status-go/vendor/github.com/robertkrimen/otto/parser/comments_test.go

1451 lines
48 KiB
Go
Raw Normal View History

package parser
import (
"fmt"
"github.com/robertkrimen/otto/ast"
"reflect"
"testing"
)
func checkComments(actual []*ast.Comment, expected []string, position ast.CommentPosition) error {
var comments []*ast.Comment
for _, c := range actual {
if c.Position == position {
comments = append(comments, c)
}
}
if len(comments) != len(expected) {
return fmt.Errorf("the number of comments is not correct. %v != %v", len(comments), len(expected))
}
for i, v := range comments {
if v.Text != expected[i] {
return fmt.Errorf("comments do not match. \"%v\" != \"%v\"\n", v.Text, expected[i])
}
if v.Position != position {
return fmt.Errorf("the comment is not %v, was %v\n", position, v.Position)
}
}
return nil
}
func displayStatements(statements []ast.Statement) {
fmt.Printf("Printing statements (%v)\n", len(statements))
for k, v := range statements {
fmt.Printf("Type of line %v: %v\n", k, reflect.TypeOf(v))
}
}
func displayComments(m ast.CommentMap) {
fmt.Printf("Displaying comments:\n")
for n, comments := range m {
fmt.Printf("%v %v:\n", reflect.TypeOf(n), n)
for i, comment := range comments {
fmt.Printf(" [%v] %v @ %v\n", i, comment.Text, comment.Position)
}
}
}
func TestParser_comments(t *testing.T) {
tt(t, func() {
test := func(source string, chk interface{}) (*_parser, *ast.Program) {
parser, program, err := testParseWithMode(source, StoreComments)
is(firstErr(err), chk)
// Check unresolved comments
//is(len(parser.comments), 0)
return parser, program
}
var err error
var parser *_parser
var program *ast.Program
parser, program = test("q=2;// Hej\nv = 0", nil)
is(len(program.Body), 2)
err = checkComments((parser.comments.CommentMap)[program.Body[1]], []string{" Hej"}, ast.LEADING)
is(err, nil)
// Assignment
parser, program = test("i = /*test=*/ 2", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0]], []string{}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.AssignExpression).Right], []string{"test="}, ast.LEADING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Conditional, before consequent
parser, program = test("i ? /*test?*/ 2 : 3", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0]], []string{}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.ConditionalExpression).Consequent], []string{"test?"}, ast.LEADING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Conditional, after consequent
parser, program = test("i ? 2 /*test?*/ : 3", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0]], []string{}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.ConditionalExpression).Consequent], []string{"test?"}, ast.TRAILING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Conditional, before alternate
parser, program = test("i ? 2 : /*test:*/ 3", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0]], []string{}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.ConditionalExpression).Alternate], []string{"test:"}, ast.LEADING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Logical OR
parser, program = test("i || /*test||*/ 2", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0]], []string{}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.BinaryExpression).Right], []string{"test||"}, ast.LEADING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Logical AND
parser, program = test("i && /*test&&*/ 2", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0]], []string{}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.BinaryExpression).Right], []string{"test&&"}, ast.LEADING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Bitwise OR
parser, program = test("i | /*test|*/ 2", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0]], []string{}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.BinaryExpression).Right], []string{"test|"}, ast.LEADING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Exclusive OR
parser, program = test("i ^ /*test^*/ 2", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0]], []string{}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.BinaryExpression).Right], []string{"test^"}, ast.LEADING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Bitwise AND
parser, program = test("i & /*test&*/ 2", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0]], []string{}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.BinaryExpression).Right], []string{"test&"}, ast.LEADING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Equality
parser, program = test("i == /*test==*/ 2", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0]], []string{}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.BinaryExpression).Right], []string{"test=="}, ast.LEADING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Relational, <
parser, program = test("i < /*test<*/ 2", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0]], []string{}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.BinaryExpression).Right], []string{"test<"}, ast.LEADING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Relational, instanceof
