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/**************************************************************************
**
** This file is part of Qt Creator
**
** Copyright (c) 2009 Nokia Corporation and/or its subsidiary(-ies).
**
** Contact: Nokia Corporation (qt-info@nokia.com)
**
** Commercial Usage
**
** Licensees holding valid Qt Commercial licenses may use this file in
** accordance with the Qt Commercial License Agreement provided with the
** Software or, alternatively, in accordance with the terms contained in
** a written agreement between you and Nokia.
**
** GNU Lesser General Public License Usage
**
** Alternatively, this file may be used under the terms of the GNU Lesser
** General Public License version 2.1 as published by the Free Software
** Foundation and appearing in the file LICENSE.LGPL included in the
** packaging of this file. Please review the following information to
** ensure the GNU Lesser General Public License version 2.1 requirements
** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html.
**
** If you are unsure which license is appropriate for your use, please
** contact the sales department at http://qt.nokia.com/contact.
**
**************************************************************************/
#include "ExpressionUnderCursor.h"
#include "SimpleLexer.h"
#include <Token.h>
#include <QTextCursor>
#include <QTextBlock>
using namespace CPlusPlus;
namespace CPlusPlus {
class BackwardsScanner
{
enum { MAX_BLOCK_COUNT = 10 };
public:
BackwardsScanner(const QTextCursor &cursor)
: _offset(0)
, _blocksTokenized(0)
, _block(cursor.block())
{
_tokenize.setSkipComments(true);
_text = _block.text().left(cursor.position() - cursor.block().position());
_tokens.append(_tokenize(_text, previousBlockState(_block)));
}
QList<SimpleToken> tokens() const { return _tokens; }
const SimpleToken &operator[](int i)
{
while (_offset + i < 0) {
_block = _block.previous();
if (_blocksTokenized == MAX_BLOCK_COUNT || !_block.isValid()) {
++_offset;
_tokens.prepend(SimpleToken()); // sentinel
break;
} else {
++_blocksTokenized;
QString blockText = _block.text();
_text.prepend(blockText);
QList<SimpleToken> adaptedTokens;
for (int i = 0; i < _tokens.size(); ++i) {
const SimpleToken &t = _tokens.at(i);
const int position = t.position() + blockText.length();
adaptedTokens.append(SimpleToken(t.kind(),
position,
t.length(),
_text.midRef(position, t.length())));
}
_tokens = _tokenize(blockText, previousBlockState(_block));
_offset += _tokens.size();
_tokens += adaptedTokens;
}
}
return _tokens.at(_offset + i);
}
int startPosition() const
{ return _block.position(); }
const QString &text() const
{ return _text; }
QString text(int begin, int end) const
{
const SimpleToken &firstToken = _tokens.at(begin + _offset);
const SimpleToken &lastToken = _tokens.at(end + _offset - 1);
return _text.mid(firstToken.begin(), lastToken.end() - firstToken.begin());
}
int previousBlockState(const QTextBlock &block)
{
const QTextBlock prevBlock = block.previous();
if (prevBlock.isValid()) {
int state = prevBlock.userState();
if (state != -1)
return state;
}
return 0;
}
private:
QList<SimpleToken> _tokens;
int _offset;
int _blocksTokenized;
QTextBlock _block;
QString _text;
SimpleLexer _tokenize;
};
}
ExpressionUnderCursor::ExpressionUnderCursor()
{ }
ExpressionUnderCursor::~ExpressionUnderCursor()
{ }
int ExpressionUnderCursor::startOfMatchingBrace(BackwardsScanner &tk, int index)
{
if (tk[index - 1].is(T_RPAREN)) {
int i = index - 1;
int count = 0;
do {
if (tk[i].is(T_LPAREN)) {
if (! ++count)
return i;
} else if (tk[i].is(T_RPAREN))
--count;
--i;
} while (count != 0 && tk[i].isNot(T_EOF_SYMBOL));
} else if (tk[index - 1].is(T_RBRACKET)) {
int i = index - 1;
int count = 0;
do {
if (tk[i].is(T_LBRACKET)) {
if (! ++count)
return i;
} else if (tk[i].is(T_RBRACKET))
--count;
--i;
} while (count != 0 && tk[i].isNot(T_EOF_SYMBOL));
} else if (tk[index - 1].is(T_GREATER)) {
int i = index - 1;
int count = 0;
do {
if (tk[i].is(T_LESS)) {
if (! ++count)
return i;
} else if (tk[i].is(T_GREATER))
--count;
--i;
} while (count != 0 && tk[i].isNot(T_EOF_SYMBOL));
}
return index;
}
int ExpressionUnderCursor::startOfExpression(BackwardsScanner &tk, int index)
{
// tk is a reference to a const QList. So, don't worry about [] access.
