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threeAddrNode Class Reference [The AST nodes] canonical form for statements More... #include <ast.h> Inheritance diagram for threeAddrNode: List of all members. Garbage collection. bool  mark static node_list  nodes static map< Node *, bool >  deleted_nodes Public Member Functions   threeAddrNode (operandNode *lhs, operandNode *rhs, const Coord coord=Coord::Unknown)   threeAddrNode (operandNode *lhs, unsigned int op_id, operandNode *rhs, const Coord coord=Coord::Unknown)   threeAddrNode (operandNode *lhs, typeNode *type, const Coord coord=Coord::Unknown)   threeAddrNode (operandNode *lhs, operandNode *rhs1, unsigned int op_id, operandNode *rhs2, const Coord coord=Coord::Unknown)   threeAddrNode (operandNode *lhs, operandNode *func, operand_list *arg_list, const Coord coord=Coord::Unknown)   threeAddrNode (operandNode *func, operand_list *arg_list, const Coord coord=Coord::Unknown) void  lhs (operandNode *lhs) operandNode *  lhs (void) void  rhs1 (operandNode *rhs1) operandNode *  rhs1 (void) void  op (Operator *op) Operator *  op (void) void  rhs2 (operandNode *rhs2) operandNode *  rhs2 (void) void  sizeof_type (typeNode *type) typeNode *  sizeof_type (void) operand_list &  arg_list () const operand_list &  arg_list () const virtual void  visit (Visitor *the_visitor)   Dispatch a Visitor. virtual void  walk (Walker &the_walker)   Dispatch a Walker. virtual Node *  change (Changer &the_changer, bool redispatch=false)   Dispatch a Changer. virtual void  dataflow (FlowVal *v, FlowProblem &fp)   Run the dataflow analyzer. virtual Node *  clone () const   Clone the input node. virtual void  output_stmt (output_context &ct, Node *par)   Output a statement. virtual void  output (output_context &ct, Node *par)   Generate C code. void  output_comment (output_context &ct) virtual typeNode *  type () const   Return the node data type. virtual typeNode *  base_type (bool TdefIndir) const   Return the base data type of a node. typeNode *  datatype () const   Call base_type() with the argument true. typeNode *  datatype_superior () const   Call base_type() with the argument false. Accessors Methods to get and set fields in the class. string &  comment () FlowVal *  at_exit () const void  at_exit (FlowVal *ae) Accessors Methods to get and set fields in the class. NodeType  typ () const   Get the node type. Coord  coord () const   Get the source location. void  coord (const Coord coord)   Set the source location. bool  parenthesized () const   Get the parenthesized boolean. void  parenthesized (bool paren)   Set the parenthesized boolean. annote_list &  annotations ()   Get the annotations list. FlowVal *  gen () const   Get the "gen" flow value. void  gen (FlowVal *g)   Set the "gen" flow value. FlowVal *  kill () const   Get the "kill" flow value. void  kill (FlowVal *k)   Set the "kill" flow value. Static Public Member Functions static void  report ()   Report node count statistics. Private Attributes operandNode *  _lhs operandNode *  _rhs1 Operator *  _op operandNode *  _rhs2 typeNode *  _sizeof_type operand_list  _arg_list Detailed Description canonical form for statements The threeAddrNode is the quintessential form for all arithmetic statements in the dismantler's output. Using threeAddrNode, we can represent assignment of variables, unary operations to operands, binary operations to operands, function calls, and determining the sizeof a type. For function calls, the assignment is optional. The following grammar rules describe the forms that a threeAddrNode can take: threeAddrNode -> lhs = [unaryOperator] rhs1 -> lhs = rhs1 binaryOperator rhs2 -> lhs = sizeof( type ) -> lhs = rhs1( arglist ) arglist -> arg argrest -> , arg argrest -> e arg -> operand Definition at line 6150 of file ast.h. Constructor & Destructor Documentation threeAddrNode::threeAddrNode (  operandNode *  lhs, operandNode *  rhs, const Coord  coord = Coord::Unknown )    Referenced by clone(). threeAddrNode::threeAddrNode (  operandNode *  lhs, unsigned int  op_id, operandNode *  rhs, const Coord  coord = Coord::Unknown )  threeAddrNode::threeAddrNode (  operandNode *  lhs, typeNode *  type, const Coord  coord = Coord::Unknown )  threeAddrNode::threeAddrNode (  operandNode *  lhs, operandNode *  rhs1, unsigned int  op_id, operandNode *  rhs2, const Coord  coord = Coord::Unknown )  threeAddrNode::threeAddrNode (  operandNode *  lhs, operandNode *  func, operand_list *  arg_list, const Coord  coord = Coord::Unknown )  threeAddrNode::threeAddrNode (  operandNode *  func, operand_list *  arg_list, const Coord  coord = Coord::Unknown )  Member Function Documentation annote_list& Node::annotations (   )  [inline, inherited]   Get the annotations list. This method returns a modifiable reference to the list of annotations on the node. Users can add new annotations, search for annotations, or remove annotations. Users are responsible for ensuring that every element of the annotation list points to a valid annotation. In particular, no element should be NULL. See also: Annote class Definition at line 274 of file ast.h. References Node::_annotations. const operand_list& threeAddrNode::arg_list (   )  const [inline]   Definition at line 6191 of file ast.h. References _arg_list. operand_list& threeAddrNode::arg_list (   )  [inline]   Definition at line 6190 of