parser, program = test("i instanceof /*testinstanceof*/ thing", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0]], []string{}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.BinaryExpression).Right], []string{"testinstanceof"}, ast.LEADING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Shift left
parser, program = test("i << /*test<<*/ 2", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0]], []string{}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.BinaryExpression).Right], []string{"test<<"}, ast.LEADING), nil)
is(parser.comments.CommentMap.Size(), 1)
// +
parser, program = test("i + /*test+*/ 2", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0]], []string{}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.BinaryExpression).Right], []string{"test+"}, ast.LEADING), nil)
is(parser.comments.CommentMap.Size(), 1)
// *
parser, program = test("i * /*test**/ 2", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0]], []string{}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.BinaryExpression).Right], []string{"test*"}, ast.LEADING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Unary prefix, ++
parser, program = test("++/*test++*/i", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0]], []string{}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.UnaryExpression).Operand], []string{"test++"}, ast.LEADING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Unary prefix, delete
parser, program = test("delete /*testdelete*/ i", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0]], []string{}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.UnaryExpression).Operand], []string{"testdelete"}, ast.LEADING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Unary postfix, ++
parser, program = test("i/*test++*/++", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0]], []string{}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.UnaryExpression).Operand], []string{"test++"}, ast.TRAILING), nil)
is(parser.comments.CommentMap.Size(), 1)
// + pt 2
parser, program = test("i /*test+*/ + 2", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0]], []string{}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.BinaryExpression).Left], []string{"test+"}, ast.TRAILING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Multiple comments for a single node
parser, program = test("i /*test+*/ /*test+2*/ + 2", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0]], []string{}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.BinaryExpression).Left], []string{"test+", "test+2"}, ast.TRAILING), nil)
is(parser.comments.CommentMap.Size(), 2)
// Multiple comments for multiple nodes
parser, program = test("i /*test1*/ + 2 /*test2*/ + a /*test3*/ * x /*test4*/", nil)
is(len(program.Body), 1)
is(parser.comments.CommentMap.Size(), 4)
// Leading comment
parser, program = test("/*leadingtest*/i + 2", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement)], []string{"leadingtest"}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.BinaryExpression).Left], []string{}, ast.TRAILING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Leading comment, with semicolon
parser, program = test("/*leadingtest;*/;i + 2", nil)
is(len(program.Body), 2)
is(checkComments((parser.comments.CommentMap)[program.Body[1]], []string{"leadingtest;"}, ast.LEADING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Arrays
parser, program = test("[1, 2 /*test2*/, 3]", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.ArrayLiteral).Value[1]], []string{"test2"}, ast.TRAILING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Function calls
parser, program = test("fun(a,b) //test", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.CallExpression)], []string{"test"}, ast.TRAILING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Function calls, pt 2
parser, program = test("fun(a/*test1*/,b)", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.CallExpression).ArgumentList[0]], []string{"test1"}, ast.TRAILING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Function calls, pt 3
parser, program = test("fun(/*test1*/a,b)", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.CallExpression).ArgumentList[0]], []string{"test1"}, ast.LEADING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Arrays pt 2
parser, program = test(`["abc".substr(0,1)/*testa*/,
"abc.substr(0,2)"];`, nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.ArrayLiteral).Value[0]], []string{"testa"}, ast.TRAILING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Arrays pt 3
parser, program = test(`[a, //test
b];`, nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.ArrayLiteral).Value[1]], []string{"test"}, ast.LEADING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Arrays pt 4
parser, program = test(`[a, //test
