// _ _ // __ _____ __ ___ ___ __ _| |_ ___ // \ \ /\ / / _ \/ _` \ \ / / |/ _` | __/ _ \ // \ V V / __/ (_| |\ V /| | (_| | || __/ // \_/\_/ \___|\__,_| \_/ |_|\__,_|\__\___| // // Copyright © 2016 - 2024 Weaviate B.V. All rights reserved. // // CONTACT: hello@weaviate.io // package inverted import ( "fmt" "testing" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" ) func TestLikeRegexp(t *testing.T) { type test struct { input []byte subject []byte shouldMatch bool expectedError error } run := func(t *testing.T, tests []test) { for _, test := range tests { t.Run(fmt.Sprintf("for input %q and subject %q", string(test.input), string(test.subject)), func(t *testing.T) { res, err := parseLikeRegexp(test.input) if test.expectedError != nil { assert.Equal(t, test.expectedError, err) return } require.Nil(t, err) assert.Equal(t, test.shouldMatch, res.regexp.Match(test.subject)) }) } } t.Run("without a wildcard", func(t *testing.T) { input := []byte("car") tests := []test{ {input: input, subject: []byte("car"), shouldMatch: true}, {input: input, subject: []byte("care"), shouldMatch: false}, {input: input, subject: []byte("supercar"), shouldMatch: false}, } run(t, tests) }) t.Run("with a single-character wildcard", func(t *testing.T) { input := []byte("car?") tests := []test{ {input: input, subject: []byte("car"), shouldMatch: false}, {input: input, subject: []byte("cap"), shouldMatch: false}, {input: input, subject: []byte("care"), shouldMatch: true}, {input: input, subject: []byte("supercar"), shouldMatch: false}, {input: input, subject: []byte("carer"), shouldMatch: false}, } run(t, tests) }) t.Run("with a multi-character wildcard", func(t *testing.T) { input := []byte("car*") tests := []test{ {input: input, subject: []byte("car"), shouldMatch: true}, {input: input, subject: []byte("cap"), shouldMatch: false}, {input: input, subject: []byte("care"), shouldMatch: true}, {input: input, subject: []byte("supercar"), shouldMatch: false}, {input: input, subject: []byte("carer"), shouldMatch: true}, } run(t, tests) }) t.Run("with several wildcards", func(t *testing.T) { input := []byte("*c?r*") tests := []test{ {input: input, subject: []byte("car"), shouldMatch: true}, {input: input, subject: []byte("cap"), shouldMatch: false}, {input: input, subject: []byte("care"), shouldMatch: true}, {input: input, subject: []byte("supercar"), shouldMatch: true}, {input: input, subject: []byte("carer"), shouldMatch: true}, } run(t, tests) }) } func TestLikeRegexp_ForOptimizability(t *testing.T) { type test struct { input []byte shouldBeOptimizable bool expectedMin []byte } run := func(t *testing.T, tests []test) { for _, test := range tests { t.Run(fmt.Sprintf("for input %q", string(test.input)), func(t *testing.T) { res, err := parseLikeRegexp(test.input) require.Nil(t, err) assert.Equal(t, test.shouldBeOptimizable, res.optimizable) assert.Equal(t, test.expectedMin, res.min) }) } } tests := []test{ {input: []byte("car"), shouldBeOptimizable: true, expectedMin: []byte("car")}, {input: []byte("car*"), shouldBeOptimizable: true, expectedMin: []byte("car")}, {input: []byte("car?"), shouldBeOptimizable: true, expectedMin: []byte("car")}, {input: []byte("c?r"), shouldBeOptimizable: true, expectedMin: []byte("c")}, {input: []byte("car*taker"), shouldBeOptimizable: true, expectedMin: []byte("car")}, {input: []byte("car?tak*?*er"), shouldBeOptimizable: true, expectedMin: []byte("car")}, {input: []byte("?car"), shouldBeOptimizable: false, expectedMin: []byte{}}, {input: []byte("*car"), shouldBeOptimizable: false, expectedMin: []byte{}}, } run(t, tests) }