// ASBeautifier.cpp
// Copyright (c) 2017 by Jim Pattee <jimp03@email.com>.
// This code is licensed under the MIT License.
// License.md describes the conditions under which this software may be distributed.
//-----------------------------------------------------------------------------
// headers
//-----------------------------------------------------------------------------
#include "astyle.h"
#include <algorithm>
//-----------------------------------------------------------------------------
// astyle namespace
//-----------------------------------------------------------------------------
namespace astyle {
//
// this must be global
static int g_preprocessorCppExternCBrace;
//-----------------------------------------------------------------------------
// ASBeautifier class
//-----------------------------------------------------------------------------
/**
* ASBeautifier's constructor
* This constructor is called only once for each source file.
* The cloned ASBeautifier objects are created with the copy constructor.
*/
ASBeautifier::ASBeautifier()
{
waitingBeautifierStack = nullptr;
activeBeautifierStack = nullptr;
waitingBeautifierStackLengthStack = nullptr;
activeBeautifierStackLengthStack = nullptr;
headerStack = nullptr;
tempStacks = nullptr;
squareBracketDepthStack = nullptr;
blockStatementStack = nullptr;
parenStatementStack = nullptr;
braceBlockStateStack = nullptr;
continuationIndentStack = nullptr;
continuationIndentStackSizeStack = nullptr;
parenIndentStack = nullptr;
preprocIndentStack = nullptr;
sourceIterator = nullptr;
isModeManuallySet = false;
shouldForceTabIndentation = false;
setSpaceIndentation(4);
setContinuationIndentation(1);
setMinConditionalIndentOption(MINCOND_TWO);
setMaxContinuationIndentLength(40);
classInitializerIndents = 1;
tabLength = 0;
setClassIndent(false);
setModifierIndent(false);
setSwitchIndent(false);
setCaseIndent(false);
setBlockIndent(false);
setBraceIndent(false);
setBraceIndentVtk(false);
setNamespaceIndent(false);
setAfterParenIndent(false);
setLabelIndent(false);
setEmptyLineFill(false);
setCStyle();
setPreprocDefineIndent(false);
setPreprocConditionalIndent(false);
setAlignMethodColon(false);
// initialize ASBeautifier member vectors
beautifierFileType = 9; // reset to an invalid type
headers = new vector<const string*>;
nonParenHeaders = new vector<const string*>;
assignmentOperators = new vector<const string*>;
nonAssignmentOperators = new vector<const string*>;
preBlockStatements = new vector<const string*>;
preCommandHeaders = new vector<const string*>;
indentableHeaders = new vector<const string*>;
}
/**
* ASBeautifier's copy constructor
* Copy the vector objects to vectors in the new ASBeautifier
* object so the new object can be destroyed without deleting
* the vector objects in the copied vector.
* This is the reason a copy constructor is needed.
*
* Must explicitly call the base class copy constructor.
*/
ASBeautifier::ASBeautifier(const ASBeautifier& other) : ASBase(other)
{
// these don't need to copy the stack
waitingBeautifierStack = nullptr;
activeBeautifierStack = nullptr;
waitingBeautifierStackLengthStack = nullptr;
activeBeautifierStackLengthStack = nullptr;
// vector '=' operator performs a DEEP copy of all elements in the vector
headerStack = new vector<const string*>;
*headerStack = *other.headerStack;
tempStacks = copyTempStacks(other);
squareBracketDepthStack = new vector<int>;
*squareBracketDepthStack = *other.squareBracketDepthStack;
blockStatementStack = new vector<bool>;
*blockStatementStack = *other.blockStatementStack;
parenStatementStack = new vector<bool>;
*parenStatementStack = *other.parenStatementStack;
braceBlockStateStack = new vector<bool>;
*braceBlockStateStack = *other.braceBlockStateStack;
continuationIndentStack = new vector<int>;
*continuationIndentStack = *other.continuationIndentStack;
continuationIndentStackSizeStack = new vector<int>;
*continuationIndentStackSizeStack = *other.continuationIndentStackSizeStack;
parenIndentStack = new vector<int>;
*parenIndentStack = *other.parenIndentStack;
preprocIndentStack = new vector<pair<int, int> >;
*preprocIndentStack = *other.preprocIndentStack;
// Copy the pointers to vectors.