b, c];`, nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.ArrayLiteral).Value[1]], []string{"test"}, ast.LEADING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Arrays pt 5
parser, program = test(`
[
"a1", // "a"
"a2", // "ab"
];
`, nil)
is(parser.comments.CommentMap.Size(), 2)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.ArrayLiteral).Value[1]], []string{" \"a\""}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.ArrayLiteral)], []string{" \"ab\""}, ast.FINAL), nil)
// Arrays pt 6
parser, program = test(`[a, /*test*/ b, c];`, nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.ArrayLiteral).Value[1]], []string{"test"}, ast.LEADING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Arrays pt 7 - Empty node
parser, program = test(`[a,,/*test2*/,];`, nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.ArrayLiteral).Value[2]], []string{"test2"}, ast.TRAILING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Arrays pt 8 - Trailing node
parser, program = test(`[a,,,/*test2*/];`, nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.ArrayLiteral)], []string{"test2"}, ast.FINAL), nil)
is(parser.comments.CommentMap.Size(), 1)
// Arrays pt 9 - Leading node
parser, program = test(`[/*test2*/a,,,];`, nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.ArrayLiteral).Value[0]], []string{"test2"}, ast.LEADING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Object literal
parser, program = test("obj = {a: 1, b: 2 /*test2*/, c: 3}", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.AssignExpression).Right.(*ast.ObjectLiteral).Value[1].Value], []string{"test2"}, ast.TRAILING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Object literal, pt 2
parser, program = test("obj = {/*test2*/a: 1, b: 2, c: 3}", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.AssignExpression).Right.(*ast.ObjectLiteral).Value[0].Value], []string{"test2"}, ast.KEY), nil)
is(parser.comments.CommentMap.Size(), 1)
// Object literal, pt 3
parser, program = test("obj = {x/*test2*/: 1, y: 2, z: 3}", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.AssignExpression).Right.(*ast.ObjectLiteral).Value[0].Value], []string{"test2"}, ast.COLON), nil)
is(parser.comments.CommentMap.Size(), 1)
// Object literal, pt 4
parser, program = test("obj = {x: /*test2*/1, y: 2, z: 3}", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.AssignExpression).Right.(*ast.ObjectLiteral).Value[0].Value], []string{"test2"}, ast.LEADING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Object literal, pt 5
parser, program = test("obj = {x: 1/*test2*/, y: 2, z: 3}", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.AssignExpression).Right.(*ast.ObjectLiteral).Value[0].Value], []string{"test2"}, ast.TRAILING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Object literal, pt 6
parser, program = test("obj = {x: 1, y: 2, z: 3/*test2*/}", nil)
is(len(program.Body), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.AssignExpression).Right.(*ast.ObjectLiteral).Value[2].Value], []string{"test2"}, ast.TRAILING), nil)
is(parser.comments.CommentMap.Size(), 1)
// Object literal, pt 7 - trailing comment
parser, program = test("obj = {x: 1, y: 2, z: 3,/*test2*/}", nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.AssignExpression).Right.(*ast.ObjectLiteral)], []string{"test2"}, ast.FINAL), nil)
// Line breaks
parser, program = test(`
t1 = "BLA DE VLA"
/*Test*/
t2 = "Nothing happens."
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[1]], []string{"Test"}, ast.LEADING), nil)
// Line breaks pt 2
parser, program = test(`
t1 = "BLA DE VLA" /*Test*/
t2 = "Nothing happens."
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.AssignExpression).Right.(*ast.StringLiteral)], []string{"Test"}, ast.TRAILING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[1].(*ast.ExpressionStatement)], []string{}, ast.LEADING), nil)
// Line breaks pt 3
parser, program = test(`
t1 = "BLA DE VLA" /*Test*/ /*Test2*/
t2 = "Nothing happens."
`, nil)
is(parser.comments.CommentMap.Size(), 2)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.AssignExpression).Right.(*ast.StringLiteral)], []string{"Test", "Test2"}, ast.TRAILING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[1].(*ast.ExpressionStatement)], []string{}, ast.LEADING), nil)
// Line breaks pt 4
parser, program = test(`
t1 = "BLA DE VLA" /*Test*/
/*Test2*/
t2 = "Nothing happens."
`, nil)
is(parser.comments.CommentMap.Size(), 2)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.AssignExpression).Right.(*ast.StringLiteral)], []string{"Test"}, ast.TRAILING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[1]], []string{"Test2"}, ast.LEADING), nil)
// Line breaks pt 5
parser, program = test(`
t1 = "BLA DE VLA";
/*Test*/
t2 = "Nothing happens."
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[1]], []string{"Test"}, ast.LEADING), nil)
// Line breaks pt 6
parser, program = test(`
t1 = "BLA DE VLA"; /*Test*/
/*Test2*/
t2 = "Nothing happens."
