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bd07c86b60
Summary: Used addlicense to generate this: addlicense -c "Facebook Inc" -f license_header . example was taken from: https://github.com/facebook/litho/blob/master/lib/soloader/BUCK Reviewed By: alexsn Differential Revision: D17070152 fbshipit-source-id: e7b91398d7f6181727be3400c1872ad5f28e38ed
211 lines
6.8 KiB
Go
211 lines
6.8 KiB
Go
// Copyright 2019-present Facebook Inc. All rights reserved.
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// This source code is licensed under the Apache 2.0 license found
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// in the LICENSE file in the root directory of this source tree.
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package gen
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import (
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"fmt"
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"os"
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"path/filepath"
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"testing"
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"github.com/facebookincubator/ent/entc/load"
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"github.com/facebookincubator/ent/schema/field"
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"github.com/stretchr/testify/require"
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)
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var (
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T1 = &load.Schema{
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Name: "T1",
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Fields: []*load.Field{
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{Name: "age", Type: field.TypeInt, Optional: true},
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{Name: "expired_at", Type: field.TypeTime, Nillable: true, Optional: true},
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{Name: "name", Type: field.TypeString, Default: true},
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},
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Edges: []*load.Edge{
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{Name: "t2", Type: "T2", Required: true},
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{Name: "t1", Type: "T1", Unique: true},
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// Bidirectional unique edge (unique/"has-a" in both sides).
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{Name: "t2_o2o", Type: "T2", Unique: true},
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// Unidirectional non-unique edge ("has-many"). The reference is on the "many" side.
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// For example: A user "has-many" books, but a book "has-an" owner (and only one).
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{Name: "o2m", Type: "T2"},
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// Unidirectional unique edge ("has-one").
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// For example: A user "has-an" address (and only one), but an address "has-many" users.
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{Name: "m2o", Type: "T2", Unique: true},
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// Bidirectional unique edge ("has-one" in T1 side, and "has-many" in T2 side).
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{Name: "t2_m2o", Type: "T2", Unique: true},
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// Bidirectional non-unique edge ("has-many" in T1 side, and "has-one" in T2 side).
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{Name: "t2_o2m", Type: "T2"},
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// Bidirectional non-unique edge ("has-many" in both side).
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{Name: "t2_m2m", Type: "T2"},
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// Unidirectional non-unique edge for the same type.
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{Name: "t1_m2m", Type: "T1"},
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},
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}
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T2 = &load.Schema{
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Name: "T2",
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Fields: []*load.Field{
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{Name: "active", Type: field.TypeBool},
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},
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Edges: []*load.Edge{
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{Name: "t1", Type: "T1", RefName: "t2", Inverse: true},
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{Name: "t1_o2o", Type: "T1", RefName: "t2_o2o", Unique: true, Inverse: true},
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{Name: "t1_o2m", Type: "T1", RefName: "t2_m2o", Inverse: true},
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{Name: "t1_m2o", Type: "T1", RefName: "t2_o2m", Unique: true, Inverse: true},
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{Name: "t1_m2m", Type: "T1", RefName: "t2_m2m", Inverse: true},
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},
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}
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)
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func TestNewGraph(t *testing.T) {
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require := require.New(t)
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_, err := NewGraph(Config{Package: "entc/gen", Storage: drivers}, T1)
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require.Error(err, "should fail due to missing types")
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graph, err := NewGraph(Config{Package: "entc/gen", Storage: drivers}, T1, T2)
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require.NoError(err)
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require.NotNil(graph)
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require.Len(graph.Nodes, 2)
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t1 := graph.Nodes[0]
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// check fields.
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require.Equal("T1", t1.Name)
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require.Len(t1.Fields, 3)
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for i, name := range []string{"age", "expired_at", "name"} {
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require.Equal(name, t1.Fields[i].Name)
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}
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for i, typ := range []string{"int", "time.Time", "string"} {
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require.Equal(typ, t1.Fields[i].Type.String())
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}
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for i, optional := range []bool{true, true, false} {
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require.Equal(optional, t1.Fields[i].Optional)
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}
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for i, nullable := range []bool{false, true, false} {
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require.Equal(nullable, t1.Fields[i].Nillable)
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}
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for i, value := range []bool{false, false, true} {
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require.Equal(value, t1.Fields[i].HasDefault)
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}
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// check edges.
