Ejemplo n.º 1
0
func EvaluateUnaryExpr(expr *ast.UnaryExpr, context *Context) ast.Value {
	var val ast.Value = nil

	switch t := expr.Expr.(type) {
	case *ast.BinaryExpr:
		val = EvaluateBinaryExpr(t, context)
	case *ast.UnaryExpr:
		val = EvaluateUnaryExpr(t, context)
	case *ast.Variable:
		if varVal, ok := context.GetVariable(t.Name); ok {
			val = varVal.(ast.Expr)
		}
	default:
		val = ast.Value(t)
	}

	switch expr.Op.Type {
	case ast.T_NOP:
		// do nothing
	case ast.T_LOGICAL_NOT:
		if bVal, ok := val.(ast.BooleanValue); ok {
			val = ast.NewBoolean(bVal.Boolean())
		}
	case ast.T_MINUS:
		switch n := val.(type) {
		case *ast.Number:
			n.Value = -n.Value
		}
	}
	return val
}
Ejemplo n.º 2
0
func EvaluateExprInBooleanContext(anyexpr ast.Expr, context *Context) ast.Value {
	switch expr := anyexpr.(type) {

	case *ast.BinaryExpr:
		return EvaluateBinaryExprInBooleanContext(expr, context)

	case *ast.UnaryExpr:
		return EvaluateUnaryExprInBooleanContext(expr, context)

	default:
		if bval, ok := expr.(ast.BooleanValue); ok {
			return ast.NewBoolean(bval.Boolean())
		}
	}
	return nil
}
Ejemplo n.º 3
0
func EvaluateUnaryExprInBooleanContext(expr *ast.UnaryExpr, context *Context) ast.Value {
	var val ast.Value = nil

	switch t := expr.Expr.(type) {
	case *ast.BinaryExpr:
		val = EvaluateBinaryExpr(t, context)
	case *ast.UnaryExpr:
		val = EvaluateUnaryExpr(t, context)
	default:
		val = ast.Value(t)
	}

	switch expr.Op.Type {
	case ast.T_LOGICAL_NOT:
		if bval, ok := val.(ast.BooleanValue); ok {
			return ast.NewBoolean(bval.Boolean())
		} else {
			panic(fmt.Errorf("BooleanValue interface is not support for %+v", val))
		}
	}
	return val
}
Ejemplo n.º 4
0
func Compute(op *ast.Op, a ast.Value, b ast.Value) ast.Value {
	if op == nil {
		panic("op can't be nil")
	}
	switch op.Type {

	case ast.T_EQUAL:

		switch ta := a.(type) {
		case *ast.Boolean:
			switch tb := b.(type) {
			case *ast.Boolean:
				return ast.NewBoolean(ta.Value == tb.Value)
			}
		case *ast.Number:
			switch tb := b.(type) {
			case *ast.Number:
				if IsComparable(ta, tb) {
					return ast.NewBoolean(ta.Value == tb.Value)
				} else {
					panic("Can't compare number (unit different)")
				}
			}
		}

	case ast.T_UNEQUAL:

		switch ta := a.(type) {
		case *ast.Boolean:
			switch tb := b.(type) {
			case *ast.Boolean:
				return ast.NewBoolean(ta.Value != tb.Value)
			}
		case *ast.Number:
			switch tb := b.(type) {
			case *ast.Number:
				if IsComparable(ta, tb) {
					return ast.NewBoolean(ta.Value != tb.Value)
				} else {
					panic("Can't compare number (unit different)")
				}
			}
		}

	case ast.T_GT:

		switch ta := a.(type) {
		case *ast.Number:
			switch tb := b.(type) {
			case *ast.Number:
				if IsComparable(ta, tb) {
					return ast.NewBoolean(ta.Value > tb.Value)
				} else {
					panic("Can't compare number (unit different)")
				}
			}
		}

	case ast.T_GE:

		switch ta := a.(type) {
		case *ast.Number:
			switch tb := b.(type) {
			case *ast.Number:
				if IsComparable(ta, tb) {
					return ast.NewBoolean(ta.Value >= tb.Value)
				} else {
					panic("Can't compare number (unit different)")
				}
			}
		}

	case ast.T_LT:

