gopls/internal/regtest/watch/watch_test.go - tools - Git at Google

 // Copyright 2020 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 package regtest

 import (
 	"testing"

 	"golang.org/x/tools/gopls/internal/hooks"
 	. "golang.org/x/tools/internal/lsp/regtest"

 	"golang.org/x/tools/internal/lsp/fake"
 	"golang.org/x/tools/internal/lsp/protocol"
 	"golang.org/x/tools/internal/testenv"
 )

 func TestMain(m *testing.M) {
 	Main(m, hooks.Options)
 }

 func TestEditFile(t *testing.T) {
 	const pkg = `
 -- go.mod --
 module mod.com

 go 1.14
 -- a/a.go --
 package a

 func _() {
 	var x int
 }
 `
 	// Edit the file when it's *not open* in the workspace, and check that
 	// diagnostics are updated.
 	t.Run("unopened", func(t *testing.T) {
 		Run(t, pkg, func(t *testing.T, env *Env) {
 			env.Await(
 				env.DiagnosticAtRegexp("a/a.go", "x"),
 			)
 			env.WriteWorkspaceFile("a/a.go", `package a; func _() {};`)
 			env.Await(
 				EmptyDiagnostics("a/a.go"),
 			)
 		})
 	})

 	// Edit the file when it *is open* in the workspace, and check that
 	// diagnostics are *not* updated.
 	t.Run("opened", func(t *testing.T) {
 		Run(t, pkg, func(t *testing.T, env *Env) {
 			env.OpenFile("a/a.go")
 			// Insert a trivial edit so that we don't automatically update the buffer
 			// (see CL 267577).
 			env.EditBuffer("a/a.go", fake.NewEdit(0, 0, 0, 0, " "))
 			env.Await(env.DoneWithOpen())
 			env.WriteWorkspaceFile("a/a.go", `package a; func _() {};`)
 			env.Await(
 				OnceMet(
 					env.DoneWithChangeWatchedFiles(),
 					env.DiagnosticAtRegexp("a/a.go", "x"),
 				))
 		})
 	})
 }

 // Edit a dependency on disk and expect a new diagnostic.
 func TestEditDependency(t *testing.T) {
 	const pkg = `
 -- go.mod --
 module mod.com

 go 1.14
 -- b/b.go --
 package b

 func B() int { return 0 }
 -- a/a.go --
 package a

 import (
 	"mod.com/b"
 )

 func _() {
 	_ = b.B()
 }
 `
 	Run(t, pkg, func(t *testing.T, env *Env) {
 		env.OpenFile("a/a.go")
 		env.Await(env.DoneWithOpen())
 		env.WriteWorkspaceFile("b/b.go", `package b; func B() {};`)
 		env.Await(
 			env.DiagnosticAtRegexp("a/a.go", "b.B"),
 		)
 	})
 }

 // Edit both the current file and one of its dependencies on disk and
 // expect diagnostic changes.
 func TestEditFileAndDependency(t *testing.T) {
 	const pkg = `
 -- go.mod --
 module mod.com

 go 1.14
 -- b/b.go --
 package b

 func B() int { return 0 }
 -- a/a.go --
 package a

 import (
 	"mod.com/b"
 )

 func _() {
 	var x int
 	_ = b.B()
 }
 `
 	Run(t, pkg, func(t *testing.T, env *Env) {
 		env.Await(
 			env.DiagnosticAtRegexp("a/a.go", "x"),
 		)
 		env.WriteWorkspaceFiles(map[string]string{
 			"b/b.go": `package b; func B() {};`,
 			"a/a.go": `package a

 import "mod.com/b"

 func _() {
 	b.B()
 }`,
 		})
 		env.Await(
 			EmptyDiagnostics("a/a.go"),
 			NoDiagnostics("b/b.go"),
 		)
 	})
 }

 // Delete a dependency and expect a new diagnostic.
 func TestDeleteDependency(t *testing.T) {
 	const pkg = `
 -- go.mod --
 module mod.com

 go 1.14
 -- b/b.go --
 package b

 func B() int { return 0 }
 -- a/a.go --
 package a

 import (
 	"mod.com/b"
 )

 func _() {
 	_ = b.B()
 }
 `
 	Run(t, pkg, func(t *testing.T, env *Env) {
 		env.OpenFile("a/a.go")
 		env.Await(env.DoneWithOpen())
 		env.RemoveWorkspaceFile("b/b.go")
 		env.Await(
 			env.DiagnosticAtRegexp("a/a.go", "\"mod.com/b\""),
 		)
 	})
 }

