xgo/parser/parser_test.go

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package parser_test
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import (
"fmt"
"io"
"reflect"
"strings"
"testing"
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. "github.com/d5/tengo/v2/parser"
"github.com/d5/tengo/v2/require"
"github.com/d5/tengo/v2/token"
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)
func TestParserError(t *testing.T) {
err := &Error{Pos: SourceFilePos{
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Offset: 10, Line: 1, Column: 10,
}, Msg: "test"}
require.Equal(t, "Parse Error: test\n\tat 1:10", err.Error())
}
func TestParserErrorList(t *testing.T) {
var list ErrorList
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list.Add(SourceFilePos{Offset: 20, Line: 2, Column: 10}, "error 2")
list.Add(SourceFilePos{Offset: 30, Line: 3, Column: 10}, "error 3")
list.Add(SourceFilePos{Offset: 10, Line: 1, Column: 10}, "error 1")
list.Sort()
require.Equal(t, "Parse Error: error 1\n\tat 1:10 (and 2 more errors)",
list.Error())
}
func TestParseArray(t *testing.T) {
expectParse(t, "[1, 2, 3]", func(p pfn) []Stmt {
return stmts(
exprStmt(
arrayLit(p(1, 1), p(1, 9),
intLit(1, p(1, 2)),
intLit(2, p(1, 5)),
intLit(3, p(1, 8)))))
})
expectParse(t, `
[
1,
2,
3
]`, func(p pfn) []Stmt {
return stmts(
exprStmt(
arrayLit(p(2, 1), p(6, 1),
intLit(1, p(3, 2)),
intLit(2, p(4, 2)),
intLit(3, p(5, 2)))))
})
expectParse(t, `
[
1,
2,
3
]`, func(p pfn) []Stmt {
return stmts(
exprStmt(
arrayLit(p(2, 1), p(7, 1),
intLit(1, p(3, 2)),
intLit(2, p(4, 2)),
intLit(3, p(5, 2)))))
})
expectParse(t, `[1, "foo", 12.34]`, func(p pfn) []Stmt {
return stmts(
exprStmt(
arrayLit(p(1, 1), p(1, 17),
intLit(1, p(1, 2)),
stringLit("foo", p(1, 5)),
floatLit(12.34, p(1, 12)))))
})
expectParse(t, "a = [1, 2, 3]", func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(ident("a", p(1, 1))),
exprs(arrayLit(p(1, 5), p(1, 13),
intLit(1, p(1, 6)),
intLit(2, p(1, 9)),
intLit(3, p(1, 12)))),
token.Assign,
p(1, 3)))
})
expectParse(t, "a = [1 + 2, b * 4, [4, c]]", func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(ident("a", p(1, 1))),
exprs(arrayLit(p(1, 5), p(1, 26),
binaryExpr(
intLit(1, p(1, 6)),
intLit(2, p(1, 10)),
token.Add,
p(1, 8)),
binaryExpr(
ident("b", p(1, 13)),
intLit(4, p(1, 17)),
token.Mul,
p(1, 15)),
arrayLit(p(1, 20), p(1, 25),
intLit(4, p(1, 21)),
ident("c", p(1, 24))))),
token.Assign,
p(1, 3)))
})
expectParseError(t, `[1, 2, 3,]`)
expectParseError(t, `
[
1,
2,
3,
]`)
expectParseError(t, `
[
1,
2,
3,
]`)
expectParseError(t, `[1, 2, 3, ,]`)
}
func TestParseAssignment(t *testing.T) {
expectParse(t, "a = 5", func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(ident("a", p(1, 1))),
exprs(intLit(5, p(1, 5))),
token.Assign,
p(1, 3)))
})
expectParse(t, "a := 5", func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(ident("a", p(1, 1))),
exprs(intLit(5, p(1, 6))),
token.Define,
p(1, 3)))
})
expectParse(t, "a, b = 5, 10", func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(
ident("a", p(1, 1)),
ident("b", p(1, 4))),
exprs(
intLit(5, p(1, 8)),
intLit(10, p(1, 11))),
token.Assign,
p(1, 6)))
})
expectParse(t, "a, b := 5, 10", func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(
ident("a", p(1, 1)),
ident("b", p(1, 4))),
exprs(
intLit(5, p(1, 9)),
intLit(10, p(1, 12))),
token.Define,
p(1, 6)))
})
expectParse(t, "a, b = a + 2, b - 8", func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(
ident("a", p(1, 1)),
ident("b", p(1, 4))),
exprs(
binaryExpr(
ident("a", p(1, 8)),
intLit(2, p(1, 12)),
token.Add,
p(1, 10)),
binaryExpr(
ident("b", p(1, 15)),
intLit(8, p(1, 19)),
token.Sub,
p(1, 17))),
token.Assign,
p(1, 6)))
})
expectParse(t, "a = [1, 2, 3]", func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(ident("a", p(1, 1))),
exprs(arrayLit(p(1, 5), p(1, 13),
intLit(1, p(1, 6)),
intLit(2, p(1, 9)),
intLit(3, p(1, 12)))),
token.Assign,
p(1, 3)))
})
expectParse(t, "a = [1 + 2, b * 4, [4, c]]", func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(ident("a", p(1, 1))),
exprs(arrayLit(p(1, 5), p(1, 26),
binaryExpr(
intLit(1, p(1, 6)),
intLit(2, p(1, 10)),
token.Add,
p(1, 8)),
binaryExpr(
ident("b", p(1, 13)),
intLit(4, p(1, 17)),
token.Mul,
p(1, 15)),
arrayLit(p(1, 20), p(1, 25),
intLit(4, p(1, 21)),
ident("c", p(1, 24))))),
token.Assign,
p(1, 3)))
})
expectParse(t, "a += 5", func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(ident("a", p(1, 1))),
exprs(intLit(5, p(1, 6))),
token.AddAssign,
p(1, 3)))
})
expectParse(t, "a *= 5 + 10", func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(ident("a", p(1, 1))),
exprs(
binaryExpr(
intLit(5, p(1, 6)),
intLit(10, p(1, 10)),
token.Add,
p(1, 8))),
token.MulAssign,
p(1, 3)))
})
}
func TestParseBoolean(t *testing.T) {
expectParse(t, "true", func(p pfn) []Stmt {
return stmts(
exprStmt(
boolLit(true, p(1, 1))))
})
expectParse(t, "false", func(p pfn) []Stmt {
return stmts(
exprStmt(
boolLit(false, p(1, 1))))
})
expectParse(t, "true != false", func(p pfn) []Stmt {
return stmts(
exprStmt(
binaryExpr(
boolLit(true, p(1, 1)),
boolLit(false, p(1, 9)),
token.NotEqual,
p(1, 6))))
})
expectParse(t, "!false", func(p pfn) []Stmt {
return stmts(
exprStmt(
unaryExpr(
boolLit(false, p(1, 2)),
token.Not,
p(1, 1))))
})
}
func TestParseCall(t *testing.T) {
expectParse(t, "add(1, 2, 3)", func(p pfn) []Stmt {
return stmts(
exprStmt(
callExpr(
ident("add", p(1, 1)),
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p(1, 4), p(1, 12), NoPos,
