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/* ANTLR Translator Generator
* Project led by Terence Parr at http://www.jGuru.com
* Software rights: http://www.antlr.org/license.html
*
* $Id$
*/
#include "antlr/CommonAST.h"
#include "antlr/ANTLRException.h"
#include "antlr/IOException.h"
#include "antlr/ASTFactory.h"
#include "antlr/ANTLRUtil.h"
#include <iostream>
#include <istream>
using namespace std;
#ifdef ANTLR_CXX_SUPPORTS_NAMESPACE
namespace antlr {
#endif
/** AST Support code shared by TreeParser and Parser.
* We use delegation to share code (and have only one
* bit of code to maintain) rather than subclassing
* or superclassing (forces AST support code to be
* loaded even when you don't want to do AST stuff).
*
* This class collects all factories of AST types used inside the code.
* New AST node types are registered with the registerFactory method.
* On creation of an ASTFactory object a default AST node factory may be
* specified.
*
* When registering types gaps between different types are filled with entries
* for the default factory.
*/
/// Initialize factory
ASTFactory::ASTFactory()
: default_factory_descriptor(ANTLR_USE_NAMESPACE(std)make_pair(CommonAST::TYPE_NAME,&CommonAST::factory))
{
nodeFactories.resize( Token::MIN_USER_TYPE, &default_factory_descriptor );
}
/** Initialize factory with a non default node type.
* factory_node_name should be the name of the AST node type the factory
* generates. (should exist during the existance of this ASTFactory instance)
*/
ASTFactory::ASTFactory( const char* factory_node_name, factory_type fact )
: default_factory_descriptor(ANTLR_USE_NAMESPACE(std)make_pair(factory_node_name, fact))
{
nodeFactories.resize( Token::MIN_USER_TYPE, &default_factory_descriptor );
}
/// Delete ASTFactory
ASTFactory::~ASTFactory()
{
factory_descriptor_list::iterator i = nodeFactories.begin();
while( i != nodeFactories.end() )
{
if( *i != &default_factory_descriptor )
delete *i;
i++;
}
}
/// Register a factory for a given AST type
void ASTFactory::registerFactory( int type, const char* ast_name, factory_type factory )
{
// check validity of arguments...
if( type < Token::MIN_USER_TYPE )
throw ANTLRException("Internal parser error invalid type passed to RegisterFactory");
if( factory == 0 )
throw ANTLRException("Internal parser error 0 factory passed to RegisterFactory");
// resize up to and including 'type' and initalize any gaps to default
// factory.
if( nodeFactories.size() < (static_cast<unsigned int>(type)+1) )
nodeFactories.resize( type+1, &default_factory_descriptor );
// And add new thing..
nodeFactories[type] = new ANTLR_USE_NAMESPACE(std)pair<const char*, factory_type>( ast_name, factory );
}
void ASTFactory::setMaxNodeType( int type )
{
if( nodeFactories.size() < (static_cast<unsigned int>(type)+1) )
nodeFactories.resize( type+1, &default_factory_descriptor );
}
/** Create a new empty AST node; if the user did not specify
* an AST node type, then create a default one: CommonAST.
*/
RefAST ASTFactory::create()
{
RefAST node = nodeFactories[0]->second();
node->setType(Token::INVALID_TYPE);
return node;
}
RefAST ASTFactory::create(int type)
{
RefAST t = nodeFactories[type]->second();
t->initialize(type,"");
return t;
}
RefAST ASTFactory::create(int type, const ANTLR_USE_NAMESPACE(std)string& txt)
{
RefAST t = nodeFactories[type]->second();
t->initialize(type,txt);
return t;
}
#ifdef ANTLR_SUPPORT_XML
RefAST ASTFactory::create(const ANTLR_USE_NAMESPACE(std)string& type_name, ANTLR_USE_NAMESPACE(std)istream& infile )
{
factory_descriptor_list::iterator fact = nodeFactories.begin();
while( fact != nodeFactories.end() )
{
if( type_name == (*fact)->first )
{
RefAST t = (*fact)->second();
t->initialize(infile);
return t;
}
fact++;
}
string error = "ASTFactory::create: Unknown AST type '" + type_name + "'";
throw ANTLRException(error);
}
#endif
/** Create a new empty AST node; if the user did not specify
* an AST node type, then create a default one: CommonAST.
