qbit/go
1
0
Fork 0
mirror of https://github.com/golang/go synced 2024-11-18 16:54:43 -07:00
Code Releases Activity
0c9eba77bc
go/internal/lsp/regtest/diagnostics_test.go
Rob Findley 0c9eba77bc internal/lsp/regtest: add a OnceMet combinator for Expectations 
A common problem when writing regtests is that if you have an error in
your expectations, you must wait until the regtest times out to see what
went wrong.

With the integration of additional progress reporting in the LSP server,
we know when diagnostic work should have been completed, and we should
be able to fail tests early once we know that our diagnostic
expectations will never be met.

This CL adds a new OnceMet Expectation, which combines two expecations:
the first is a precondition that must be met before checking the second.
The second is an arbitrary expectation, but is translated as follows:
once the precondition is met, the second condition is checked and any
Unmet verdicts are translated into Unmeetable.

Change-Id: Ie8c677229a347c624e2659a3ef9104304b175243
Reviewed-on: https://go-review.googlesource.com/c/tools/+/229977
Run-TryBot: Robert Findley <rfindley@google.com>
TryBot-Result: Gobot Gobot <gobot@golang.org>
Reviewed-by: Rebecca Stambler <rstambler@golang.org>
2020-04-28 21:14:28 +00:00

401 lines
8.7 KiB
Go
Raw Blame History

// 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/internal/lsp"
"golang.org/x/tools/internal/lsp/fake"
"golang.org/x/tools/internal/lsp/protocol"
)
// 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"))
})
}
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"),
)
})
}
const noMod = `
-- main.go --
package main
import "mod.com/bob"
func main() {
bob.Hello()
}
-- bob/bob.go --
package bob
func Hello() {
var x int
}
`
// TestNoMod confirms that gopls continues to work when a user adds a go.mod
// file to their workspace.
func TestNoMod(t *testing.T) {
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.W.RunGoCommand(env.Ctx, "mod", "init", "mod.com"); err != nil {
t.Fatal(err)
}
env.Await(
EmptyDiagnostics("main.go"),
env.DiagnosticAtRegexp("bob/bob.go", "x"),
)
})
})
}
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
}
}
`
func TestIssue38267(t *testing.T) {
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"),
)
})
}
const packageChange = `
-- go.mod --
module fake
-- a.go --
package foo
func main() {}
`
func TestPackageChange_Issue38328(t *testing.T) {
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.
EmptyDiagnostics("a.go"),
CompletedWork(lsp.DiagnosticWorkTitle(lsp.FromDidChange), 1),
)
})
}
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"))
})
}
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"))
})
}
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.E.OrganizeImports(env.Ctx, "main.go"); err == nil {
t.Fatalf("organize imports should fail with an empty GOPATH")
}
}, WithEnv("GOPATH="))
}
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"))
}, WithEnv("GOFLAGS=-tags=foo"))
}
View Git Blame Copy Permalink