`, nil)
is(parser.comments.CommentMap.Size(), 2)
is(checkComments((parser.comments.CommentMap)[program.Body[1]], []string{"Test", "Test2"}, ast.LEADING), nil)
// Misc
parser, program = test(`
var x = Object.create({y: {
},
// a
});
`, nil)
is(parser.comments.CommentMap.Size(), 1)
// Misc 2
parser, program = test(`
var x = Object.create({y: {
},
// a
// b
a: 2});
`, nil)
is(parser.comments.CommentMap.Size(), 2)
// Statement blocks
parser, program = test(`
(function() {
// Baseline setup
})
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.FunctionLiteral).Body], []string{" Baseline setup"}, ast.FINAL), nil)
// Switches
parser, program = test(`
switch (switcha) {
// switch comment
case "switchb":
a
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.SwitchStatement).Body[0]], []string{" switch comment"}, ast.LEADING), nil)
// Switches pt 2
parser, program = test(`
switch (switcha) {
case /*switch comment*/ "switchb":
a
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.SwitchStatement).Body[0].Test], []string{"switch comment"}, ast.LEADING), nil)
// Switches pt 3
parser, program = test(`
switch (switcha) {
case "switchb" /*switch comment*/:
a
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.SwitchStatement).Body[0].Test], []string{"switch comment"}, ast.TRAILING), nil)
// Switches pt 4
parser, program = test(`
switch (switcha) {
case "switchb": /*switch comment*/
a
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.SwitchStatement).Body[0].Consequent[0]], []string{"switch comment"}, ast.LEADING), nil)
// Switches pt 5 - default
parser, program = test(`
switch (switcha) {
default: /*switch comment*/
a
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.SwitchStatement).Body[0].Consequent[0]], []string{"switch comment"}, ast.LEADING), nil)
// Switches pt 6
parser, program = test(`
switch (switcha) {
case "switchb":
/*switch comment*/a
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.SwitchStatement).Body[0].Consequent[0]], []string{"switch comment"}, ast.LEADING), nil)
// Switches pt 7
parser, program = test(`
switch (switcha) {
case "switchb": /*switch comment*/ {
a
}
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.SwitchStatement).Body[0].Consequent[0]], []string{"switch comment"}, ast.LEADING), nil)
// Switches pt 8
parser, program = test(`
switch (switcha) {
case "switchb": {
a
}/*switch comment*/
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.SwitchStatement).Body[0].Consequent[0]], []string{"switch comment"}, ast.TRAILING), nil)
// Switches pt 9
parser, program = test(`
switch (switcha) {
case "switchb": /*switch comment*/ {
a
}
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.SwitchStatement).Body[0].Consequent[0]], []string{"switch comment"}, ast.LEADING), nil)
// Switches pt 10
parser, program = test(`
switch (switcha) {
case "switchb": {
/*switch comment*/a
}
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.SwitchStatement).Body[0].Consequent[0].(*ast.BlockStatement).List[0]], []string{"switch comment"}, ast.LEADING), nil)
// For loops
parser, program = test(`
for(/*comment*/i = 0 ; i < 1 ; i++) {
a
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ForStatement).Initializer.(*ast.SequenceExpression).Sequence[0].(*ast.AssignExpression).Left], []string{"comment"}, ast.LEADING), nil)
// For loops pt 2
parser, program = test(`
for(i/*comment*/ = 0 ; i < 1 ; i++) {
a
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ForStatement).Initializer.(*ast.SequenceExpression).Sequence[0].(*ast.AssignExpression).Left], []string{"comment"}, ast.TRAILING), nil)
// For loops pt 3
parser, program = test(`
for(i = 0 ; /*comment*/i < 1 ; i++) {
a
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ForStatement).Test.(*ast.BinaryExpression).Left], []string{"comment"}, ast.LEADING), nil)
// For loops pt 4
parser, program = test(`
for(i = 0 ;i /*comment*/ < 1 ; i++) {
a
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ForStatement).Test.(*ast.BinaryExpression).Left], []string{"comment"}, ast.TRAILING), nil)
// For loops pt 5
parser, program = test(`
for(i = 0 ;i < 1 /*comment*/ ; i++) {
a
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ForStatement).Test.(*ast.BinaryExpression).Right], []string{"comment"}, ast.TRAILING), nil)
// For loops pt 6
parser, program = test(`
for(i = 0 ;i < 1 ; /*comment*/ i++) {
a
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ForStatement).Update.(*ast.UnaryExpression).Operand], []string{"comment"}, ast.LEADING), nil)
// For loops pt 7
parser, program = test(`
