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lexer_test.go
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lexer_test.go
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package jmespath
import (
"fmt"
"testing"
"github.com/kyverno/go-jmespath/internal/testify/assert"
)
var lexingTests = []struct {
expression string
expected []token
}{
{"*", []token{{tStar, "*", 0, 1}}},
{".", []token{{tDot, ".", 0, 1}}},
{"[?", []token{{tFilter, "[?", 0, 2}}},
{"[]", []token{{tFlatten, "[]", 0, 2}}},
{"(", []token{{tLparen, "(", 0, 1}}},
{")", []token{{tRparen, ")", 0, 1}}},
{"[", []token{{tLbracket, "[", 0, 1}}},
{"]", []token{{tRbracket, "]", 0, 1}}},
{"{", []token{{tLbrace, "{", 0, 1}}},
{"}", []token{{tRbrace, "}", 0, 1}}},
{"||", []token{{tOr, "||", 0, 2}}},
{"|", []token{{tPipe, "|", 0, 1}}},
{"29", []token{{tNumber, "29", 0, 2}}},
{"2", []token{{tNumber, "2", 0, 1}}},
{"0", []token{{tNumber, "0", 0, 1}}},
{"-20", []token{{tNumber, "-20", 0, 3}}},
{"foo", []token{{tUnquotedIdentifier, "foo", 0, 3}}},
{`"bar"`, []token{{tQuotedIdentifier, "bar", 0, 3}}},
// Escaping the delimiter
{`"bar\"baz"`, []token{{tQuotedIdentifier, `bar"baz`, 0, 7}}},
{",", []token{{tComma, ",", 0, 1}}},
{":", []token{{tColon, ":", 0, 1}}},
{"<", []token{{tLT, "<", 0, 1}}},
{"<=", []token{{tLTE, "<=", 0, 2}}},
{">", []token{{tGT, ">", 0, 1}}},
{">=", []token{{tGTE, ">=", 0, 2}}},
{"==", []token{{tEQ, "==", 0, 2}}},
{"!=", []token{{tNE, "!=", 0, 2}}},
{"`[0, 1, 2]`", []token{{tJSONLiteral, "[0, 1, 2]", 1, 9}}},
{"'foo'", []token{{tStringLiteral, "foo", 1, 3}}},
{"'a'", []token{{tStringLiteral, "a", 1, 1}}},
{`'foo\'bar'`, []token{{tStringLiteral, "foo'bar", 1, 7}}},
{"@", []token{{tCurrent, "@", 0, 1}}},
{"&", []token{{tExpref, "&", 0, 1}}},
// Quoted identifier unicode escape sequences
{`"\u2713"`, []token{{tQuotedIdentifier, "✓", 0, 3}}},
{`"\\"`, []token{{tQuotedIdentifier, `\`, 0, 1}}},
{"`\"foo\"`", []token{{tJSONLiteral, "\"foo\"", 1, 5}}},
// Combinations of tokens.
{"foo.bar", []token{
{tUnquotedIdentifier, "foo", 0, 3},
{tDot, ".", 3, 1},
{tUnquotedIdentifier, "bar", 4, 3},
}},
{"foo[0]", []token{
{tUnquotedIdentifier, "foo", 0, 3},
{tLbracket, "[", 3, 1},
{tNumber, "0", 4, 1},
{tRbracket, "]", 5, 1},
}},
{"foo[?a<b]", []token{
{tUnquotedIdentifier, "foo", 0, 3},
{tFilter, "[?", 3, 2},
{tUnquotedIdentifier, "a", 5, 1},
{tLT, "<", 6, 1},
{tUnquotedIdentifier, "b", 7, 1},
{tRbracket, "]", 8, 1},
}},
}
func TestCanLexTokens(t *testing.T) {
assert := assert.New(t)
lexer := NewLexer()
for _, tt := range lexingTests {
tokens, err := lexer.tokenize(tt.expression)
if assert.Nil(err) {
errMsg := fmt.Sprintf("Mismatch expected number of tokens: (expected: %s, actual: %s)",
tt.expected, tokens)
tt.expected = append(tt.expected, token{tEOF, "", len(tt.expression), 0})
if assert.Equal(len(tt.expected), len(tokens), errMsg) {
for i, token := range tokens {
expected := tt.expected[i]
assert.Equal(expected, token, "Token not equal")
}
}
}
}
}
var lexingErrorTests = []struct {