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intLit(1, p(1, 5)),
intLit(2, p(1, 8)),
intLit(3, p(1, 11)))))
})
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expectParse(t, "add(1, 2, v...)", func(p pfn) []Stmt {
return stmts(
exprStmt(
callExpr(
ident("add", p(1, 1)),
p(1, 4), p(1, 15), p(1, 12),
intLit(1, p(1, 5)),
intLit(2, p(1, 8)),
ident("v", p(1, 11)))))
})
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expectParse(t, "a = add(1, 2, 3)", func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(
ident("a", p(1, 1))),
exprs(
callExpr(
ident("add", p(1, 5)),
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p(1, 8), p(1, 16), NoPos,
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intLit(1, p(1, 9)),
intLit(2, p(1, 12)),
intLit(3, p(1, 15)))),
token.Assign,
p(1, 3)))
})
expectParse(t, "a, b = add(1, 2, 3)", func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(
ident("a", p(1, 1)),
ident("b", p(1, 4))),
exprs(
callExpr(
ident("add", p(1, 8)),
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p(1, 11), p(1, 19), NoPos,
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intLit(1, p(1, 12)),
intLit(2, p(1, 15)),
intLit(3, p(1, 18)))),
token.Assign,
p(1, 6)))
})
expectParse(t, "add(a + 1, 2 * 1, (b + c))", func(p pfn) []Stmt {
return stmts(
exprStmt(
callExpr(
ident("add", p(1, 1)),
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p(1, 4), p(1, 26), NoPos,
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binaryExpr(
ident("a", p(1, 5)),
intLit(1, p(1, 9)),
token.Add,
p(1, 7)),
binaryExpr(
intLit(2, p(1, 12)),
intLit(1, p(1, 16)),
token.Mul,
p(1, 14)),
parenExpr(
binaryExpr(
ident("b", p(1, 20)),
ident("c", p(1, 24)),
token.Add,
p(1, 22)),
p(1, 19), p(1, 25)))))
})
expectParseString(t, "a + add(b * c) + d", "((a + add((b * c))) + d)")
expectParseString(t, "add(a, b, 1, 2 * 3, 4 + 5, add(6, 7 * 8))",
"add(a, b, 1, (2 * 3), (4 + 5), add(6, (7 * 8)))")
expectParseString(t, "f1(a) + f2(b) * f3(c)", "(f1(a) + (f2(b) * f3(c)))")
expectParseString(t, "(f1(a) + f2(b)) * f3(c)",
"(((f1(a) + f2(b))) * f3(c))")
expectParse(t, "func(a, b) { a + b }(1, 2)", func(p pfn) []Stmt {
return stmts(
exprStmt(
callExpr(
funcLit(
funcType(
identList(
p(1, 5), p(1, 10),
false,
ident("a", p(1, 6)),
ident("b", p(1, 9))),
p(1, 1)),
blockStmt(
p(1, 12), p(1, 20),
exprStmt(
binaryExpr(
ident("a", p(1, 14)),
ident("b", p(1, 18)),
token.Add,
p(1, 16))))),
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p(1, 21), p(1, 26), NoPos,
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intLit(1, p(1, 22)),
intLit(2, p(1, 25)))))
})
expectParse(t, `a.b()`, func(p pfn) []Stmt {
return stmts(
exprStmt(
callExpr(
selectorExpr(
ident("a", p(1, 1)),
stringLit("b", p(1, 3))),
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p(1, 4), p(1, 5), NoPos)))
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})
expectParse(t, `a.b.c()`, func(p pfn) []Stmt {
return stmts(
exprStmt(
callExpr(
selectorExpr(
selectorExpr(
ident("a", p(1, 1)),
stringLit("b", p(1, 3))),
stringLit("c", p(1, 5))),
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p(1, 6), p(1, 7), NoPos)))
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})
expectParse(t, `a["b"].c()`, func(p pfn) []Stmt {
return stmts(
exprStmt(
callExpr(
selectorExpr(
indexExpr(
ident("a", p(1, 1)),
stringLit("b", p(1, 3)),
p(1, 2), p(1, 6)),
stringLit("c", p(1, 8))),
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p(1, 9), p(1, 10), NoPos)))
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})
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expectParseError(t, `add(...a, 1)`)
expectParseError(t, `add(a..., 1)`)
expectParseError(t, `add(a..., b...)`)
expectParseError(t, `add(1, a..., b...)`)
expectParseError(t, `add(...)`)
expectParseError(t, `add(1, ...)`)
expectParseError(t, `add(1, ..., )`)
expectParseError(t, `add(...a)`)
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}
func TestParseChar(t *testing.T) {
expectParse(t, `'A'`, func(p pfn) []Stmt {
return stmts(
exprStmt(
charLit('A', 1)))
})
expectParse(t, `'九'`, func(p pfn) []Stmt {
return stmts(
exprStmt(
charLit('九', 1)))
})
expectParseError(t, `''`)
expectParseError(t, `'AB'`)
expectParseError(t, `'A九'`)
}
func TestParseCondExpr(t *testing.T) {
expectParse(t, "a ? b : c", func(p pfn) []Stmt {
return stmts(
exprStmt(
condExpr(
ident("a", p(1, 1)),
ident("b", p(1, 5)),
ident("c", p(1, 9)),
p(1, 3),
p(1, 7))))
})
expectParse(t, `a ?
b :
c`, func(p pfn) []Stmt {
return stmts(
exprStmt(
condExpr(
ident("a", p(1, 1)),
ident("b", p(1, 5)),
ident("c", p(1, 9)),
p(1, 3),
p(1, 7))))
})
expectParseString(t, `a ? b : c`, "(a ? b : c)")
expectParseString(t, `a + b ? c - d : e * f`,
"((a + b) ? (c - d) : (e * f))")
expectParseString(t, `a == b ? c + (d / e) : f ? g : h + i`,
"((a == b) ? (c + ((d / e))) : (f ? g : (h + i)))")
expectParseString(t, `(a + b) ? (c - d) : (e * f)`,
"(((a + b)) ? ((c - d)) : ((e * f)))")
expectParseString(t, `a + (b ? c : d) - e`, "((a + ((b ? c : d))) - e)")
expectParseString(t, `a ? b ? c : d : e`, "(a ? (b ? c : d) : e)")
expectParseString(t, `a := b ? c : d`, "a := (b ? c : d)")
expectParseString(t, `x := a ? b ? c : d : e`,
"x := (a ? (b ? c : d) : e)")
// ? : should be at the end of each line if it's multi-line
expectParseError(t, `a
? b
: c`)
expectParseError(t, `a ? (b : e)`)
expectParseError(t, `(a ? b) : e`)
}
func TestParseError(t *testing.T) {
expectParse(t, `error(1234)`, func(p pfn) []Stmt {
return stmts(
exprStmt(