for(i = 0 ;i < 1 ; i++) /*comment*/ {
a
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ForStatement).Body], []string{"comment"}, ast.LEADING), nil)
// For loops pt 8
parser, program = test(`
for(i = 0 ;i < 1 ; i++) {
a
}/*comment*/
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ForStatement).Body], []string{"comment"}, ast.TRAILING), nil)
// For loops pt 9
parser, program = test(`
for(i = 0 ;i < 1 ; /*comment*/i++) {
a
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ForStatement).Update.(*ast.UnaryExpression).Operand], []string{"comment"}, ast.LEADING), nil)
// For loops pt 10
parser, program = test(`
for(i = 0 ;i < 1 ; i/*comment*/++) {
a
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ForStatement).Update.(*ast.UnaryExpression).Operand.(*ast.Identifier)], []string{"comment"}, ast.TRAILING), nil)
// For loops pt 11
parser, program = test(`
for(i = 0 ;i < 1 ; i++/*comment*/) {
a
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ForStatement).Update.(*ast.UnaryExpression)], []string{"comment"}, ast.TRAILING), nil)
// ForIn
parser, program = test(`
for(/*comment*/var i = 0 in obj) {
a
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ForInStatement).Into], []string{"comment"}, ast.LEADING), nil)
// ForIn pt 2
parser, program = test(`
for(var i = 0 /*comment*/in obj) {
a
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ForInStatement).Into.(*ast.VariableExpression).Initializer], []string{"comment"}, ast.TRAILING), nil)
// ForIn pt 3
parser, program = test(`
for(var i = 0 in /*comment*/ obj) {
a
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ForInStatement).Source], []string{"comment"}, ast.LEADING), nil)
// ForIn pt 4
parser, program = test(`
for(var i = 0 in obj/*comment*/) {
a
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ForInStatement).Source], []string{"comment"}, ast.TRAILING), nil)
// ForIn pt 5
parser, program = test(`
for(var i = 0 in obj) /*comment*/ {
a
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ForInStatement).Body], []string{"comment"}, ast.LEADING), nil)
// ForIn pt 6
parser, program = test(`
for(var i = 0 in obj) {
a
}/*comment*/
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ForInStatement).Body], []string{"comment"}, ast.TRAILING), nil)
// ForIn pt 7
parser, program = test(`
for(var i = 0 in obj) {
a
}
// comment
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program], []string{" comment"}, ast.TRAILING), nil)
// ForIn pt 8
parser, program = test(`
for(var i = 0 in obj) {
a
}
// comment
c
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[1]], []string{" comment"}, ast.LEADING), nil)
// Block
parser, program = test(`
/*comment*/{
a
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.BlockStatement)], []string{"comment"}, ast.LEADING), nil)
// Block pt 2
parser, program = test(`
{
a
}/*comment*/
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.BlockStatement)], []string{"comment"}, ast.TRAILING), nil)
// If then else
parser, program = test(`
/*comment*/
if(a) {
b
} else {
c
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.IfStatement)], []string{"comment"}, ast.LEADING), nil)
// If then else pt 2
parser, program = test(`
if/*comment*/(a) {
b
} else {
c
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.IfStatement)], []string{"comment"}, ast.IF), nil)
// If then else pt 3
parser, program = test(`
if(/*comment*/a) {
b
} else {
c
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.IfStatement).Test], []string{"comment"}, ast.LEADING), nil)
// If then else pt 4
parser, program = test(`
if(a/*comment*/) {
b
} else {
c
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.IfStatement).Test], []string{"comment"}, ast.TRAILING), nil)
// If then else pt 4
parser, program = test(`
if(a)/*comment*/ {
b
} else {
c
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.IfStatement).Consequent], []string{"comment"}, ast.LEADING), nil)
// If then else pt 5
parser, program = test(`
if(a) {
b
} /*comment*/else {
c
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.IfStatement).Consequent], []string{"comment"}, ast.TRAILING), nil)
// If then else pt 6
parser, program = test(`
if(a) {
b
} else/*comment*/ {
c
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.IfStatement).Alternate], []string{"comment"}, ast.LEADING), nil)
// If then else pt 7
parser, program = test(`
if(a) {
b
} else {
c
}/*comment*/
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.IfStatement).Alternate], []string{"comment"}, ast.TRAILING), nil)
// If then else pt 8