*/
RefAST ASTFactory::create(RefAST tr)
{
if (!tr)
return nullAST;
// cout << "create(tr)" << endl;
RefAST t = nodeFactories[tr->getType()]->second();
t->initialize(tr);
return t;
}
RefAST ASTFactory::create(RefToken tok)
{
// cout << "create( tok="<< tok->getType() << ", " << tok->getText() << ")" << nodeFactories.size() << endl;
RefAST t = nodeFactories[tok->getType()]->second();
t->initialize(tok);
return t;
}
/** Add a child to the current AST */
void ASTFactory::addASTChild(ASTPair& currentAST, RefAST child)
{
if (child)
{
if (!currentAST.root)
{
// Make new child the current root
currentAST.root = child;
}
else
{
if (!currentAST.child)
{
// Add new child to current root
currentAST.root->setFirstChild(child);
}
else
{
currentAST.child->setNextSibling(child);
}
}
// Make new child the current child
currentAST.child = child;
currentAST.advanceChildToEnd();
}
}
/** Deep copy a single node. This function the new clone() methods in the AST
* interface. Returns nullAST if t is null.
*/
RefAST ASTFactory::dup(RefAST t)
{
if( t )
return t->clone();
else
return RefAST(nullASTptr);
}
/** Duplicate tree including siblings of root. */
RefAST ASTFactory::dupList(RefAST t)
{
RefAST result = dupTree(t); // if t == null, then result==null
RefAST nt = result;
while( t )
{ // for each sibling of the root
t = t->getNextSibling();
nt->setNextSibling(dupTree(t)); // dup each subtree, building new tree
nt = nt->getNextSibling();
}
return result;
}
/** Duplicate a tree, assuming this is a root node of a tree
* duplicate that node and what's below; ignore siblings of root node.
*/
RefAST ASTFactory::dupTree(RefAST t)
{
RefAST result = dup(t); // make copy of root
// copy all children of root.
if( t )
result->setFirstChild( dupList(t->getFirstChild()) );
return result;
}
/** Make a tree from a list of nodes. The first element in the
* array is the root. If the root is null, then the tree is
* a simple list not a tree. Handles null children nodes correctly.
* For example, make(a, b, null, c) yields tree (a b c). make(null,a,b)
* yields tree (nil a b).
*/
RefAST ASTFactory::make(ANTLR_USE_NAMESPACE(std)vector<RefAST>& nodes)
{
if ( nodes.size() == 0 )
return RefAST(nullASTptr);
RefAST root = nodes[0];
RefAST tail = RefAST(nullASTptr);
if( root )
root->setFirstChild(RefAST(nullASTptr)); // don't leave any old pointers set
// link in children;
for( unsigned int i = 1; i < nodes.size(); i++ )
{
if ( nodes[i] == 0 ) // ignore null nodes
continue;
if ( root == 0 ) // Set the root and set it up for a flat list
root = tail = nodes[i];
else if ( tail == 0 )
{
root->setFirstChild(nodes[i]);
tail = root->getFirstChild();
}
else
{
tail->setNextSibling(nodes[i]);
tail = tail->getNextSibling();
}
if( tail ) // RK: I cannot fathom why this missing check didn't bite anyone else...
{
// Chase tail to last sibling
while (tail->getNextSibling())
tail = tail->getNextSibling();
}
}
return root;
}
/** Make a tree from a list of nodes, where the nodes are contained
* in an ASTArray object
*/
RefAST ASTFactory::make(ASTArray* nodes)
{
RefAST ret = make(nodes->array);
delete nodes;
return ret;
}
/// Make an AST the root of current AST
void ASTFactory::makeASTRoot( ASTPair& currentAST, RefAST root )
{
if (root)
{
// Add the current root as a child of new root
root->addChild(currentAST.root);
// The new current child is the last sibling of the old root
currentAST.child = currentAST.root;
currentAST.advanceChildToEnd();
// Set the new root
currentAST.root = root;
}
}
void ASTFactory::setASTNodeFactory( const char* factory_node_name,
factory_type factory )
{
default_factory_descriptor.first = factory_node_name;
default_factory_descriptor.second = factory;
}
#ifdef ANTLR_SUPPORT_XML
bool ASTFactory::checkCloseTag( ANTLR_USE_NAMESPACE(std)istream& in )
{
char ch;
if( in.get(ch) )
{
if( ch == '<' )
{
char ch2;
if( in.get(ch2) )
{
if( ch2 == '/' )
{
in.putback(ch2);
in.putback(ch);
return true;
}
in.putback(ch2);
in.putback(ch);
return false;
}
}
in.putback(ch);
return false;
}
return false;
}
void ASTFactory::loadChildren( ANTLR_USE_NAMESPACE(std)istream& infile,
RefAST current )
{
char ch;
for(;;) // for all children of this node....
