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/**************************************************************************
**
** This file is part of Qt Creator
**
** Copyright (c) 2010 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 "cppcodeformatter.h"
#include <Token.h>
#include <Lexer.h>
#include <texteditor/basetextdocumentlayout.h>
#include <texteditor/tabsettings.h>
#include <QtCore/QMetaEnum>
#include <QtGui/QTextDocument>
#include <QtGui/QTextCursor>
#include <QtGui/QTextBlock>
using namespace CPlusPlus;
using namespace CppTools;
using namespace TextEditor;
using namespace CppTools::Internal;
CodeFormatter::BlockData::BlockData()
: m_blockRevision(-1)
{
}
: m_indentDepth(0)
, m_paddingDepth(0)
, m_tabSize(4)
{
}
CodeFormatter::~CodeFormatter()
{
}
void CodeFormatter::setTabSize(int tabSize)
{
m_tabSize = tabSize;
}
void CodeFormatter::recalculateStateAfter(const QTextBlock &block)
{
restoreCurrentState(block.previous());
bool endedJoined = false;
const int lexerState = tokenizeBlock(block, &endedJoined);
m_tokenIndex = 0;
m_newStates.clear();
if (tokenAt(0).kind() == T_POUND) {
enter(cpp_macro_start);
m_tokenIndex = 1;
}
for (; m_tokenIndex < m_tokens.size(); ) {
m_currentToken = tokenAt(m_tokenIndex);
const int kind = m_currentToken.kind();
switch (m_currentState.top().type) {
case topmost_intro:
tryDeclaration();
break;
case namespace_start:
switch (kind) {
case T_LBRACE: enter(namespace_open); break;
case T_SEMICOLON:
case T_RBRACE: leave(); break;
} break;
case namespace_open:
if (tryDeclaration())
break;
switch (kind) {
case T_RBRACE: leave(); continue; // always nested in namespace_start
} break;
case class_start:
switch (kind) {
case T_SEMICOLON: leave(); break;
case T_LBRACE: enter(class_open); break;
} break;
case class_open:
if (tryDeclaration())
break;
switch (kind) {
case T_RBRACE: leave(); continue; // always nested in class_start
} break;
case enum_start:
switch (kind) {
case T_SEMICOLON: leave(); break;
case T_LBRACE: enter(enum_open); break;
} break;
case enum_open:
switch (kind) {
case T_RBRACE: leave(); continue; // always nested in enum_start
case T_LBRACE: enter(brace_list_open); break;
} break;
case brace_list_open:
switch (kind) {
case T_RBRACE: leave(); break;
case T_LBRACE: enter(brace_list_open); break;
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} break;
case using_start:
switch (kind) {
case T_SEMICOLON: leave(); break;
} break;
case template_start:
switch (kind) {
case T_LESS: turnInto(template_param); break;
} break;
case template_param:
switch (kind) {
case T_LESS: enter(template_param); break;
case T_GREATER: leave(); break;
} break;
case operator_declaration:
switch (kind) {
case T_LPAREN: break;
default: leave(); break;
} break;
case declaration_start:
if (tryExpression(true))
break;
switch (kind) {
case T_RBRACE: leave(true); continue;
case T_SEMICOLON: leave(true); break;
case T_EQUAL: enter(initializer); break;
case T_LBRACE: enter(defun_open); break;
case T_COLON: enter(member_init_open); enter(member_init); break;
case T_OPERATOR: enter(operator_declaration); break;
} break;
case initializer:
switch (kind) {
case T_LBRACE: enter(brace_list_open); break;
default: turnInto(expression); continue;
} break;
case expression:
if (tryExpression())
break;
switch (kind) {
case T_RBRACE: leave(true); continue;
case T_SEMICOLON: leave(); continue;
case T_LBRACE:
case T_COLON:
if (m_currentState.at(m_currentState.size() - 2).type == declaration_start) {
// oops, the expression was a function declaration argument list, hand lbrace/colon to declaration_start
leave();
continue;
}
break;
} break;
case arglist_open:
if (tryExpression())
break;
switch (kind) {
case T_SEMICOLON: leave(true); break;
case T_RBRACE: leave(true); continue;
case T_RPAREN: leave(); break;
} break;
case ternary_op:
if (tryExpression())
break;
switch (kind) {
case T_RPAREN:
case T_COMMA:
case T_SEMICOLON: leave(); continue; // always nested, propagate
} break;
case stream_op:
case stream_op_cont:
if (kind != T_LESS_LESS && kind != T_GREATER_GREATER && tryExpression())
case T_LESS_LESS:
case T_GREATER_GREATER:
if (m_currentState.top().type == stream_op)
enter(stream_op_cont);
else // stream_op_cont already
turnInto(stream_op_cont);
break;
case T_COMMA:
case T_SEMICOLON: leave(); continue; // always nested, propagate semicolon
} break;
case member_init_open:
switch (kind) {
case T_LBRACE: turnInto(defun_open); break;
case T_COMMA: enter(member_init); break;
case T_SEMICOLON: leave(); continue; // try to recover
} break;
case member_init:
switch (kind) {
case T_LPAREN: enter(member_init_paren_open); break;
case T_RPAREN: leave(); break;
case T_LBRACE:
case T_SEMICOLON: leave(); continue; // try to recover
} break;
case member_init_paren_open:
if (tryExpression())
break;
switch (kind) {
case T_RPAREN: leave(); continue;
case T_SEMICOLON: leave(); continue; // try to recover
} break;
case defun_open:
if (tryStatement())
break;
switch (kind) {
case T_RBRACE: leave(); leave(); break; // always nested in declaration_start
} break;
case switch_statement:
case statement_with_condition:
case if_statement:
switch (kind) {
case T_LPAREN: enter(condition_open); break;
default: leave(true); continue;
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} break;
case maybe_else:
if (m_currentToken.isComment()) {
break;
} else if (kind == T_ELSE) {
turnInto(else_clause);
enter(substatement);
break;
} else {
leave(true);
continue;
}
case else_clause:
// ### shouldn't happen
dump();
Q_ASSERT(false);
leave(true);
break;
case do_statement:
// ### shouldn't happen
dump();
Q_ASSERT(false);
leave(true);
break;
case return_statement:
switch (kind) {
case T_RBRACE: leave(true); continue;
case T_SEMICOLON: leave(true); break;
} break;
case substatement:
// prefer substatement_open over block_open
if (kind != T_LBRACE && tryStatement())
break;
switch (kind) {
case T_LBRACE: turnInto(substatement_open); break;
case T_SEMICOLON: leave(true); break;
case T_RBRACE: leave(true); continue;
} break;
case for_statement:
switch (kind) {
case T_LPAREN: enter(for_statement_paren_open); break;
default: leave(true); continue;
} break;
case for_statement_paren_open:
enter(for_statement_init); continue;
case for_statement_init:
switch (kind) {
case T_SEMICOLON: turnInto(for_statement_condition); break;
case T_LPAREN: enter(condition_paren_open); break;
case T_RPAREN: turnInto(for_statement_expression); continue;
} break;
case for_statement_condition:
switch (kind) {
case T_SEMICOLON: turnInto(for_statement_expression); break;
case T_LPAREN: enter(condition_paren_open); break;
case T_RPAREN: turnInto(for_statement_expression); continue;
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} break;
case for_statement_expression:
switch (kind) {
case T_RPAREN: leave(); turnInto(substatement); break;
case T_LPAREN: enter(condition_paren_open); break;
} break;
case case_start:
switch (kind) {
case T_COLON: turnInto(case_cont); break;
} break;
case case_cont:
if (kind != T_CASE && kind != T_DEFAULT && tryStatement())
break;
switch (kind) {
case T_RBRACE: leave(); continue;
case T_DEFAULT:
case T_CASE: leave(); continue;
} break;
case substatement_open:
if (tryStatement())
break;
switch (kind) {
case T_RBRACE: leave(true); break;
} break;