parser, program = test(`
if
/*comment*/
(a) {
b
} else {
c
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
// If then else pt 9
parser, program = test(`
if
(a)
/*comment*/{
b
} else {
c
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
// If then else pt 10
parser, program = test(`
if(a){
b
}
/*comment*/
else {
c
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
// Do while
parser, program = test(`
/*comment*/do {
a
} while(b)
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.DoWhileStatement)], []string{"comment"}, ast.LEADING), nil)
// Do while pt 2
parser, program = test(`
do /*comment*/ {
a
} while(b)
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.DoWhileStatement)], []string{"comment"}, ast.DO), nil)
// Do while pt 3
parser, program = test(`
do {
a
} /*comment*/ while(b)
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.DoWhileStatement).Body], []string{"comment"}, ast.TRAILING), nil)
// Do while pt 4
parser, program = test(`
do {
a
} while/*comment*/(b)
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.DoWhileStatement)], []string{"comment"}, ast.WHILE), nil)
// Do while pt 5
parser, program = test(`
do {
a
} while(b)/*comment*/
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.DoWhileStatement)], []string{"comment"}, ast.TRAILING), nil)
// While
parser, program = test(`
/*comment*/while(a) {
b
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.WhileStatement)], []string{"comment"}, ast.LEADING), nil)
// While pt 2
parser, program = test(`
while/*comment*/(a) {
b
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.WhileStatement)], []string{"comment"}, ast.WHILE), nil)
// While pt 3
parser, program = test(`
while(/*comment*/a) {
b
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.WhileStatement).Test], []string{"comment"}, ast.LEADING), nil)
// While pt 4
parser, program = test(`
while(a/*comment*/) {
b
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.WhileStatement).Test], []string{"comment"}, ast.TRAILING), nil)
// While pt 5
parser, program = test(`
while(a) /*comment*/ {
c
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.WhileStatement).Body], []string{"comment"}, ast.LEADING), nil)
// While pt 6
parser, program = test(`
while(a) {
c
}/*comment*/
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.WhileStatement).Body], []string{"comment"}, ast.TRAILING), nil)
// While pt 7
parser, program = test(`
while(a) {
c/*comment*/
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.WhileStatement).Body.(*ast.BlockStatement).List[0].(*ast.ExpressionStatement).Expression.(*ast.Identifier)], []string{"comment"}, ast.TRAILING), nil)
// While pt 7
parser, program = test(`
while(a) {
/*comment*/
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.WhileStatement).Body.(*ast.BlockStatement)], []string{"comment"}, ast.FINAL), nil)
// While pt 8
parser, program = test(`
while
/*comment*/(a) {
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
// While pt 9
parser, program = test(`
while
(a)
/*comment*/{
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
// Break
parser, program = test(`
while(a) {
break/*comment*/;
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.WhileStatement).Body.(*ast.BlockStatement).List[0].(*ast.BranchStatement)], []string{"comment"}, ast.TRAILING), nil)
// Break pt 2
parser, program = test(`
while(a) {
next/*comment*/:
break next;
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.WhileStatement).Body.(*ast.BlockStatement).List[0].(*ast.LabelledStatement).Label], []string{"comment"}, ast.TRAILING), nil)
// Break pt 3
parser, program = test(`
while(a) {
next:/*comment*/
break next;
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.WhileStatement).Body.(*ast.BlockStatement).List[0].(*ast.LabelledStatement)], []string{"comment"}, ast.LEADING), nil)
// Break pt 4
parser, program = test(`
while(a) {
next:
break /*comment*/next;
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.WhileStatement).Body.(*ast.BlockStatement).List[0].(*ast.LabelledStatement).Statement.(*ast.BranchStatement).Label], []string{"comment"}, ast.LEADING), nil)
// Break pt 5
parser, program = test(`
while(a) {
next:
break next/*comment*/;
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.WhileStatement).Body.(*ast.BlockStatement).List[0].(*ast.LabelledStatement).Statement.(*ast.BranchStatement).Label], []string{"comment"}, ast.TRAILING), nil)
// Debugger
parser, program = test(`
debugger // comment
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.DebuggerStatement)], []string{" comment"}, ast.TRAILING), nil)