 // Create a dependency on disk and expect the diagnostic to go away.
 func TestCreateDependency(t *testing.T) {
 	const missing = `
 -- go.mod --
 module mod.com

 go 1.14
 -- b/b.go --
 package b

 func B() int { return 0 }
 -- a/a.go --
 package a

 import (
 	"mod.com/c"
 )

 func _() {
 	c.C()
 }
 `
 	Run(t, missing, func(t *testing.T, env *Env) {
 		t.Skip("the initial workspace load fails and never retries")

 		env.Await(
 			env.DiagnosticAtRegexp("a/a.go", "\"mod.com/c\""),
 		)
 		env.WriteWorkspaceFile("c/c.go", `package c; func C() {};`)
 		env.Await(
 			EmptyDiagnostics("c/c.go"),
 		)
 	})
 }

 // Create a new dependency and add it to the file on disk.
 // This is similar to what might happen if you switch branches.
 func TestCreateAndAddDependency(t *testing.T) {
 	const original = `
 -- go.mod --
 module mod.com

 go 1.14
 -- a/a.go --
 package a

 func _() {}
 `
 	Run(t, original, func(t *testing.T, env *Env) {
 		env.WriteWorkspaceFile("c/c.go", `package c; func C() {};`)
 		env.WriteWorkspaceFile("a/a.go", `package a; import "mod.com/c"; func _() { c.C() }`)
 		env.Await(
 			NoDiagnostics("a/a.go"),
 		)
 	})
 }

 // Create a new file that defines a new symbol, in the same package.
 func TestCreateFile(t *testing.T) {
 	const pkg = `
 -- go.mod --
 module mod.com

 go 1.14
 -- a/a.go --
 package a

 func _() {
 	hello()
 }
 `
 	Run(t, pkg, func(t *testing.T, env *Env) {
 		env.Await(
 			env.DiagnosticAtRegexp("a/a.go", "hello"),
 		)
 		env.WriteWorkspaceFile("a/a2.go", `package a; func hello() {};`)
 		env.Await(
 			EmptyDiagnostics("a/a.go"),
 		)
 	})
 }

 // Add a new method to an interface and implement it.
 // Inspired by the structure of internal/lsp/source and internal/lsp/cache.
 func TestCreateImplementation(t *testing.T) {
 	const pkg = `
 -- go.mod --
 module mod.com

 go 1.14
 -- b/b.go --
 package b

 type B interface{
 	Hello() string
 }

 func SayHello(bee B) {
 	println(bee.Hello())
 }
 -- a/a.go --
 package a

 import "mod.com/b"

 type X struct {}

 func (_ X) Hello() string {
 	return ""
 }

 func _() {
 	x := X{}
 	b.SayHello(x)
 }
 `
 	const newMethod = `package b
 type B interface{
 	Hello() string
 	Bye() string
 }

 func SayHello(bee B) {
 	println(bee.Hello())
 }`
 	const implementation = `package a

 import "mod.com/b"

 type X struct {}

 func (_ X) Hello() string {
 	return ""
 }

 func (_ X) Bye() string {
 	return ""
 }

 func _() {
 	x := X{}
 	b.SayHello(x)
 }`

 	// Add the new method before the implementation. Expect diagnostics.
 	t.Run("method before implementation", func(t *testing.T) {
 		Run(t, pkg, func(t *testing.T, env *Env) {
 			env.WriteWorkspaceFile("b/b.go", newMethod)
 			env.Await(
 				OnceMet(
 					env.DoneWithChangeWatchedFiles(),
 					DiagnosticAt("a/a.go", 12, 12),
 				),
 			)
 			env.WriteWorkspaceFile("a/a.go", implementation)
 			env.Await(
 				EmptyDiagnostics("a/a.go"),
 			)
 		})
 	})
 	// Add the new implementation before the new method. Expect no diagnostics.
 	t.Run("implementation before method", func(t *testing.T) {
 		Run(t, pkg, func(t *testing.T, env *Env) {
 			env.WriteWorkspaceFile("a/a.go", implementation)
 			env.Await(
 				OnceMet(
 					env.DoneWithChangeWatchedFiles(),
 					NoDiagnostics("a/a.go"),
 				),
 			)
 			env.WriteWorkspaceFile("b/b.go", newMethod)
 			env.Await(
 				NoDiagnostics("a/a.go"),
 			)
 		})
 	})
 	// Add both simultaneously. Expect no diagnostics.
 	t.Run("implementation and method simultaneously", func(t *testing.T) {
 		Run(t, pkg, func(t *testing.T, env *Env) {
 			env.WriteWorkspaceFiles(map[string]string{
 				"a/a.go": implementation,
 				"b/b.go": newMethod,
 			})
 			env.Await(
 				OnceMet(
 					env.DoneWithChangeWatchedFiles(),
 					NoDiagnostics("a/a.go"),
 				),
 				NoDiagnostics("b/b.go"),
 			)
 		})
 	})
 }

