// 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 ( "fmt" "os" "testing" "golang.org/x/tools/internal/lsp" "golang.org/x/tools/internal/lsp/fake" "golang.org/x/tools/internal/lsp/protocol" "golang.org/x/tools/internal/lsp/tests" ) // Use mod.com for all go.mod files due to golang/go#35230. const exampleProgram = ` -- go.mod -- module mod.com go 1.12 -- main.go -- package main import "fmt" func main() { fmt.Println("Hello World.") }` func TestDiagnosticErrorInEditedFile(t *testing.T) { // This test is very basic: start with a clean Go program, make an error, and // get a diagnostic for that error. However, it also demonstrates how to // combine Expectations to await more complex state in the editor. runner.Run(t, exampleProgram, func(t *testing.T, env *Env) { // Deleting the 'n' at the end of Println should generate a single error // diagnostic. env.OpenFile("main.go") env.RegexpReplace("main.go", "Printl(n)", "") env.Await( // Once we have gotten diagnostics for the change above, we should // satisfy the DiagnosticAtRegexp assertion. OnceMet( CompletedWork(lsp.DiagnosticWorkTitle(lsp.FromDidChange), 1), env.DiagnosticAtRegexp("main.go", "Printl"), ), // Assert that this test has sent no error logs to the client. This is not // strictly necessary for testing this regression, but is included here // as an example of using the NoErrorLogs() expectation. Feel free to // delete. NoErrorLogs(), ) }) } const onlyMod = ` -- go.mod -- module mod.com go 1.12 ` func TestMissingImportDiagsClearOnFirstFile(t *testing.T) { t.Parallel() runner.Run(t, onlyMod, func(t *testing.T, env *Env) { env.CreateBuffer("main.go", `package main func m() { log.Println() } `) env.Await( env.DiagnosticAtRegexp("main.go", "log"), ) env.SaveBuffer("main.go") env.Await( EmptyDiagnostics("main.go"), ) }) } const brokenFile = `package main const Foo = "abc ` func TestDiagnosticErrorInNewFile(t *testing.T) { runner.Run(t, brokenFile, func(t *testing.T, env *Env) { env.CreateBuffer("broken.go", brokenFile) env.Await(env.DiagnosticAtRegexp("broken.go", "\"abc")) }) } // badPackage contains a duplicate definition of the 'a' const. const badPackage = ` -- go.mod -- module mod.com go 1.12 -- a.go -- package consts const a = 1 -- b.go -- package consts const a = 2 ` func TestDiagnosticClearingOnEdit(t *testing.T) { runner.Run(t, badPackage, func(t *testing.T, env *Env) { env.OpenFile("b.go") env.Await(env.DiagnosticAtRegexp("a.go", "a = 1"), env.DiagnosticAtRegexp("b.go", "a = 2")) // Fix the error by editing the const name in b.go to `b`. env.RegexpReplace("b.go", "(a) = 2", "b") env.Await( EmptyDiagnostics("a.go"), EmptyDiagnostics("b.go"), ) }) } func TestDiagnosticClearingOnDelete_Issue37049(t *testing.T) { runner.Run(t, badPackage, func(t *testing.T, env *Env) { env.OpenFile("a.go") env.Await(env.DiagnosticAtRegexp("a.go", "a = 1"), env.DiagnosticAtRegexp("b.go", "a = 2")) env.RemoveFileFromWorkspace("b.go") env.Await(EmptyDiagnostics("a.go"), EmptyDiagnostics("b.go")) }) } func TestDiagnosticClearingOnClose(t *testing.T) { runner.Run(t, badPackage, func(t *testing.T, env *Env) { env.CreateBuffer("c.go", `package consts const a = 3`) env.Await( env.DiagnosticAtRegexp("a.go", "a = 1"), env.DiagnosticAtRegexp("b.go", "a = 2"), env.DiagnosticAtRegexp("c.go", "a = 3")) env.CloseBuffer("c.go") env.Await( env.DiagnosticAtRegexp("a.go", "a = 1"), env.DiagnosticAtRegexp("b.go", "a = 2"), EmptyDiagnostics("c.go")) }) } // Tests golang/go#37978. func TestIssue37978(t *testing.T) { runner.Run(t, exampleProgram, func(t *testing.T, env *Env) { // Create a new workspace-level directory and empty file. env.CreateBuffer("c/c.go", "") // Write the file contents with a missing import. env.EditBuffer("c/c.go", fake.Edit{ Text: `package c const a = http.MethodGet `, }) env.Await( env.DiagnosticAtRegexp("c/c.go", "http.MethodGet"), ) // Save