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forgejo/modules/references/references_test.go

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// Copyright 2019 The Gitea Authors. All rights reserved.
// Use of this source code is governed by a MIT-style
// license that can be found in the LICENSE file.
package references
import (
"testing"
"code.gitea.io/gitea/modules/setting"
"github.com/stretchr/testify/assert"
)
type testFixture struct {
input string
expected []testResult
}
type testResult struct {
Index int64
Owner string
Name string
Issue string
Action XRefAction
RefLocation *RefSpan
ActionLocation *RefSpan
}
func TestFindAllIssueReferences(t *testing.T) {
fixtures := []testFixture{
{
"Simply closes: #29 yes",
[]testResult{
{29, "", "", "29", XRefActionCloses, &RefSpan{Start: 15, End: 18}, &RefSpan{Start: 7, End: 13}},
},
},
{
"#123 no, this is a title.",
[]testResult{},
},
{
" #124 yes, this is a reference.",
[]testResult{
{124, "", "", "124", XRefActionNone, &RefSpan{Start: 0, End: 4}, nil},
},
},
{
"```\nThis is a code block.\n#723 no, it's a code block.```",
[]testResult{},
},
{
"This `#724` no, it's inline code.",
[]testResult{},
},
{
"This user3/repo4#200 yes.",
[]testResult{
{200, "user3", "repo4", "200", XRefActionNone, &RefSpan{Start: 5, End: 20}, nil},
},
},
{
"This [one](#919) no, this is a URL fragment.",
[]testResult{},
},
{
"This [two](/user2/repo1/issues/921) yes.",
[]testResult{
{921, "user2", "repo1", "921", XRefActionNone, nil, nil},
},
},
{
"This [three](/user2/repo1/pulls/922) yes.",
[]testResult{
{922, "user2", "repo1", "922", XRefActionNone, nil, nil},
},
},
{
"This [four](http://gitea.com:3000/user3/repo4/issues/203) yes.",
[]testResult{
{203, "user3", "repo4", "203", XRefActionNone, nil, nil},
},
},
{
"This [five](http://github.com/user3/repo4/issues/204) no.",
[]testResult{},
},
{
"This http://gitea.com:3000/user4/repo5/201 no, bad URL.",
[]testResult{},
},
{
"This http://gitea.com:3000/user4/repo5/pulls/202 yes.",
[]testResult{
{202, "user4", "repo5", "202", XRefActionNone, nil, nil},
},
},
{
"This http://GiTeA.COM:3000/user4/repo6/pulls/205 yes.",
[]testResult{
{205, "user4", "repo6", "205", XRefActionNone, nil, nil},
},
},
{
"Reopens #15 yes",
[]testResult{
{15, "", "", "15", XRefActionReopens, &RefSpan{Start: 8, End: 11}, &RefSpan{Start: 0, End: 7}},
},
},
{
"This closes #20 for you yes",
[]testResult{
{20, "", "", "20", XRefActionCloses, &RefSpan{Start: 12, End: 15}, &RefSpan{Start: 5, End: 11}},
},
},
{
"Do you fix user6/repo6#300 ? yes",
[]testResult{
{300, "user6", "repo6", "300", XRefActionCloses, &RefSpan{Start: 11, End: 26}, &RefSpan{Start: 7, End: 10}},
},
},
{
"For 999 #1235 no keyword, but yes",
[]testResult{
{1235, "", "", "1235", XRefActionNone, &RefSpan{Start: 8, End: 13}, nil},
},
},
{
"Which abc. #9434 same as above",
[]testResult{
{9434, "", "", "9434", XRefActionNone, &RefSpan{Start: 11, End: 16}, nil},
},
},
{
"This closes #600 and reopens #599",
[]testResult{
{600, "", "", "600", XRefActionCloses, &RefSpan{Start: 12, End: 16}, &RefSpan{Start: 5, End: 11}},
{599, "", "", "599", XRefActionReopens, &RefSpan{Start: 29, End: 33}, &RefSpan{Start: 21, End: 28}},
},
},
}
testFixtures(t, fixtures, "default")
type alnumFixture struct {
input string
issue string
refLocation *RefSpan
action XRefAction
actionLocation *RefSpan
}
alnumFixtures := []alnumFixture{
{
"This ref ABC-123 is alphanumeric",
"ABC-123", &RefSpan{Start: 9, End: 16},
XRefActionNone, nil,
},
{
"This closes ABCD-1234 alphanumeric",
"ABCD-1234", &RefSpan{Start: 12, End: 21},
XRefActionCloses, &RefSpan{Start: 5, End: 11},
},
}
for _, fixture := range alnumFixtures {
found, ref := FindRenderizableReferenceAlphanumeric(fixture.input)
if fixture.issue == "" {
assert.False(t, found, "Failed to parse: {%s}", fixture.input)
} else {
assert.True(t, found, "Failed to parse: {%s}", fixture.input)
assert.Equal(t, fixture.issue, ref.Issue, "Failed to parse: {%s}", fixture.input)
assert.Equal(t, fixture.refLocation, ref.RefLocation, "Failed to parse: {%s}", fixture.input)
assert.Equal(t, fixture.action, ref.Action, "Failed to parse: {%s}", fixture.input)
assert.Equal(t, fixture.actionLocation, ref.ActionLocation, "Failed to parse: {%s}", fixture.input)
}
}
}
func testFixtures(t *testing.T, fixtures []testFixture, context string) {