errorExpr(p(1, 1), intLit(1234, p(1, 7)), p(1, 6), p(1, 11))))
})
expectParse(t, `err1 := error("some error")`, func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(ident("err1", p(1, 1))),
exprs(errorExpr(p(1, 9),
stringLit("some error", p(1, 15)), p(1, 14), p(1, 27))),
token.Define, p(1, 6)))
})
expectParse(t, `return error("some error")`, func(p pfn) []Stmt {
return stmts(
returnStmt(p(1, 1),
errorExpr(p(1, 8),
stringLit("some error", p(1, 14)), p(1, 13), p(1, 26))))
})
expectParse(t, `return error("some" + "error")`, func(p pfn) []Stmt {
return stmts(
returnStmt(p(1, 1),
errorExpr(p(1, 8),
binaryExpr(
stringLit("some", p(1, 14)),
stringLit("error", p(1, 23)),
token.Add, p(1, 21)),
p(1, 13), p(1, 30))))
})
expectParseError(t, `error()`) // must have a value
}
func TestParseForIn(t *testing.T) {
expectParse(t, "for x in y {}", func(p pfn) []Stmt {
return stmts(
forInStmt(
ident("_", p(1, 5)),
ident("x", p(1, 5)),
ident("y", p(1, 10)),
blockStmt(p(1, 12), p(1, 13)),
p(1, 1)))
})
expectParse(t, "for _ in y {}", func(p pfn) []Stmt {
return stmts(
forInStmt(
ident("_", p(1, 5)),
ident("_", p(1, 5)),
ident("y", p(1, 10)),
blockStmt(p(1, 12), p(1, 13)),
p(1, 1)))
})
expectParse(t, "for x in [1, 2, 3] {}", func(p pfn) []Stmt {
return stmts(
forInStmt(
ident("_", p(1, 5)),
ident("x", p(1, 5)),
arrayLit(
p(1, 10), p(1, 18),
intLit(1, p(1, 11)),
intLit(2, p(1, 14)),
intLit(3, p(1, 17))),
blockStmt(p(1, 20), p(1, 21)),
p(1, 1)))
})
expectParse(t, "for x, y in z {}", func(p pfn) []Stmt {
return stmts(
forInStmt(
ident("x", p(1, 5)),
ident("y", p(1, 8)),
ident("z", p(1, 13)),
blockStmt(p(1, 15), p(1, 16)),
p(1, 1)))
})
expectParse(t, "for x, y in {k1: 1, k2: 2} {}", func(p pfn) []Stmt {
return stmts(
forInStmt(
ident("x", p(1, 5)),
ident("y", p(1, 8)),
mapLit(
p(1, 13), p(1, 26),
mapElementLit(
"k1", p(1, 14), p(1, 16), intLit(1, p(1, 18))),
mapElementLit(
"k2", p(1, 21), p(1, 23), intLit(2, p(1, 25)))),
blockStmt(p(1, 28), p(1, 29)),
p(1, 1)))
})
}
func TestParseFor(t *testing.T) {
expectParse(t, "for {}", func(p pfn) []Stmt {
return stmts(
forStmt(nil, nil, nil, blockStmt(p(1, 5), p(1, 6)), p(1, 1)))
})
expectParse(t, "for a == 5 {}", func(p pfn) []Stmt {
return stmts(
forStmt(
nil,
binaryExpr(
ident("a", p(1, 5)),
intLit(5, p(1, 10)),
token.Equal,
p(1, 7)),
nil,
blockStmt(p(1, 12), p(1, 13)),
p(1, 1)))
})
expectParse(t, "for a := 0; a == 5; {}", func(p pfn) []Stmt {
return stmts(
forStmt(
assignStmt(
exprs(ident("a", p(1, 5))),
exprs(intLit(0, p(1, 10))),
token.Define, p(1, 7)),
binaryExpr(
ident("a", p(1, 13)),
intLit(5, p(1, 18)),
token.Equal,
p(1, 15)),
nil,
blockStmt(p(1, 22), p(1, 23)),
p(1, 1)))
})
expectParse(t, "for a := 0; a < 5; a++ {}", func(p pfn) []Stmt {
return stmts(
forStmt(
assignStmt(
exprs(ident("a", p(1, 5))),
exprs(intLit(0, p(1, 10))),
token.Define, p(1, 7)),
binaryExpr(
ident("a", p(1, 13)),
intLit(5, p(1, 17)),
token.Less,
p(1, 15)),
incDecStmt(
ident("a", p(1, 20)),
token.Inc, p(1, 21)),
blockStmt(p(1, 24), p(1, 25)),
p(1, 1)))
})
expectParse(t, "for ; a < 5; a++ {}", func(p pfn) []Stmt {
return stmts(
forStmt(
nil,
binaryExpr(
ident("a", p(1, 7)),
intLit(5, p(1, 11)),
token.Less,
p(1, 9)),
incDecStmt(
ident("a", p(1, 14)),
token.Inc, p(1, 15)),
blockStmt(p(1, 18), p(1, 19)),
p(1, 1)))
})
expectParse(t, "for a := 0; ; a++ {}", func(p pfn) []Stmt {
return stmts(
forStmt(
assignStmt(
exprs(ident("a", p(1, 5))),
exprs(intLit(0, p(1, 10))),
token.Define, p(1, 7)),
nil,
incDecStmt(
ident("a", p(1, 15)),
token.Inc, p(1, 16)),
blockStmt(p(1, 19), p(1, 20)),
p(1, 1)))
})
expectParse(t, "for a == 5 && b != 4 {}", func(p pfn) []Stmt {
return stmts(
forStmt(
nil,
binaryExpr(
binaryExpr(
ident("a", p(1, 5)),
intLit(5, p(1, 10)),
token.Equal,
p(1, 7)),
binaryExpr(
ident("b", p(1, 15)),
intLit(4, p(1, 20)),
token.NotEqual,
p(1, 17)),
token.LAnd,
p(1, 12)),
nil,
blockStmt(p(1, 22), p(1, 23)),
p(1, 1)))
})
}
func TestParseFunction(t *testing.T) {
expectParse(t, "a = func(b, c, d) { return d }", func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(
ident("a", p(1, 1))),
exprs(
funcLit(
funcType(
identList(p(1, 9), p(1, 17), false,
ident("b", p(1, 10)),
ident("c", p(1, 13)),
ident("d", p(1, 16))),
p(1, 5)),
blockStmt(p(1, 19), p(1, 30),
returnStmt(p(1, 21), ident("d", p(1, 28)))))),
token.Assign,
p(1, 3)))
})
}
func TestParseVariadicFunction(t *testing.T) {
expectParse(t, "a = func(...args) { return args }", func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(
ident("a", p(1, 1))),
exprs(
funcLit(
funcType(
identList(
p(1, 9), p(1, 17),
true,
ident("args", p(1, 13)),
), p(1, 5)),
blockStmt(p(1, 19), p(1, 33),
returnStmt(p(1, 21),
ident("args", p(1, 28)),
),
),
),
),
token.Assign,
p(1, 3)))
})
}
func TestParseVariadicFunctionWithArgs(t *testing.T) {
expectParse(t, "a = func(x, y, ...z) { return z }", func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(
ident("a", p(1, 1))),
exprs(
funcLit(
funcType(
identList(
p(1, 9), p(1, 20),
true,
ident("x", p(1, 10)),
ident("y", p(1, 13)),
ident("z", p(1, 19)),
), p(1, 5)),
blockStmt(p(1, 22), p(1, 33),
returnStmt(p(1, 24),
ident("z", p(1, 31)),
),
),
),
),
token.Assign,
p(1, 3)))
})
expectParseError(t, "a = func(x, y, ...z, invalid) { return z }")
expectParseError(t, "a = func(...args, invalid) { return args }")
}
func TestParseIf(t *testing.T) {
expectParse(t, "if a == 5 {}", func(p pfn) []Stmt {
return stmts(
ifStmt(
nil,
binaryExpr(
ident("a", p(1, 4)),
intLit(5, p(1, 9)),
token.Equal,
p(1, 6)),
blockStmt(
p(1, 11), p(1, 12)),