 // Tests golang/go#38498. Delete a file and then force a reload.
 // Assert that we no longer try to load the file.
 func TestDeleteFiles(t *testing.T) {
 	testenv.NeedsGo1Point(t, 13) // Poor overlay support causes problems on 1.12.
 	const pkg = `
 -- go.mod --
 module mod.com

 go 1.14
 -- a/a.go --
 package a

 func _() {
 	var _ int
 }
 -- a/a_unneeded.go --
 package a
 `
 	t.Run("close then delete", func(t *testing.T) {
 		WithOptions(EditorConfig{
 			VerboseOutput: true,
 		}).Run(t, pkg, func(t *testing.T, env *Env) {
 			env.OpenFile("a/a.go")
 			env.OpenFile("a/a_unneeded.go")
 			env.Await(
 				OnceMet(
 					env.DoneWithOpen(),
 					LogMatching(protocol.Info, "a_unneeded.go", 1, false),
 				),
 			)

 			// Close and delete the open file, mimicking what an editor would do.
 			env.CloseBuffer("a/a_unneeded.go")
 			env.RemoveWorkspaceFile("a/a_unneeded.go")
 			env.RegexpReplace("a/a.go", "var _ int", "fmt.Println(\"\")")
 			env.Await(
 				env.DiagnosticAtRegexp("a/a.go", "fmt"),
 			)
 			env.SaveBuffer("a/a.go")
 			env.Await(
 				OnceMet(
 					env.DoneWithSave(),
 					// There should only be one log message containing
 					// a_unneeded.go, from the initial workspace load, which we
 					// check for earlier. If there are more, there's a bug.
 					LogMatching(protocol.Info, "a_unneeded.go", 1, false),
 				),
 				EmptyDiagnostics("a/a.go"),
 			)
 		})
 	})

 	t.Run("delete then close", func(t *testing.T) {
 		WithOptions(
 			EditorConfig{VerboseOutput: true},
 		).Run(t, pkg, func(t *testing.T, env *Env) {
 			env.OpenFile("a/a.go")
 			env.OpenFile("a/a_unneeded.go")
 			env.Await(
 				OnceMet(
 					env.DoneWithOpen(),
 					LogMatching(protocol.Info, "a_unneeded.go", 1, false),
 				),
 			)

 			// Delete and then close the file.
 			env.RemoveWorkspaceFile("a/a_unneeded.go")
 			env.CloseBuffer("a/a_unneeded.go")
 			env.RegexpReplace("a/a.go", "var _ int", "fmt.Println(\"\")")
 			env.Await(
 				env.DiagnosticAtRegexp("a/a.go", "fmt"),
 			)
 			env.SaveBuffer("a/a.go")
 			env.Await(
 				OnceMet(
 					env.DoneWithSave(),
 					// There should only be one log message containing
 					// a_unneeded.go, from the initial workspace load, which we
 					// check for earlier. If there are more, there's a bug.
 					LogMatching(protocol.Info, "a_unneeded.go", 1, false),
 				),
 				EmptyDiagnostics("a/a.go"),
 			)
 		})
 	})
 }

 // This change reproduces the behavior of switching branches, with multiple
 // files being created and deleted. The key change here is the movement of a
 // symbol from one file to another in a given package through a deletion and
 // creation. To reproduce an issue with metadata invalidation in batched
 // changes, the last change in the batch is an on-disk file change that doesn't
 // require metadata invalidation.
 func TestMoveSymbol(t *testing.T) {
 	const pkg = `
 -- go.mod --
 module mod.com

 go 1.14
 -- main.go --
 package main

 import "mod.com/a"

 func main() {
 	var x int
 	x = a.Hello
 	println(x)
 }
 -- a/a1.go --
 package a

 var Hello int
 -- a/a2.go --
 package a

 func _() {}
 `
 	Run(t, pkg, func(t *testing.T, env *Env) {
 		env.ChangeFilesOnDisk([]fake.FileEvent{
 			{
 				Path: "a/a3.go",
 				Content: `package a

 var Hello int
 `,
 				ProtocolEvent: protocol.FileEvent{
 					URI:  env.Sandbox.Workdir.URI("a/a3.go"),
 					Type: protocol.Created,
 				},
 			},
 			{
 				Path: "a/a1.go",
 				ProtocolEvent: protocol.FileEvent{
 					URI:  env.Sandbox.Workdir.URI("a/a1.go"),
 					Type: protocol.Deleted,
 				},
 			},
 			{
 				Path:    "a/a2.go",
 				Content: `package a; func _() {};`,
 				ProtocolEvent: protocol.FileEvent{
 					URI:  env.Sandbox.Workdir.URI("a/a2.go"),
 					Type: protocol.Changed,
 				},
 			},
 		})
 		env.Await(
 			OnceMet(
 				env.DoneWithChangeWatchedFiles(),
 				NoDiagnostics("main.go"),
 			),
 		)
 	})
 }