case condition_open:
switch (kind) {
case T_RPAREN: turnInto(substatement); break;
case T_LPAREN: enter(condition_paren_open); break;
} break;
case block_open:
if (tryStatement())
break;
switch(kind) {
case T_RBRACE: leave(true); break;
} break;
// paren nesting
case condition_paren_open:
switch (kind) {
case T_RPAREN: leave(); break;
case T_LPAREN: enter(condition_paren_open); break;
} break;
case qt_like_macro:
switch (kind) {
case T_LPAREN: enter(arglist_open); break;
case T_SEMICOLON: leave(true); break;
default: leave(); continue;
} break;
case label:
switch (kind) {
case T_COLON: leave(); break;
default: leave(); continue; // shouldn't happen
} break;
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case multiline_comment_start:
case multiline_comment_cont:
if (kind != T_COMMENT && kind != T_DOXY_COMMENT) {
leave();
continue;
} else if (m_tokenIndex == m_tokens.size() - 1
&& lexerState == Lexer::State_Default) {
leave();
} else if (m_tokenIndex == 0 && m_currentToken.isComment()) {
// to allow enter/leave to update the indentDepth
turnInto(multiline_comment_cont);
}
break;
case cpp_macro_start: {
const int size = m_currentState.size();
int previousMarker = -1;
int previousPreviousMarker = -1;
for (int i = size - 1; i >= 0; --i) {
if (m_currentState.at(i).type == cpp_macro_conditional) {
if (previousMarker == -1)
previousMarker = i;
else {
previousPreviousMarker = i;
break;
}
}
}
QStringRef tokenText = currentTokenText();
if (tokenText == QLatin1String("ifdef")
|| tokenText == QLatin1String("if")
|| tokenText == QLatin1String("ifndef")) {
enter(cpp_macro_conditional);
// copy everything right of previousMarker, excluding cpp_macro_conditional
for (int i = previousMarker + 1; i < size; ++i)
m_currentState += m_currentState.at(i);
}
if (previousMarker != -1) {
if (tokenText == QLatin1String("endif")) {
QStack<State>::iterator begin = m_currentState.begin() + previousPreviousMarker + 1;
QStack<State>::iterator end = m_currentState.begin() + previousMarker + 1;
m_currentState.erase(begin, end);
} else if (tokenText == QLatin1String("else")
|| tokenText == QLatin1String("elif")) {
m_currentState.resize(previousMarker + 1);
for (int i = previousPreviousMarker + 1; i < previousMarker; ++i)
m_currentState += m_currentState.at(i);
}
}
turnInto(cpp_macro);
break;
}
case cpp_macro:
case cpp_macro_cont:
break;
default:
qWarning() << "Unhandled state" << m_currentState.top().type;
break;
} // end of state switch
++m_tokenIndex;
}
int topState = m_currentState.top().type;
if (topState != multiline_comment_start
&& topState != multiline_comment_cont
&& (lexerState == Lexer::State_MultiLineComment
|| lexerState == Lexer::State_MultiLineDoxyComment)) {
enter(multiline_comment_start);
}
if (topState == qt_like_macro)
leave(true);
if ((topState == cpp_macro_cont
|| topState == cpp_macro) && !endedJoined)
leave();
if (topState == cpp_macro && endedJoined)
turnInto(cpp_macro_cont);
saveCurrentState(block);
void CodeFormatter::indentFor(const QTextBlock &block, int *indent, int *padding)
{
// qDebug() << "indenting for" << block.blockNumber() + 1;
restoreCurrentState(block.previous());
*indent = m_indentDepth;
*padding = m_paddingDepth;
void CodeFormatter::indentForNewLineAfter(const QTextBlock &block, int *indent, int *padding)
{
restoreCurrentState(block);
*indent = m_indentDepth;
*padding = m_paddingDepth;
int lexerState = loadLexerState(block);
m_tokens.clear();
m_currentLine.clear();
adjustIndent(m_tokens, lexerState, indent, padding);
}
void CodeFormatter::updateStateUntil(const QTextBlock &endBlock)
{
QStack<State> previousState = initialState();
