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scope_test.go
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scope_test.go
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// Copyright (c) 2021 Uber Technologies, Inc.
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
package dig_test
import (
"testing"
"github.com/stretchr/testify/assert"
"go.uber.org/dig"
"go.uber.org/dig/internal/digtest"
)
func TestScopedOperations(t *testing.T) {
t.Parallel()
t.Run("private provides", func(t *testing.T) {
c := digtest.New(t)
s := c.Scope("child")
type A struct{}
f := func(a *A) {
assert.NotEqual(t, nil, a)
}
s.RequireProvide(func() *A { return &A{} })
s.RequireInvoke(f)
assert.Error(t, c.Invoke(f))
})
t.Run("private provides inherits", func(t *testing.T) {
type A struct{}
type B struct{}
useA := func(a *A) {
assert.NotEqual(t, nil, a)
}
useB := func(b *B) {
assert.NotEqual(t, nil, b)
}
c := digtest.New(t)
c.RequireProvide(func() *A { return &A{} })
child := c.Scope("child")
child.RequireProvide(func() *B { return &B{} })
child.RequireInvoke(useA)
child.RequireInvoke(useB)
grandchild := child.Scope("grandchild")
grandchild.RequireInvoke(useA)
grandchild.RequireInvoke(useB)
assert.Error(t, c.Invoke(useB))
})
t.Run("private provides doesn't depend on invoke order", func(t *testing.T) {
c := digtest.New(t)
child := c.Scope("child")
c.RequireProvide(func() string { return "container" })
child.RequireProvide(func() string { return "child" })
verifyContainerStr := func(s string) {
assert.Equal(t, "container", s)
}
verifyChildStr := func(s string) {
assert.Equal(t, "child", s)
}
c.RequireInvoke(verifyContainerStr)
child.RequireInvoke(verifyChildStr)
})
t.Run("provides to top-level Container propagates to all scopes", func(t *testing.T) {
type A struct{}
// Scope tree:
// root <-- Provide(func() *A)
// / \
// c1 c2
// | / \
// gc1 gc2 gc3
var allScopes []*digtest.Scope
root := digtest.New(t)
allScopes = append(allScopes, root.Scope("child 1"), root.Scope("child 2"))
allScopes = append(allScopes, allScopes[0].Scope("grandchild 1"), allScopes[1].Scope("grandchild 2"), allScopes[1].Scope("grandchild 3"))
root.RequireProvide(func() *A {
return &A{}
})
// top-level provide should be available in all the scopes.
for _, scope := range allScopes {
scope.RequireInvoke(func(a *A) {})
}
})
t.Run("provide with Export", func(t *testing.T) {
// Scope tree:
// root
// / \
// c1 c2
// | / \
// gc1 gc2 gc3 <-- Provide(func() *A)
root := digtest.New(t)
var allScopes []*digtest.Scope
allScopes = append(allScopes, root.Scope("child 1"), root.Scope("child 2"))
allScopes = append(allScopes, allScopes[0].Scope("grandchild 1"), allScopes[1].Scope("grandchild 2"), allScopes[1].Scope("grandchild 3"))
type A struct{}
// provide to the leaf Scope with Export option set.
allScopes[len(allScopes)-1].RequireProvide(func() *A {
return &A{}
}, dig.Export(true))
// since constructor was provided with Export option, this should let all the Scopes below should see it.
for _, scope := range allScopes {
scope.RequireInvoke(func(a *A) {})
}
})
t.Run("parent shares values with children", func(t *testing.T) {
type (
T1 struct{ s string }
T2 struct{}
)
parent := digtest.New(t)
parent.RequireProvide(func() T1 {
assert.Fail(t, "parent should not be called")
return T1{"parent"}
})
child := parent.Scope("child")
var childCalled bool
defer func() {
assert.True(t, childCalled, "child constructor must be called")
}()
child.RequireProvide(func() T1 {
childCalled = true
return T1{"child"}
})
child.RequireProvide(func(v T1) T2 {
assert.Equal(t, "child", v.s,
"value should be built by child")
return T2{}
})
child.RequireInvoke(func(T2) {})
})
}
func TestScopeFailures(t *testing.T) {
t.Parallel()
t.Run("introduce a cycle with child", func(t *testing.T) {
// what root sees:
// A <- B C
// | ^
// |_________|
//
// what child sees:
// A <- B <- C
// | ^
// |_________|
type A struct{}
type B struct{}
type C struct{}
newA := func(*C) *A { return &A{} }
newB := func(*A) *B { return &B{} }
newC := func(*B) *C { return &C{} }
// Create a child Scope, and introduce a cycle
// in the child only.
check := func(c *digtest.Container, fails bool) {
s := c.Scope("child")
c.RequireProvide(newA)
s.RequireProvide(newB)
err := c.Provide(newC)
if fails {
assert.Error(t, err, "expected a cycle to be introduced in the child")
assert.Contains(t, err.Error(), `[scope "child"]`)
} else {
assert.NoError(t, err)
}
}
// Same as check, but this time child should inherit
// parent-provided constructors upon construction.
checkWithInheritance := func(c *digtest.Container, fails bool) {
c.RequireProvide(newA)
s := c.Scope("child")
s.RequireProvide(newB)
err := c.Provide(newC)
if fails {
assert.Error(t, err, "expected a cycle to be introduced in the child")
assert.Contains(t, err.Error(), `[scope "child"]`)
} else {
assert.NoError(t, err)
}
}
// Test using different permutations
nodeferContainers := []func() *digtest.Container{
func() *digtest.Container { return digtest.New(t) },
func() *digtest.Container { return digtest.New(t, dig.DryRun(true)) },
func() *digtest.Container { return digtest.New(t, dig.DryRun(false)) },
}
// Container permutations with DeferAcyclicVerification.