 // Reproduce golang/go#40456.
 func TestChangeVersion(t *testing.T) {
 	const proxy = `
 -- example.com@v1.2.3/go.mod --
 module example.com

 go 1.12
 -- example.com@v1.2.3/blah/blah.go --
 package blah

 const Name = "Blah"

 func X(x int) {}
 -- example.com@v1.2.2/go.mod --
 module example.com

 go 1.12
 -- example.com@v1.2.2/blah/blah.go --
 package blah

 const Name = "Blah"

 func X() {}
 -- random.org@v1.2.3/go.mod --
 module random.org

 go 1.12
 -- random.org@v1.2.3/blah/blah.go --
 package hello

 const Name = "Hello"
 `
 	const mod = `
 -- go.mod --
 module mod.com

 go 1.12

 require example.com v1.2.2
 -- main.go --
 package main

 import "example.com/blah"

 func main() {
 	blah.X()
 }
 `
 	WithOptions(ProxyFiles(proxy)).Run(t, mod, func(t *testing.T, env *Env) {
 		env.WriteWorkspaceFiles(map[string]string{
 			"go.mod": `module mod.com

 go 1.12

 require example.com v1.2.3
 `,
 			"main.go": `package main

 import (
 	"example.com/blah"
 )

 func main() {
 	blah.X(1)
 }
 `,
 		})
 		env.Await(
 			env.DoneWithChangeWatchedFiles(),
 			NoDiagnostics("main.go"),
 		)
 	})
 }

 // Reproduces golang/go#40340.
 func TestSwitchFromGOPATHToModules(t *testing.T) {
 	testenv.NeedsGo1Point(t, 13)

 	const files = `
 -- foo/blah/blah.go --
 package blah

 const Name = ""
 -- foo/main.go --
 package main

 import "blah"

 func main() {
 	_ = blah.Name
 }
 `
 	WithOptions(
 		InGOPATH(),
 		EditorConfig{
 			Env: map[string]string{
 				"GO111MODULE": "auto",
 			},
 		},
 		Modes(Experimental), // module is in a subdirectory
 	).Run(t, files, func(t *testing.T, env *Env) {
 		env.OpenFile("foo/main.go")
 		env.Await(env.DiagnosticAtRegexp("foo/main.go", `"blah"`))
 		if err := env.Sandbox.RunGoCommand(env.Ctx, "foo", "mod", []string{"init", "mod.com"}, true); err != nil {
 			t.Fatal(err)
 		}
 		env.RegexpReplace("foo/main.go", `"blah"`, `"mod.com/blah"`)
 		env.Await(
 			EmptyDiagnostics("foo/main.go"),
 		)
 	})
 }

 // Reproduces golang/go#40487.
 func TestSwitchFromModulesToGOPATH(t *testing.T) {
 	testenv.NeedsGo1Point(t, 13)

 	const files = `
 -- foo/go.mod --
 module mod.com

 go 1.14
 -- foo/blah/blah.go --
 package blah

 const Name = ""
 -- foo/main.go --
 package main

 import "mod.com/blah"

 func main() {
 	_ = blah.Name
 }
 `
 	WithOptions(
 		InGOPATH(),
 		EditorConfig{
 			Env: map[string]string{
 				"GO111MODULE": "auto",
 			},
 		},
 	).Run(t, files, func(t *testing.T, env *Env) {
 		env.OpenFile("foo/main.go")
 		env.RemoveWorkspaceFile("foo/go.mod")
 		env.Await(
 			OnceMet(
 				env.DoneWithChangeWatchedFiles(),
 				env.DiagnosticAtRegexp("foo/main.go", `"mod.com/blah"`),
 			),
 		)
 		env.RegexpReplace("foo/main.go", `"mod.com/blah"`, `"foo/blah"`)
 		env.Await(
 			EmptyDiagnostics("foo/main.go"),
 		)
 	})
 }

 func TestNewSymbolInTestVariant(t *testing.T) {
 	const files = `
 -- go.mod --
 module mod.com

 go 1.12
 -- a/a.go --
 package a

 func bob() {}
 -- a/a_test.go --
 package a

 import "testing"

 func TestBob(t *testing.T) {
 	bob()
 }
 `
 	Run(t, files, func(t *testing.T, env *Env) {
 		// Add a new symbol to the package under test and use it in the test
 		// variant. Expect no diagnostics.
 		env.WriteWorkspaceFiles(map[string]string{
 			"a/a.go": `package a

 func bob() {}
 func george() {}
 `,
 			"a/a_test.go": `package a

 import "testing"

 func TestAll(t *testing.T) {
 	bob()
 	george()
 }
 `,
 		})
 		env.Await(
 			OnceMet(
 				env.DoneWithChangeWatchedFiles(),
 				NoDiagnostics("a/a.go"),
 			),
 			OnceMet(
 				env.DoneWithChangeWatchedFiles(),
 				NoDiagnostics("a/a_test.go"),
 			),
 		)
 		// Now, add a new file to the test variant and use its symbol in the
 		// original test file. Expect no diagnostics.
 		env.WriteWorkspaceFiles(map[string]string{
 			"a/a_test.go": `package a

 import "testing"

 func TestAll(t *testing.T) {
 	bob()
 	george()
 	hi()
 }
 `,
 			"a/a2_test.go": `package a

 import "testing"

 func hi() {}

 func TestSomething(t *testing.T) {}
 `,
 		})
 		env.Await(
 			OnceMet(
 				env.DoneWithChangeWatchedFiles(),
 				NoDiagnostics("a/a_test.go"),
 			),
 			OnceMet(
 				env.DoneWithChangeWatchedFiles(),
 				NoDiagnostics("a/a2_test.go"),
 			),
 		)
 	})
 }
	// Copyright 2020 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	package regtest

	import (
	"testing"