// This is OK because the original ASBeautifier object
// is not deleted until end of job.
beautifierFileType = other.beautifierFileType;
headers = other.headers;
nonParenHeaders = other.nonParenHeaders;
assignmentOperators = other.assignmentOperators;
nonAssignmentOperators = other.nonAssignmentOperators;
preBlockStatements = other.preBlockStatements;
preCommandHeaders = other.preCommandHeaders;
indentableHeaders = other.indentableHeaders;
// protected variables
// variables set by ASFormatter
// must also be updated in activeBeautifierStack
inLineNumber = other.inLineNumber;
runInIndentContinuation = other.runInIndentContinuation;
nonInStatementBrace = other.nonInStatementBrace;
objCColonAlignSubsequent = other.objCColonAlignSubsequent;
lineCommentNoBeautify = other.lineCommentNoBeautify;
isElseHeaderIndent = other.isElseHeaderIndent;
isCaseHeaderCommentIndent = other.isCaseHeaderCommentIndent;
isNonInStatementArray = other.isNonInStatementArray;
isSharpAccessor = other.isSharpAccessor;
isSharpDelegate = other.isSharpDelegate;
isInExternC = other.isInExternC;
isInBeautifySQL = other.isInBeautifySQL;
isInIndentableStruct = other.isInIndentableStruct;
isInIndentablePreproc = other.isInIndentablePreproc;
// private variables
sourceIterator = other.sourceIterator;
currentHeader = other.currentHeader;
previousLastLineHeader = other.previousLastLineHeader;
probationHeader = other.probationHeader;
lastLineHeader = other.lastLineHeader;
indentString = other.indentString;
verbatimDelimiter = other.verbatimDelimiter;
isInQuote = other.isInQuote;
isInVerbatimQuote = other.isInVerbatimQuote;
haveLineContinuationChar = other.haveLineContinuationChar;
isInAsm = other.isInAsm;
isInAsmOneLine = other.isInAsmOneLine;
isInAsmBlock = other.isInAsmBlock;
isInComment = other.isInComment;
isInPreprocessorComment = other.isInPreprocessorComment;
isInRunInComment = other.isInRunInComment;
isInCase = other.isInCase;
isInQuestion = other.isInQuestion;
isContinuation = other.isContinuation;
isInHeader = other.isInHeader;
isInTemplate = other.isInTemplate;
isInDefine = other.isInDefine;
isInDefineDefinition = other.isInDefineDefinition;
classIndent = other.classIndent;
isIndentModeOff = other.isIndentModeOff;
isInClassHeader = other.isInClassHeader;
isInClassHeaderTab = other.isInClassHeaderTab;
isInClassInitializer = other.isInClassInitializer;
isInClass = other.isInClass;
isInObjCMethodDefinition = other.isInObjCMethodDefinition;
isInObjCMethodCall = other.isInObjCMethodCall;
isInObjCMethodCallFirst = other.isInObjCMethodCallFirst;
isImmediatelyPostObjCMethodDefinition = other.isImmediatelyPostObjCMethodDefinition;
isImmediatelyPostObjCMethodCall = other.isImmediatelyPostObjCMethodCall;
isInIndentablePreprocBlock = other.isInIndentablePreprocBlock;
isInObjCInterface = other.isInObjCInterface;
isInEnum = other.isInEnum;
isInEnumTypeID = other.isInEnumTypeID;
isInLet = other.isInLet;
modifierIndent = other.modifierIndent;
switchIndent = other.switchIndent;
caseIndent = other.caseIndent;
namespaceIndent = other.namespaceIndent;
braceIndent = other.braceIndent;
braceIndentVtk = other.braceIndentVtk;
blockIndent = other.blockIndent;
shouldIndentAfterParen = other.shouldIndentAfterParen;
labelIndent = other.labelIndent;
isInConditional = other.isInConditional;
isModeManuallySet = other.isModeManuallySet;
shouldForceTabIndentation = other.shouldForceTabIndentation;