deferredContainers := []func() *digtest.Container{
func() *digtest.Container { return digtest.New(t, dig.DeferAcyclicVerification()) },
func() *digtest.Container { return digtest.New(t, dig.DeferAcyclicVerification(), dig.DryRun(true)) },
func() *digtest.Container { return digtest.New(t, dig.DeferAcyclicVerification(), dig.DryRun(false)) },
}
for _, c := range nodeferContainers {
check(c(), true)
checkWithInheritance(c(), true)
}
// with deferAcyclicVerification, these should not
// error on Provides.
for _, c := range deferredContainers {
check(c(), false)
checkWithInheritance(c(), false)
}
})
t.Run("introduce a cycle with Export option", func(t *testing.T) {
// what root and child1 sees:
// A <- B C
// | ^
// |_________|
//
// what child2 sees:
// A <- B <- C
// | ^
// |_________|
type A struct{}
type B struct{}
type C struct{}
newA := func(*C) *A { return &A{} }
newB := func(*A) *B { return &B{} }
newC := func(*B) *C { return &C{} }
root := digtest.New(t)
child1 := root.Scope("child 1")
child2 := root.Scope("child 2")
// A <- B made available to all Scopes with root provision.
root.RequireProvide(newA)
// B <- C made available to only child 2 with private provide.
child2.RequireProvide(newB)
// C <- A made available to all Scopes with Export provide.
err := child1.Provide(newC, dig.Export(true))
assert.Error(t, err, "expected a cycle to be introduced in child 2")
assert.Contains(t, err.Error(), `[scope "child 2"]`)
})
t.Run("private provides do not propagate upstream", func(t *testing.T) {
type A struct{}
root := digtest.New(t)
c := root.Scope("child")
gc := c.Scope("grandchild")
gc.RequireProvide(func() *A { return &A{} })
assert.Error(t, root.Invoke(func(a *A) {}), "invoking on grandchild's private-provided type should fail")
assert.Error(t, c.Invoke(func(a *A) {}), "invoking on child's private-provided type should fail")
})
t.Run("private provides to child should be available to grandchildren, but not root", func(t *testing.T) {
type A struct{}
// Scope tree:
// root
// |
// child <-- Provide(func() *A)
// / \
// gc1 gc2
root := digtest.New(t)
c := root.Scope("child")
gc := c.Scope("grandchild")
c.RequireProvide(func() *A { return &A{} })
err := root.Invoke(func(a *A) {})
assert.Error(t, err, "expected Invoke in root container on child's private-provided type to fail")
assert.Contains(t, err.Error(), "missing type: *dig_test.A")
gc.RequireInvoke(func(a *A) {})
})
}
func TestScopeValueGroups(t *testing.T) {
t.Run("provide in parent and child", func(t *testing.T) {
type result struct {
dig.Out
Value string `group:"foo"`
}
root := digtest.New(t)
root.RequireProvide(func() result {
return result{Value: "a"}
})
root.RequireProvide(func() result {
return result{Value: "b"}
})
root.RequireProvide(func() result {
return result{Value: "c"}
})
child := root.Scope("child")
child.RequireProvide(func() result {
return result{Value: "d"}
})
type param struct {
dig.In
Values []string `group:"foo"`
}
t.Run("invoke parent", func(t *testing.T) {
root.RequireInvoke(func(i param) {
assert.ElementsMatch(t, []string{"a", "b", "c"}, i.Values)
})
})
t.Run("invoke child", func(t *testing.T) {
child.RequireInvoke(func(i param) {
assert.ElementsMatch(t, []string{"a", "b", "c", "d"}, i.Values)
})
})
})
t.Run("value group as a parent dependency", func(t *testing.T) {
// Tree:
//
// root defines a function that consumes the value group
// |
// |
// child produces values to the value group
type T1 struct{}
type param struct {
dig.In
Values []string `group:"foo"`
}
root := digtest.New(t)
root.RequireProvide(func(p param) T1 {
assert.ElementsMatch(t, []string{"a", "b", "c"}, p.Values)
return T1{}
})
child := root.Scope("child")
child.RequireProvide(func() string { return "a" }, dig.Group("foo"), dig.Export(true))
child.RequireProvide(func() string { return "b" }, dig.Group("foo"), dig.Export(true))
child.RequireProvide(func() string { return "c" }, dig.Group("foo"), dig.Export(true))
// Invocation in child should see values provided to the child,
// even though the constructor we're invoking is provided in
// the parent.
child.RequireInvoke(func(T1) {})
})
}
// This tests that a child scope correctly copies its parent's graph,
// including information about the order of each node.
// Otherwise, during cycle detection, constructor nodes might
// return 0 as the order for all functions in the root scope,
// causing cycle detection to detect cycles that don't exist.
func TestFalsePositiveScopeCycleDetection(t *testing.T) {
t.Run("single provide", func(t *testing.T) {
root := digtest.New(t)
root.RequireProvide(func(val string) int { return 0 })
root.RequireProvide(func() string { return "sample" })
child := root.Scope("child")
// Cycle detection would error here because previous two provides
// would both have order 0 for child scope.
child.RequireProvide(func() float32 { return 0 })
})
}