	"golang.org/x/tools/gopls/internal/hooks"
	. "golang.org/x/tools/internal/lsp/regtest"

	"golang.org/x/tools/internal/lsp/fake"
	"golang.org/x/tools/internal/lsp/protocol"
	"golang.org/x/tools/internal/testenv"
	)

	func TestMain(m *testing.M) {
	Main(m, hooks.Options)
	}

	func TestEditFile(t *testing.T) {
	const pkg = `
	-- go.mod --
	module mod.com

	go 1.14
	-- a/a.go --
	package a

	func _() {
	var x int
	}
	`
	// Edit the file when it's not open in the workspace, and check that
	// diagnostics are updated.
	t.Run("unopened", func(t *testing.T) {
	Run(t, pkg, func(t testing.T, env Env) {
	env.Await(
	env.DiagnosticAtRegexp("a/a.go", "x"),
	)
	env.WriteWorkspaceFile("a/a.go", `package a; func _() {};`)
	env.Await(
	EmptyDiagnostics("a/a.go"),
	)
	})
	})

	// Edit the file when it is open in the workspace, and check that
	// diagnostics are not updated.
	t.Run("opened", func(t *testing.T) {
	Run(t, pkg, func(t testing.T, env Env) {
	env.OpenFile("a/a.go")
	// Insert a trivial edit so that we don't automatically update the buffer
	// (see CL 267577).
	env.EditBuffer("a/a.go", fake.NewEdit(0, 0, 0, 0, " "))
	env.Await(env.DoneWithOpen())
	env.WriteWorkspaceFile("a/a.go", `package a; func _() {};`)
	env.Await(
	OnceMet(
	env.DoneWithChangeWatchedFiles(),
	env.DiagnosticAtRegexp("a/a.go", "x"),
	))
	})
	})
	}

	// Edit a dependency on disk and expect a new diagnostic.
	func TestEditDependency(t *testing.T) {
	const pkg = `
	-- go.mod --
	module mod.com

	go 1.14
	-- b/b.go --
	package b

	func B() int { return 0 }
	-- a/a.go --
	package a

	import (
	"mod.com/b"
	)

	func _() {
	_ = b.B()
	}
	`
	Run(t, pkg, func(t testing.T, env Env) {
	env.OpenFile("a/a.go")
	env.Await(env.DoneWithOpen())
	env.WriteWorkspaceFile("b/b.go", `package b; func B() {};`)
	env.Await(
	env.DiagnosticAtRegexp("a/a.go", "b.B"),
	)
	})
	}

	// Edit both the current file and one of its dependencies on disk and
	// expect diagnostic changes.
	func TestEditFileAndDependency(t *testing.T) {
	const pkg = `
	-- go.mod --
	module mod.com

	go 1.14
	-- b/b.go --
	package b

	func B() int { return 0 }
	-- a/a.go --
	package a

	import (
	"mod.com/b"
	)

	func _() {
	var x int
	_ = b.B()
	}
	`
	Run(t, pkg, func(t testing.T, env Env) {
	env.Await(
	env.DiagnosticAtRegexp("a/a.go", "x"),
	)
	env.WriteWorkspaceFiles(map[string]string{
	"b/b.go": `package b; func B() {};`,
	"a/a.go": `package a

	import "mod.com/b"

	func _() {
	b.B()
	}`,
	})
	env.Await(
	EmptyDiagnostics("a/a.go"),
	NoDiagnostics("b/b.go"),
	)
	})
	}

	// Delete a dependency and expect a new diagnostic.
	func TestDeleteDependency(t *testing.T) {
	const pkg = `
	-- go.mod --
	module mod.com

	go 1.14
	-- b/b.go --
	package b

	func B() int { return 0 }
	-- a/a.go --
	package a

	import (
	"mod.com/b"
	)

	func _() {
	_ = b.B()
	}
	`
	Run(t, pkg, func(t testing.T, env Env) {
	env.OpenFile("a/a.go")
	env.Await(env.DoneWithOpen())
	env.RemoveWorkspaceFile("b/b.go")
	env.Await(
	env.DiagnosticAtRegexp("a/a.go", "\"mod.com/b\""),
	)
	})
	}

