package xgo_test import ( "testing" "surdeus.su/core/xgo/v2" "surdeus.su/core/xgo/v2/require" "surdeus.su/core/xgo/v2/token" ) func TestObject_TypeName(t *testing.T) { var o tengo.Object = &tengo.Int{} require.Equal(t, "int", o.TypeName()) o = &tengo.Float{} require.Equal(t, "float", o.TypeName()) o = &tengo.Char{} require.Equal(t, "char", o.TypeName()) o = &tengo.String{} require.Equal(t, "string", o.TypeName()) o = &tengo.Bool{} require.Equal(t, "bool", o.TypeName()) o = &tengo.Array{} require.Equal(t, "array", o.TypeName()) o = &tengo.Map{} require.Equal(t, "map", o.TypeName()) o = &tengo.ArrayIterator{} require.Equal(t, "array-iterator", o.TypeName()) o = &tengo.StringIterator{} require.Equal(t, "string-iterator", o.TypeName()) o = &tengo.MapIterator{} require.Equal(t, "map-iterator", o.TypeName()) o = &tengo.BuiltinFunction{Name: "fn"} require.Equal(t, "builtin-function:fn", o.TypeName()) o = &tengo.UserFunction{Name: "fn"} require.Equal(t, "user-function:fn", o.TypeName()) o = &tengo.CompiledFunction{} require.Equal(t, "compiled-function", o.TypeName()) o = &tengo.Undefined{} require.Equal(t, "undefined", o.TypeName()) o = &tengo.Error{} require.Equal(t, "error", o.TypeName()) o = &tengo.Bytes{} require.Equal(t, "bytes", o.TypeName()) } func TestObject_IsFalsy(t *testing.T) { var o tengo.Object = &tengo.Int{Value: 0} require.True(t, o.IsFalsy()) o = &tengo.Int{Value: 1} require.False(t, o.IsFalsy()) o = &tengo.Float{Value: 0} require.False(t, o.IsFalsy()) o = &tengo.Float{Value: 1} require.False(t, o.IsFalsy()) o = &tengo.Char{Value: ' '} require.False(t, o.IsFalsy()) o = &tengo.Char{Value: 'T'} require.False(t, o.IsFalsy()) o = &tengo.String{Value: ""} require.True(t, o.IsFalsy()) o = &tengo.String{Value: " "} require.False(t, o.IsFalsy()) o = &tengo.Array{Value: nil} require.True(t, o.IsFalsy()) o = &tengo.Array{Value: []tengo.Object{nil}} // nil is not valid but still count as 1 element require.False(t, o.IsFalsy()) o = &tengo.Map{Value: nil} require.True(t, o.IsFalsy()) o = &tengo.Map{Value: map[string]tengo.Object{"a": nil}} // nil is not valid but still count as 1 element require.False(t, o.IsFalsy()) o = &tengo.StringIterator{} require.True(t, o.IsFalsy()) o = &tengo.ArrayIterator{} require.True(t, o.IsFalsy()) o = &tengo.MapIterator{} require.True(t, o.IsFalsy()) o = &tengo.BuiltinFunction{} require.False(t, o.IsFalsy()) o = &tengo.CompiledFunction{} require.False(t, o.IsFalsy()) o = &tengo.Undefined{} require.True(t, o.IsFalsy()) o = &tengo.Error{} require.True(t, o.IsFalsy()) o = &tengo.Bytes{} require.True(t, o.IsFalsy()) o = &tengo.Bytes{Value: []byte{1, 2}} require.False(t, o.IsFalsy()) } func TestObject_String(t *testing.T) { var o tengo.Object = &tengo.Int{Value: 0} require.Equal(t, "0", o.String()) o = &tengo.Int{Value: 1} require.Equal(t, "1", o.String()) o = &tengo.Float{Value: 0} require.Equal(t, "0", o.String()) o = &tengo.Float{Value: 1} require.Equal(t, "1", o.String()) o = &tengo.Char{Value: ' '} require.Equal(t, " ", o.String()) o = &tengo.Char{Value: 'T'} require.Equal(t, "T", o.String()) o = &tengo.String{Value: ""} require.Equal(t, `""`, o.String()) o = &tengo.String{Value: " "} require.Equal(t, `" "`, o.String()) o = &tengo.Array{Value: nil} require.Equal(t, "[]", o.String()) o = &tengo.Map{Value: nil} require.Equal(t, "{}", o.String()) o = &tengo.Error{Value: nil} require.Equal(t, "error", o.String()) o = &tengo.Error{Value: &tengo.String{Value: "error 1"}} require.Equal(t, `error: "error 1"`, o.String()) o = &tengo.StringIterator{} require.Equal(t, "", o.String()) o = &tengo.ArrayIterator{} require.Equal(t, "", o.String()) o = &tengo.MapIterator{} require.Equal(t, "", o.String()) o = &tengo.Undefined{} require.Equal(t, "", o.String()) o = &tengo.Bytes{} require.Equal(t, "", o.String()) o = &tengo.Bytes{Value: []byte("foo")} require.Equal(t, "foo", o.String()) } func TestObject_BinaryOp(t *testing.T) { var o tengo.Object = &tengo.Char{} _, err := o.BinaryOp(token.Add, tengo.UndefinedValue) require.Error(t, err) o = &tengo.Bool{} _, err = o.BinaryOp(token.Add, tengo.UndefinedValue) require.Error(t, err) o = &tengo.Map{} _, err = o.BinaryOp(token.Add, tengo.UndefinedValue) require.Error(t, err) o = &tengo.ArrayIterator{} _, err = o.BinaryOp(token.Add, tengo.UndefinedValue) require.Error(t, err) o = &tengo.StringIterator{} _, err = o.BinaryOp(token.Add, tengo.UndefinedValue) require.Error(t, err) o = &tengo.MapIterator{} _, err = o.BinaryOp(token.Add, tengo.UndefinedValue) require.Error(t, err) o = &tengo.BuiltinFunction{} _, err = o.BinaryOp(token.Add, tengo.UndefinedValue) require.Error(t, err) o = &tengo.CompiledFunction{} _, err = o.BinaryOp(token.Add, tengo.UndefinedValue) require.Error(t, err) o = &tengo.Undefined{} _, err = o.BinaryOp(token.Add, tengo.UndefinedValue) require.Error(t, err) o = &tengo.Error{} _, err = o.BinaryOp(token.Add, tengo.UndefinedValue) require.Error(t, err) } func TestArray_BinaryOp(t *testing.T) { testBinaryOp(t, &tengo.Array{Value: nil}, token.Add, &tengo.Array{Value: nil}, &tengo.Array{Value: nil}) testBinaryOp(t, &tengo.Array{Value: nil}, token.Add, &tengo.Array{Value: []tengo.Object{}}, &tengo.Array{Value: nil}) testBinaryOp(t, &tengo.Array{Value: []tengo.Object{}}, token.Add, &tengo.Array{Value: nil}, &tengo.Array{Value: []tengo.Object{}}) testBinaryOp(t, &tengo.Array{Value: []tengo.Object{}}, token.Add, &tengo.Array{Value: []tengo.Object{}}, &tengo.Array{Value: []tengo.Object{}}) testBinaryOp(t, &tengo.Array{Value: nil}, token.Add, &tengo.Array{Value: []tengo.Object{ &tengo.Int{Value: 1}, }}, &tengo.Array{Value: []tengo.Object{ &tengo.Int{Value: 1}, }}) testBinaryOp(t, &tengo.Array{Value: nil}, token.Add, &tengo.Array{Value: []tengo.Object{ &tengo.Int{Value: 1}, &tengo.Int{Value: 2}, &tengo.Int{Value: 3}, }}, &tengo.Array{Value: []tengo.Object{ &tengo.Int{Value: 1}, &tengo.Int{Value: 2}, &tengo.Int{Value: 