nil,
p(1, 1)))
})
expectParse(t, "if a == 5 && b != 3 {}", func(p pfn) []Stmt {
return stmts(
ifStmt(
nil,
binaryExpr(
binaryExpr(
ident("a", p(1, 4)),
intLit(5, p(1, 9)),
token.Equal,
p(1, 6)),
binaryExpr(
ident("b", p(1, 14)),
intLit(3, p(1, 19)),
token.NotEqual,
p(1, 16)),
token.LAnd,
p(1, 11)),
blockStmt(
p(1, 21), p(1, 22)),
nil,
p(1, 1)))
})
expectParse(t, "if a == 5 { a = 3; a = 1 }", func(p pfn) []Stmt {
return stmts(
ifStmt(
nil,
binaryExpr(
ident("a", p(1, 4)),
intLit(5, p(1, 9)),
token.Equal,
p(1, 6)),
blockStmt(
p(1, 11), p(1, 26),
assignStmt(
exprs(ident("a", p(1, 13))),
exprs(intLit(3, p(1, 17))),
token.Assign,
p(1, 15)),
assignStmt(
exprs(ident("a", p(1, 20))),
exprs(intLit(1, p(1, 24))),
token.Assign,
p(1, 22))),
nil,
p(1, 1)))
})
expectParse(t, "if a == 5 { a = 3; a = 1 } else { a = 2; a = 4 }",
func(p pfn) []Stmt {
return stmts(
ifStmt(
nil,
binaryExpr(
ident("a", p(1, 4)),
intLit(5, p(1, 9)),
token.Equal,
p(1, 6)),
blockStmt(
p(1, 11), p(1, 26),
assignStmt(
exprs(ident("a", p(1, 13))),
exprs(intLit(3, p(1, 17))),
token.Assign,
p(1, 15)),
assignStmt(
exprs(ident("a", p(1, 20))),
exprs(intLit(1, p(1, 24))),
token.Assign,
p(1, 22))),
blockStmt(
p(1, 33), p(1, 48),
assignStmt(
exprs(ident("a", p(1, 35))),
exprs(intLit(2, p(1, 39))),
token.Assign,
p(1, 37)),
assignStmt(
exprs(ident("a", p(1, 42))),
exprs(intLit(4, p(1, 46))),
token.Assign,
p(1, 44))),
p(1, 1)))
})
expectParse(t, `
if a == 5 {
b = 3
c = 1
} else if d == 3 {
e = 8
f = 3
} else {
g = 2
h = 4
}`, func(p pfn) []Stmt {
return stmts(
ifStmt(
nil,
binaryExpr(
ident("a", p(2, 4)),
intLit(5, p(2, 9)),
token.Equal,
p(2, 6)),
blockStmt(
p(2, 11), p(5, 1),
assignStmt(
exprs(ident("b", p(3, 2))),
exprs(intLit(3, p(3, 6))),
token.Assign,
p(3, 4)),
assignStmt(
exprs(ident("c", p(4, 2))),
exprs(intLit(1, p(4, 6))),
token.Assign,
p(4, 4))),
ifStmt(
nil,
binaryExpr(
ident("d", p(5, 11)),
intLit(3, p(5, 16)),
token.Equal,
p(5, 13)),
blockStmt(
p(5, 18), p(8, 1),
assignStmt(
exprs(ident("e", p(6, 2))),
exprs(intLit(8, p(6, 6))),
token.Assign,
p(6, 4)),
assignStmt(
exprs(ident("f", p(7, 2))),
exprs(intLit(3, p(7, 6))),
token.Assign,
p(7, 4))),
blockStmt(
p(8, 8), p(11, 1),
assignStmt(
exprs(ident("g", p(9, 2))),
exprs(intLit(2, p(9, 6))),
token.Assign,
p(9, 4)),
assignStmt(
exprs(ident("h", p(10, 2))),
exprs(intLit(4, p(10, 6))),
token.Assign,
p(10, 4))),
p(5, 8)),
p(2, 1)))
})
expectParse(t, "if a := 3; a < b {}", func(p pfn) []Stmt {
return stmts(
ifStmt(
assignStmt(
exprs(ident("a", p(1, 4))),
exprs(intLit(3, p(1, 9))),
token.Define, p(1, 6)),
binaryExpr(
ident("a", p(1, 12)),
ident("b", p(1, 16)),
token.Less, p(1, 14)),
blockStmt(
p(1, 18), p(1, 19)),
nil,
p(1, 1)))
})
expectParse(t, "if a++; a < b {}", func(p pfn) []Stmt {
return stmts(
ifStmt(
incDecStmt(ident("a", p(1, 4)), token.Inc, p(1, 5)),
binaryExpr(
ident("a", p(1, 9)),
ident("b", p(1, 13)),
token.Less, p(1, 11)),
blockStmt(
p(1, 15), p(1, 16)),
nil,
p(1, 1)))
})
expectParseError(t, `if {}`)
expectParseError(t, `if a == b { } else a != b { }`)
expectParseError(t, `if a == b { } else if { }`)
expectParseError(t, `else { }`)
expectParseError(t, `if ; {}`)
expectParseError(t, `if a := 3; {}`)
expectParseError(t, `if ; a < 3 {}`)
}
func TestParseImport(t *testing.T) {
expectParse(t, `a := import("mod1")`, func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(ident("a", p(1, 1))),
exprs(importExpr("mod1", p(1, 6))),
token.Define, p(1, 3)))
})
expectParse(t, `import("mod1").var1`, func(p pfn) []Stmt {
return stmts(
exprStmt(
selectorExpr(
importExpr("mod1", p(1, 1)),
stringLit("var1", p(1, 16)))))
})
expectParse(t, `import("mod1").func1()`, func(p pfn) []Stmt {
return stmts(
exprStmt(
callExpr(
selectorExpr(
importExpr("mod1", p(1, 1)),
stringLit("func1", p(1, 16))),
2020-06-08 19:54:24 +03:00
p(1, 21), p(1, 22), NoPos)))
2019-12-20 22:40:38 +03:00
})
expectParse(t, `for x, y in import("mod1") {}`, func(p pfn) []Stmt {
return stmts(
forInStmt(
ident("x", p(1, 5)),
ident("y", p(1, 8)),
importExpr("mod1", p(1, 13)),
blockStmt(p(1, 28), p(1, 29)),
p(1, 1)))
})
}
func TestParseIndex(t *testing.T) {
expectParse(t, "[1, 2, 3][1]", func(p pfn) []Stmt {
return stmts(
exprStmt(
indexExpr(
arrayLit(p(1, 1), p(1, 9),
intLit(1, p(1, 2)),
intLit(2, p(1, 5)),
intLit(3, p(1, 8))),
intLit(1, p(1, 11)),
p(1, 10), p(1, 12))))
})
expectParse(t, "[1, 2, 3][5 - a]", func(p pfn) []Stmt {
return stmts(
exprStmt(
indexExpr(
arrayLit(p(1, 1), p(1, 9),
intLit(1, p(1, 2)),
intLit(2, p(1, 5)),
intLit(3, p(1, 8))),
binaryExpr(
intLit(5, p(1, 11)),
ident("a", p(1, 15)),
token.Sub,
p(1, 13)),
p(1, 10), p(1, 16))))
})
expectParse(t, "[1, 2, 3][5 : a]", func(p pfn) []Stmt {
return stmts(
exprStmt(
sliceExpr(
arrayLit(p(1, 1), p(1, 9),
intLit(1, p(1, 2)),
intLit(2, p(1, 5)),
intLit(3, p(1, 8))),
intLit(5, p(1, 11)),
ident("a", p(1, 15)),
p(1, 10), p(1, 16))))
})
expectParse(t, "[1, 2, 3][a + 3 : b - 8]", func(p pfn) []Stmt {
return stmts(
exprStmt(
sliceExpr(
arrayLit(p(1, 1), p(1, 9),
intLit(1, p(1, 2)),
intLit(2, p(1, 5)),
intLit(3, p(1, 8))),
binaryExpr(
ident("a", p(1, 11)),
intLit(3, p(1, 15)),
token.Add,
p(1, 13)),
binaryExpr(
ident("b", p(1, 19)),
intLit(8, p(1, 23)),
token.Sub,
p(1, 21)),
p(1, 10), p(1, 24))))
})
expectParse(t, `{a: 1, b: 2}["b"]`, func(p pfn) []Stmt {
return stmts(
exprStmt(
indexExpr(
mapLit(p(1, 1), p(1, 12),
mapElementLit(
"a", p(1, 2), p(1, 3), intLit(1, p(1, 5))),
mapElementLit(
"b", p(1, 8), p(1, 9), intLit(2, p(1, 11)))),
stringLit("b", p(1, 14)),
