package convert import ( "testing" "github.com/databricks/cli/libs/diag" "github.com/databricks/cli/libs/dyn" assert "github.com/databricks/cli/libs/dyn/dynassert" ) func TestNormalizeStruct(t *testing.T) { type Tmp struct { Foo string `json:"foo"` Bar string `json:"bar"` } var typ Tmp vin := dyn.V(map[string]dyn.Value{ "foo": dyn.V("bar"), "bar": dyn.V("baz"), }) vout, err := Normalize(typ, vin) assert.Empty(t, err) assert.Equal(t, vin, vout) } func TestNormalizeStructElementDiagnostic(t *testing.T) { type Tmp struct { Foo string `json:"foo"` Bar string `json:"bar"` } var typ Tmp vin := dyn.V(map[string]dyn.Value{ "foo": dyn.V("bar"), "bar": dyn.V(map[string]dyn.Value{"an": dyn.V("error")}), }) vout, err := Normalize(typ, vin) assert.Len(t, err, 1) assert.Equal(t, diag.Diagnostic{ Severity: diag.Error, Summary: `expected string, found map`, Location: dyn.Location{}, }, err[0]) // Elements that encounter an error during normalization are dropped. assert.Equal(t, map[string]any{ "foo": "bar", }, vout.AsAny()) } func TestNormalizeStructUnknownField(t *testing.T) { type Tmp struct { Foo string `json:"foo"` } var typ Tmp vin := dyn.V(map[string]dyn.Value{ "foo": dyn.V("bar"), "bar": dyn.V("baz"), }) vout, err := Normalize(typ, vin) assert.Len(t, err, 1) assert.Equal(t, diag.Diagnostic{ Severity: diag.Warning, Summary: `unknown field: bar`, Location: vin.Get("foo").Location(), }, err[0]) // The field that can be mapped to the struct field is retained. assert.Equal(t, map[string]any{ "foo": "bar", }, vout.AsAny()) } func TestNormalizeStructNil(t *testing.T) { type Tmp struct { Foo string `json:"foo"` } var typ Tmp vin := dyn.NilValue vout, err := Normalize(typ, vin) assert.Empty(t, err) assert.Equal(t, vin, vout) } func TestNormalizeStructError(t *testing.T) { type Tmp struct { Foo string `json:"foo"` } var typ Tmp vin := dyn.V("string") _, err := Normalize(typ, vin) assert.Len(t, err, 1) assert.Equal(t, diag.Diagnostic{ Severity: diag.Error, Summary: `expected map, found string`, Location: vin.Get("foo").Location(), }, err[0]) } func TestNormalizeStructNestedError(t *testing.T) { type Nested struct { F1 int `json:"f1"` F2 int `json:"f2"` } type Tmp struct { Foo Nested `json:"foo"` Bar Nested `json:"bar"` } var typ Tmp vin := dyn.V(map[string]dyn.Value{ "foo": dyn.V(map[string]dyn.Value{ "f1": dyn.V("error"), "f2": dyn.V(1), }), "bar": dyn.V(map[string]dyn.Value{ "f1": dyn.V(1), "f2": dyn.V("error"), }), }) vout, err := Normalize(typ, vin) assert.Len(t, err, 2) // Verify that valid fields are retained. assert.Equal(t, dyn.V(map[string]dyn.Value{ "foo": dyn.V(map[string]dyn.Value{ "f2": dyn.V(int64(1)), }), "bar": dyn.V(map[string]dyn.Value{ "f1": dyn.V(int64(1)), }), }), vout, ) } func TestNormalizeStructIncludeMissingFields(t *testing.T) { type Nested struct { String string `json:"string"` } type Tmp struct { // Verify that fields that are already set in the dynamic value are not overridden. Existing string `json:"existing"` // Verify that structs are recursively normalized if not set. Nested Nested `json:"nested"` Ptr *Nested `json:"ptr"` // Verify that containers are also zero-initialized if not set. Map map[string]string `json:"map"` Slice []string `json:"slice"` // Verify that primitive types are zero-initialized if not set. String string `json:"string"` Bool bool `json:"bool"` Int int `json:"int"` Float float64 `json:"float"` } var typ Tmp vin := dyn.V(map[string]dyn.Value{ "existing": dyn.V("already set"), }) vout, err := Normalize(typ, vin, IncludeMissingFields) assert.Empty(t, err) assert.Equal(t, dyn.V(map[string]dyn.Value{ "existing": dyn.V("already set"), "nested": dyn.V(map[string]dyn.Value{ "string": dyn.V(""), }), "ptr": dyn.V(map[string]dyn.Value{ "string": dyn.V(""), }), "map": dyn.V(map[string]dyn.Value{}), "slice": dyn.V([]dyn.Value{}), "string": dyn.V(""), "bool": dyn.V(false), "int": dyn.V(int64(0)), "float": dyn.V(float64(0)), }), vout) } func TestNormalizeStructIncludeMissingFieldsOnRecursiveType(t *testing.T) { type Tmp struct { // Verify that structs are recursively normalized if not set. Ptr *Tmp `json:"ptr"` // Verify that primitive types are zero-initialized if not set. String string `json:"string"` } var typ Tmp vin := dyn.V(map[string]dyn.Value{ "ptr": dyn.V(map[string]dyn.Value{ "ptr": dyn.V(map[string]dyn.Value{ "string": dyn.V("already set"), }), }), }) vout, err := Normalize(typ, vin, IncludeMissingFields) assert.Empty(t, err) assert.Equal(t, dyn.V(map[string]dyn.Value{ "ptr": dyn.V(map[string]dyn.Value{ "ptr": dyn.V(map[string]dyn.Value{ // Note: the ptr field is not zero-initialized because that would recurse. "string": dyn.V("already set"), }), "string": dyn.V(""), }), "string": dyn.V(""), }), vout) } func TestNormalizeMap(t *testing.T) { var typ map[string]string vin := dyn.V(map[string]dyn.Value{ "foo": dyn.V("bar"), "bar": dyn.V("baz"), }) vout, err := Normalize(typ, vin) assert.Empty(t, err) assert.Equal(t, vin, vout) } func TestNormalizeMapElementDiagnostic(t *testing.T) { var typ map[string]string vin := dyn.V(map[string]dyn.Value{ "foo": dyn.V("bar"), "bar": dyn.V(map[string]dyn.Value{"an": dyn.V("error")}), }) vout, err := Normalize(typ, vin) assert.Len(t, err, 1) assert.Equal(t, diag.Diagnostic{ Severity: diag.Error, Summary: `expected string, found map`, Location: dyn.Location{}, }, err[0]) // Elements that encounter an error during normalization are dropped. assert.Equal(t, map[string]any{ "foo": "bar", }, vout.AsAny()) } func TestNormalizeMapNil(t *testing.T) { var typ map[string]string vin := dyn.NilValue vout, err := Normalize(typ, vin) assert.Empty(t, err) assert.Equal(t, vin, vout) } func TestNormalizeMapError(t *testing.T) { var typ map[string]string vin := dyn.V("string") _, err := Normalize(typ, vin) assert.Len(t, err, 1) assert.Equal(t, diag.Diagnostic{ Severity: diag.Error, Summary: `expected map, found string`, Location: vin.Location(), }, err[0]) } func TestNormalizeMapNestedError(t *testing.T) { type Nested struct { F1 int `json:"f1"` F2 int `json:"f2"` } var typ map[string]Nested vin := dyn.V(map[string]dyn.Value{ "foo": dyn.V(map[string]dyn.Value{ "f1": dyn.V("error"), "f2": dyn.V(1), }), "bar": dyn.V(map[string]dyn.Value{ "f1": dyn.V(1), "f2": dyn.V("error"), }), }) vout, err := Normalize(typ, vin) assert.Len(t, err, 2) // Verify that valid fields are retained. assert.Equal(t, dyn.V(map[string]dyn.Value{ "foo": dyn.V(map[string]dyn.Value{ "f2": dyn.V(int64(1)), }), "bar": dyn.V(map[string]dyn.Value{ "f1": dyn.V(int64(1)), }), }), vout, ) } func TestNormalizeSlice(t *testing.T) { var typ []string vin := dyn.V([]dyn.Value{ dyn.V("foo"), dyn.V("bar"), }) vout, err := Normalize(typ, vin) assert.Empty(t, err) assert.Equal(t, vin, vout) } func TestNormalizeSliceElementDiagnostic(t *testing.T) { var typ []string vin := dyn.V([]dyn.Value{ dyn.V("foo"), dyn.V("bar"), dyn.V(map[string]dyn.Value{"an": dyn.V("error")}), }) vout, err := Normalize(typ, vin) assert.Len(t, err, 1) assert.Equal(t, diag.Diagnostic{ Severity: diag.Error, Summary: `expected string, found map`, Location: dyn.Location{}, }, err[0]) // Elements that encounter