	// Create a dependency on disk and expect the diagnostic to go away.
	func TestCreateDependency(t *testing.T) {
	const missing = `
	-- go.mod --
	module mod.com

	go 1.14
	-- b/b.go --
	package b

	func B() int { return 0 }
	-- a/a.go --
	package a

	import (
	"mod.com/c"
	)

	func _() {
	c.C()
	}
	`
	Run(t, missing, func(t testing.T, env Env) {
	t.Skip("the initial workspace load fails and never retries")

	env.Await(
	env.DiagnosticAtRegexp("a/a.go", "\"mod.com/c\""),
	)
	env.WriteWorkspaceFile("c/c.go", `package c; func C() {};`)
	env.Await(
	EmptyDiagnostics("c/c.go"),
	)
	})
	}

	// Create a new dependency and add it to the file on disk.
	// This is similar to what might happen if you switch branches.
	func TestCreateAndAddDependency(t *testing.T) {
	const original = `
	-- go.mod --
	module mod.com

	go 1.14
	-- a/a.go --
	package a

	func _() {}
	`
	Run(t, original, func(t testing.T, env Env) {
	env.WriteWorkspaceFile("c/c.go", `package c; func C() {};`)
	env.WriteWorkspaceFile("a/a.go", `package a; import "mod.com/c"; func _() { c.C() }`)
	env.Await(
	NoDiagnostics("a/a.go"),
	)
	})
	}

	// Create a new file that defines a new symbol, in the same package.
	func TestCreateFile(t *testing.T) {
	const pkg = `
	-- go.mod --
	module mod.com

	go 1.14
	-- a/a.go --
	package a

	func _() {
	hello()
	}
	`
	Run(t, pkg, func(t testing.T, env Env) {
	env.Await(
	env.DiagnosticAtRegexp("a/a.go", "hello"),
	)
	env.WriteWorkspaceFile("a/a2.go", `package a; func hello() {};`)
	env.Await(
	EmptyDiagnostics("a/a.go"),
	)
	})
	}

	// Add a new method to an interface and implement it.
	// Inspired by the structure of internal/lsp/source and internal/lsp/cache.
	func TestCreateImplementation(t *testing.T) {
	const pkg = `
	-- go.mod --
	module mod.com

	go 1.14
	-- b/b.go --
	package b

	type B interface{
	Hello() string
	}

	func SayHello(bee B) {
	println(bee.Hello())
	}
	-- a/a.go --
	package a

	import "mod.com/b"

	type X struct {}

	func (_ X) Hello() string {
	return ""
	}

	func _() {
	x := X{}
	b.SayHello(x)
	}
	`
	const newMethod = `package b
	type B interface{
	Hello() string
	Bye() string
	}

	func SayHello(bee B) {
	println(bee.Hello())
	}`
	const implementation = `package a

	import "mod.com/b"

	type X struct {}

	func (_ X) Hello() string {
	return ""
	}

	func (_ X) Bye() string {
	return ""
	}

	func _() {
	x := X{}
	b.SayHello(x)
	}`

	// Add the new method before the implementation. Expect diagnostics.
	t.Run("method before implementation", func(t *testing.T) {
	Run(t, pkg, func(t testing.T, env Env) {
	env.WriteWorkspaceFile("b/b.go", newMethod)
	env.Await(
	OnceMet(
	env.DoneWithChangeWatchedFiles(),
	DiagnosticAt("a/a.go", 12, 12),
	),
	)
	env.WriteWorkspaceFile("a/a.go", implementation)
	env.Await(
	EmptyDiagnostics("a/a.go"),
	)
	})
	})
	// Add the new implementation before the new method. Expect no diagnostics.
	t.Run("implementation before method", func(t *testing.T) {
	Run(t, pkg, func(t testing.T, env Env) {
	env.WriteWorkspaceFile("a/a.go", implementation)
	env.Await(
	OnceMet(
	env.DoneWithChangeWatchedFiles(),
	NoDiagnostics("a/a.go"),
	),
	)
	env.WriteWorkspaceFile("b/b.go", newMethod)
	env.Await(
	NoDiagnostics("a/a.go"),
	)
	})
	})
	// Add both simultaneously. Expect no diagnostics.
	t.Run("implementation and method simultaneously", func(t *testing.T) {
	Run(t, pkg, func(t testing.T, env Env) {
	env.WriteWorkspaceFiles(map[string]string{
	"a/a.go": implementation,
	"b/b.go": newMethod,
	})
	env.Await(
	OnceMet(
	env.DoneWithChangeWatchedFiles(),
	NoDiagnostics("a/a.go"),
	),
	NoDiagnostics("b/b.go"),
	)
	})
	})
	}

