PUMA Library Reference Manual
Puma::CT_ForStmt Class Reference

#include <Puma/CTree.h>

+ Inheritance diagram for Puma::CT_ForStmt:

Description

Tree node representing a for-statement. Example:

for(int i=0; i<10; i++) f(i);

Public Member Functions

 CT_ForStmt (CTree *k, CTree *o, CTree *i, CTree *co, CTree *sc, CTree *e, CTree *c, CTree *stmt)
 Constructor. More...
 
const char * NodeName () const
 Get the name of the node. More...
 
int Sons () const
 Get the number of sons. More...
 
CTreeSon (int n) const
 Get the n-th son. More...
 
CTreeInitStmt () const
 Get the loop initializer. More...
 
CTreeCondition () const
 Get the loop condition. More...
 
CTreeExpr () const
 Get the loop counter expression. More...
 
CT_StatementStatement () const
 Get the controlled statement. More...
 
void ReplaceSon (CTree *old_son, CTree *new_son)
 Replace a son. More...
 
CSemScopeSemScope () const
 Get the scope opened by the for-statement. More...
 
- Public Member Functions inherited from Puma::CTree
virtual ~CTree ()
 Destructor. More...
 
virtual Tokentoken () const
 Get the first token of the syntactic construct represented by this sub-tree. More...
 
virtual Tokenend_token () const
 Get the last token of the syntactic construct represented by this sub-tree. More...
 
virtual CT_Tokentoken_node () const
 Get the CT_Token node of the first token of the syntactic construct represented by this sub-tree. More...
 
virtual CT_Tokenend_token_node () const
 Get the CT_Token node of the last token of the syntactic construct represented by this sub-tree. More...
 
virtual CTreeParent () const
 Get the parent node. More...
 
virtual CTypeInfoType () const
 Get the semantic type of the node. More...
 
virtual CExprValueValue () const
 Get the calculated value of the expression. More...
 
virtual CSemValueSemValue () const
 Get the semantic value of the node. More...
 
virtual CSemObjectSemObject () const
 Get the semantic information of the node. More...
 
virtual CT_SimpleNameIsSimpleName ()
 Get a pointer to CT_SimpleName if the current node represents a name. More...
 
virtual CT_StringIsString ()
 Get a pointer to CT_String if the current node represents a string. More...
 
virtual CT_DeclaratorIsDeclarator ()
 Get a pointer to CT_Declarator if the current node represents a declarator. More...
 
virtual CT_ExpressionIsExpression ()
 Get a pointer to CT_Expression if the current node represents a expression. More...
 
virtual CT_DeclIsDeclaration ()
 Get a pointer to CT_Decl if the current node represents a declaration. More...
 
virtual CT_CallIsCall ()
 Get a pointer to CT_Call if the current node represents a call expression. More...
 
virtual CT_ListIsList ()
 Get a pointer to CT_List if the current node represents a list. More...
 
virtual CT_DelayedParseIsDelayedParse ()
 Get a pointer to CT_DelayedParse if the current node represents a delayed code fragment. More...
 
bool HasValueNull () const
 Return true if the tree has the constant value 0. More...
 
- Public Member Functions inherited from Puma::CSemScope
 CSemScope ()
 Constructor. More...
 
void Scope (CStructure *s)
 Set the scope. More...
 
CStructureScope () const
 Get the scope. More...
 

Static Public Member Functions

static const char * NodeId ()
 Get the identifier for this node type. More...
 

Additional Inherited Members

- Static Public Attributes inherited from Puma::CTree
static int alloc
 
static int release
 
- Protected Member Functions inherited from Puma::CT_Statement
 CT_Statement ()
 Constructor. More...
 
virtual CT_StatementIsStatement ()
 Get this. More...
 
- Protected Member Functions inherited from Puma::CTree
CTreeSon (CTree *const *sons, int len, int n) const
 Get the n-th son from given sons array. More...
 
int Sons (CTree *const *sons, int len) const
 Get the number of sons in the given sons array. More...
 
void ReplaceSon (CTree **sons, int len, CTree *old_son, CTree *new_son)
 Replace a son. More...
 
void ReplaceSon (CTree *&son, CTree *old_son, CTree *new_son)
 Replace a son if it equals the given son. More...
 
void AddSon (CTree *&son, CTree *new_son)
 Add a new son. More...
 
void SetParent (const CTree *parent)
 Set the parent tree node. More...
 
void SetParent (CTree *node, const CTree *parent)
 Set the parent tree node of the given tree node. More...
 
 CTree ()
 Default constructor. More...
 

Constructor & Destructor Documentation

◆ CT_ForStmt()

Puma::CT_ForStmt::CT_ForStmt ( CTree k,
CTree o,
CTree i,
CTree co,
CTree sc,
CTree e,
CTree c,
CTree stmt 
)
inline

Constructor.

Parameters
kThe keyword 'for'.
oLeft parenthesis.
iThe loop initializer statement.
coThe loop condition.
scThe semi-colon behind the loop condition.
eThe loop counter expression.
cRight parenthesis.
stmtThe controlled statement.

Member Function Documentation

◆ Condition()

CTree* Puma::CT_ForStmt::Condition ( ) const
inline

Get the loop condition.

◆ Expr()

CTree* Puma::CT_ForStmt::Expr ( ) const
inline

Get the loop counter expression.

◆ InitStmt()

CTree* Puma::CT_ForStmt::InitStmt ( ) const
inline

Get the loop initializer.

◆ NodeId()

static const char* Puma::CT_ForStmt::NodeId ( )
static

Get the identifier for this node type.

Can be compared with NodeName().

◆ NodeName()

const char* Puma::CT_ForStmt::NodeName ( ) const
inlinevirtual

Get the name of the node.

Can be compared with NodeId().

Implements Puma::CTree.

◆ ReplaceSon()

void Puma::CT_ForStmt::ReplaceSon ( CTree old_son,
CTree new_son 
)
inlinevirtual

Replace a son.

Parameters
old_sonThe son to replace.
new_sonThe new son.

Reimplemented from Puma::CTree.

◆ SemScope()

CSemScope* Puma::CT_ForStmt::SemScope ( ) const
inlinevirtual

Get the scope opened by the for-statement.

Reimplemented from Puma::CTree.

◆ Son()

CTree* Puma::CT_ForStmt::Son ( int  n) const
inlinevirtual

Get the n-th son.

Parameters
nThe index of the son.
Returns
The n-th son or NULL.

Reimplemented from Puma::CTree.

◆ Sons()

int Puma::CT_ForStmt::Sons ( ) const
inlinevirtual

Get the number of sons.

Implements Puma::CTree.

◆ Statement()

CT_Statement* Puma::CT_ForStmt::Statement ( ) const
inline

Get the controlled statement.