emptyLineFill = other.emptyLineFill;
lineOpensWithLineComment = other.lineOpensWithLineComment;
lineOpensWithComment = other.lineOpensWithComment;
lineStartsInComment = other.lineStartsInComment;
backslashEndsPrevLine = other.backslashEndsPrevLine;
blockCommentNoIndent = other.blockCommentNoIndent;
blockCommentNoBeautify = other.blockCommentNoBeautify;
previousLineProbationTab = other.previousLineProbationTab;
lineBeginsWithOpenBrace = other.lineBeginsWithOpenBrace;
lineBeginsWithCloseBrace = other.lineBeginsWithCloseBrace;
lineBeginsWithComma = other.lineBeginsWithComma;
lineIsCommentOnly = other.lineIsCommentOnly;
lineIsLineCommentOnly = other.lineIsLineCommentOnly;
shouldIndentBracedLine = other.shouldIndentBracedLine;
isInSwitch = other.isInSwitch;
foundPreCommandHeader = other.foundPreCommandHeader;
foundPreCommandMacro = other.foundPreCommandMacro;
shouldAlignMethodColon = other.shouldAlignMethodColon;
shouldIndentPreprocDefine = other.shouldIndentPreprocDefine;
shouldIndentPreprocConditional = other.shouldIndentPreprocConditional;
indentCount = other.indentCount;
spaceIndentCount = other.spaceIndentCount;
spaceIndentObjCMethodAlignment = other.spaceIndentObjCMethodAlignment;
bracePosObjCMethodAlignment = other.bracePosObjCMethodAlignment;
colonIndentObjCMethodAlignment = other.colonIndentObjCMethodAlignment;
lineOpeningBlocksNum = other.lineOpeningBlocksNum;
lineClosingBlocksNum = other.lineClosingBlocksNum;
fileType = other.fileType;
minConditionalOption = other.minConditionalOption;
minConditionalIndent = other.minConditionalIndent;
parenDepth = other.parenDepth;
indentLength = other.indentLength;
tabLength = other.tabLength;
continuationIndent = other.continuationIndent;
blockTabCount = other.blockTabCount;
maxContinuationIndent = other.maxContinuationIndent;
classInitializerIndents = other.classInitializerIndents;
templateDepth = other.templateDepth;
squareBracketCount = other.squareBracketCount;
prevFinalLineSpaceIndentCount = other.prevFinalLineSpaceIndentCount;
prevFinalLineIndentCount = other.prevFinalLineIndentCount;
defineIndentCount = other.defineIndentCount;
preprocBlockIndent = other.preprocBlockIndent;
quoteChar = other.quoteChar;
prevNonSpaceCh = other.prevNonSpaceCh;
currentNonSpaceCh = other.currentNonSpaceCh;
currentNonLegalCh = other.currentNonLegalCh;
prevNonLegalCh = other.prevNonLegalCh;
}
/**
* ASBeautifier's destructor
*/
ASBeautifier::~ASBeautifier()
{
deleteBeautifierContainer(waitingBeautifierStack);
deleteBeautifierContainer(activeBeautifierStack);
deleteContainer(waitingBeautifierStackLengthStack);
deleteContainer(activeBeautifierStackLengthStack);
deleteContainer(headerStack);
deleteTempStacksContainer(tempStacks);
deleteContainer(squareBracketDepthStack);
deleteContainer(blockStatementStack);
deleteContainer(parenStatementStack);
deleteContainer(braceBlockStateStack);
deleteContainer(continuationIndentStack);
deleteContainer(continuationIndentStackSizeStack);
deleteContainer(parenIndentStack);
deleteContainer(preprocIndentStack);
}
/**
* initialize the ASBeautifier.
*
* This init() should be called every time a ABeautifier object is to start
* beautifying a NEW source file.
* It is called only when a new ASFormatter object is created.
* init() receives a pointer to a ASSourceIterator object that will be
* used to iterate through the source code.
*
* @param iter a pointer to the ASSourceIterator or ASStreamIterator object.