p(1, 13), p(1, 17))))
})
expectParse(t, `{a: 1, b: 2}[a + b]`, func(p pfn) []Stmt {
return stmts(
exprStmt(
indexExpr(
mapLit(p(1, 1), p(1, 12),
mapElementLit(
"a", p(1, 2), p(1, 3), intLit(1, p(1, 5))),
mapElementLit(
"b", p(1, 8), p(1, 9), intLit(2, p(1, 11)))),
binaryExpr(
ident("a", p(1, 14)),
ident("b", p(1, 18)),
token.Add,
p(1, 16)),
p(1, 13), p(1, 19))))
})
}
func TestParseLogical(t *testing.T) {
expectParse(t, "a && 5 || true", func(p pfn) []Stmt {
return stmts(
exprStmt(
binaryExpr(
binaryExpr(
ident("a", p(1, 1)),
intLit(5, p(1, 6)),
token.LAnd,
p(1, 3)),
boolLit(true, p(1, 11)),
token.LOr,
p(1, 8))))
})
expectParse(t, "a || 5 && true", func(p pfn) []Stmt {
return stmts(
exprStmt(
binaryExpr(
ident("a", p(1, 1)),
binaryExpr(
intLit(5, p(1, 6)),
boolLit(true, p(1, 11)),
token.LAnd,
p(1, 8)),
token.LOr,
p(1, 3))))
})
expectParse(t, "a && (5 || true)", func(p pfn) []Stmt {
return stmts(
exprStmt(
binaryExpr(
ident("a", p(1, 1)),
parenExpr(
binaryExpr(
intLit(5, p(1, 7)),
boolLit(true, p(1, 12)),
token.LOr,
p(1, 9)),
p(1, 6), p(1, 16)),
token.LAnd,
p(1, 3))))
})
}
func TestParseMap(t *testing.T) {
expectParse(t, "{ key1: 1, key2: \"2\", key3: true }", func(p pfn) []Stmt {
return stmts(
exprStmt(
mapLit(p(1, 1), p(1, 34),
mapElementLit(
"key1", p(1, 3), p(1, 7), intLit(1, p(1, 9))),
mapElementLit(
"key2", p(1, 12), p(1, 16), stringLit("2", p(1, 18))),
mapElementLit(
"key3", p(1, 23), p(1, 27), boolLit(true, p(1, 29))))))
})
expectParse(t, "{ \"key1\": 1 }", func(p pfn) []Stmt {
return stmts(
exprStmt(
mapLit(p(1, 1), p(1, 13),
mapElementLit(
"key1", p(1, 3), p(1, 9), intLit(1, p(1, 11))))))
})
expectParse(t, "a = { key1: 1, key2: \"2\", key3: true }",
func(p pfn) []Stmt {
return stmts(assignStmt(
exprs(ident("a", p(1, 1))),
exprs(mapLit(p(1, 5), p(1, 38),
mapElementLit(
"key1", p(1, 7), p(1, 11), intLit(1, p(1, 13))),
mapElementLit(
"key2", p(1, 16), p(1, 20), stringLit("2", p(1, 22))),
mapElementLit(
"key3", p(1, 27), p(1, 31), boolLit(true, p(1, 33))))),
token.Assign,
p(1, 3)))
})
expectParse(t, "a = { key1: 1, key2: \"2\", key3: { k1: `bar`, k2: 4 } }",
func(p pfn) []Stmt {
return stmts(assignStmt(
exprs(ident("a", p(1, 1))),
exprs(mapLit(p(1, 5), p(1, 54),
mapElementLit(
"key1", p(1, 7), p(1, 11), intLit(1, p(1, 13))),
mapElementLit(
"key2", p(1, 16), p(1, 20), stringLit("2", p(1, 22))),
mapElementLit(
"key3", p(1, 27), p(1, 31),
mapLit(p(1, 33), p(1, 52),
mapElementLit(
"k1", p(1, 35),
p(1, 37), stringLit("bar", p(1, 39))),
mapElementLit(
"k2", p(1, 46),
p(1, 48), intLit(4, p(1, 50))))))),
token.Assign,
p(1, 3)))
})
expectParse(t, `
{
key1: 1,
key2: "2",
key3: true
}`, func(p pfn) []Stmt {
return stmts(exprStmt(
mapLit(p(2, 1), p(6, 1),
mapElementLit(
"key1", p(3, 2), p(3, 6), intLit(1, p(3, 8))),
mapElementLit(
"key2", p(4, 2), p(4, 6), stringLit("2", p(4, 8))),
mapElementLit(
"key3", p(5, 2), p(5, 6), boolLit(true, p(5, 8))))))
})
expectParseError(t, `
{
key1: 1,
key2: "2",
key3: true,
}`) // unlike Go, trailing comma for the last element is illegal
expectParseError(t, `{ key1: 1, }`)
expectParseError(t, `{
key1: 1,
key2: 2,
}`)
}
func TestParsePrecedence(t *testing.T) {
expectParseString(t, `a + b + c`, `((a + b) + c)`)
expectParseString(t, `a + b * c`, `(a + (b * c))`)
expectParseString(t, `x = 2 * 1 + 3 / 4`, `x = ((2 * 1) + (3 / 4))`)
}
func TestParseSelector(t *testing.T) {
expectParse(t, "a.b", func(p pfn) []Stmt {
return stmts(
exprStmt(
selectorExpr(
ident("a", p(1, 1)),
stringLit("b", p(1, 3)))))
})
expectParse(t, "a.b.c", func(p pfn) []Stmt {
return stmts(
exprStmt(
selectorExpr(
selectorExpr(
ident("a", p(1, 1)),
stringLit("b", p(1, 3))),
stringLit("c", p(1, 5)))))
})
expectParse(t, "{k1:1}.k1", func(p pfn) []Stmt {
return stmts(
exprStmt(
selectorExpr(
mapLit(
p(1, 1), p(1, 6),
mapElementLit(
"k1", p(1, 2), p(1, 4), intLit(1, p(1, 5)))),
stringLit("k1", p(1, 8)))))
})
expectParse(t, "{k1:{v1:1}}.k1.v1", func(p pfn) []Stmt {
return stmts(
exprStmt(
selectorExpr(
selectorExpr(
mapLit(
p(1, 1), p(1, 11),
mapElementLit("k1", p(1, 2), p(1, 4),
mapLit(p(1, 5), p(1, 10),
mapElementLit(
"v1", p(1, 6),
p(1, 8), intLit(1, p(1, 9)))))),
stringLit("k1", p(1, 13))),
stringLit("v1", p(1, 16)))))
})
expectParse(t, "a.b = 4", func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(
selectorExpr(
ident("a", p(1, 1)),
stringLit("b", p(1, 3)))),
exprs(intLit(4, p(1, 7))),
token.Assign, p(1, 5)))
})
expectParse(t, "a.b.c = 4", func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(
selectorExpr(
selectorExpr(
ident("a", p(1, 1)),
stringLit("b", p(1, 3))),
stringLit("c", p(1, 5)))),
exprs(intLit(4, p(1, 9))),
token.Assign, p(1, 7)))
})
expectParse(t, "a.b.c = 4 + 5", func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(
selectorExpr(
selectorExpr(
ident("a", p(1, 1)),
stringLit("b", p(1, 3))),
stringLit("c", p(1, 5)))),
exprs(
binaryExpr(
intLit(4, p(1, 9)),
intLit(5, p(1, 13)),
token.Add,
p(1, 11))),
token.Assign, p(1, 7)))
})
expectParse(t, "a[0].c = 4", func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(
selectorExpr(
indexExpr(
ident("a", p(1, 1)),
intLit(0, p(1, 3)),
p(1, 2), p(1, 4)),
stringLit("c", p(1, 6)))),
exprs(intLit(4, p(1, 10))),
token.Assign, p(1, 8)))
})
expectParse(t, "a.b[0].c = 4", func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(
selectorExpr(
indexExpr(
selectorExpr(
ident("a", p(1, 1)),
stringLit("b", p(1, 3))),
intLit(0, p(1, 5)),
p(1, 4), p(1, 6)),
stringLit("c", p(1, 8)))),
exprs(intLit(4, p(1, 12))),
token.Assign, p(1, 10)))
})