{
eatwhite(infile);
infile.get(ch); // '<'
if( ch != '<' )
{
string error = "Invalid XML file... no '<' found (";
error += ch + ")";
throw IOException(error);
}
infile.get(ch); // / or text....
if( ch == '/' ) // check for close tag...
{
string temp;
// read until '>' and see if it matches the open tag... if not trouble
temp = read_identifier( infile );
if( strcmp(temp.c_str(), current->typeName() ) != 0 )
{
string error = "Invalid XML file... close tag does not match start tag: ";
error += current->typeName();
error += " closed by " + temp;
throw IOException(error);
}
infile.get(ch); // must be a '>'
if( ch != '>' )
{
string error = "Invalid XML file... no '>' found (";
error += ch + ")";
throw IOException(error);
}
// close tag => exit loop
break;
}
// put our 'look ahead' back where it came from
infile.putback(ch);
infile.putback('<');
// and recurse into the tree...
RefAST child = LoadAST(infile);
current->addChild( child );
}
}
void ASTFactory::loadSiblings(ANTLR_USE_NAMESPACE(std)istream& infile,
RefAST current )
{
for(;;)
{
eatwhite(infile);
if( infile.eof() )
break;
if( checkCloseTag(infile) )
break;
RefAST sibling = LoadAST(infile);
current->setNextSibling(sibling);
}
}
RefAST ASTFactory::LoadAST( ANTLR_USE_NAMESPACE(std)istream& infile )
{
RefAST current = nullAST;
char ch;
eatwhite(infile);
if( !infile.get(ch) )
return nullAST;
if( ch != '<' )
{
string error = "Invalid XML file... no '<' found (";
error += ch + ")";
throw IOException(error);
}
string ast_type = read_identifier(infile);
// create the ast of type 'ast_type'
current = create( ast_type, infile );
if( current == nullAST )
{
string error = "Unsuported AST type: " + ast_type;
throw IOException(error);
}
eatwhite(infile);
infile.get(ch);
// now if we have a '/' here it's a single node. If it's a '>' we get
// a tree with children
if( ch == '/' )
{
infile.get(ch); // get the closing '>'
if( ch != '>' )
{
string error = "Invalid XML file... no '>' found after '/' (";
error += ch + ")";
throw IOException(error);
}
// get the rest on this level
loadSiblings( infile, current );
return current;
}
// and finaly see if we got the close tag...
if( ch != '>' )
{
string error = "Invalid XML file... no '>' found (";
error += ch + ")";
throw IOException(error);
}
// handle the ones below this level..
loadChildren( infile, current );
// load the rest on this level...
loadSiblings( infile, current );
return current;
}
#endif // ANTLR_SUPPORT_XML
#ifdef ANTLR_CXX_SUPPORTS_NAMESPACE
}
#endif
/* Heterogeneous AST/XML-I/O ramblings...
*
* So there is some heterogeneous AST support....
* basically in the code generators a new custom ast is generated without
* going throug the factory. It also expects the RefXAST to be defined.
*
* Is it maybe better to register all AST types with the ASTFactory class
* together with the respective factory methods.
*
* More and more I get the impression that hetero ast was a kindoff hack
* on top of ANTLR's normal AST system.
*
* The heteroast stuff will generate trouble for all astFactory.create( ... )
* invocations. Most of this is handled via getASTCreateString methods in the
* codegenerator. At the moment getASTCreateString(GrammarAtom, String) has
* slightly to little info to do it's job (ok the hack that is in now
* works, but it's an ugly hack)
*
* An extra caveat is the 'nice' action.g thing. Which also judiciously calls
* getASTCreateString methods because it handles the #( ... ) syntax.
* And converts that to ASTFactory calls.
*
*
*/
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