*/
void ASBeautifier::init(ASSourceIterator* iter)
{
sourceIterator = iter;
initVectors();
ASBase::init(getFileType());
g_preprocessorCppExternCBrace = 0;
initContainer(waitingBeautifierStack, new vector<ASBeautifier*>);
initContainer(activeBeautifierStack, new vector<ASBeautifier*>);
initContainer(waitingBeautifierStackLengthStack, new vector<int>);
initContainer(activeBeautifierStackLengthStack, new vector<int>);
initContainer(headerStack, new vector<const string*>);
initTempStacksContainer(tempStacks, new vector<vector<const string*>*>);
tempStacks->emplace_back(new vector<const string*>);
initContainer(squareBracketDepthStack, new vector<int>);
initContainer(blockStatementStack, new vector<bool>);
initContainer(parenStatementStack, new vector<bool>);
initContainer(braceBlockStateStack, new vector<bool>);
braceBlockStateStack->push_back(true);
initContainer(continuationIndentStack, new vector<int>);
initContainer(continuationIndentStackSizeStack, new vector<int>);
continuationIndentStackSizeStack->emplace_back(0);
initContainer(parenIndentStack, new vector<int>);
initContainer(preprocIndentStack, new vector<pair<int, int> >);
previousLastLineHeader = nullptr;
currentHeader = nullptr;
isInQuote = false;
isInVerbatimQuote = false;
haveLineContinuationChar = false;
isInAsm = false;
isInAsmOneLine = false;
isInAsmBlock = false;
isInComment = false;
isInPreprocessorComment = false;
isInRunInComment = false;
isContinuation = false;
isInCase = false;
isInQuestion = false;
isIndentModeOff = false;
isInClassHeader = false;
isInClassHeaderTab = false;
isInClassInitializer = false;
isInClass = false;
isInObjCMethodDefinition = false;
isInObjCMethodCall = false;
isInObjCMethodCallFirst = false;
isImmediatelyPostObjCMethodDefinition = false;
isImmediatelyPostObjCMethodCall = false;
isInIndentablePreprocBlock = false;
isInObjCInterface = false;
isInEnum = false;
isInEnumTypeID = false;
isInLet = false;
isInHeader = false;
isInTemplate = false;
isInConditional = false;
indentCount = 0;
spaceIndentCount = 0;
spaceIndentObjCMethodAlignment = 0;
bracePosObjCMethodAlignment = 0;
colonIndentObjCMethodAlignment = 0;
lineOpeningBlocksNum = 0;
lineClosingBlocksNum = 0;
templateDepth = 0;
squareBracketCount = 0;
parenDepth = 0;
blockTabCount = 0;
prevFinalLineSpaceIndentCount = 0;
prevFinalLineIndentCount = 0;
defineIndentCount = 0;
preprocBlockIndent = 0;
prevNonSpaceCh = '{';
currentNonSpaceCh = '{';
prevNonLegalCh = '{';
currentNonLegalCh = '{';
quoteChar = ' ';
probationHeader = nullptr;
lastLineHeader = nullptr;
backslashEndsPrevLine = false;
lineOpensWithLineComment = false;
lineOpensWithComment = false;
lineStartsInComment = false;
isInDefine = false;
isInDefineDefinition = false;
lineCommentNoBeautify = false;
isElseHeaderIndent = false;
isCaseHeaderCommentIndent = false;
blockCommentNoIndent = false;
blockCommentNoBeautify = false;
previousLineProbationTab = false;
lineBeginsWithOpenBrace = false;
lineBeginsWithCloseBrace = false;
lineBeginsWithComma = false;
lineIsCommentOnly = false;
lineIsLineCommentOnly = false;
shouldIndentBracedLine = true;
isInSwitch = false;
foundPreCommandHeader = false;
foundPreCommandMacro = false;
isNonInStatementArray = false;
isSharpAccessor = false;
isSharpDelegate = false;
isInExternC = false;
isInBeautifySQL = false;
isInIndentableStruct = false;
isInIndentablePreproc = false;
inLineNumber = 0;
runInIndentContinuation = 0;
nonInStatementBrace = 0;
objCColonAlignSubsequent = 0;
}
/*
* initialize the vectors
*/
void ASBeautifier::initVectors()
{
if (fileType == beautifierFileType) // don't build unless necessary
return;
beautifierFileType = fileType;
headers->clear();
nonParenHeaders->clear();
assignmentOperators->clear();
nonAssignmentOperators->clear();
preBlockStatements->clear();
preCommandHeaders->clear();
indentableHeaders->clear();
ASResource::buildHeaders(headers, fileType, true);
ASResource::buildNonParenHeaders(nonParenHeaders, fileType, true);
ASResource::buildAssignmentOperators(assignmentOperators);
ASResource::buildNonAssignmentOperators(nonAssignmentOperators);
ASResource::buildPreBlockStatements(preBlockStatements, fileType);
ASResource::buildPreCommandHeaders(preCommandHeaders, fileType);
ASResource::buildIndentableHeaders(indentableHeaders);
}
/**
* set indentation style to C/C++.