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require.Len(t1.Edges, 9)
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for i, name := range []string{"t2", "t1"} {
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require.Equal(name, t1.Edges[i].Name)
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}
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for i, typ := range []*Type{graph.Nodes[1], graph.Nodes[0]} {
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require.Equal(typ, t1.Edges[i].Type, "edge should point to the right type")
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}
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for i, optional := range []bool{false, true} {
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require.Equal(optional, t1.Edges[i].Optional)
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}
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for i, unique := range []bool{false, true} {
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require.Equal(unique, t1.Edges[i].Unique)
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}
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for i, inverse := range []bool{false, false} {
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require.Equal(inverse, t1.Edges[i].IsInverse())
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}
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t2 := graph.Nodes[1]
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f1, e1 := t2.Fields[0], t2.Edges[0]
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require.Equal("bool", f1.Type.String())
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require.Equal("active", f1.Name)
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require.Equal("t1", e1.Name)
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require.True(e1.IsInverse())
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require.Equal("t2", e1.Inverse)
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require.Equal(graph.Nodes[0], e1.Type)
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}
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func TestNewGraphRequiredLoop(t *testing.T) {
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_, err := NewGraph(Config{Package: "entc/gen", Storage: drivers}, &load.Schema{
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Name: "T1",
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Edges: []*load.Edge{
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{Name: "parent", Type: "T1", Unique: true, Required: true},
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{Name: "children", Type: "T1", Inverse: true, RefName: "parent", Required: true},
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},
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})
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require.Error(t, err, "require loop")
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_, err = NewGraph(Config{Package: "entc/gen", Storage: drivers},
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&load.Schema{
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Name: "User",
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Edges: []*load.Edge{
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{Name: "pets", Type: "Pet", Required: true},
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},
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},
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&load.Schema{
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Name: "Pet",
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Edges: []*load.Edge{
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{Name: "owner", Type: "User", Inverse: true, RefName: "pets", Unique: true, Required: true},
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},
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})
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require.Error(t, err, "require loop")
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}
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func TestRelation(t *testing.T) {
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require := require.New(t)
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_, err := NewGraph(Config{Package: "entc/gen", Storage: drivers}, T1)
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require.Error(err, "should fail due to missing types")
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graph, err := NewGraph(Config{Package: "entc/gen"}, T1, T2)
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require.NoError(err)
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require.NotNil(graph)
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require.Len(graph.Nodes, 2)
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t1, t2 := graph.Nodes[0], graph.Nodes[1]
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// unidirectional one 2 one.
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require.Equal(O2O, t1.Edges[1].Rel.Type)
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// bidirectional one to one.
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require.Equal(O2O, t1.Edges[2].Rel.Type)
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require.Equal(O2O, t2.Edges[1].Rel.Type)
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// unidirectional one 2 many.
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require.Equal(O2M, t1.Edges[3].Rel.Type)
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// unidirectional many 2 one.
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require.Equal(M2O, t1.Edges[4].Rel.Type)
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// bidirectional many 2 one.
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require.Equal(M2O, t1.Edges[5].Rel.Type)
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require.Equal(O2M, t2.Edges[2].Rel.Type)
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// bidirectional one 2 many.
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require.Equal(O2M, t1.Edges[6].Rel.Type)
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require.Equal(M2O, t2.Edges[3].Rel.Type)
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// bidirectional many 2 many.
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require.Equal(M2M, t1.Edges[7].Rel.Type)
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require.Equal(M2M, t2.Edges[4].Rel.Type)
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// unidirectional many 2 many.
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require.Equal(M2M, t1.Edges[8].Rel.Type)
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}
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func TestGraph_Gen(t *testing.T) {
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require := require.New(t)
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target := filepath.Join(os.TempDir(), "ent")
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require.NoError(os.MkdirAll(target, os.ModePerm), "creating tmpdir")
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defer os.Remove(target)
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graph, err := NewGraph(Config{Package: "entc/gen", Target: target, Storage: drivers}, &load.Schema{
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Name: "T1",
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Fields: []*load.Field{
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{Name: "age", Type: field.TypeInt, Optional: true},
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{Name: "expired_at", Type: field.TypeTime, Nillable: true, Optional: true},
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{Name: "name", Type: field.TypeString},
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},
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Edges: []*load.Edge{
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{Name: "t1", Type: "T1", Unique: true},
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},
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})
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require.NoError(err)
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require.NotNil(graph)
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require.NoError(graph.Gen())
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// ensure graph files were generated.
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for _, name := range []string{"ent", "client", "config", "example_test"} {
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_, err := os.Stat(fmt.Sprintf("%s/%s.go", target, name))
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require.NoError(err)
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}
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// ensure entity files were generated.
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for _, format := range []string{"%s", "%s_create", "%s_update", "%s_delete", "%s_query"} {
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_, err := os.Stat(fmt.Sprintf(fmt.Sprintf("%s/%s.go", target, format), "t1"))
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require.NoError(err)
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}
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}
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