		switch ta := a.(type) {
		case *ast.Number:
			switch tb := b.(type) {
			case *ast.Number:
				if IsComparable(ta, tb) {
					return ast.NewBoolean(ta.Value < tb.Value)
				} else {
					panic("Can't compare number (unit different)")
				}
			}
		}

	case ast.T_LE:

		switch ta := a.(type) {
		case *ast.Number:
			switch tb := b.(type) {
			case *ast.Number:
				if IsComparable(ta, tb) {
					return ast.NewBoolean(ta.Value <= tb.Value)
				} else {
					panic("Can't compare number (unit different)")
				}
			}
		}

	case ast.T_LOGICAL_AND:

		switch ta := a.(type) {
		case *ast.Boolean:
			switch tb := b.(type) {

			case *ast.Boolean:
				return ast.NewBoolean(ta.Value && tb.Value)

			// For other data type, we cast to boolean
			default:
				if bv, ok := b.(ast.BooleanValue); ok {
					return ast.NewBoolean(bv.Boolean())
				}
			}
		}

	case ast.T_LOGICAL_OR:

		switch ta := a.(type) {
		case *ast.Boolean:
			switch tb := b.(type) {

			case *ast.Boolean:
				return ast.NewBoolean(ta.Value || tb.Value)

			// For other data type, we cast to boolean
			default:
				if bv, ok := b.(ast.BooleanValue); ok {
					return ast.NewBoolean(bv.Boolean())
				}
			}
		}

	/*
		arith expr
	*/
	case ast.T_PLUS:
		switch ta := a.(type) {
		case *ast.Number:
			switch tb := b.(type) {
			case *ast.Number:
				return NumberAddNumber(ta, tb)
			case *ast.HexColor:
				return HexColorAddNumber(tb, ta)
			}
		case *ast.HexColor:
			switch tb := b.(type) {
			case *ast.Number:
				return HexColorAddNumber(ta, tb)
			}
		case *ast.RGBColor:
			switch tb := b.(type) {
			case *ast.Number:
				return RGBColorAddNumber(ta, tb)
			}
		case *ast.RGBAColor:
			switch tb := b.(type) {
			case *ast.Number:
				return RGBAColorAddNumber(ta, tb)
			}
		}
	case ast.T_MINUS:
		switch ta := a.(type) {
		case *ast.Number:
			switch tb := b.(type) {
			case *ast.Number:
				return NumberSubNumber(ta, tb)
			}
		case *ast.HexColor:
			switch tb := b.(type) {
			case *ast.Number:
				return HexColorSubNumber(ta, tb)
			}

		case *ast.RGBColor:
			switch tb := b.(type) {
			case *ast.Number:
				return RGBColorSubNumber(ta, tb)
			}

		case *ast.RGBAColor:
			switch tb := b.(type) {
			case *ast.Number:
				return RGBAColorSubNumber(ta, tb)
			}
		}

	case ast.T_DIV:
		switch ta := a.(type) {
		case *ast.Number:
			switch tb := b.(type) {
			case *ast.Number:
				return NumberDivNumber(ta, tb)
			}
		case *ast.HexColor:
			switch tb := b.(type) {
			case *ast.Number:
				return HexColorDivNumber(ta, tb)
			}
		case *ast.RGBColor:
			switch tb := b.(type) {
			case *ast.Number:
				return RGBColorDivNumber(ta, tb)
			}
		case *ast.RGBAColor:
			switch tb := b.(type) {
			case *ast.Number:
				return RGBAColorDivNumber(ta, tb)
			}
		}

	case ast.T_MUL:
		switch ta := a.(type) {
		case *ast.Number:
			switch tb := b.(type) {
			case *ast.Number:
				return NumberMulNumber(ta, tb)
			}

		case *ast.HexColor:
			switch tb := b.(type) {
			case *ast.Number:
				return HexColorMulNumber(ta, tb)
			}

		case *ast.RGBColor:
			switch tb := b.(type) {
			case *ast.Number:
				return RGBColorMulNumber(ta, tb)
			}

		case *ast.RGBAColor:
			switch tb := b.(type) {
			case *ast.Number:
				return RGBAColorMulNumber(ta, tb)
			}
		}
	}
	return nil
}