QTextBlock it = endBlock.document()->firstBlock();
// find the first block that needs recalculation
for (; it.isValid() && it != endBlock; it = it.next()) {
BlockData blockData;
if (!loadBlockData(it, &blockData))
if (blockData.m_blockRevision != it.revision())
if (previousState.isEmpty() || blockData.m_beginState.isEmpty()
|| previousState != blockData.m_beginState)
if (loadLexerState(it) == -1)
previousState = blockData.m_endState;
if (it == endBlock)
return;
// update everthing until endBlock
for (; it.isValid() && it != endBlock; it = it.next()) {
recalculateStateAfter(it);
}
// invalidate everything below by marking the state in endBlock as invalid
if (it.isValid()) {
BlockData invalidBlockData;
saveBlockData(&it, invalidBlockData);
}
}
void CodeFormatter::updateLineStateChange(const QTextBlock &block)
{
if (!block.isValid())
return;
BlockData blockData;
if (loadBlockData(block, &blockData) && blockData.m_blockRevision == block.revision())
return;
recalculateStateAfter(block);
// invalidate everything below by marking the next block's state as invalid
QTextBlock next = block.next();
if (!next.isValid())
return;
saveBlockData(&next, BlockData());
}
CodeFormatter::State CodeFormatter::state(int belowTop) const
{
if (belowTop < m_currentState.size())
return m_currentState.at(m_currentState.size() - 1 - belowTop);
else
return State();
}
const QVector<CodeFormatter::State> &CodeFormatter::newStatesThisLine() const
{
return m_newStates;
}
int CodeFormatter::tokenIndex() const
{
return m_tokenIndex;
}
int CodeFormatter::tokenCount() const
return m_tokens.size();
}
const CPlusPlus::Token &CodeFormatter::currentToken() const
{
return m_currentToken;
}
void CodeFormatter::invalidateCache(QTextDocument *document)
if (!document)
return;
BlockData invalidBlockData;
QTextBlock it = document->firstBlock();
for (; it.isValid(); it = it.next()) {
saveBlockData(&it, invalidBlockData);
}
}
void CodeFormatter::enter(int newState)
{
int savedIndentDepth = m_indentDepth;
int savedPaddingDepth = m_paddingDepth;
onEnter(newState, &m_indentDepth, &savedIndentDepth, &m_paddingDepth, &savedPaddingDepth);
State s(newState, savedIndentDepth, savedPaddingDepth);
m_currentState.push(s);
m_newStates.push(s);
}
void CodeFormatter::leave(bool statementDone)
{
Q_ASSERT(m_currentState.size() > 1);
if (m_currentState.top().type == topmost_intro)
return;
if (m_newStates.size() > 0)
m_newStates.pop();
// restore indent depth
State poppedState = m_currentState.pop();
m_indentDepth = poppedState.savedIndentDepth;
m_paddingDepth = poppedState.savedPaddingDepth;
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int topState = m_currentState.top().type;
// does it suffice to check if token is T_SEMICOLON or T_RBRACE?
// maybe distinction between leave and turnInto?
if (statementDone) {
if (topState == substatement
|| topState == statement_with_condition
|| topState == for_statement
|| topState == switch_statement
|| topState == do_statement) {
leave(true);
} else if (topState == if_statement) {
if (poppedState.type != maybe_else)
enter(maybe_else);
else
leave(true);
} else if (topState == else_clause) {
// leave the else *and* the surrounding if, to prevent another else
leave();
leave(true);
}
}
}
void CodeFormatter::correctIndentation(const QTextBlock &block)
{
const int lexerState = tokenizeBlock(block);
Q_ASSERT(m_currentState.size() >= 1);
adjustIndent(m_tokens, lexerState, &m_indentDepth, &m_paddingDepth);
}
bool CodeFormatter::tryExpression(bool alsoExpression)
{
int newState = -1;
const int kind = m_currentToken.kind();
switch (kind) {
case T_LPAREN: newState = arglist_open; break;
case T_QUESTION: newState = ternary_op; break;
