package ast import ( //"errors" //"fmt" //"reflect" //"github.com/elliotchance/c2go/cc" ) // FloatingLiteral is type of float literal type FloatingLiteral struct { Addr Address Pos Position Type string Value float64 ChildNodes []Node } func parseFloatingLiteral(line string) *FloatingLiteral { groups := groupsFromRegex( "<(?P.*)> '(?P.*?)' (?P.+)", line, ) return &FloatingLiteral{ Addr: ParseAddress(groups["address"]), Pos: NewPositionFromString(groups["position"]), Type: groups["type"], Value: atof(groups["value"]), ChildNodes: []Node{}, } } // AddChild adds a new child node. Child nodes can then be accessed with the // Children attribute. func (n *FloatingLiteral) AddChild(node Node) { n.ChildNodes = append(n.ChildNodes, node) } // Address returns the numeric address of the node. See the documentation for // the Address type for more information. func (n *FloatingLiteral) Address() Address { return n.Addr } // Children returns the child nodes. If this node does not have any children or // this node does not support children it will always return an empty slice. func (n *FloatingLiteral) Children() []Node { return n.ChildNodes } // Position returns the position in the original source code. func (n *FloatingLiteral) Position() Position { return n.Pos } // FloatingLiteralError represents one instance of an error where the exact // floating point value of a FloatingLiteral could not be determined from the // original source. See RepairFloatingLiteralsFromSource for a full explanation. type FloatingLiteralError struct { Node *FloatingLiteral Err error } /* NOT USED // RepairFloatingLiteralsFromSource finds the exact values of floating literals // by reading their values directly from the preprocessed source. // // The clang AST only serializes floating point values in scientific notation // with 7 significant digits. This is not enough when dealing with precise // numbers. // // The only solution is to read the original floating literal from the source // code. We can do this by using the positional information on the node. // // If the floating literal cannot be resolved for any reason the original value // will remain. This function will return all errors encountered. func RepairFloatingLiteralsFromSource(rootNode Node, preprocessedFile string) []FloatingLiteralError { errs := []FloatingLiteralError{} floatingLiteralNodes := GetAllNodesOfType(rootNode, reflect.TypeOf((*FloatingLiteral)(nil))) for _, node := range floatingLiteralNodes { fNode := node.(*FloatingLiteral) // Use the node position to retrieve the original line from the // preprocessed source. pos := node.Position() line, err := cc.GetLineFromPreprocessedFile(preprocessedFile, pos.File, pos.Line) // If there was a problem reading the line we should raise a warning and // use the value we have. Hopefully that will be an accurate enough // representation. if err != nil { errs = append(errs, FloatingLiteralError{ Node: fNode, Err: err, }) } // Extract the exact value from the line. if pos.Column-1 >= len(line) { errs = append(errs, FloatingLiteralError{ Node: fNode, Err: errors.New("cannot get exact value exact value"), }) } else { fmt.Sscan(line[pos.Column-1:], &fNode.Value) } } return errs }*/