file, which will organize imports, adding the expected import. // Expect the diagnostics to clear. env.SaveBuffer("c/c.go") env.Await( EmptyDiagnostics("c/c.go"), ) }) } // TestNoMod confirms that gopls continues to work when a user adds a go.mod // file to their workspace. func TestNoMod(t *testing.T) { const noMod = ` -- main.go -- package main import "mod.com/bob" func main() { bob.Hello() } -- bob/bob.go -- package bob func Hello() { var x int } ` t.Run("manual", func(t *testing.T) { runner.Run(t, noMod, func(t *testing.T, env *Env) { env.Await( env.DiagnosticAtRegexp("main.go", `"mod.com/bob"`), ) env.CreateBuffer("go.mod", `module mod.com go 1.12 `) env.SaveBuffer("go.mod") env.Await( EmptyDiagnostics("main.go"), env.DiagnosticAtRegexp("bob/bob.go", "x"), ) }) }) t.Run("initialized", func(t *testing.T) { runner.Run(t, noMod, func(t *testing.T, env *Env) { env.Await( env.DiagnosticAtRegexp("main.go", `"mod.com/bob"`), ) if err := env.Sandbox.RunGoCommand(env.Ctx, "mod", "init", "mod.com"); err != nil { t.Fatal(err) } env.Await( EmptyDiagnostics("main.go"), env.DiagnosticAtRegexp("bob/bob.go", "x"), ) }) }) } // Tests golang/go#38267. func TestIssue38267(t *testing.T) { const testPackage = ` -- go.mod -- module mod.com go 1.12 -- lib.go -- package lib func Hello(x string) { _ = x } -- lib_test.go -- package lib import "testing" type testStruct struct{ name string } func TestHello(t *testing.T) { testStructs := []*testStruct{ &testStruct{"hello"}, &testStruct{"goodbye"}, } for y := range testStructs { _ = y } } ` runner.Run(t, testPackage, func(t *testing.T, env *Env) { env.OpenFile("lib_test.go") env.Await( DiagnosticAt("lib_test.go", 10, 2), DiagnosticAt("lib_test.go", 11, 2), ) env.OpenFile("lib.go") env.RegexpReplace("lib.go", "_ = x", "var y int") env.Await( env.DiagnosticAtRegexp("lib.go", "y int"), EmptyDiagnostics("lib_test.go"), ) }) } // Tests golang/go#38328. func TestPackageChange_Issue38328(t *testing.T) { const packageChange = ` -- go.mod -- module fake -- a.go -- package foo func main() {} ` runner.Run(t, packageChange, func(t *testing.T, env *Env) { env.OpenFile("a.go") env.RegexpReplace("a.go", "foo", "foox") env.Await( // When the bug reported in #38328 was present, we didn't get erroneous // file diagnostics until after the didChange message generated by the // package renaming was fully processed. Therefore, in order for this // test to actually exercise the bug, we must wait until that work has // completed. OnceMet( CompletedWork(lsp.DiagnosticWorkTitle(lsp.FromDidChange), 1), NoDiagnostics("a.go"), ), ) }) } const testPackageWithRequire = ` -- go.mod -- module mod.com go 1.12 require ( foo.test v1.2.3 ) -- print.go -- package lib import ( "fmt" "foo.test/bar" ) func PrintAnswer() { fmt.Printf("answer: %s", bar.Answer) } ` const testPackageWithRequireProxy = ` -- foo.test@v1.2.3/go.mod -- module foo.test go 1.12 -- foo.test@v1.2.3/bar/const.go -- package bar const Answer = 42 ` func TestResolveDiagnosticWithDownload(t *testing.T) { runner.Run(t, testPackageWithRequire, func(t *testing.T, env *Env) { env.OpenFile("print.go") // Check that gopackages correctly loaded this dependency. We should get a // diagnostic for the wrong formatting type. // TODO: we should be able to easily also match the diagnostic message. env.Await(env.DiagnosticAtRegexp("print.go", "fmt.Printf")) }, WithProxy(testPackageWithRequireProxy)) } func TestMissingDependency(t *testing.T) { runner.Run(t, testPackageWithRequire, func(t *testing.T, env *Env) { env.OpenFile("print.go") env.Await(LogMatching(protocol.Error, "initial workspace load failed")) }) } // Tests golang/go#36951. func TestAdHocPackages_Issue36951(t *testing.T) { const adHoc = ` -- b/b.go -- package b func Hello() { var x int } ` runner.Run(t, adHoc, func(t *testing.T, env *Env) { env.OpenFile("b/b.go") env.Await(env.DiagnosticAtRegexp("b/b.go", "x")) }) } // Tests golang/go#37984. func TestNoGOPATH_Issue37984(t *testing.T) { const missingImport = ` -- main.go -- package main func _() { fmt.Println("Hello World") } ` runner.Run(t, missingImport, func(t *testing.T, env *Env) { env.OpenFile("main.go") env.Await(env.DiagnosticAtRegexp("main.go", "fmt")) if err := env.Editor.OrganizeImports(env.Ctx, "main.go"); err == nil { t.Fatalf("organize imports should fail with an empty GOPATH") } }, WithEditorConfig(fake.EditorConfig{Env: []string{"GOPATH="}})) } // Tests golang/go#38669. func TestEqualInEnv_Issue38669(t *testing.T) { const missingImport = ` -- go.mod -- module mod.com -- main.go -- package main var _ = x.X -- x/x.go -- package x var X = 0 ` runner.Run(t, missingImport, func(t *testing.T, env *Env) { env.OpenFile("main.go") env.OrganizeImports("main.go") env.Await(EmptyDiagnostics("main.go")) }, WithEditorConfig(fake.EditorConfig{Env: []string{"GOFLAGS=-tags=foo"}})) } // Tests golang/go#38467. func TestNoSuggestedFixesForGeneratedFiles_Issue38467(t *testing.T) { const generated = ` -- go.mod -- module mod.com -- main.go -- package main // Code generated by generator.go. DO NOT EDIT. func _() { for i, _ := range []string{} { _ = i } } ` runner.Run(t, generated, func(t *testing.T, env *Env) { env.OpenFile("main.go") original := env.ReadWorkspaceFile("main.go") metBy := env.Await( DiagnosticAt("main.go", 5, 8), ) d, ok := metBy[0].(*protocol.PublishDiagnosticsParams) if !ok { t.Fatalf("unexpected met by result %v (%T)", metBy, metBy) } // Apply fixes and save the buffer. env.ApplyQuickFixes("main.go", d.Diagnostics) env.SaveBuffer("main.go") fixed := env.ReadWorkspaceFile("main.go") if original != fixed { t.Fatalf("generated file was changed by quick fixes:\n%s", tests.Diff(original, fixed)) } }) } // Expect a module/GOPATH error if there is an error in the file at startup. // Tests golang/go#37279. func TestShowMessage_Issue37279(t *testing.T) { const noModule = ` -- a.go -- package foo func f() { fmt.Printl() } ` runner.Run(t, noModule, func(t *testing.T, env *Env) { env.OpenFile("a.go") env.Await(env.DiagnosticAtRegexp("a.go", "fmt.Printl"), SomeShowMessage("")) }) } // Expect no module/GOPATH error if there is no error in the file. // Tests golang/go#37279. func TestNoShowMessage_Issue37279(t *testing.T) { const noModule = ` -- a.go -- package foo func f() { } ` runner.Run(t, noModule, func(t *testing.T, env *Env) { env.OpenFile("a.go") env.Await( OnceMet( CompletedWork(lsp.DiagnosticWorkTitle(lsp.FromDidOpen), 1), NoDiagnostics("a.go"), ), EmptyShowMessage(""), ) // introduce an error, expect no Show Message env.RegexpReplace("a.go", "func", "fun") env.Await(env.DiagnosticAtRegexp("a.go", "fun"), EmptyShowMessage("")) }) } // Tests golang/go#38602. func TestNonexistentFileDiagnostics_Issue38602(t *testing.T) { const collision = ` -- x/x.go -- package x import "x/hello" func Hello() { hello.HiThere() } -- x/main.go -- package main func main() { fmt.Println("") } ` runner.Run(t, collision, func(t *testing.T, env *Env) { env.OpenFile("x/main.go") env.Await( env.DiagnosticAtRegexp("x/main.go", "fmt.Println"), ) env.OrganizeImports("x/main.go") // span.Parse misparses the error message when multiple packages are // defined in the same directory, creating a garbage filename. // Previously, we would send diagnostics for this nonexistent file. // This test checks that we don't send diagnostics for this file. dir, err := os.Getwd() if err != nil { t.Fatal(err) } badFile := fmt.Sprintf("%s/found packages main (main.go) and x (x.go) in %s/src/x", dir, env.Sandbox.GOPATH()) env.Await( OnceMet( CompletedWork(lsp.DiagnosticWorkTitle(lsp.FromDidChange), 1), EmptyDiagnostics("x/main.go"), ), NoDiagnostics(badFile), ) }, InGOPATH()) }