expectParse(t, "a.b[0][2].c = 4", func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(
selectorExpr(
indexExpr(
indexExpr(
selectorExpr(
ident("a", p(1, 1)),
stringLit("b", p(1, 3))),
intLit(0, p(1, 5)),
p(1, 4), p(1, 6)),
intLit(2, p(1, 8)),
p(1, 7), p(1, 9)),
stringLit("c", p(1, 11)))),
exprs(intLit(4, p(1, 15))),
token.Assign, p(1, 13)))
})
expectParse(t, `a.b["key1"][2].c = 4`, func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(
selectorExpr(
indexExpr(
indexExpr(
selectorExpr(
ident("a", p(1, 1)),
stringLit("b", p(1, 3))),
stringLit("key1", p(1, 5)),
p(1, 4), p(1, 11)),
intLit(2, p(1, 13)),
p(1, 12), p(1, 14)),
stringLit("c", p(1, 16)))),
exprs(intLit(4, p(1, 20))),
token.Assign, p(1, 18)))
})
expectParse(t, "a[0].b[2].c = 4", func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(
selectorExpr(
indexExpr(
selectorExpr(
indexExpr(
ident("a", p(1, 1)),
intLit(0, p(1, 3)),
p(1, 2), p(1, 4)),
stringLit("b", p(1, 6))),
intLit(2, p(1, 8)),
p(1, 7), p(1, 9)),
stringLit("c", p(1, 11)))),
exprs(intLit(4, p(1, 15))),
token.Assign, p(1, 13)))
})
expectParseError(t, `a.(b.c)`)
}
func TestParseSemicolon(t *testing.T) {
expectParse(t, "1", func(p pfn) []Stmt {
return stmts(
exprStmt(intLit(1, p(1, 1))))
})
expectParse(t, "1;", func(p pfn) []Stmt {
return stmts(
exprStmt(intLit(1, p(1, 1))))
})
expectParse(t, "1;;", func(p pfn) []Stmt {
return stmts(
exprStmt(intLit(1, p(1, 1))),
emptyStmt(false, p(1, 3)))
})
expectParse(t, `1
`, func(p pfn) []Stmt {
return stmts(
exprStmt(intLit(1, p(1, 1))))
})
expectParse(t, `1
;`, func(p pfn) []Stmt {
return stmts(
exprStmt(intLit(1, p(1, 1))),
emptyStmt(false, p(2, 1)))
})
expectParse(t, `1;
;`, func(p pfn) []Stmt {
return stmts(
exprStmt(intLit(1, p(1, 1))),
emptyStmt(false, p(2, 1)))
})
}
func TestParseString(t *testing.T) {
expectParse(t, `a = "foo\nbar"`, func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(ident("a", p(1, 1))),
exprs(stringLit("foo\nbar", p(1, 5))),
token.Assign,
p(1, 3)))
})
expectParse(t, "a = `raw string`", func(p pfn) []Stmt {
return stmts(
assignStmt(
exprs(ident("a", p(1, 1))),
exprs(stringLit("raw string", p(1, 5))),
token.Assign,
p(1, 3)))
})
}
type pfn func(int, int) Pos // position conversion function
type expectedFn func(pos pfn) []Stmt // callback function to return expected results
type parseTracer struct {
out []string
}
func (o *parseTracer) Write(p []byte) (n int, err error) {
o.out = append(o.out, string(p))
return len(p), nil
}
//type slowPrinter struct {
//}
//
//func (o *slowPrinter) Write(p []byte) (n int, err error) {
// fmt.Print(string(p))
// time.Sleep(25 * time.Millisecond)
// return len(p), nil
//}
func expectParse(t *testing.T, input string, fn expectedFn) {
testFileSet := NewFileSet()
testFile := testFileSet.AddFile("test", -1, len(input))
var ok bool
defer func() {
if !ok {
// print trace
tr := &parseTracer{}
p := NewParser(testFile, []byte(input), tr)
actual, _ := p.ParseFile()
if actual != nil {
t.Logf("Parsed:\n%s", actual.String())
}
t.Logf("Trace:\n%s", strings.Join(tr.out, ""))
}
}()
p := NewParser(testFile, []byte(input), nil)
actual, err := p.ParseFile()
require.NoError(t, err)
expected := fn(func(line, column int) Pos {
return Pos(int(testFile.LineStart(line)) + (column - 1))
})
require.Equal(t, len(expected), len(actual.Stmts))
for i := 0; i < len(expected); i++ {
equalStmt(t, expected[i], actual.Stmts[i])
}
ok = true
}
func expectParseError(t *testing.T, input string) {
testFileSet := NewFileSet()
testFile := testFileSet.AddFile("test", -1, len(input))
var ok bool
defer func() {
if !ok {
// print trace
tr := &parseTracer{}
p := NewParser(testFile, []byte(input), tr)
_, _ = p.ParseFile()
t.Logf("Trace:\n%s", strings.Join(tr.out, ""))
}
}()
p := NewParser(testFile, []byte(input), nil)
_, err := p.ParseFile()
require.Error(t, err)
ok = true
}
func expectParseString(t *testing.T, input, expected string) {
var ok bool
defer func() {
if !ok {
// print trace
tr := &parseTracer{}
_, _ = parseSource("test", []byte(input), tr)
t.Logf("Trace:\n%s", strings.Join(tr.out, ""))
}
}()
actual, err := parseSource("test", []byte(input), nil)
require.NoError(t, err)
require.Equal(t, expected, actual.String())
ok = true
}
func stmts(s ...Stmt) []Stmt {
return s
}
func exprStmt(x Expr) *ExprStmt {
return &ExprStmt{Expr: x}
}
func assignStmt(
lhs, rhs []Expr,
token token.Token,
pos Pos,
) *AssignStmt {
return &AssignStmt{LHS: lhs, RHS: rhs, Token: token, TokenPos: pos}
}
func emptyStmt(implicit bool, pos Pos) *EmptyStmt {
return &EmptyStmt{Implicit: implicit, Semicolon: pos}
}
func returnStmt(pos Pos, result Expr) *ReturnStmt {
return &ReturnStmt{Result: result, ReturnPos: pos}
}
func forStmt(
init Stmt,
cond Expr,
post Stmt,
body *BlockStmt,
pos Pos,
) *ForStmt {
return &ForStmt{
Cond: cond, Init: init, Post: post, Body: body, ForPos: pos,
}
}
func forInStmt(
key, value *Ident,
seq Expr,
body *BlockStmt,
pos Pos,
) *ForInStmt {
return &ForInStmt{
Key: key, Value: value, Iterable: seq, Body: body, ForPos: pos,
}
}
func ifStmt(
init Stmt,
cond Expr,
body *BlockStmt,
elseStmt Stmt,
pos Pos,
) *IfStmt {
return &IfStmt{
Init: init, Cond: cond, Body: body, Else: elseStmt, IfPos: pos,
}
}
func incDecStmt(
expr Expr,
tok token.Token,
pos Pos,
) *IncDecStmt {
return &IncDecStmt{Expr: expr, Token: tok, TokenPos: pos}
}
func funcType(params *IdentList, pos Pos) *FuncType {
return &FuncType{Params: params, FuncPos: pos}
}
func blockStmt(lbrace, rbrace Pos, list ...Stmt) *BlockStmt {