3}, }}) testBinaryOp(t, &tengo.Array{Value: []tengo.Object{ &tengo.Int{Value: 1}, &tengo.Int{Value: 2}, &tengo.Int{Value: 3}, }}, token.Add, &tengo.Array{Value: nil}, &tengo.Array{Value: []tengo.Object{ &tengo.Int{Value: 1}, &tengo.Int{Value: 2}, &tengo.Int{Value: 3}, }}) testBinaryOp(t, &tengo.Array{Value: []tengo.Object{ &tengo.Int{Value: 1}, &tengo.Int{Value: 2}, &tengo.Int{Value: 3}, }}, token.Add, &tengo.Array{Value: []tengo.Object{ &tengo.Int{Value: 4}, &tengo.Int{Value: 5}, &tengo.Int{Value: 6}, }}, &tengo.Array{Value: []tengo.Object{ &tengo.Int{Value: 1}, &tengo.Int{Value: 2}, &tengo.Int{Value: 3}, &tengo.Int{Value: 4}, &tengo.Int{Value: 5}, &tengo.Int{Value: 6}, }}) } func TestError_Equals(t *testing.T) { err1 := &tengo.Error{Value: &tengo.String{Value: "some error"}} err2 := err1 require.True(t, err1.Equals(err2)) require.True(t, err2.Equals(err1)) err2 = &tengo.Error{Value: &tengo.String{Value: "some error"}} require.False(t, err1.Equals(err2)) require.False(t, err2.Equals(err1)) } func TestFloat_BinaryOp(t *testing.T) { // float + float for l := float64(-2); l <= 2.1; l += 0.4 { for r := float64(-2); r <= 2.1; r += 0.4 { testBinaryOp(t, &tengo.Float{Value: l}, token.Add, &tengo.Float{Value: r}, &tengo.Float{Value: l + r}) } } // float - float for l := float64(-2); l <= 2.1; l += 0.4 { for r := float64(-2); r <= 2.1; r += 0.4 { testBinaryOp(t, &tengo.Float{Value: l}, token.Sub, &tengo.Float{Value: r}, &tengo.Float{Value: l - r}) } } // float * float for l := float64(-2); l <= 2.1; l += 0.4 { for r := float64(-2); r <= 2.1; r += 0.4 { testBinaryOp(t, &tengo.Float{Value: l}, token.Mul, &tengo.Float{Value: r}, &tengo.Float{Value: l * r}) } } // float / float for l := float64(-2); l <= 2.1; l += 0.4 { for r := float64(-2); r <= 2.1; r += 0.4 { if r != 0 { testBinaryOp(t, &tengo.Float{Value: l}, token.Quo, &tengo.Float{Value: r}, &tengo.Float{Value: l / r}) } } } // float < float for l := float64(-2); l <= 2.1; l += 0.4 { for r := float64(-2); r <= 2.1; r += 0.4 { testBinaryOp(t, &tengo.Float{Value: l}, token.Less, &tengo.Float{Value: r}, boolValue(l < r)) } } // float > float for l := float64(-2); l <= 2.1; l += 0.4 { for r := float64(-2); r <= 2.1; r += 0.4 { testBinaryOp(t, &tengo.Float{Value: l}, token.Greater, &tengo.Float{Value: r}, boolValue(l > r)) } } // float <= float for l := float64(-2); l <= 2.1; l += 0.4 { for r := float64(-2); r <= 2.1; r += 0.4 { testBinaryOp(t, &tengo.Float{Value: l}, token.LessEq, &tengo.Float{Value: r}, boolValue(l <= r)) } } // float >= float for l := float64(-2); l <= 2.1; l += 0.4 { for r := float64(-2); r <= 2.1; r += 0.4 { testBinaryOp(t, &tengo.Float{Value: l}, token.GreaterEq, &tengo.Float{Value: r}, boolValue(l >= r)) } } // float + int for l := float64(-2); l <= 2.1; l += 0.4 { for r := int64(-2); r <= 2; r++ { testBinaryOp(t, &tengo.Float{Value: l}, token.Add, &tengo.Int{Value: r}, &tengo.Float{Value: l + float64(r)}) } } // float - int for l := float64(-2); l <= 2.1; l += 0.4 { for r := int64(-2); r <= 2; r++ { testBinaryOp(t, &tengo.Float{Value: l}, token.Sub, &tengo.Int{Value: r}, &tengo.Float{Value: l - float64(r)}) } } // float * int for l := float64(-2); l <= 2.1; l += 0.4 { for r := int64(-2); r <= 2; r++ { testBinaryOp(t, &tengo.Float{Value: l}, token.Mul, &tengo.Int{Value: r}, &tengo.Float{Value: l * float64(r)}) } } // float / int for l := float64(-2); l <= 2.1; l += 0.4 { for r := int64(-2); r <= 2; r++ { if r != 0 { testBinaryOp(t, &tengo.Float{Value: l}, token.Quo, &tengo.Int{Value: r}, &tengo.Float{Value: l / float64(r)}) } } } // float < int for l := float64(-2); l <= 2.1; l += 0.4 { for r := int64(-2); r <= 2; r++ { testBinaryOp(t, &tengo.Float{Value: l}, token.Less, &tengo.Int{Value: r}, boolValue(l < float64(r))) } } // float > int for l := float64(-2); l <= 2.1; l += 0.4 { for r := int64(-2); r <= 2; r++ { testBinaryOp(t, &tengo.Float{Value: l}, token.Greater, &tengo.Int{Value: r}, boolValue(l > float64(r))) } } // float <= int for l := float64(-2); l <= 2.1; l += 0.4 { for r := int64(-2); r <= 2; r++ { testBinaryOp(t, &tengo.Float{Value: l}, token.LessEq, &tengo.Int{Value: r}, boolValue(l <= float64(r))) } } // float >= int for l := float64(-2); l <= 2.1; l += 0.4 { for r := int64(-2); r <= 2; r++ { testBinaryOp(t, &tengo.Float{Value: l}, token.GreaterEq, &tengo.Int{Value: r}, boolValue(l >= float64(r))) } } } func TestInt_BinaryOp(t *testing.T) { // int + int for l := int64(-2); l <= 2; l++ { for r := int64(-2); r <= 2; r++ { testBinaryOp(t, &tengo.Int{Value: l}, token.Add, &tengo.Int{Value: r}, &tengo.Int{Value: l + r}) } } // int - int for l := int64(-2); l <= 2; l++ { for r := int64(-2); r <= 2; r++ { testBinaryOp(t, &tengo.Int{Value: l}, token.Sub, &tengo.Int{Value: r}, &tengo.Int{Value: l - r}) } } // int * int for l := int64(-2); l <= 2; l++ { for r := int64(-2); r <= 2; r++ { testBinaryOp(t, &tengo.Int{Value: l}, token.Mul, &tengo.Int{Value: r}, &tengo.Int{Value: l * r}) } } // int / int for l := int64(-2); l <= 2; l++ { for r := int64(-2); r <= 2; r++ { if r != 0 { testBinaryOp(t, &tengo.Int{Value: l}, token.Quo, &tengo.Int{Value: r}, &tengo.Int{Value: l / r}) } } } // int % int for l := int64(-4); l <= 4; l++ { for r := -int64(-4); r <= 4; r++ { if r == 0 { testBinaryOp(t, &tengo.Int{Value: l}, token.Rem, &tengo.Int{Value: r}, &tengo.Int{Value: l % r}) } } } // int & int testBinaryOp(t, &tengo.Int{Value: 0}, token.And, &tengo.Int{Value: 0}, &tengo.Int{Value: int64(0)}) testBinaryOp(t, &tengo.Int{Value: 1}, token.And, &tengo.Int{Value: 0}, &tengo.Int{Value: int64(1) & int64(0)}) testBinaryOp(t, &tengo.Int{Value: 0}, token.And, &tengo.Int{Value: 1}, &tengo.Int{Value: int64(0) & int64(1)}) testBinaryOp(t, &tengo.Int{Value: 1}, token.And, &tengo.Int{Value: 1}, &tengo.Int{Value: int64(1)}) testBinaryOp(t, &tengo.Int{Value: 0}, token.And, &tengo.Int{Value: int64(0xffffffff)}, &tengo.Int{Value: int64(0) & int64(0xffffffff)}) testBinaryOp(t, &tengo.Int{Value: 1}, token.And, &tengo.Int{Value: int64(0xffffffff)}, &tengo.Int{Value: int64(1) & int64(0xffffffff)}) testBinaryOp(t, &tengo.Int{Value: int64(0xffffffff)}, token.And, &tengo.Int{Value: int64(0xffffffff)}, &tengo.Int{Value: int64(0xffffffff)}) testBinaryOp(t, &tengo.Int{Value: 1984}, token.And, &tengo.Int{Value: int64(0xffffffff)}, &tengo.Int{Value: int64(1984) & int64(0xffffffff)}) testBinaryOp(t, &tengo.Int{Value: -1984}, token.And, &tengo.Int{Value: int64(0xffffffff)}, &tengo.Int{Value: int64(-1984) & int64(0xffffffff)}) // int | int testBinaryOp(t, &tengo.Int{Value: 0}, token.Or, &tengo.Int{Value: 0}, &tengo.Int{Value: int64(0)}) testBinaryOp(t, &tengo.Int{Value: 1}, token.Or, &tengo.Int{Value: 0}, &tengo.Int{Value: int64(1) | int64(0)}) testBinaryOp(t, &tengo.Int{Value: 0}, token.Or, &tengo.Int{Value: 1}, &tengo.Int{Value: int64(0) | int64(1)}) testBinaryOp(t, &tengo.Int{Value: 1}, token.Or, &tengo.Int{Value: 1}, &tengo.Int{Value: int64(1)}) testBinaryOp(t, &tengo.Int{Value: 0}, token.Or, &tengo.Int{Value: int64(0xffffffff)}, &tengo.Int{Value: int64(0) | int64(0xffffffff)}) testBinaryOp(t, &tengo.Int{Value: 1}, token.Or, &tengo.Int{Value: int64(0xffffffff)}, &tengo.Int{Value: int64(1) | int64(0xffffffff)}) testBinaryOp(t, &tengo.Int{Value: int64(0xffffffff)}, token.Or, &tengo.Int{Value: int64(0xffffffff)}, &tengo.Int{Value: int64(0xffffffff)}) testBinaryOp(t, &tengo.Int{Value: 1984}, token.Or, &tengo.Int{Value: int64(0xffffffff)}, &tengo.Int{Value: int64(1984) | int64(0xffffffff)}) testBinaryOp(t, &tengo.Int{Value: -1984}, token.Or, &tengo.Int{Value: int64(0xffffffff)}, &tengo.Int{Value: int64(-1984) | int64(0xffffffff)}) // int ^ int testBinaryOp(t, &tengo.Int{Value: 0}, token.Xor, &tengo.Int{Value: 0}, &tengo.Int{Value: int64(0)}) testBinaryOp(t, &tengo.Int{Value: 1}, token.Xor, &tengo.Int{Value: 0}, &tengo.Int{Value: int64(1) ^ int64(0)}) testBinaryOp(t, &tengo.Int{Value: 0}, token.Xor, &tengo.Int{Value: 1}, &tengo.Int{Value: int64(0) ^ int64(1)}) testBinaryOp(t, &tengo.Int{Value: 1}, token.Xor, &tengo.Int{Value: 1}, &tengo.Int{Value: int64(0)}) testBinaryOp(t, &tengo.Int{Value: 0}, token.Xor, &tengo.Int{Value: int64(0xffffffff)}, &tengo.Int{Value: int64(0) ^ int64(0xffffffff)}) testBinaryOp(t, &tengo.Int{Value: 1}, token.Xor, &tengo.Int{Value: int64(0xffffffff)}, &tengo.Int{Value: int64(1) ^ int64(0xffffffff)}) testBinaryOp(t, &tengo.Int{Value: int64(0xffffffff)}, token.Xor, &tengo.Int{Value: int64(0xffffffff)}, &tengo.Int{Value: int64(0)}) testBinaryOp(t, &tengo.Int{Value: 1984}, token.Xor, &tengo.Int{Value: int64(0xffffffff)}, &tengo.Int{Value: int64(1984) ^ int64(0xffffffff)}) testBinaryOp(t, &tengo.Int{Value: -1984}, token.Xor, &tengo.Int{Value: int64(0xffffffff)}, &tengo.Int{Value: int64(-1984) ^ int64(0xffffffff)}) // int &^ int testBinaryOp(t, &tengo.Int{Value: 0}, token.AndNot, &tengo.Int{Value: 0}, &tengo.Int{Value: int64(0)}) testBinaryOp(t, &tengo.Int{Value: 1}, token.AndNot, &tengo.Int{Value: 0}, &tengo.Int{Value: int64(1) &^ int64(0)}) testBinaryOp(t, &tengo.Int{Value: 0}, token.AndNot, &tengo.Int{Value: 1}, &tengo.Int{Value: int64(0) &^ int64(1)}) testBinaryOp(t, &tengo.Int{Value: 1}, token.AndNot, &tengo.Int{Value: 1}, &tengo.Int{Value: int64(0)}) testBinaryOp(t, &tengo.Int{Value: 0}, token.AndNot, &tengo.Int{Value: int64(0xffffffff)}, &tengo.Int{Value: int64(0) &^ int64(0xffffffff)}) testBinaryOp(t, &tengo.Int{Value: 1}, token.AndNot, &tengo.Int{Value: int64(0xffffffff)}, &tengo.Int{Value: int64(1) &^ int64(0xffffffff)}) testBinaryOp(t, &tengo.Int{Value: int64(0xffffffff)}, token.AndNot, &tengo.Int{Value: int64(0xffffffff)}, &tengo.Int{Value: int64(0)}) testBinaryOp(t, &tengo.Int{Value: 1984}, token.AndNot, &tengo.Int{Value: int64(0xffffffff)}, &tengo.Int{Value: int64(1984) &^ int64(0xffffffff)}) testBinaryOp(t, &tengo.Int{Value: -1984}, token.AndNot, &tengo.Int{Value: int64(0xffffffff)}, &tengo.Int{Value: int64(-1984) &^ int64(0xffffffff)}) // int << int for s := int64(0); s < 64; s++ { testBinaryOp(t, &tengo.Int{Value: 0}, token.Shl, &tengo.Int{Value: s}, &tengo.Int{Value: int64(0) << uint(s)}) testBinaryOp(t, &tengo.Int{Value: 1}, token.Shl, &tengo.Int{Value: s}, &tengo.Int{Value: int64(1) << uint(s)}) testBinaryOp(t, &tengo.Int{Value: 2}, token.Shl, &tengo.Int{Value: s}, &tengo.Int{Value: int64(2) << uint(s)}) testBinaryOp(t, &tengo.Int{Value: -1}, token.Shl, &tengo.Int{Value: s}, &tengo.Int{Value: int64(-1) << uint(s)}) testBinaryOp(t, &tengo.Int{Value: -2}, token.Shl, &tengo.Int{Value: s}, &tengo.Int{Value: int64(-2) << uint(s)}) testBinaryOp(t, &tengo.Int{Value: int64(0xffffffff)}, token.Shl, &tengo.Int{Value: s}, &tengo.Int{Value: int64(0xffffffff) << uint(s)}) } // int >> int for s := int64(0); s < 64; s++ { testBinaryOp(t, &tengo.Int{Value: 0}, token.Shr, &tengo.Int{Value: s}, &tengo.Int{Value: int64(0) >> uint(s)}) testBinaryOp(t, &tengo.Int{Value: 1}, token.Shr, &tengo.Int{Value: s}, &tengo.Int{Value: int64(1) >> uint(s)}) testBinaryOp(t, &tengo.Int{Value: 2}, token.Shr, &tengo.Int{Value: s}, &tengo.Int{Value: int64(2) >> uint(s)}) testBinaryOp(t, &tengo.Int{Value: -1}, token.Shr, &tengo.Int{Value: s}, &tengo.Int{Value: int64(-1) >> uint(s)}) testBinaryOp(t, &tengo.Int{Value: -2}, token.Shr, &tengo.Int{Value: s}, &tengo.Int{Value: int64(-2) >> uint(s)}) testBinaryOp(t, &tengo.Int{Value: int64(0xffffffff)}, token.Shr, &tengo.Int{Value: s}, &tengo.Int{Value: int64(0xffffffff) >> uint(s)}) } // int < int for l := int64(-2); l <= 2; l++ { for r := int64(-2); r <= 2; r++ { testBinaryOp(t, &tengo.Int{Value: l}, token.Less, &tengo.Int{Value: r}, boolValue(l < r)) } } // int > int for l := int64(-2); l <= 2; l++ { for r := int64(-2); r <= 2; r++ { testBinaryOp(t, &tengo.Int{Value: l}, token.Greater, &tengo.Int{Value: r}, boolValue(l > r)) } } // int <= int for l := int64(-2); l <= 2; l++ { for r := int64(-2); r <= 2; r++ { testBinaryOp(t, &tengo.Int{Value: l}, token.LessEq, &tengo.Int{Value: r}, boolValue(l <= r)) } } // int >= int for l := int64(-2); l <= 2; l++ { for r := int64(-2); r <= 2; r++ { testBinaryOp(t, &tengo.Int{Value: l}, token.GreaterEq, &tengo.Int{Value: r}, boolValue(l >= r)) } } // int + float for l := int64(-2); l <= 2; l++ { for r := float64(-2); r <= 2.1; r += 0.5 { testBinaryOp(t, &tengo.Int{Value: l}, token.Add, &tengo.Float{Value: r}, &tengo.Float{Value: float64(l) + r}) } } // int - float for l := int64(-2); l <= 2; l++ { for r := float64(-2); r <= 2.1; r += 0.5 { testBinaryOp(t, &tengo.Int{Value: l}, token.Sub, &tengo.Float{Value: r}, &tengo.Float{Value: float64(l) - r}) } } // int * float for l := int64(-2); l <= 2; l++ { for r := float64(-2); r <= 2.1; r += 0.5 { testBinaryOp(t, &tengo.Int{Value: l}, token.Mul, &tengo.Float{Value: r}, &tengo.Float{Value: float64(l) * r}) } } // int / float for l := int64(-2); l <= 2; l++ { for r := float64(-2); r <= 2.1; r += 0.5 { if r != 0 { testBinaryOp(t, &tengo.Int{Value: l}, token.Quo, &tengo.Float{Value: r}, &tengo.Float{Value: float64(l) / r}) } } } // int < float for l := int64(-2); l <= 2; l++ { for r := float64(-2); r <= 2.1; r += 0.5 { testBinaryOp(t, &tengo.Int{Value: l}, token.Less, &tengo.Float{Value: r}, boolValue(float64(l) < r)) } } // int > float for l := int64(-2); l <= 2; l++ { for r := float64(-2); r <= 2.1; r += 0.5 { testBinaryOp(t, &tengo.Int{Value: l}, token.Greater, &tengo.Float{Value: r}, boolValue(float64(l) > r)) } } // int <= float for l := int64(-2); l <= 2; l++ { for r := float64(-2); r <= 2.1; r += 0.5 { testBinaryOp(t, &tengo.Int{Value: l}, token.LessEq, &tengo.Float{Value: r}, boolValue(float64(l) <= r)) } } // int >= float for l := int64(-2); l <= 2; l++ { for r := float64(-2); r <= 2.1; r += 0.5 { testBinaryOp(t, &tengo.Int{Value: l}, token.GreaterEq, &tengo.Float{Value: r}, boolValue(float64(l) >= r)) } } } func TestMap_Index(t *testing.T) { m := &tengo.Map{Value: make(map[string]tengo.Object)} k := &tengo.Int{Value: 1} v := &tengo.String{Value: "abcdef"} err := m.IndexSet(k, v) require.NoError(t, err) res, err := m.IndexGet(k) require.NoError(t, err) require.Equal(t, v, res) } func TestString_BinaryOp(t *testing.T) { lstr := "abcde" rstr := "01234" for l := 0; l < len(lstr); l++ { for r := 0; r < len(rstr); r++ { ls := lstr[l:] rs := rstr[r:] testBinaryOp(t, &tengo.String{Value: ls}, token.Add, &tengo.String{Value: rs}, &tengo.String{Value: ls + rs}) rc := []rune(rstr)[r] testBinaryOp(t, &tengo.String{Value: ls}, token.Add, &tengo.Char{Value: rc}, &tengo.String{Value: ls + string(rc)}) } } } func testBinaryOp( t *testing.T, lhs tengo.Object, op token.Token, rhs tengo.Object, expected tengo.Object, ) { t.Helper() actual, err := lhs.BinaryOp(op, rhs) require.NoError(t, err) require.Equal(t, expected, actual) } func boolValue(b bool) tengo.Object { if b { return tengo.TrueValue } return tengo.FalseValue }