an error during normalization are dropped. assert.Equal(t, []any{"foo", "bar"}, vout.AsAny()) } func TestNormalizeSliceNil(t *testing.T) { var typ []string vin := dyn.NilValue vout, err := Normalize(typ, vin) assert.Empty(t, err) assert.Equal(t, vin, vout) } func TestNormalizeSliceError(t *testing.T) { var typ []string vin := dyn.V("string") _, err := Normalize(typ, vin) assert.Len(t, err, 1) assert.Equal(t, diag.Diagnostic{ Severity: diag.Error, Summary: `expected sequence, found string`, Location: vin.Location(), }, err[0]) } func TestNormalizeSliceNestedError(t *testing.T) { type Nested struct { F1 int `json:"f1"` F2 int `json:"f2"` } var typ []Nested vin := dyn.V([]dyn.Value{ dyn.V(map[string]dyn.Value{ "f1": dyn.V("error"), "f2": dyn.V(1), }), dyn.V(map[string]dyn.Value{ "f1": dyn.V(1), "f2": dyn.V("error"), }), }) vout, err := Normalize(typ, vin) assert.Len(t, err, 2) // Verify that valid fields are retained. assert.Equal(t, dyn.V([]dyn.Value{ dyn.V(map[string]dyn.Value{ "f2": dyn.V(int64(1)), }), dyn.V(map[string]dyn.Value{ "f1": dyn.V(int64(1)), }), }), vout, ) } func TestNormalizeString(t *testing.T) { var typ string vin := dyn.V("string") vout, err := Normalize(&typ, vin) assert.Empty(t, err) assert.Equal(t, vin, vout) } func TestNormalizeStringNil(t *testing.T) { var typ string vin := dyn.NewValue(nil, dyn.Location{File: "file", Line: 1, Column: 1}) _, err := Normalize(&typ, vin) assert.Len(t, err, 1) assert.Equal(t, diag.Diagnostic{ Severity: diag.Warning, Summary: `expected a string value, found null`, Location: vin.Location(), }, err[0]) } func TestNormalizeStringFromBool(t *testing.T) { var typ string vin := dyn.NewValue(true, dyn.Location{File: "file", Line: 1, Column: 1}) vout, err := Normalize(&typ, vin) assert.Empty(t, err) assert.Equal(t, dyn.NewValue("true", vin.Location()), vout) } func TestNormalizeStringFromInt(t *testing.T) { var typ string vin := dyn.NewValue(123, dyn.Location{File: "file", Line: 1, Column: 1}) vout, err := Normalize(&typ, vin) assert.Empty(t, err) assert.Equal(t, dyn.NewValue("123", vin.Location()), vout) } func TestNormalizeStringFromFloat(t *testing.T) { var typ string vin := dyn.NewValue(1.20, dyn.Location{File: "file", Line: 1, Column: 1}) vout, err := Normalize(&typ, vin) assert.Empty(t, err) assert.Equal(t, dyn.NewValue("1.2", vin.Location()), vout) } func TestNormalizeStringError(t *testing.T) { var typ string vin := dyn.V(map[string]dyn.Value{"an": dyn.V("error")}) _, err := Normalize(&typ, vin) assert.Len(t, err, 1) assert.Equal(t, diag.Diagnostic{ Severity: diag.Error, Summary: `expected string, found map`, Location: dyn.Location{}, }, err[0]) } func TestNormalizeBool(t *testing.T) { var typ bool vin := dyn.V(true) vout, err := Normalize(&typ, vin) assert.Empty(t, err) assert.Equal(t, dyn.V(true), vout) } func TestNormalizeBoolNil(t *testing.T) { var typ bool vin := dyn.NewValue(nil, dyn.Location{File: "file", Line: 1, Column: 1}) _, err := Normalize(&typ, vin) assert.Len(t, err, 1) assert.Equal(t, diag.Diagnostic{ Severity: diag.Warning, Summary: `expected a bool value, found null`, Location: vin.Location(), }, err[0]) } func TestNormalizeBoolFromString(t *testing.T) { var typ bool for _, c := range []struct { Input string Output bool }{ {"true", true}, {"false", false}, {"Y", true}, {"N", false}, {"on", true}, {"off", false}, } { vin := dyn.V(c.Input) vout, err := Normalize(&typ, vin) assert.Empty(t, err) assert.Equal(t, dyn.V(c.Output), vout) } } func TestNormalizeBoolFromStringVariableReference(t *testing.T) { var typ bool vin := dyn.V("${var.foo}") vout, err := Normalize(&typ, vin) assert.Empty(t, err) assert.Equal(t, vin, vout) } func TestNormalizeBoolFromStringError(t *testing.T) { var typ bool vin := dyn.V("abc") _, err := Normalize(&typ, vin) assert.Len(t, err, 1) assert.Equal(t, diag.Diagnostic{ Severity: diag.Error, Summary: `expected bool, found string`, Location: vin.Location(), }, err[0]) } func TestNormalizeBoolError(t *testing.T) { var typ bool vin := dyn.V(map[string]dyn.Value{"an": dyn.V("error")}) _, err := Normalize(&typ, vin) assert.Len(t, err, 1) assert.Equal(t, diag.Diagnostic{ Severity: diag.Error, Summary: `expected bool, found map`, Location: dyn.Location{}, }, err[0]) } func TestNormalizeInt(t *testing.T) { var typ int vin := dyn.V(123) vout, err := Normalize(&typ, vin) assert.Empty(t, err) assert.Equal(t, dyn.V(int64(123)), vout) } func TestNormalizeIntNil(t *testing.T) { var typ int vin := dyn.NewValue(nil, dyn.Location{File: "file", Line: 1, Column: 1}) _, err := Normalize(&typ, vin) assert.Len(t, err, 1) assert.Equal(t, diag.Diagnostic{ Severity: diag.Warning, Summary: `expected a int value, found null`, Location: vin.Location(), }, err[0]) } func TestNormalizeIntFromString(t *testing.T) { var typ int vin := dyn.V("123") vout, err := Normalize(&typ, vin) assert.Empty(t, err) assert.Equal(t, dyn.V(int64(123)), vout) } func TestNormalizeIntFromStringVariableReference(t *testing.T) { var typ int vin := dyn.V("${var.foo}") vout, err := Normalize(&typ, vin) assert.Empty(t, err) assert.Equal(t, vin, vout) } func TestNormalizeIntFromStringError(t *testing.T) { var typ int vin := dyn.V("abc") _, err := Normalize(&typ, vin) assert.Len(t, err, 1) assert.Equal(t, diag.Diagnostic{ Severity: diag.Error, Summary: `cannot parse "abc" as an integer`, Location: vin.Location(), }, err[0]) } func TestNormalizeIntError(t *testing.T) { var typ int vin := dyn.V(map[string]dyn.Value{"an": dyn.V("error")}) _, err := Normalize(&typ, vin) assert.Len(t, err, 1) assert.Equal(t, diag.Diagnostic{ Severity: diag.Error, Summary: `expected int, found map`, Location: dyn.Location{}, }, err[0]) } func TestNormalizeFloat(t *testing.T) { var typ float64 vin := dyn.V(1.2) vout, err := Normalize(&typ, vin) assert.Empty(t, err) assert.Equal(t, dyn.V(1.2), vout) } func TestNormalizeFloatNil(t *testing.T) { var typ float64 vin := dyn.NewValue(nil, dyn.Location{File: "file", Line: 1, Column: 1}) _, err := Normalize(&typ, vin) assert.Len(t, err, 1) assert.Equal(t, diag.Diagnostic{ Severity: diag.Warning, Summary: `expected a float value, found null`, Location: vin.Location(), }, err[0]) } func TestNormalizeFloatFromString(t *testing.T) { var typ float64 vin := dyn.V("1.2") vout, err := Normalize(&typ, vin) assert.Empty(t, err) assert.Equal(t, dyn.V(1.2), vout) } func TestNormalizeFloatFromStringVariableReference(t *testing.T) { var typ float64 vin := dyn.V("${var.foo}") vout, err := Normalize(&typ, vin) assert.Empty(t, err) assert.Equal(t, vin, vout) } func TestNormalizeFloatFromStringError(t *testing.T) { var typ float64 vin := dyn.V("abc") _, err := Normalize(&typ, vin) assert.Len(t, err, 1) assert.Equal(t, diag.Diagnostic{ Severity: diag.Error, Summary: `cannot parse "abc" as a floating point number`, Location: vin.Location(), }, err[0]) } func TestNormalizeFloatError(t *testing.T) { var typ float64 vin := dyn.V(map[string]dyn.Value{"an": dyn.V("error")}) _, err := Normalize(&typ, vin) assert.Len(t, err, 1) assert.Equal(t, diag.Diagnostic{ Severity: diag.Error, Summary: `expected float, found map`, Location: dyn.Location{}, }, err[0]) }