return &BlockStmt{Stmts: list, LBrace: lbrace, RBrace: rbrace}
}
func ident(name string, pos Pos) *Ident {
return &Ident{Name: name, NamePos: pos}
}
func identList(
opening, closing Pos,
varArgs bool,
list ...*Ident,
) *IdentList {
return &IdentList{
VarArgs: varArgs, List: list, LParen: opening, RParen: closing,
}
}
func binaryExpr(
x, y Expr,
op token.Token,
pos Pos,
) *BinaryExpr {
return &BinaryExpr{LHS: x, RHS: y, Token: op, TokenPos: pos}
}
func condExpr(
cond, trueExpr, falseExpr Expr,
questionPos, colonPos Pos,
) *CondExpr {
return &CondExpr{
Cond: cond, True: trueExpr, False: falseExpr,
QuestionPos: questionPos, ColonPos: colonPos,
}
}
func unaryExpr(x Expr, op token.Token, pos Pos) *UnaryExpr {
return &UnaryExpr{Expr: x, Token: op, TokenPos: pos}
}
func importExpr(moduleName string, pos Pos) *ImportExpr {
return &ImportExpr{
ModuleName: moduleName, Token: token.Import, TokenPos: pos,
}
}
func exprs(list ...Expr) []Expr {
return list
}
func intLit(value int64, pos Pos) *IntLit {
return &IntLit{Value: value, ValuePos: pos}
}
func floatLit(value float64, pos Pos) *FloatLit {
return &FloatLit{Value: value, ValuePos: pos}
}
func stringLit(value string, pos Pos) *StringLit {
return &StringLit{Value: value, ValuePos: pos}
}
func charLit(value rune, pos Pos) *CharLit {
return &CharLit{
Value: value, ValuePos: pos, Literal: fmt.Sprintf("'%c'", value),
}
}
func boolLit(value bool, pos Pos) *BoolLit {
return &BoolLit{Value: value, ValuePos: pos}
}
func arrayLit(lbracket, rbracket Pos, list ...Expr) *ArrayLit {
return &ArrayLit{LBrack: lbracket, RBrack: rbracket, Elements: list}
}
func mapElementLit(
key string,
keyPos Pos,
colonPos Pos,
value Expr,
) *MapElementLit {
return &MapElementLit{
Key: key, KeyPos: keyPos, ColonPos: colonPos, Value: value,
}
}
func mapLit(
lbrace, rbrace Pos,
list ...*MapElementLit,
) *MapLit {
return &MapLit{LBrace: lbrace, RBrace: rbrace, Elements: list}
}
func funcLit(funcType *FuncType, body *BlockStmt) *FuncLit {
return &FuncLit{Type: funcType, Body: body}
}
func parenExpr(x Expr, lparen, rparen Pos) *ParenExpr {
return &ParenExpr{Expr: x, LParen: lparen, RParen: rparen}
}
func callExpr(
f Expr,
2020-06-08 19:54:24 +03:00
lparen, rparen, ellipsis Pos,
2019-12-20 22:40:38 +03:00
args ...Expr,
) *CallExpr {
2020-06-08 19:54:24 +03:00
return &CallExpr{Func: f, LParen: lparen, RParen: rparen,
Ellipsis: ellipsis, Args: args}
2019-12-20 22:40:38 +03:00
}
func indexExpr(
x, index Expr,
lbrack, rbrack Pos,
) *IndexExpr {
return &IndexExpr{
Expr: x, Index: index, LBrack: lbrack, RBrack: rbrack,
}
}
func sliceExpr(
x, low, high Expr,
lbrack, rbrack Pos,
) *SliceExpr {
return &SliceExpr{
Expr: x, Low: low, High: high, LBrack: lbrack, RBrack: rbrack,
}
}
func errorExpr(
pos Pos,
x Expr,
lparen, rparen Pos,
) *ErrorExpr {
return &ErrorExpr{
Expr: x, ErrorPos: pos, LParen: lparen, RParen: rparen,
}
}
func selectorExpr(x, sel Expr) *SelectorExpr {
return &SelectorExpr{Expr: x, Sel: sel}
}
func equalStmt(t *testing.T, expected, actual Stmt) {
if expected == nil || reflect.ValueOf(expected).IsNil() {
require.Nil(t, actual, "expected nil, but got not nil")
return
}
require.NotNil(t, actual, "expected not nil, but got nil")
require.IsType(t, expected, actual)
switch expected := expected.(type) {
case *ExprStmt:
equalExpr(t, expected.Expr, actual.(*ExprStmt).Expr)
case *EmptyStmt:
require.Equal(t, expected.Implicit,
actual.(*EmptyStmt).Implicit)
require.Equal(t, expected.Semicolon,
actual.(*EmptyStmt).Semicolon)
case *BlockStmt:
require.Equal(t, expected.LBrace,
actual.(*BlockStmt).LBrace)
require.Equal(t, expected.RBrace,
actual.(*BlockStmt).RBrace)
equalStmts(t, expected.Stmts,
actual.(*BlockStmt).Stmts)
case *AssignStmt:
equalExprs(t, expected.LHS,
actual.(*AssignStmt).LHS)
equalExprs(t, expected.RHS,
actual.(*AssignStmt).RHS)
require.Equal(t, int(expected.Token),
int(actual.(*AssignStmt).Token))
require.Equal(t, int(expected.TokenPos),
int(actual.(*AssignStmt).TokenPos))
case *IfStmt:
equalStmt(t, expected.Init, actual.(*IfStmt).Init)
equalExpr(t, expected.Cond, actual.(*IfStmt).Cond)
equalStmt(t, expected.Body, actual.(*IfStmt).Body)
equalStmt(t, expected.Else, actual.(*IfStmt).Else)
require.Equal(t, expected.IfPos, actual.(*IfStmt).IfPos)
case *IncDecStmt:
equalExpr(t, expected.Expr,
actual.(*IncDecStmt).Expr)
require.Equal(t, expected.Token,
actual.(*IncDecStmt).Token)
require.Equal(t, expected.TokenPos,
actual.(*IncDecStmt).TokenPos)
case *ForStmt:
equalStmt(t, expected.Init, actual.(*ForStmt).Init)
equalExpr(t, expected.Cond, actual.(*ForStmt).Cond)
equalStmt(t, expected.Post, actual.(*ForStmt).Post)
equalStmt(t, expected.Body, actual.(*ForStmt).Body)
require.Equal(t, expected.ForPos, actual.(*ForStmt).ForPos)
case *ForInStmt:
equalExpr(t, expected.Key,
actual.(*ForInStmt).Key)
equalExpr(t, expected.Value,
actual.(*ForInStmt).Value)
equalExpr(t, expected.Iterable,
actual.(*ForInStmt).Iterable)
equalStmt(t, expected.Body,
actual.(*ForInStmt).Body)
require.Equal(t, expected.ForPos,
actual.(*ForInStmt).ForPos)
case *ReturnStmt:
equalExpr(t, expected.Result,
actual.(*ReturnStmt).Result)
require.Equal(t, expected.ReturnPos,
actual.(*ReturnStmt).ReturnPos)
case *BranchStmt:
equalExpr(t, expected.Label,
actual.(*BranchStmt).Label)
require.Equal(t, expected.Token,
actual.(*BranchStmt).Token)
require.Equal(t, expected.TokenPos,
actual.(*BranchStmt).TokenPos)
default:
panic(fmt.Errorf("unknown type: %T", expected))
}
}
func equalExpr(t *testing.T, expected, actual Expr) {