// Debugger pt 2
parser, program = test(`
debugger; // comment
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program], []string{" comment"}, ast.TRAILING), nil)
// Debugger pt 3
parser, program = test(`
debugger;
// comment
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program], []string{" comment"}, ast.TRAILING), nil)
// With
parser, program = test(`
/*comment*/with(a) {
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.WithStatement)], []string{"comment"}, ast.LEADING), nil)
// With pt 2
parser, program = test(`
with/*comment*/(a) {
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.WithStatement)], []string{"comment"}, ast.WITH), nil)
// With pt 3
parser, program = test(`
with(/*comment*/a) {
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.WithStatement).Object], []string{"comment"}, ast.LEADING), nil)
// With pt 4
parser, program = test(`
with(a/*comment*/) {
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.WithStatement).Object], []string{"comment"}, ast.TRAILING), nil)
// With pt 5
parser, program = test(`
with(a) /*comment*/ {
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.WithStatement).Body], []string{"comment"}, ast.LEADING), nil)
// With pt 6
parser, program = test(`
with(a) {
}/*comment*/
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.WithStatement).Body], []string{"comment"}, ast.TRAILING), nil)
// With pt 7
parser, program = test(`
with
/*comment*/(a) {
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
// With pt 8
parser, program = test(`
with
(a)
/*comment*/{
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
// Var
parser, program = test(`
/*comment*/var a
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.VariableStatement)], []string{"comment"}, ast.LEADING), nil)
// Var pt 2
parser, program = test(`
var/*comment*/ a
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.VariableStatement).List[0]], []string{"comment"}, ast.LEADING), nil)
// Var pt 3
parser, program = test(`
var a/*comment*/
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.VariableStatement).List[0]], []string{"comment"}, ast.TRAILING), nil)
// Var pt 4
parser, program = test(`
var a/*comment*/, b
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.VariableStatement).List[0].(*ast.VariableExpression)], []string{"comment"}, ast.TRAILING), nil)
// Var pt 5
parser, program = test(`
var a, /*comment*/b
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.VariableStatement).List[1].(*ast.VariableExpression)], []string{"comment"}, ast.LEADING), nil)
// Var pt 6
parser, program = test(`
var a, b/*comment*/
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.VariableStatement).List[1]], []string{"comment"}, ast.TRAILING), nil)
// Var pt 7
parser, program = test(`
var a, b;
/*comment*/
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program], []string{"comment"}, ast.TRAILING), nil)
// Return
parser, program = test(`
function f() {
/*comment*/return o
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
// Try catch
parser, program = test(`
/*comment*/try {
a
} catch(b) {
c
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.TryStatement)], []string{"comment"}, ast.LEADING), nil)
// Try catch pt 2
parser, program = test(`
try/*comment*/ {
a
} catch(b) {
c
} finally {
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.TryStatement).Body], []string{"comment"}, ast.LEADING), nil)
// Try catch pt 3
parser, program = test(`
try {
a
}/*comment*/ catch(b) {
c
} finally {
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.TryStatement).Body], []string{"comment"}, ast.TRAILING), nil)
// Try catch pt 4
parser, program = test(`
try {
a
} catch(/*comment*/b) {
c
} finally {
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.TryStatement).Catch.Parameter], []string{"comment"}, ast.LEADING), nil)
// Try catch pt 5
parser, program = test(`
try {
a
} catch(b/*comment*/) {
c
} finally {
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.TryStatement).Catch.Parameter], []string{"comment"}, ast.TRAILING), nil)
// Try catch pt 6
parser, program = test(`
try {
a
} catch(b) /*comment*/{
c
} finally {
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.TryStatement).Catch.Body], []string{"comment"}, ast.LEADING), nil)
// Try catch pt 7
parser, program = test(`
try {
a
} catch(b){
c
} /*comment*/ finally {
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.TryStatement).Catch.Body], []string{"comment"}, ast.TRAILING), nil)
// Try catch pt 8
parser, program = test(`