case T_LESS_LESS:
case T_GREATER_GREATER:
newState = stream_op;
for (int i = m_currentState.size() - 1; i >= 0; --i) {
const int type = m_currentState.at(i).type;
if (type == arglist_open) { // likely a left-shift instead
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newState = -1;
break;
}
if (type == topmost_intro
|| type == substatement_open
|| type == defun_open
|| type == namespace_open
|| type == class_open
|| type == brace_list_open) {
break;
}
}
break;
}
if (newState != -1) {
if (alsoExpression)
enter(expression);
enter(newState);
return true;
}
return false;
}
bool CodeFormatter::tryDeclaration()
{
const int kind = m_currentToken.kind();
switch (kind) {
case T_Q_ENUMS:
case T_Q_PROPERTY:
case T_Q_FLAGS:
case T_Q_GADGET:
case T_Q_OBJECT:
case T_Q_INTERFACES:
case T_Q_DECLARE_INTERFACE:
case T_Q_PRIVATE_SLOT:
enter(qt_like_macro);
return true;
case T_IDENTIFIER:
if (m_tokenIndex == 0) {
QString tokenText = currentTokenText().toString();
if (tokenText.startsWith(QLatin1String("Q_"))
|| tokenText.startsWith(QLatin1String("QT_"))
|| tokenText.startsWith(QLatin1String("QML_"))
|| tokenText.startsWith(QLatin1String("QDOC_"))) {
enter(qt_like_macro);
return true;
}
if (m_tokens.size() > 1 && m_tokens.at(1).kind() == T_COLON) {
enter(label);
return true;
}
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}
// fallthrough
case T_CHAR:
case T_WCHAR_T:
case T_BOOL:
case T_SHORT:
case T_INT:
case T_LONG:
case T_SIGNED:
case T_UNSIGNED:
case T_FLOAT:
case T_DOUBLE:
case T_VOID:
case T_AUTO:
case T___TYPEOF__:
case T___ATTRIBUTE__:
case T_STATIC:
case T_FRIEND:
case T_CONST:
case T_VOLATILE:
case T_INLINE:
enter(declaration_start);
return true;
case T_TEMPLATE:
enter(template_start);
return true;
case T_NAMESPACE:
enter(namespace_start);
return true;
case T_STRUCT:
case T_UNION:
case T_CLASS:
enter(class_start);
return true;
case T_ENUM:
enter(enum_start);
return true;
case T_USING:
enter(using_start);
return true;
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default:
return false;
}
}
bool CodeFormatter::tryStatement()
{
const int kind = m_currentToken.kind();
if (tryDeclaration())
return true;
switch (kind) {
case T_RETURN:
enter(return_statement);
enter(expression);
return true;
case T_FOR:
enter(for_statement);
return true;
case T_SWITCH:
enter(switch_statement);
return true;
case T_IF:
enter(if_statement);
return true;
case T_WHILE:
case T_Q_FOREACH:
enter(statement_with_condition);
return true;
case T_DO:
enter(do_statement);
enter(substatement);
return true;
case T_CASE:
case T_DEFAULT:
enter(case_start);
return true;
case T_LBRACE:
enter(block_open);
return true;
default:
return false;
}
}
bool CodeFormatter::isBracelessState(int type) const
{
return type == substatement
|| type == if_statement
|| type == else_clause
|| type == statement_with_condition
|| type == for_statement
|| type == do_statement;
}
const Token &CodeFormatter::tokenAt(int idx) const
{
static const Token empty;
if (idx < 0 || idx >= m_tokens.size())
return empty;
else
return m_tokens.at(idx);
}
int CodeFormatter::column(int index) const
{
int col = 0;
if (index > m_currentLine.length())
index = m_currentLine.length();
const QChar tab = QLatin1Char('\t');
for (int i = 0; i < index; i++) {
if (m_currentLine[i] == tab) {
col = ((col / m_tabSize) + 1) * m_tabSize;
} else {
col++;
}
}
return col;
}
QStringRef CodeFormatter::currentTokenText() const
{
return m_currentLine.midRef(m_currentToken.begin(), m_currentToken.length());
}
void CodeFormatter::turnInto(int newState)
{
leave(false);
enter(newState);
}
void CodeFormatter::saveCurrentState(const QTextBlock &block)