*/
void ASBeautifier::setCStyle()
{
fileType = C_TYPE;
}
/**
* set indentation style to Java.
*/
void ASBeautifier::setJavaStyle()
{
fileType = JAVA_TYPE;
}
/**
* set indentation style to C#.
*/
void ASBeautifier::setSharpStyle()
{
fileType = SHARP_TYPE;
}
/**
* set mode manually set flag
*/
void ASBeautifier::setModeManuallySet(bool state)
{
isModeManuallySet = state;
}
/**
* set tabLength equal to indentLength.
* This is done when tabLength is not explicitly set by
* "indent=force-tab-x"
*
*/
void ASBeautifier::setDefaultTabLength()
{
tabLength = indentLength;
}
/**
* indent using a different tab setting for indent=force-tab
*
* @param length number of spaces per tab.
*/
void ASBeautifier::setForceTabXIndentation(int length)
{
// set tabLength instead of indentLength
indentString = "\t";
tabLength = length;
shouldForceTabIndentation = true;
}
/**
* indent using one tab per indentation
*/
void ASBeautifier::setTabIndentation(int length, bool forceTabs)
{
indentString = "\t";
indentLength = length;
shouldForceTabIndentation = forceTabs;
}
/**
* indent using a number of spaces per indentation.
*
* @param length number of spaces per indent.
*/
void ASBeautifier::setSpaceIndentation(int length)
{
indentString = string(length, ' ');
indentLength = length;
}
/**
* indent continuation lines using a number of indents.
*
* @param indent number of indents per line.
*/
void ASBeautifier::setContinuationIndentation(int indent)
{
continuationIndent = indent;
}
/**
* set the maximum indentation between two lines in a multi-line statement.
*
* @param max maximum indentation length.
*/
void ASBeautifier::setMaxContinuationIndentLength(int max)
{
maxContinuationIndent = max;
}
// retained for compatability with release 2.06
// "MaxInStatementIndent" has been changed to "MaxContinuationIndent" in 3.0
// it is referenced only by the old "MaxInStatementIndent" options
void ASBeautifier::setMaxInStatementIndentLength(int max)
{
setMaxContinuationIndentLength(max);
}
/**
* set the minimum conditional indentation option.
*
* @param min minimal indentation option.
*/
void ASBeautifier::setMinConditionalIndentOption(int min)
{
minConditionalOption = min;
}
/**
* set minConditionalIndent from the minConditionalOption.
*/
void ASBeautifier::setMinConditionalIndentLength()
{
if (minConditionalOption == MINCOND_ZERO)
minConditionalIndent = 0;
else if (minConditionalOption == MINCOND_ONE)
minConditionalIndent = indentLength;
else if (minConditionalOption == MINCOND_ONEHALF)
minConditionalIndent = indentLength / 2;
// minConditionalOption = INDENT_TWO
else
minConditionalIndent = indentLength * 2;
}
/**
* set the state of the brace indent option. If true, braces will
* be indented one additional indent.
*
* @param state state of option.
*/
void ASBeautifier::setBraceIndent(bool state)
{
braceIndent = state;
}
/**
* set the state of the brace indent VTK option. If true, braces will
* be indented one additional indent, except for the opening brace.
*
* @param state state of option.
*/
void ASBeautifier::setBraceIndentVtk(bool state)
{
// need to set both of these
setBraceIndent(state);
braceIndentVtk = state;
}
/**
* set the state of the block indentation option. If true, entire blocks
* will be indented one additional indent, similar to the GNU indent style.
*
* @param state state of option.
*/
void ASBeautifier::setBlockIndent(bool state)
{
blockIndent = state;
}
/**
* set the state of the class indentation option. If true, C++ class
* definitions will be indented one additional indent.
*
* @param state state of option.
*/
void ASBeautifier::setClassIndent(bool state)
{
classIndent = state;
}
/**
* set the state of the modifier indentation option. If true, C++ class
* access modifiers will be indented one-half an indent.
*
* @param state state of option.
*/
void ASBeautifier::setModifierIndent(bool state)
{
modifierIndent = state;
}
/**
* set the state of the switch indentation option. If true, blocks of 'switch'
* statements will be indented one additional indent.
