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go/internal/lsp/cmd/test/cmdtest.go
Rebecca Stambler c006dc79eb internal/lsp: reorganize completion tests
Our completion tests check for a lot of different behaviors. It may be
easier to develop if we have separate tests for things like deep
completion and completion snippets.

Change-Id: I7f4b0c0e52670f2a6c00247199933fd1ffa0096f
Reviewed-on: https://go-review.googlesource.com/c/tools/+/196021
Run-TryBot: Rebecca Stambler <rstambler@golang.org>
TryBot-Result: Gobot Gobot <gobot@golang.org>
Reviewed-by: Ian Cottrell <iancottrell@google.com>
2019-09-24 17:09:08 +00:00

182 lines
5.0 KiB
Go

// Copyright 2019 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 cmdtest contains the test suite for the command line behavior of gopls.
package cmdtest
import (
"bytes"
"context"
"io/ioutil"
"os"
"path/filepath"
"strconv"
"strings"
"testing"
"golang.org/x/tools/go/packages/packagestest"
"golang.org/x/tools/internal/lsp/tests"
)
type runner struct {
exporter packagestest.Exporter
data *tests.Data
ctx context.Context
}
func NewRunner(exporter packagestest.Exporter, data *tests.Data, ctx context.Context) tests.Tests {
return &runner{
exporter: exporter,
data: data,
ctx: ctx,
}
}
func (r *runner) Completion(t *testing.T, data tests.Completions, items tests.CompletionItems) {
//TODO: add command line completions tests when it works
}
func (r *runner) CompletionSnippets(t *testing.T, data tests.CompletionSnippets, items tests.CompletionItems) {
//TODO: add command line completions tests when it works
}
func (r *runner) UnimportedCompletions(t *testing.T, data tests.UnimportedCompletions, items tests.CompletionItems) {
//TODO: add command line completions tests when it works
}
func (r *runner) DeepCompletions(t *testing.T, data tests.DeepCompletions, items tests.CompletionItems) {
//TODO: add command line completions tests when it works
}
func (r *runner) FuzzyCompletions(t *testing.T, data tests.FuzzyCompletions, items tests.CompletionItems) {
//TODO: add command line completions tests when it works
}
func (r *runner) RankCompletions(t *testing.T, data tests.RankCompletions, items tests.CompletionItems) {
//TODO: add command line completions tests when it works
}
func (r *runner) FoldingRange(t *testing.T, data tests.FoldingRanges) {
//TODO: add command line folding range tests when it works
}
func (r *runner) Highlight(t *testing.T, data tests.Highlights) {
//TODO: add command line highlight tests when it works
}
func (r *runner) Reference(t *testing.T, data tests.References) {
//TODO: add command line references tests when it works
}
func (r *runner) PrepareRename(t *testing.T, data tests.PrepareRenames) {
//TODO: add command line prepare rename tests when it works
}
func (r *runner) Symbol(t *testing.T, data tests.Symbols) {
//TODO: add command line symbol tests when it works
}
func (r *runner) SignatureHelp(t *testing.T, data tests.Signatures) {
//TODO: add command line signature tests when it works
}
func (r *runner) Link(t *testing.T, data tests.Links) {
//TODO: add command line link tests when it works
}
func (r *runner) Import(t *testing.T, data tests.Imports) {
//TODO: add command line imports tests when it works
}
func (r *runner) SuggestedFix(t *testing.T, data tests.SuggestedFixes) {
//TODO: add suggested fix tests when it works
}
func CaptureStdOut(t testing.TB, f func()) string {
r, out, err := os.Pipe()
if err != nil {
t.Fatal(err)
}
old := os.Stdout
defer func() {
os.Stdout = old
out.Close()
r.Close()
}()
os.Stdout = out
f()
out.Close()
data, err := ioutil.ReadAll(r)
if err != nil {
t.Fatal(err)
}
return string(data)
}
// normalizePaths replaces all paths present in s with just the fragment portion
// this is used to make golden files not depend on the temporary paths of the files
func normalizePaths(data *tests.Data, s string) string {
type entry struct {
path string
index int
fragment string
}
match := make([]entry, 0, len(data.Exported.Modules))
// collect the initial state of all the matchers
for _, m := range data.Exported.Modules {
for fragment := range m.Files {
filename := data.Exported.File(m.Name, fragment)
index := strings.Index(s, filename)
if index >= 0 {
match = append(match, entry{filename, index, fragment})
}
if slash := filepath.ToSlash(filename); slash != filename {
index := strings.Index(s, slash)
if index >= 0 {
match = append(match, entry{slash, index, fragment})
}
}
quoted := strconv.Quote(filename)
if escaped := quoted[1 : len(quoted)-1]; escaped != filename {
index := strings.Index(s, escaped)
if index >= 0 {
match = append(match, entry{escaped, index, fragment})
}
}
}
}
// result should be the same or shorter than the input
buf := bytes.NewBuffer(make([]byte, 0, len(s)))
last := 0
for {
// find the nearest path match to the start of the buffer
next := -1
nearest := len(s)
for i, c := range match {
if c.index >= 0 && nearest > c.index {
nearest = c.index
next = i
}
}
// if there are no matches, we copy the rest of the string and are done
if next < 0 {
buf.WriteString(s[last:])
return buf.String()
}
// we have a match
n := &match[next]
// copy up to the start of the match
buf.WriteString(s[last:n.index])
// skip over the filename
last = n.index + len(n.path)
// add in the fragment instead
buf.WriteString(n.fragment)
// see what the next match for this path is
n.index = strings.Index(s[last:], n.path)
if n.index >= 0 {
n.index += last
}
}
}