{
if (!block.isValid())
return;
BlockData blockData;
blockData.m_blockRevision = block.revision();
blockData.m_beginState = m_beginState;
blockData.m_endState = m_currentState;
blockData.m_indentDepth = m_indentDepth;
blockData.m_paddingDepth = m_paddingDepth;
QTextBlock saveableBlock(block);
saveBlockData(&saveableBlock, blockData);
void CodeFormatter::restoreCurrentState(const QTextBlock &block)
BlockData blockData;
if (loadBlockData(block, &blockData)) {
m_indentDepth = blockData.m_indentDepth;
m_paddingDepth = blockData.m_paddingDepth;
m_currentState = blockData.m_endState;
m_beginState = m_currentState;
return;
}
}
m_currentState = initialState();
m_beginState = m_currentState;
m_indentDepth = 0;
m_paddingDepth = 0;
}
QStack<CodeFormatter::State> CodeFormatter::initialState()
{
static QStack<CodeFormatter::State> initialState;
if (initialState.isEmpty())
initialState.push(State(topmost_intro, 0, 0));
return initialState;
}
int CodeFormatter::tokenizeBlock(const QTextBlock &block, bool *endedJoined)
{
int startState = loadLexerState(block.previous());
if (block.blockNumber() == 0)
startState = 0;
Q_ASSERT(startState != -1);
SimpleLexer tokenize;
tokenize.setQtMocRunEnabled(true);
tokenize.setObjCEnabled(true);
m_currentLine = block.text();
// to determine whether a line was joined, Tokenizer needs a
// newline character at the end
m_currentLine.append(QLatin1Char('\n'));
m_tokens = tokenize(m_currentLine, startState);
if (endedJoined)
*endedJoined = tokenize.endedJoined();
const int lexerState = tokenize.state();
void CodeFormatter::dump() const
QMetaEnum metaEnum = staticMetaObject.enumerator(staticMetaObject.indexOfEnumerator("StateType"));
qDebug() << "Current token index" << m_tokenIndex;
qDebug() << "Current state:";
foreach (State s, m_currentState) {
qDebug() << metaEnum.valueToKey(s.type) << s.savedIndentDepth << s.savedPaddingDepth;
}
qDebug() << "Current indent depth:" << m_indentDepth;
qDebug() << "Current padding depth:" << m_paddingDepth;
namespace CppTools {
namespace Internal {
class CppCodeFormatterData: public TextEditor::CodeFormatterData
{
public:
CodeFormatter::BlockData m_data;
};
}
}
QtStyleCodeFormatter::QtStyleCodeFormatter()
: m_indentSize(4)
, m_indentSubstatementBraces(false)
, m_indentSubstatementStatements(true)
, m_indentDeclarationBraces(false)
, m_indentDeclarationMembers(true)
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QtStyleCodeFormatter::QtStyleCodeFormatter(const TextEditor::TabSettings &tabSettings)
: m_indentSize(tabSettings.m_indentSize)
, m_indentSubstatementBraces(false)
, m_indentSubstatementStatements(true)
, m_indentDeclarationBraces(false)
, m_indentDeclarationMembers(true)
{
setTabSize(tabSettings.m_tabSize);
if (tabSettings.m_indentBraces && tabSettings.m_doubleIndentBlocks) { // gnu style
setIndentSubstatementBraces(true);
setIndentSubstatementStatements(true);
setIndentDeclarationBraces(false);
setIndentDeclarationMembers(true);
} else if (tabSettings.m_indentBraces) { // whitesmiths style
setIndentSubstatementBraces(true);
setIndentSubstatementStatements(false);
setIndentDeclarationBraces(true);
setIndentDeclarationMembers(false);
} else { // default Qt style
setIndentSubstatementBraces(false);
setIndentSubstatementStatements(true);
setIndentDeclarationBraces(false);
setIndentDeclarationMembers(true);
}
}
void QtStyleCodeFormatter::setIndentSize(int size)
{
m_indentSize = size;
void QtStyleCodeFormatter::setIndentSubstatementBraces(bool onOff)
m_indentSubstatementBraces = onOff;
}
void QtStyleCodeFormatter::setIndentSubstatementStatements(bool onOff)
{
m_indentSubstatementStatements = onOff;