package main import ( "fmt" "sort" "testing" ) func TestReadMap_simple(t *testing.T) { var data = parseData(` --- b: c: 2 `) got, _ := readMap(data, "b", []string{"c"}) assertResult(t, 2, got) } func TestReadMap_numberKey(t *testing.T) { var data = parseData(` --- 200: things `) got, _ := readMap(data, "200", []string{}) assertResult(t, "things", got) } func TestReadMap_splat(t *testing.T) { var data = parseData(` --- mapSplat: item1: things item2: whatever `) res, _ := readMap(data, "mapSplat", []string{"*"}) result := res.([]interface{}) var actual = []string{result[0].(string), result[1].(string)} sort.Strings(actual) assertResult(t, "[things whatever]", fmt.Sprintf("%v", actual)) } func TestReadMap_deep_splat(t *testing.T) { var data = parseData(` --- mapSplatDeep: item1: cats: bananas item2: cats: apples `) res, _ := readMap(data, "mapSplatDeep", []string{"*", "cats"}) result := res.([]interface{}) var actual = []string{result[0].(string), result[1].(string)} sort.Strings(actual) assertResult(t, "[apples bananas]", fmt.Sprintf("%v", actual)) } func TestReadMap_key_doesnt_exist(t *testing.T) { var data = parseData(` --- b: c: 2 `) got, _ := readMap(data, "b.x.f", []string{"c"}) assertResult(t, nil, got) } func TestReadMap_recurse_against_string(t *testing.T) { var data = parseData(` --- a: cat `) got, _ := readMap(data, "a", []string{"b"}) assertResult(t, nil, got) } func TestReadMap_with_array(t *testing.T) { var data = parseData(` --- b: d: - 3 - 4 `) got, _ := readMap(data, "b", []string{"d", "1"}) assertResult(t, 4, got) } func TestReadMap_with_array_and_bad_index(t *testing.T) { var data = parseData(` --- b: d: - 3 - 4 `) _, err := readMap(data, "b", []string{"d", "x"}) if err == nil { t.Fatal("Expected error due to invalid path") } expectedOutput := `error accessing array: strconv.ParseInt: parsing "x": invalid syntax` assertResult(t, expectedOutput, err.Error()) } func TestReadMap_with_mapsplat_array_and_bad_index(t *testing.T) { var data = parseData(` --- b: d: e: - 3 - 4 f: - 1 - 2 `) _, err := readMap(data, "b", []string{"d", "*", "x"}) if err == nil { t.Fatal("Expected error due to invalid path") } expectedOutput := `error accessing array: strconv.ParseInt: parsing "x": invalid syntax` assertResult(t, expectedOutput, err.Error()) } func TestReadMap_with_arraysplat_map_array_and_bad_index(t *testing.T) { var data = parseData(` --- b: d: - names: - fred - smith - names: - sam - bo `) _, err := readMap(data, "b", []string{"d", "*", "names", "x"}) if err == nil { t.Fatal("Expected error due to invalid path") } expectedOutput := `error accessing array: strconv.ParseInt: parsing "x": invalid syntax` assertResult(t, expectedOutput, err.Error()) } func TestReadMap_with_array_out_of_bounds(t *testing.T) { var data = parseData(` --- b: d: - 3 - 4 `) got, _ := readMap(data, "b", []string{"d", "3"}) assertResult(t, nil, got) } func TestReadMap_with_array_out_of_bounds_by_1(t *testing.T) { var data = parseData(` --- b: d: - 3 - 4 `) got, _ := readMap(data, "b", []string{"d", "2"}) assertResult(t, nil, got) } func TestReadMap_with_array_splat(t *testing.T) { var data = parseData(` e: - name: Fred thing: cat - name: Sam thing: dog `) got, _ := readMap(data, "e", []string{"*", "name"}) assertResult(t, "[Fred Sam]", fmt.Sprintf("%v", got)) } func TestWrite_really_simple(t *testing.T) { var data = parseData(` b: 2 `) updated := writeMap(data, []string{"b"}, "4") assertResult(t, "[{b 4}]", fmt.Sprintf("%v", updated)) } func TestWrite_simple(t *testing.T) { var data = parseData(` b: c: 2 `) updated := writeMap(data, []string{"b", "c"}, "4") assertResult(t, "[{b [{c 4}]}]", fmt.Sprintf("%v", updated)) } func TestWrite_new(t *testing.T) { var data = parseData(` b: c: 2 `) updated := writeMap(data, []string{"b", "d"}, "4") assertResult(t, "[{b [{c 2} {d 4}]}]", fmt.Sprintf("%v", updated)) } func TestWrite_new_deep(t *testing.T) { var data = parseData(` b: c: 2 `) updated := writeMap(data, []string{"b", "d", "f"}, "4") assertResult(t, "[{b [{c 2} {d [{f 4}]}]}]", fmt.Sprintf("%v", updated)) } func TestWrite_array(t *testing.T) { var data = parseData(` b: - aa `) updated := writeMap(data, []string{"b", "0"}, "bb") assertResult(t, "[{b [bb]}]", fmt.Sprintf("%v", updated)) } func TestWrite_new_array(t *testing.T) { var data = parseData(` b: c: 2 `) updated := writeMap(data, []string{"b", "0"}, "4") assertResult(t, "[{b [{c 2} {0 4}]}]", fmt.Sprintf("%v", updated)) } func TestWrite_new_array_deep(t *testing.T) { var data = parseData(` a: apple `) var expected = `a: apple b: - c: "4"` updated := writeMap(data, []string{"b", "0", "c"}, "4") got, _ := yamlToString(updated) assertResult(t, expected, got) } func TestWrite_new_map_array_deep(t *testing.T) { var data = parseData(` b: c: 2 `) var expected = `b: c: 2 d: - "4"` updated := writeMap(data, []string{"b", "d", "0"}, "4") got, _ := yamlToString(updated) assertResult(t, expected, got) } func TestWrite_add_to_array(t *testing.T) { var data = parseData(` b: - aa `) var expected = `b: - aa - bb` updated := writeMap(data, []string{"b", "1"}, "bb") got, _ := yamlToString(updated) assertResult(t, expected, got) } func TestWrite_with_no_tail(t *testing.T) { var data = parseData(` b: c: 2 `) updated := writeMap(data, []string{"b"}, "4") assertResult(t, "[{b 4}]", fmt.Sprintf("%v", updated)) } func TestWriteMap_no_paths(t *testing.T) { var data = parseData(` b: 5 `) result := writeMap(data, []string{}, 4) assertResult(t, fmt.Sprintf("%v", data), fmt.Sprintf("%v", result)) } func TestWriteArray_no_paths(t *testing.T) { var data = make([]interface{}, 1) data[0] = "mike" result := writeArray(data, []string{}, 4) assertResult(t, fmt.Sprintf("%v", data), fmt.Sprintf("%v", result)) } func TestDelete_MapItem(t *testing.T) { var data = parseData(` a: 123 b: 456 `) var expected = parseData(` b: 456 `) result := deleteMap(data, []string{"a"}) assertResult(t, fmt.Sprintf("%v", expected), fmt.Sprintf("%v", result)) } // Ensure deleting an index into a string does nothing func TestDelete_index_to_string(t *testing.T) { var data = parseData(` a: mystring `) result := deleteMap(data, []string{"a", "0"}) assertResult(t, fmt.Sprintf("%v", data), fmt.Sprintf("%v", result)) } func TestDelete_list_index(t *testing.T) { var data = parseData(` a: [3, 4] `) var expected = parseData(` a: [3] `) result := deleteMap(data, []string{"a", "1"}) assertResult(t, fmt.Sprintf("%v", expected), fmt.Sprintf("%v", result)) } func TestDelete_list_index_beyond_bounds(t *testing.T) { var data = parseData(` a: [3, 4] `) result := deleteMap(data, []string{"a", "5"}) assertResult(t, fmt.Sprintf("%v", data), fmt.Sprintf("%v", result)) } func TestDelete_list_index_out_of_bounds_by_1(t *testing.T) { var data = parseData(` a: [3, 4] `) result := deleteMap(data, []string{"a", "2"}) assertResult(t, fmt.Sprintf("%v", data), fmt.Sprintf("%v", result)) } func TestDelete_no_paths(t *testing.T) { var data = parseData(` a: [3, 4] b: - name: test `) result := deleteMap(data, []string{}) assertResult(t, fmt.Sprintf("%v", data), fmt.Sprintf("%v", result)) } func TestDelete_array_map_item(t *testing.T) { var data = parseData(` b: - name: fred value: blah - name: john value: test `) var expected = parseData(` b: - value: blah - name: john value: test `) result := deleteMap(data, []string{"b", "0", "name"}) assertResult(t, fmt.Sprintf("%v", expected), fmt.Sprintf("%v", result)) }