file ast.h. References _arg_list. void stmtNode::at_exit (  FlowVal *  ae  )  [inline, inherited]   Reimplemented in basicblockNode. Definition at line 4291 of file ast.h. References stmtNode::_at_exit. FlowVal* stmtNode::at_exit (   )  const [inline, inherited]   Reimplemented in basicblockNode. Definition at line 4290 of file ast.h. References stmtNode::_at_exit. virtual typeNode* Node::base_type (  bool  TdefIndir  )  const [virtual, inherited]   Return the base data type of a node. This method differs from the Node::type() method in two respects. First, it follows some of the simple type inferences. For example, calling it on an idNode will return the type of its declaration. Second, the boolean argument indicates whether or not to follow typedef links. Parameters: TdefIndir  pass true to follow typedefs to their definitions. Reimplemented in declNode, procNode, typeNode, tdefNode, exprNode, idNode, commaNode, callNode, blockNode, and exprstmtNode. virtual Node* threeAddrNode::change (  Changer &  the_changer, bool  redispatch = false )  [virtual]   Dispatch a Changer. This abstract method works much the walker, but allows the tree to be changed. Parameters: the_changer  the specific Changer object to use. redispatch  pass true to revisit parts of the tree that have changed. Implements Node. virtual Node* threeAddrNode::clone (   )  const [inline, virtual]   Clone the input node. This is not a "deep" clone, so be careful. For a deep clone, use the ref_clone_changer class. Returns: a shallow copy of the node (no subtrees are copied). Implements Node. Definition at line 6197 of file ast.h. References threeAddrNode(). string& stmtNode::comment (   )  [inline, inherited]   Definition at line 4286 of file ast.h. References stmtNode::_comment. void Node::coord (  const Coord  coord  )  [inline, inherited]   Set the source location. This location should indicate the position in the source text that this Node represents, or Coord::Unknown if it does not represent any node in the source text. It is not common to set the source location of a node. Currently, only the compiler error messages actually make use of it. Parameters: coord  the new location. Definition at line 243 of file ast.h. References Node::_coord. Coord Node::coord (   )  const [inline, inherited]   Get the source location. The Coord class holds a location in the input source (file, line, position). During parsing, each AST node created records the position of the source text that it represents. However, subsequent phases may create or change nodes, so no guarantee is given about how the source location corresponds to the original source text. Returns: the Coord structure indicating where the node came from in the source file. Definition at line 230 of file ast.h. References Node::_coord. virtual void threeAddrNode::dataflow (  FlowVal *  v, FlowProblem &  fp )  [virtual]   Run the dataflow analyzer. Each subclass overrides this method to define it's semantics for dataflow analysis. It alters the input flow value to reflect the effect of the node within the given flow problem, calling dataflow() on it's subtrees as necessary. See the dataflow analysis documentation for more information. Parameters: v  the flow value to pass through the node. fp  the flow problem (specifying the transfer functions). Implements Node. typeNode* Node::datatype (   )  const [inherited]   Call base_type() with the argument true. typeNode* Node::datatype_superior (   )  const [inherited]   Call base_type() with the argument false. void Node::gen (  FlowVal *  g  )  [inline, inherited]   Set the "gen" flow value. This value is used in dataflow analyses to store information that is generated at this node. Note that each node has exactly one "gen" flow value. In order to set the flow value to be empty, call this method with a value of NULL. Parameters: g  the new gen flow value. Definition at line 297 of file ast.h. References Node::_gen. FlowVal* Node::gen (   )  const [inline, inherited]   Get the "gen" flow value. This value is used in dataflow analyses to store information that is generated at this node. Note that each node has exactly one "gen" flow value. Returns: the "gen" flow value. Definition at line 284 of file ast.h. References Node::_gen. void Node::kill (  FlowVal *  k  )  [inline, inherited]   Set the "kill" flow value. This value is used in dataflow analyses to store information that is killed at this node. Note that each node has exactly one "kill" flow value. To set the flow value to be empty, call this method with a value of NULL. Parameters: k  the new kill flow value. Definition at line 320 of file ast.h. References Node::_kill. FlowVal* Node::kill (   )  const [inline, inherited]   Get the "kill" flow value. This value is used in dataflow analyses to store information that is killed at this node. Note that each node has exactly one "kill" flow value. Returns: the "kill" flow value. Definition at line 307 of file ast.h. References Node::_kill. operandNode* threeAddrNode::lhs (  void   )  [inline]   Definition at line 6179 of file ast.h. References _lhs. void threeAddrNode::lhs (  operandNode *  lhs  )  [inline]   Definition at line 6178 of file ast.h. References _lhs. Operator* threeAddrNode::op (  void   )  [inline]   Definition at line 6184 of file ast.h. References _op. void threeAddrNode::op (  Operator *  op  )  [inline]   Definition at line 6182 of file ast.h. References _op. virtual void stmtNode::output (  output_context &  ct, Node *  par )  [virtual, inherited]   Generate C code. Each subclass overrides this method to define how to produce the output C code. To use this method, pass an output_context and a null parent. Parameters: ct  the output context which describes the formatting. par  the parent node (or null, if at the top of a subtree). Implements Node. void stmtNode::output_comment (  output_context &  ct  )  [inherited] virtual void threeAddrNode::output_stmt (  output_context &  ct, Node *  par )  [virtual]   Output a statement. Implements stmtNode. void Node::parenthesized (  bool  paren  )  [inline, inherited]   Set the parenthesized boolean. This boolean determines whether this expression will be parenthesized in the output. Note that that the parentheses will always be added when they are needed to disambiguate the output. This variable only controls the use of "un-necessary" parentheses. Parameters: paren  the new value of the parenthesized boolean. Definition at line 262 of file ast.h. References Node::_parenthesized. bool Node::parenthesized (   )  const [inline, inherited]   Get the parenthesized boolean. Returns: true if the construct corresponding to this Node was parenthesized in the source. Definition at line 250 of file ast.h. References Node::_parenthesized. static void Node::report (   )  [static, inherited]   Report node count statistics. The code can be configured to gather statistics about node usage according to type. This method prints the current state of that accounting information to standard out. operandNode* threeAddrNode::rhs1 (  void   )  [inline]   Definition at line 6181 of file ast.h. References _rhs1. void threeAddrNode::rhs1 (  operandNode *  rhs1  )  [inline]   Definition at line 6180 of file ast.h. References _rhs1. operandNode* threeAddrNode::rhs2 (  void   )  [inline]   Definition at line 6187 of file ast.h. References _rhs2. void threeAddrNode::rhs2 (  operandNode *  rhs2  )  [inline]   Definition at line 6186 of file ast.h. References _rhs2. typeNode* threeAddrNode::sizeof_type (  void   )  [inline]   Definition at line 6189 of file ast.h. References _sizeof_type. void threeAddrNode::sizeof_type (  typeNode *  type  )  [inline]   Definition at line 6188 of file ast.h. References _sizeof_type. NodeType Node::typ (   )  const [inline, inherited]   Get the node type. This has nothing to do with types in the source code. It indicates what kind of AST node this is (e.g., a unary expression node or a while node). Returns: the node type. Definition at line 216 of file ast.h. References Node::_typ. Referenced by gcWalker::delete_nodes(), and NodeInfo::nodeIndex(). virtual typeNode* Node::type (   )  const [inline, virtual, inherited]   Return the node data type. This method returns the C data type of a node. Several different kinds of nodes contain typeNode pointers. This method is just a unified way to access them. It does not attempt to compute the type, it just returns whatever typeNode pointer resides on the node. The subclasses that have types return them, and the others return null. Returns: the typeNode pointer on the node. Reimplemented in declNode, typeNode, exprNode, and operandNode. Definition at line 342 of file ast.h. virtual void threeAddrNode::visit (  Visitor *  the_visitor  )  [virtual]   Dispatch a Visitor. This abstract method is the entry point for the visitor design pattern. Each node subclass defines a visit() method that calls the appropriate at_ method in the visitor. For more information see the Visitor documentation. Parameters: the_visitor  the specific Visitor object to use. Implements Node. virtual void threeAddrNode::walk (  Walker &  the_walker  )  [virtual]   Dispatch a Walker. This abstract method works much like the visitor, but instead walks the entire underlying subtree calling the appropriate at_ method at each node. For more information see the Walker documentation. Parameters: the_walker  the specific Walker object to use. Implements Node. Member Data Documentation operand_list threeAddrNode::_arg_list [private]   Definition at line 6157 of file ast.h. Referenced by arg_list(). operandNode* threeAddrNode::_lhs [private]   Definition at line 6152 of file ast.h. Referenced by lhs(). Operator* threeAddrNode::_op [private]   Definition at line 6154 of file ast.h. Referenced by op(). operandNode* threeAddrNode::_rhs1 [private]   Definition at line 6153 of file ast.h. Referenced by rhs1(). operandNode* threeAddrNode::_rhs2 [private]   Definition at line 6155 of file ast.h. Referenced by rhs2(). typeNode* threeAddrNode::_sizeof_type [private]   Definition at line 6156 of file ast.h. Referenced by sizeof_type(). map<Node *, bool> Node::deleted_nodes [static, inherited]   Definition at line 165 of file ast.h. Referenced by gcWalker::delete_nodes(). bool Node::mark [inherited]   Definition at line 168 of file ast.h. Referenced by gcWalker::at_binary(), and gcWalker::delete_nodes(). node_list Node::nodes [static, inherited]   Definition at line 162 of file ast.h. Referenced by gcWalker::delete_nodes(), and gcWalker::gcWalker(). The documentation for this class was generated from the following file: ast.h

Generated on February 1, 2006
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