*
* @param state state of option.
*/
void ASBeautifier::setSwitchIndent(bool state)
{
switchIndent = state;
}
/**
* set the state of the case indentation option. If true, lines of 'case'
* statements will be indented one additional indent.
*
* @param state state of option.
*/
void ASBeautifier::setCaseIndent(bool state)
{
caseIndent = state;
}
/**
* set the state of the namespace indentation option.
* If true, blocks of 'namespace' statements will be indented one
* additional indent. Otherwise, NO indentation will be added.
*
* @param state state of option.
*/
void ASBeautifier::setNamespaceIndent(bool state)
{
namespaceIndent = state;
}
/**
* set the state of the indent after parens option.
*
* @param state state of option.
*/
void ASBeautifier::setAfterParenIndent(bool state)
{
shouldIndentAfterParen = state;
}
/**
* set the state of the label indentation option.
* If true, labels will be indented one indent LESS than the
* current indentation level.
* If false, labels will be flushed to the left with NO
* indent at all.
*
* @param state state of option.
*/
void ASBeautifier::setLabelIndent(bool state)
{
labelIndent = state;
}
/**
* set the state of the preprocessor indentation option.
* If true, multi-line #define statements will be indented.
*
* @param state state of option.
*/
void ASBeautifier::setPreprocDefineIndent(bool state)
{
shouldIndentPreprocDefine = state;
}
void ASBeautifier::setPreprocConditionalIndent(bool state)
{
shouldIndentPreprocConditional = state;
}
/**
* set the state of the empty line fill option.
* If true, empty lines will be filled with the whitespace.
* of their previous lines.
* If false, these lines will remain empty.
*
* @param state state of option.
*/
void ASBeautifier::setEmptyLineFill(bool state)
{
emptyLineFill = state;
}
void ASBeautifier::setAlignMethodColon(bool state)
{
shouldAlignMethodColon = state;
}
/**
* get the file type.
*/
int ASBeautifier::getFileType() const
{
return fileType;
}
/**
* get the number of spaces per indent
*
* @return value of indentLength option.
*/
int ASBeautifier::getIndentLength() const
{
return indentLength;
}
/**
* get the char used for indentation, space or tab
*
* @return the char used for indentation.
*/
string ASBeautifier::getIndentString() const
{
return indentString;
}
/**
* get mode manually set flag
*/
bool ASBeautifier::getModeManuallySet() const
{
return isModeManuallySet;
}
/**
* get the state of the force tab indentation option.
*
* @return state of force tab indentation.
*/
bool ASBeautifier::getForceTabIndentation() const
{
return shouldForceTabIndentation;
}
/**
* Get the state of the Objective-C align method colon option.
*
* @return state of shouldAlignMethodColon option.
*/
bool ASBeautifier::getAlignMethodColon() const
{
return shouldAlignMethodColon;
}
/**
* get the state of the block indentation option.
*
* @return state of blockIndent option.
*/
bool ASBeautifier::getBlockIndent() const
{
return blockIndent;
}
/**
* get the state of the brace indentation option.
*
* @return state of braceIndent option.
*/
bool ASBeautifier::getBraceIndent() const
{
return braceIndent;
}
/**
* Get the state of the namespace indentation option. If true, blocks
* of the 'namespace' statement will be indented one additional indent.
*
* @return state of namespaceIndent option.
*/
bool ASBeautifier::getNamespaceIndent() const
{
return namespaceIndent;
}
/**
* Get the state of the class indentation option. If true, blocks of
* the 'class' statement will be indented one additional indent.
*
* @return state of classIndent option.
*/
bool ASBeautifier::getClassIndent() const
{
return classIndent;
}
/**
* Get the state of the class access modifier indentation option.
* If true, the class access modifiers will be indented one-half indent.
*
* @return state of modifierIndent option.
*/
bool ASBeautifier::getModifierIndent() const
{
return modifierIndent;
}
/**
* get the state of the switch indentation option. If true, blocks of
* the 'switch' statement will be indented one additional indent.
*
* @return state of switchIndent option.
*/
bool ASBeautifier::getSwitchIndent() const
{
return switchIndent;
}
/**
* get the state of the case indentation option. If true, lines of 'case'
* statements will be indented one additional indent.
*
* @return state of caseIndent option.
