Distance
bestMatchIsEqual bool
tracker tracker
}
// Notify updates the expectation's state in response to a new fact.
func (p *messagePredicate) Notify(f fact.Fact) {
if p.ok {
return
}
if env, ok := p.tracker.Notify(f); ok {
p.messageProduced(env)
}
}
// messageProduced updates the predicate's state to reflect the fact that a
// message has been produced.
func (p *messagePredicate) messageProduced(env *envelope.Envelope) {
isEqual := p.messageComparator
if isEqual == nil {
isEqual = DefaultMessageComparator
}
if !isEqual(env.Message, p.expectedMessage) {
p.updateBestMatch(env)
return
}
p.bestMatch = env
p.bestMatchDistance = typecmp.Identical
p.bestMatchIsEqual = true
if env.Role == p.expectedRole {
p.ok = true
}
}
// updateBestMatch replaces p.bestMatch with env if it is a better match.
func (p *messagePredicate) updateBestMatch(env *envelope.Envelope) {
dist := typecmp.MeasureDistance(
reflect.TypeOf(p.expectedMessage),
reflect.TypeOf(env.Message),
)
if dist < p.bestMatchDistance {
p.bestMatch = env
p.bestMatchDistance = dist
}
}
func (p *messagePredicate) Ok() bool {
return p.ok
}
func (p *messagePredicate) Done() {
}
func (p *messagePredicate) Report(treeOk bool) *Report {
rep := &Report{
TreeOk: treeOk,
Ok: p.ok,
Criteria: inflect.Sprintf(
p.expectedRole,
"<produce> a specific '%s' <message>",
message.TypeOf(p.expectedMessage),
),
}
if treeOk || p.ok {
return rep
}
if p.bestMatch == nil {
reportNoMatch(rep, &p.tracker)
return rep
}
s := rep.Section(suggestionsSection)
if p.bestMatchDistance == typecmp.Identical {
if p.bestMatch.Origin == nil {
rep.Explanation = inflect.Sprint(
p.expectedRole,
"a similar <message> was <produced> via a <dispatcher>",
)
} else {
rep.Explanation = inflect.Sprintf(
p.expectedRole,
"a similar <message> was <produced> by the '%s' %s message handler",
p.bestMatch.Origin.Handler.Identity().Name,
p.bestMatch.Origin.HandlerType,
)
}
s.AppendListItem("check the content of the message")
} else {
if p.bestMatch.Origin == nil {
rep.Explanation = inflect.Sprint(
p.expectedRole,
"a <message> of a similar type was <produced> via a <dispatcher>",
)
} else {
rep.Explanation = inflect.Sprintf(
p.expectedRole,
"a <message> of a similar type was <produced> by the '%s' %s message handler",
p.bestMatch.Origin.Handler.Identity().Name,
p.bestMatch.Origin.HandlerType,
)
}
// note this language here is deliberately vague, it doesn't imply
// whether it currently is or isn't a pointer, just questions if it
// should be.
s.AppendListItem("check the message type, should it be a pointer?")
}
p.buildDiff(rep)
return rep
}
// buildDiff adds a "message diff" section to the result.
func (p *messagePredicate) buildDiff(rep *Report) {
report.WriteDiff(
&rep.Section("Message Diff").Content,
report.RenderMessage(p.expectedMessage),
report.RenderMessage(p.bestMatch.Message),
)
}