// ### TODO implement multiline support. It should be pretty easy.
if (tk[index - 1].isLiteral()) {
return index - 1;
} else if (tk[index - 1].is(T_THIS)) {
return index - 1;
} else if (tk[index - 1].is(T_TYPEID)) {
return index - 1;
} else if (tk[index - 1].is(T_SIGNAL)) {
if (tk[index - 2].is(T_COMMA) && !_jumpedComma) {
_jumpedComma = true;
return startOfExpression(tk, index - 2);
}
return index - 1;
} else if (tk[index - 1].is(T_SLOT)) {
if (tk[index - 2].is(T_COMMA) && !_jumpedComma) {
_jumpedComma = true;
return startOfExpression(tk, index - 2);
}
return index - 1;
} else if (tk[index - 1].is(T_IDENTIFIER)) {
if (tk[index - 2].is(T_TILDE)) {
if (tk[index - 3].is(T_COLON_COLON)) {
return startOfExpression(tk, index - 3);
} else if (tk[index - 3].is(T_DOT) || tk[index - 3].is(T_ARROW)) {
return startOfExpression(tk, index - 3);
}
return index - 2;
} else if (tk[index - 2].is(T_COLON_COLON)) {
return startOfExpression(tk, index - 1);
} else if (tk[index - 2].is(T_DOT) || tk[index - 2].is(T_ARROW)) {
return startOfExpression(tk, index - 2);
} else if (tk[index - 2].is(T_DOT_STAR) || tk[index - 2].is(T_ARROW_STAR)) {
return startOfExpression(tk, index - 2);
}
return index - 1;
} else if (tk[index - 1].is(T_RPAREN)) {
int rparenIndex = startOfMatchingBrace(tk, index);
if (rparenIndex != index) {
if (tk[rparenIndex - 1].is(T_GREATER)) {
int lessIndex = startOfMatchingBrace(tk, rparenIndex);
if (lessIndex != rparenIndex - 1) {
if (tk[lessIndex - 1].is(T_DYNAMIC_CAST) ||
tk[lessIndex - 1].is(T_STATIC_CAST) ||
tk[lessIndex - 1].is(T_CONST_CAST) ||
tk[lessIndex - 1].is(T_REINTERPRET_CAST))
return lessIndex - 1;
else if (tk[lessIndex - 1].is(T_IDENTIFIER))
return startOfExpression(tk, lessIndex);
else if (tk[lessIndex - 1].is(T_SIGNAL))
return startOfExpression(tk, lessIndex);
else if (tk[lessIndex - 1].is(T_SLOT))
return startOfExpression(tk, lessIndex);
}
}
return startOfExpression(tk, rparenIndex);
}
return index;
} else if (tk[index - 1].is(T_RBRACKET)) {
int rbracketIndex = startOfMatchingBrace(tk, index);
if (rbracketIndex != index)
return startOfExpression(tk, rbracketIndex);
return index;
} else if (tk[index - 1].is(T_COLON_COLON)) {
if (tk[index - 2].is(T_GREATER)) { // ### not exactly
int lessIndex = startOfMatchingBrace(tk, index - 1);
if (lessIndex != index - 1)
return startOfExpression(tk, lessIndex);
return index - 1;
} else if (tk[index - 2].is(T_IDENTIFIER)) {
return startOfExpression(tk, index - 1);
}
return index - 1;
} else if (tk[index - 1].is(T_DOT) || tk[index - 1].is(T_ARROW)) {
return startOfExpression(tk, index - 1);
} else if (tk[index - 1].is(T_DOT_STAR) || tk[index - 1].is(T_ARROW_STAR)) {
return startOfExpression(tk, index - 1);
}
return index;
}
bool ExpressionUnderCursor::isAccessToken(const SimpleToken &tk)
{
switch (tk.kind()) {
case T_COLON_COLON:
case T_DOT: case T_ARROW:
case T_DOT_STAR: case T_ARROW_STAR:
return true;
default:
return false;
} // switch
}
QString ExpressionUnderCursor::operator()(const QTextCursor &cursor)
{
BackwardsScanner scanner(cursor);
_jumpedComma = false;
const int initialSize = scanner.tokens().size();
const int i = startOfExpression(scanner, initialSize);
if (i == initialSize)
return QString();
return scanner.text(i, initialSize);
}
int ExpressionUnderCursor::startOfFunctionCall(const QTextCursor &cursor)
{
QString text;
BackwardsScanner scanner(cursor);
int index = scanner.tokens().size();
forever {
const SimpleToken &tk = scanner[index - 1];
if (tk.is(T_EOF_SYMBOL))
break;
else if (tk.is(T_LPAREN))
return scanner.startPosition() + tk.position();
else if (tk.is(T_RPAREN)) {
int matchingBrace = startOfMatchingBrace(scanner, index);
if (matchingBrace == index) // If no matching brace found
return -1;
index = matchingBrace;
} else
--index;
}
return -1;
}
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