// Save original value for other tests that may rely on it
prevURL := setting.AppURL
setting.AppURL = "https://gitea.com:3000/"
for _, fixture := range fixtures {
expraw := make([]*rawReference, len(fixture.expected))
for i, e := range fixture.expected {
expraw[i] = &rawReference{
index: e.Index,
owner: e.Owner,
name: e.Name,
action: e.Action,
issue: e.Issue,
refLocation: e.RefLocation,
actionLocation: e.ActionLocation,
}
}
expref := rawToIssueReferenceList(expraw)
refs := FindAllIssueReferencesMarkdown(fixture.input)
assert.EqualValues(t, expref, refs, "[%s] Failed to parse: {%s}", context, fixture.input)
rawrefs := findAllIssueReferencesMarkdown(fixture.input)
assert.EqualValues(t, expraw, rawrefs, "[%s] Failed to parse: {%s}", context, fixture.input)
}
// Restore for other tests that may rely on the original value
setting.AppURL = prevURL
}
func TestRegExp_mentionPattern(t *testing.T) {
trueTestCases := []string{
"@Unknwon",
"@ANT_123",
"@xxx-DiN0-z-A..uru..s-xxx",
" @lol ",
" @Te-st",
"(@gitea)",
"[@gitea]",
}
falseTestCases := []string{
"@ 0",
"@ ",
"@",
"",
"ABC",
"/home/gitea/@gitea",
"\"@gitea\"",
}
for _, testCase := range trueTestCases {
res := mentionPattern.MatchString(testCase)
assert.True(t, res)
}
for _, testCase := range falseTestCases {
res := mentionPattern.MatchString(testCase)
assert.False(t, res)
}
}
func TestRegExp_issueNumericPattern(t *testing.T) {
trueTestCases := []string{
"#1234",
"#0",
"#1234567890987654321",
" #12",
"#12:",
"ref: #12: msg",
}
falseTestCases := []string{
"# 1234",
"# 0",
"# ",
"#",
"#ABC",
"#1A2B",
"",
"ABC",
}
for _, testCase := range trueTestCases {
assert.True(t, issueNumericPattern.MatchString(testCase))
}
for _, testCase := range falseTestCases {
assert.False(t, issueNumericPattern.MatchString(testCase))
}
}
func TestRegExp_issueAlphanumericPattern(t *testing.T) {
trueTestCases := []string{
"ABC-1234",
"A-1",
"RC-80",
"ABCDEFGHIJ-1234567890987654321234567890",
"ABC-123.",
"(ABC-123)",
"[ABC-123]",
"ABC-123:",
}
falseTestCases := []string{
"RC-08",
"PR-0",
"ABCDEFGHIJK-1",
"PR_1",
"",
"#ABC",
"",
"ABC",
"GG-",
"rm-1",
"/home/gitea/ABC-1234",
"MY-STRING-ABC-123",
}
for _, testCase := range trueTestCases {
assert.True(t, issueAlphanumericPattern.MatchString(testCase))
}
for _, testCase := range falseTestCases {
assert.False(t, issueAlphanumericPattern.MatchString(testCase))
}
}
func TestCustomizeCloseKeywords(t *testing.T) {
fixtures := []testFixture{
{
"Simplemente cierra: #29 yes",
[]testResult{
{29, "", "", "29", XRefActionCloses, &RefSpan{Start: 20, End: 23}, &RefSpan{Start: 12, End: 18}},
},
},
{
"Closes: #123 no, this English.",
[]testResult{
{123, "", "", "123", XRefActionNone, &RefSpan{Start: 8, End: 12}, nil},
},
},
{
"Cerró user6/repo6#300 yes",
[]testResult{
{300, "user6", "repo6", "300", XRefActionCloses, &RefSpan{Start: 7, End: 22}, &RefSpan{Start: 0, End: 6}},
},
},
{
"Reabre user3/repo4#200 yes",
[]testResult{
{200, "user3", "repo4", "200", XRefActionReopens, &RefSpan{Start: 7, End: 22}, &RefSpan{Start: 0, End: 6}},
},
},
}
issueKeywordsOnce.Do(func() {})
doNewKeywords([]string{"cierra", "cerró"}, []string{"reabre"})
testFixtures(t, fixtures, "spanish")
// Restore default settings
doNewKeywords(setting.Repository.PullRequest.CloseKeywords, setting.Repository.PullRequest.ReopenKeywords)
}
func TestParseCloseKeywords(t *testing.T) {
// Test parsing of CloseKeywords and ReopenKeywords
assert.Len(t, parseKeywords([]string{""}), 0)
assert.Len(t, parseKeywords([]string{" aa ", " bb ", "99", "#", "", "this is", "cc"}), 3)
for _, test := range []struct {
pattern string
match string
expected string
}{
{"close", "This PR will close ", "close"},
{"cerró", "cerró ", "cerró"},
{"cerró", "AQUÍ SE CERRÓ: ", "CERRÓ"},
{"закрывается", "закрывается ", "закрывается"},
{"κλείνει", "κλείνει: ", "κλείνει"},
{"关闭", "关闭 ", "关闭"},
{"閉じます", "閉じます ", "閉じます"},
{",$!", "", ""},
{"1234", "", ""},
} {
// The patern only needs to match the part that precedes the reference.
// getCrossReference() takes care of finding the reference itself.
pat := makeKeywordsPat([]string{test.pattern})
if test.expected == "" {
assert.Nil(t, pat)
} else {
assert.NotNil(t, pat)
res := pat.FindAllStringSubmatch(test.match, -1)
assert.Len(t, res, 1)
assert.Len(t, res[0], 2)
assert.EqualValues(t, test.expected, res[0][1])
}
}
}