try {
a
} catch(b){
c
} finally /*comment*/ {
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.TryStatement).Finally], []string{"comment"}, ast.LEADING), nil)
// Try catch pt 9
parser, program = test(`
try {
a
} catch(b){
c
} finally {
}/*comment*/
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.TryStatement).Finally], []string{"comment"}, ast.TRAILING), nil)
// Try catch pt 11
parser, program = test(`
try {
a
}
/*comment*/
catch(b){
c
} finally {
d
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.TryStatement).Body], []string{"comment"}, ast.TRAILING), nil)
// Throw
parser, program = test(`
throw a/*comment*/
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ThrowStatement).Argument], []string{"comment"}, ast.TRAILING), nil)
// Throw pt 2
parser, program = test(`
/*comment*/throw a
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ThrowStatement)], []string{"comment"}, ast.LEADING), nil)
// Throw pt 3
parser, program = test(`
throw /*comment*/a
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ThrowStatement).Argument], []string{"comment"}, ast.LEADING), nil)
// Try catch pt 10
parser, program = test(`
try {
a
} catch(b){
c
}
/*comment*/finally {
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.TryStatement).Catch.Body], []string{"comment"}, ast.TRAILING), nil)
// Try catch pt 11
parser, program = test(`
try {
a
} catch(b){
c
}
finally
/*comment*/
{
d
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.TryStatement).Finally], []string{"comment"}, ast.LEADING), nil)
// Switch / comment
parser, program = test(`
var volvo = 1
//comment
switch(abra) {
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
// Switch / comment
parser, program = test(`
f("string",{
key: "val"
//comment
});
`, nil)
is(parser.comments.CommentMap.Size(), 1)
// Switch / comment
parser, program = test(`
function f() {
/*comment*/if(true){a++}
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
n := program.Body[0].(*ast.FunctionStatement).Function.Body.(*ast.BlockStatement).List[0]
is(checkComments((parser.comments.CommentMap)[n], []string{"comment"}, ast.LEADING), nil)
// Function in function
parser, program = test(`
function f() {
/*comment*/function f2() {
}
}
`, nil)
is(parser.comments.CommentMap.Size(), 1)
n = program.Body[0].(*ast.FunctionStatement).Function.Body.(*ast.BlockStatement).List[0]
is(checkComments((parser.comments.CommentMap)[n], []string{"comment"}, ast.LEADING), nil)
parser, program = test(`
a + /*comment1*/
/*comment2*/
b/*comment3*/;
/*comment4*/c
`, nil)
is(parser.comments.CommentMap.Size(), 4)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.BinaryExpression).Right], []string{"comment1", "comment2"}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.BinaryExpression).Right], []string{"comment3"}, ast.TRAILING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[1]], []string{"comment4"}, ast.LEADING), nil)
parser, program = test(`
a + /*comment1*/
/*comment2*/
b/*comment3*/
/*comment4*/c
`, nil)
is(parser.comments.CommentMap.Size(), 4)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.BinaryExpression).Right], []string{"comment1", "comment2"}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.BinaryExpression).Right], []string{"comment3"}, ast.TRAILING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[1]], []string{"comment4"}, ast.LEADING), nil)
// New
parser, program = test(`
a = /*comment1*/new /*comment2*/ obj/*comment3*/()
`, nil)
is(parser.comments.CommentMap.Size(), 3)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.AssignExpression).Right], []string{"comment1"}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.AssignExpression).Right.(*ast.NewExpression).Callee], []string{"comment2"}, ast.LEADING), nil)
is(checkComments((parser.comments.CommentMap)[program.Body[0].(*ast.ExpressionStatement).Expression.(*ast.AssignExpression).Right.(*ast.NewExpression).Callee], []string{"comment3"}, ast.TRAILING), nil)
})
}
func TestParser_comments2(t *testing.T) {
tt(t, func() {
test := func(source string, chk interface{}) (*_parser, *ast.Program) {
parser, program, err := testParseWithMode(source, StoreComments)
is(firstErr(err), chk)
// Check unresolved comments
is(len(parser.comments.Comments), 0)
return parser, program
}
parser, program := test(`
a = /*comment1*/new /*comment2*/ obj/*comment3*/()
`, nil)
n := program.Body[0]
fmt.Printf("FOUND NODE: %v, number of comments: %v\n", reflect.TypeOf(n), len(parser.comments.CommentMap[n]))
displayComments(parser.comments.CommentMap)
})
}