if expected == nil || reflect.ValueOf(expected).IsNil() {
require.Nil(t, actual, "expected nil, but got not nil")
return
}
require.NotNil(t, actual, "expected not nil, but got nil")
require.IsType(t, expected, actual)
switch expected := expected.(type) {
case *Ident:
require.Equal(t, expected.Name,
actual.(*Ident).Name)
require.Equal(t, int(expected.NamePos),
int(actual.(*Ident).NamePos))
case *IntLit:
require.Equal(t, expected.Value,
actual.(*IntLit).Value)
require.Equal(t, int(expected.ValuePos),
int(actual.(*IntLit).ValuePos))
case *FloatLit:
require.Equal(t, expected.Value,
actual.(*FloatLit).Value)
require.Equal(t, int(expected.ValuePos),
int(actual.(*FloatLit).ValuePos))
case *BoolLit:
require.Equal(t, expected.Value,
actual.(*BoolLit).Value)
require.Equal(t, int(expected.ValuePos),
int(actual.(*BoolLit).ValuePos))
case *CharLit:
require.Equal(t, expected.Value,
actual.(*CharLit).Value)
require.Equal(t, int(expected.ValuePos),
int(actual.(*CharLit).ValuePos))
case *StringLit:
require.Equal(t, expected.Value,
actual.(*StringLit).Value)
require.Equal(t, int(expected.ValuePos),
int(actual.(*StringLit).ValuePos))
case *ArrayLit:
require.Equal(t, expected.LBrack,
actual.(*ArrayLit).LBrack)
require.Equal(t, expected.RBrack,
actual.(*ArrayLit).RBrack)
equalExprs(t, expected.Elements,
actual.(*ArrayLit).Elements)
case *MapLit:
require.Equal(t, expected.LBrace,
actual.(*MapLit).LBrace)
require.Equal(t, expected.RBrace,
actual.(*MapLit).RBrace)
equalMapElements(t, expected.Elements,
actual.(*MapLit).Elements)
case *BinaryExpr:
equalExpr(t, expected.LHS,
actual.(*BinaryExpr).LHS)
equalExpr(t, expected.RHS,
actual.(*BinaryExpr).RHS)
require.Equal(t, expected.Token,
actual.(*BinaryExpr).Token)
require.Equal(t, expected.TokenPos,
actual.(*BinaryExpr).TokenPos)
case *UnaryExpr:
equalExpr(t, expected.Expr,
actual.(*UnaryExpr).Expr)
require.Equal(t, expected.Token,
actual.(*UnaryExpr).Token)
require.Equal(t, expected.TokenPos,
actual.(*UnaryExpr).TokenPos)
case *FuncLit:
equalFuncType(t, expected.Type,
actual.(*FuncLit).Type)
equalStmt(t, expected.Body,
actual.(*FuncLit).Body)
case *CallExpr:
equalExpr(t, expected.Func,
actual.(*CallExpr).Func)
require.Equal(t, expected.LParen,
actual.(*CallExpr).LParen)
require.Equal(t, expected.RParen,
actual.(*CallExpr).RParen)
equalExprs(t, expected.Args,
actual.(*CallExpr).Args)
case *ParenExpr:
equalExpr(t, expected.Expr,
actual.(*ParenExpr).Expr)
require.Equal(t, expected.LParen,
actual.(*ParenExpr).LParen)
require.Equal(t, expected.RParen,
actual.(*ParenExpr).RParen)
case *IndexExpr:
equalExpr(t, expected.Expr,
actual.(*IndexExpr).Expr)
equalExpr(t, expected.Index,
actual.(*IndexExpr).Index)
require.Equal(t, expected.LBrack,
actual.(*IndexExpr).LBrack)
require.Equal(t, expected.RBrack,
actual.(*IndexExpr).RBrack)
case *SliceExpr:
equalExpr(t, expected.Expr,
actual.(*SliceExpr).Expr)
equalExpr(t, expected.Low,
actual.(*SliceExpr).Low)
equalExpr(t, expected.High,
actual.(*SliceExpr).High)
require.Equal(t, expected.LBrack,
actual.(*SliceExpr).LBrack)
require.Equal(t, expected.RBrack,
actual.(*SliceExpr).RBrack)
case *SelectorExpr:
equalExpr(t, expected.Expr,
actual.(*SelectorExpr).Expr)
equalExpr(t, expected.Sel,
actual.(*SelectorExpr).Sel)
case *ImportExpr:
require.Equal(t, expected.ModuleName,
actual.(*ImportExpr).ModuleName)
require.Equal(t, int(expected.TokenPos),
int(actual.(*ImportExpr).TokenPos))
require.Equal(t, expected.Token,
actual.(*ImportExpr).Token)
case *ErrorExpr:
equalExpr(t, expected.Expr,
actual.(*ErrorExpr).Expr)
require.Equal(t, int(expected.ErrorPos),
int(actual.(*ErrorExpr).ErrorPos))
require.Equal(t, int(expected.LParen),
int(actual.(*ErrorExpr).LParen))
require.Equal(t, int(expected.RParen),
int(actual.(*ErrorExpr).RParen))
case *CondExpr:
equalExpr(t, expected.Cond,
actual.(*CondExpr).Cond)
equalExpr(t, expected.True,
actual.(*CondExpr).True)
equalExpr(t, expected.False,
actual.(*CondExpr).False)
require.Equal(t, expected.QuestionPos,
actual.(*CondExpr).QuestionPos)
require.Equal(t, expected.ColonPos,
actual.(*CondExpr).ColonPos)
default:
panic(fmt.Errorf("unknown type: %T", expected))
}
}
func equalFuncType(t *testing.T, expected, actual *FuncType) {
require.Equal(t, expected.Params.LParen, actual.Params.LParen)
require.Equal(t, expected.Params.RParen, actual.Params.RParen)
equalIdents(t, expected.Params.List, actual.Params.List)
}
func equalIdents(t *testing.T, expected, actual []*Ident) {
require.Equal(t, len(expected), len(actual))
for i := 0; i < len(expected); i++ {
equalExpr(t, expected[i], actual[i])
}
}
func equalExprs(t *testing.T, expected, actual []Expr) {
require.Equal(t, len(expected), len(actual))
for i := 0; i < len(expected); i++ {
equalExpr(t, expected[i], actual[i])
}
}
func equalStmts(t *testing.T, expected, actual []Stmt) {
require.Equal(t, len(expected), len(actual))
for i := 0; i < len(expected); i++ {
equalStmt(t, expected[i], actual[i])
}
}
func equalMapElements(
t *testing.T,
expected, actual []*MapElementLit,
) {
require.Equal(t, len(expected), len(actual))
for i := 0; i < len(expected); i++ {
require.Equal(t, expected[i].Key, actual[i].Key)
require.Equal(t, expected[i].KeyPos, actual[i].KeyPos)
require.Equal(t, expected[i].ColonPos, actual[i].ColonPos)
equalExpr(t, expected[i].Value, actual[i].Value)
}
}
func parseSource(
filename string,
src []byte,
trace io.Writer,
) (res *File, err error) {
fileSet := NewFileSet()
file := fileSet.AddFile(filename, -1, len(src))
p := NewParser(file, src, trace)
return p.ParseFile()
}