	// Tests golang/go#38498. Delete a file and then force a reload.
	// Assert that we no longer try to load the file.
	func TestDeleteFiles(t *testing.T) {
	testenv.NeedsGo1Point(t, 13) // Poor overlay support causes problems on 1.12.
	const pkg = `
	-- go.mod --
	module mod.com

	go 1.14
	-- a/a.go --
	package a

	func _() {
	var _ int
	}
	-- a/a_unneeded.go --
	package a
	`
	t.Run("close then delete", func(t *testing.T) {
	WithOptions(EditorConfig{
	VerboseOutput: true,
	}).Run(t, pkg, func(t testing.T, env Env) {
	env.OpenFile("a/a.go")
	env.OpenFile("a/a_unneeded.go")
	env.Await(
	OnceMet(
	env.DoneWithOpen(),
	LogMatching(protocol.Info, "a_unneeded.go", 1, false),
	),
	)

	// Close and delete the open file, mimicking what an editor would do.
	env.CloseBuffer("a/a_unneeded.go")
	env.RemoveWorkspaceFile("a/a_unneeded.go")
	env.RegexpReplace("a/a.go", "var _ int", "fmt.Println(\"\")")
	env.Await(
	env.DiagnosticAtRegexp("a/a.go", "fmt"),
	)
	env.SaveBuffer("a/a.go")
	env.Await(
	OnceMet(
	env.DoneWithSave(),
	// There should only be one log message containing
	// a_unneeded.go, from the initial workspace load, which we
	// check for earlier. If there are more, there's a bug.
	LogMatching(protocol.Info, "a_unneeded.go", 1, false),
	),
	EmptyDiagnostics("a/a.go"),
	)
	})
	})

	t.Run("delete then close", func(t *testing.T) {
	WithOptions(
	EditorConfig{VerboseOutput: true},
	).Run(t, pkg, func(t testing.T, env Env) {
	env.OpenFile("a/a.go")
	env.OpenFile("a/a_unneeded.go")
	env.Await(
	OnceMet(
	env.DoneWithOpen(),
	LogMatching(protocol.Info, "a_unneeded.go", 1, false),
	),
	)

	// Delete and then close the file.
	env.RemoveWorkspaceFile("a/a_unneeded.go")
	env.CloseBuffer("a/a_unneeded.go")
	env.RegexpReplace("a/a.go", "var _ int", "fmt.Println(\"\")")
	env.Await(
	env.DiagnosticAtRegexp("a/a.go", "fmt"),
	)
	env.SaveBuffer("a/a.go")
	env.Await(
	OnceMet(
	env.DoneWithSave(),
	// There should only be one log message containing
	// a_unneeded.go, from the initial workspace load, which we
	// check for earlier. If there are more, there's a bug.
	LogMatching(protocol.Info, "a_unneeded.go", 1, false),
	),
	EmptyDiagnostics("a/a.go"),
	)
	})
	})
	}

	// This change reproduces the behavior of switching branches, with multiple
	// files being created and deleted. The key change here is the movement of a
	// symbol from one file to another in a given package through a deletion and
	// creation. To reproduce an issue with metadata invalidation in batched
	// changes, the last change in the batch is an on-disk file change that doesn't
	// require metadata invalidation.
	func TestMoveSymbol(t *testing.T) {
	const pkg = `
	-- go.mod --
	module mod.com

	go 1.14
	-- main.go --
	package main

	import "mod.com/a"

	func main() {
	var x int
	x = a.Hello
	println(x)
	}
	-- a/a1.go --
	package a

	var Hello int
	-- a/a2.go --
	package a

	func _() {}
	`
	Run(t, pkg, func(t testing.T, env Env) {
	env.ChangeFilesOnDisk([]fake.FileEvent{
	{
	Path: "a/a3.go",
	Content: `package a

	var Hello int
	`,
	ProtocolEvent: protocol.FileEvent{
	URI: env.Sandbox.Workdir.URI("a/a3.go"),
	Type: protocol.Created,
	},
	},
	{
	Path: "a/a1.go",
	ProtocolEvent: protocol.FileEvent{
	URI: env.Sandbox.Workdir.URI("a/a1.go"),
	Type: protocol.Deleted,
	},
	},
	{
	Path: "a/a2.go",
	Content: `package a; func _() {};`,
	ProtocolEvent: protocol.FileEvent{
	URI: env.Sandbox.Workdir.URI("a/a2.go"),
	Type: protocol.Changed,
	},
	},
	})
	env.Await(
	OnceMet(
	env.DoneWithChangeWatchedFiles(),
	NoDiagnostics("main.go"),
	),
	)
	})
	}