expression string
msg string
}{
{"'foo", "Missing closing single quote"},
{"[?foo==bar?]", "Unknown char '?'"},
}
func TestLexingErrors(t *testing.T) {
assert := assert.New(t)
lexer := NewLexer()
for _, tt := range lexingErrorTests {
_, err := lexer.tokenize(tt.expression)
assert.NotNil(err, fmt.Sprintf("Expected lexing error: %s", tt.msg))
}
}
func TestKnownLexingPanics(t *testing.T) {
lexer := NewLexer()
lexer.tokenize(string([]byte{101, 194, 128}))
}
var exprIdentifier = "abcdefghijklmnopqrstuvwxyz"
var exprSubexpr = "abcdefghijklmnopqrstuvwxyz.abcdefghijklmnopqrstuvwxyz"
var deeplyNested50 = "j49.j48.j47.j46.j45.j44.j43.j42.j41.j40.j39.j38.j37.j36.j35.j34.j33.j32.j31.j30.j29.j28.j27.j26.j25.j24.j23.j22.j21.j20.j19.j18.j17.j16.j15.j14.j13.j12.j11.j10.j9.j8.j7.j6.j5.j4.j3.j2.j1.j0"
var deeplyNested50Pipe = "j49|j48|j47|j46|j45|j44|j43|j42|j41|j40|j39|j38|j37|j36|j35|j34|j33|j32|j31|j30|j29|j28|j27|j26|j25|j24|j23|j22|j21|j20|j19|j18|j17|j16|j15|j14|j13|j12|j11|j10|j9|j8|j7|j6|j5|j4|j3|j2|j1|j0"
var deeplyNested50Index = "[49][48][47][46][45][44][43][42][41][40][39][38][37][36][35][34][33][32][31][30][29][28][27][26][25][24][23][22][21][20][19][18][17][16][15][14][13][12][11][10][9][8][7][6][5][4][3][2][1][0]"
var deepProjection104 = "a[*].b[*].c[*].d[*].e[*].f[*].g[*].h[*].i[*].j[*].k[*].l[*].m[*].n[*].o[*].p[*].q[*].r[*].s[*].t[*].u[*].v[*].w[*].x[*].y[*].z[*].a[*].b[*].c[*].d[*].e[*].f[*].g[*].h[*].i[*].j[*].k[*].l[*].m[*].n[*].o[*].p[*].q[*].r[*].s[*].t[*].u[*].v[*].w[*].x[*].y[*].z[*].a[*].b[*].c[*].d[*].e[*].f[*].g[*].h[*].i[*].j[*].k[*].l[*].m[*].n[*].o[*].p[*].q[*].r[*].s[*].t[*].u[*].v[*].w[*].x[*].y[*].z[*].a[*].b[*].c[*].d[*].e[*].f[*].g[*].h[*].i[*].j[*].k[*].l[*].m[*].n[*].o[*].p[*].q[*].r[*].s[*].t[*].u[*].v[*].w[*].x[*].y[*].z[*]"
var exprQuotedIdentifier = `"abcdefghijklmnopqrstuvwxyz.abcdefghijklmnopqrstuvwxyz"`
var quotedIdentifierEscapes = `"\n\r\b\t\n\r\b\t\n\r\b\t\n\r\b\t\n\r\b\t\n\r\b\t\n\r\b\t"`
var rawStringLiteral = `'abcdefghijklmnopqrstuvwxyz.abcdefghijklmnopqrstuvwxyz'`
func BenchmarkLexIdentifier(b *testing.B) {
runLexBenchmark(b, exprIdentifier)
}
func BenchmarkLexSubexpression(b *testing.B) {
runLexBenchmark(b, exprSubexpr)
}
func BenchmarkLexDeeplyNested50(b *testing.B) {
runLexBenchmark(b, deeplyNested50)
}
func BenchmarkLexDeepNested50Pipe(b *testing.B) {
runLexBenchmark(b, deeplyNested50Pipe)
}
func BenchmarkLexDeepNested50Index(b *testing.B) {
runLexBenchmark(b, deeplyNested50Index)
}
func BenchmarkLexQuotedIdentifier(b *testing.B) {
runLexBenchmark(b, exprQuotedIdentifier)
}
func BenchmarkLexQuotedIdentifierEscapes(b *testing.B) {
runLexBenchmark(b, quotedIdentifierEscapes)
}
func BenchmarkLexRawStringLiteral(b *testing.B) {
runLexBenchmark(b, rawStringLiteral)
}
func BenchmarkLexDeepProjection104(b *testing.B) {
runLexBenchmark(b, deepProjection104)
}
func runLexBenchmark(b *testing.B, expression string) {
lexer := NewLexer()
for i := 0; i < b.N; i++ {
lexer.tokenize(expression)
}
}