	// Reproduce golang/go#40456.
	func TestChangeVersion(t *testing.T) {
	const proxy = `
	-- example.com@v1.2.3/go.mod --
	module example.com

	go 1.12
	-- example.com@v1.2.3/blah/blah.go --
	package blah

	const Name = "Blah"

	func X(x int) {}
	-- example.com@v1.2.2/go.mod --
	module example.com

	go 1.12
	-- example.com@v1.2.2/blah/blah.go --
	package blah

	const Name = "Blah"

	func X() {}
	-- random.org@v1.2.3/go.mod --
	module random.org

	go 1.12
	-- random.org@v1.2.3/blah/blah.go --
	package hello

	const Name = "Hello"
	`
	const mod = `
	-- go.mod --
	module mod.com

	go 1.12

	require example.com v1.2.2
	-- main.go --
	package main

	import "example.com/blah"

	func main() {
	blah.X()
	}
	`
	WithOptions(ProxyFiles(proxy)).Run(t, mod, func(t testing.T, env Env) {
	env.WriteWorkspaceFiles(map[string]string{
	"go.mod": `module mod.com

	go 1.12

	require example.com v1.2.3
	`,
	"main.go": `package main

	import (
	"example.com/blah"
	)

	func main() {
	blah.X(1)
	}
	`,
	})
	env.Await(
	env.DoneWithChangeWatchedFiles(),
	NoDiagnostics("main.go"),
	)
	})
	}

	// Reproduces golang/go#40340.
	func TestSwitchFromGOPATHToModules(t *testing.T) {
	testenv.NeedsGo1Point(t, 13)

	const files = `
	-- foo/blah/blah.go --
	package blah

	const Name = ""
	-- foo/main.go --
	package main

	import "blah"

	func main() {
	_ = blah.Name
	}
	`
	WithOptions(
	InGOPATH(),
	EditorConfig{
	Env: map[string]string{
	"GO111MODULE": "auto",
	},
	},
	Modes(Experimental), // module is in a subdirectory
	).Run(t, files, func(t testing.T, env Env) {
	env.OpenFile("foo/main.go")
	env.Await(env.DiagnosticAtRegexp("foo/main.go", `"blah"`))
	if err := env.Sandbox.RunGoCommand(env.Ctx, "foo", "mod", []string{"init", "mod.com"}, true); err != nil {
	t.Fatal(err)
	}
	env.RegexpReplace("foo/main.go", `"blah"`, `"mod.com/blah"`)
	env.Await(
	EmptyDiagnostics("foo/main.go"),
	)
	})
	}

	// Reproduces golang/go#40487.
	func TestSwitchFromModulesToGOPATH(t *testing.T) {
	testenv.NeedsGo1Point(t, 13)

	const files = `
	-- foo/go.mod --
	module mod.com

	go 1.14
	-- foo/blah/blah.go --
	package blah

	const Name = ""
	-- foo/main.go --
	package main

	import "mod.com/blah"

	func main() {
	_ = blah.Name
	}
	`
	WithOptions(
	InGOPATH(),
	EditorConfig{
	Env: map[string]string{
	"GO111MODULE": "auto",
	},
	},
	).Run(t, files, func(t testing.T, env Env) {
	env.OpenFile("foo/main.go")
	env.RemoveWorkspaceFile("foo/go.mod")
	env.Await(
	OnceMet(
	env.DoneWithChangeWatchedFiles(),
	env.DiagnosticAtRegexp("foo/main.go", `"mod.com/blah"`),
	),
	)
	env.RegexpReplace("foo/main.go", `"mod.com/blah"`, `"foo/blah"`)
	env.Await(
	EmptyDiagnostics("foo/main.go"),
	)
	})
	}

	func TestNewSymbolInTestVariant(t *testing.T) {
	const files = `
	-- go.mod --
	module mod.com

	go 1.12
	-- a/a.go --
	package a

	func bob() {}
	-- a/a_test.go --
	package a

	import "testing"

	func TestBob(t *testing.T) {
	bob()
	}
	`
	Run(t, files, func(t testing.T, env Env) {
	// Add a new symbol to the package under test and use it in the test
	// variant. Expect no diagnostics.
	env.WriteWorkspaceFiles(map[string]string{
	"a/a.go": `package a

	func bob() {}
	func george() {}
	`,
	"a/a_test.go": `package a

	import "testing"

	func TestAll(t *testing.T) {
	bob()
	george()
	}
	`,
	})
	env.Await(
	OnceMet(
	env.DoneWithChangeWatchedFiles(),
	NoDiagnostics("a/a.go"),
	),
	OnceMet(
	env.DoneWithChangeWatchedFiles(),
	NoDiagnostics("a/a_test.go"),
	),
	)
	// Now, add a new file to the test variant and use its symbol in the
	// original test file. Expect no diagnostics.
	env.WriteWorkspaceFiles(map[string]string{
	"a/a_test.go": `package a

	import "testing"

	func TestAll(t *testing.T) {
	bob()
	george()
	hi()
	}
	`,
	"a/a2_test.go": `package a

	import "testing"

	func hi() {}

	func TestSomething(t *testing.T) {}
	`,
	})
	env.Await(
	OnceMet(
	env.DoneWithChangeWatchedFiles(),
	NoDiagnostics("a/a_test.go"),
	),
	OnceMet(
	env.DoneWithChangeWatchedFiles(),
	NoDiagnostics("a/a2_test.go"),
	),
	)
	})
	}