*/
bool ASBeautifier::getCaseIndent() const
{
return caseIndent;
}
/**
* get the state of the empty line fill option.
* If true, empty lines will be filled with the whitespace.
* of their previous lines.
* If false, these lines will remain empty.
*
* @return state of emptyLineFill option.
*/
bool ASBeautifier::getEmptyLineFill() const
{
return emptyLineFill;
}
/**
* get the state of the preprocessor indentation option.
* If true, preprocessor "define" lines will be indented.
* If false, preprocessor "define" lines will be unchanged.
*
* @return state of shouldIndentPreprocDefine option.
*/
bool ASBeautifier::getPreprocDefineIndent() const
{
return shouldIndentPreprocDefine;
}
/**
* get the length of the tab indentation option.
*
* @return length of tab indent option.
*/
int ASBeautifier::getTabLength() const
{
return tabLength;
}
/**
* beautify a line of source code.
* every line of source code in a source code file should be sent
* one after the other to the beautify method.
*
* @return the indented line.
* @param originalLine the original unindented line.
*/
string ASBeautifier::beautify(const string& originalLine)
{
string line;
bool isInQuoteContinuation = isInVerbatimQuote || haveLineContinuationChar;
currentHeader = nullptr;
lastLineHeader = nullptr;
blockCommentNoBeautify = blockCommentNoIndent;
isInClass = false;
isInSwitch = false;
lineBeginsWithOpenBrace = false;
lineBeginsWithCloseBrace = false;
lineBeginsWithComma = false;
lineIsCommentOnly = false;
lineIsLineCommentOnly = false;
shouldIndentBracedLine = true;
isInAsmOneLine = false;
lineOpensWithLineComment = false;
lineOpensWithComment = false;
lineStartsInComment = isInComment;
previousLineProbationTab = false;
lineOpeningBlocksNum = 0;
lineClosingBlocksNum = 0;
if (isImmediatelyPostObjCMethodDefinition)
clearObjCMethodDefinitionAlignment();
if (isImmediatelyPostObjCMethodCall)
{
isImmediatelyPostObjCMethodCall = false;
isInObjCMethodCall = false;
objCColonAlignSubsequent = 0;
}
// handle and remove white spaces around the line:
// If not in comment, first find out size of white space before line,
// so that possible comments starting in the line continue in
// relation to the preliminary white-space.
if (isInQuoteContinuation)
{
// trim a single space added by ASFormatter, otherwise leave it alone
if (!(originalLine.length() == 1 && originalLine[0] == ' '))
line = originalLine;
}
else if (isInComment || isInBeautifySQL)
{
// trim the end of comment and SQL lines
line = originalLine;
size_t trimEnd = line.find_last_not_of(" \t");
if (trimEnd == string::npos)
trimEnd = 0;
else
trimEnd++;
if (trimEnd < line.length())
line.erase(trimEnd);
// does a brace open the line
size_t firstChar = line.find_first_not_of(" \t");
if (firstChar != string::npos)
{
if (line[firstChar] == '{')
lineBeginsWithOpenBrace = true;
else if (line[firstChar] == '}')
lineBeginsWithCloseBrace = true;
else if (line[firstChar] == ',')
lineBeginsWithComma = true;
}
}
else
{
line = trim(originalLine);
if (line.length() > 0)
{
if (line[0] == '{')
lineBeginsWithOpenBrace = true;
else if (line[0] == '}')
lineBeginsWithCloseBrace = true;
else if (line[0] == ',')
lineBeginsWithComma = true;
else if (line.compare(0, 2, "//") == 0)
lineIsLineCommentOnly = true;
else if (line.compare(0, 2, "/*") == 0)
{
if (line.find("*/", 2) != string::npos)
lineIsCommentOnly = true;
}
}
isInRunInComment = false;
size_t j = line.find_first_not_of(" \t{");
if (j != string::npos && line.compare(j, 2, "//") == 0)
lineOpensWithLineComment = true;
if (j != string::npos && line.compare(j, 2, "/*") == 0)
{
lineOpensWithComment = true;
size_t k = line.find_first_not_of(" \t");
if (k != string::npos && line.compare(k, 1, "{") == 0)
isInRunInComment = true;
}
}
// When indent is OFF the lines must still be processed by ASBeautifier.
// Otherwise the lines immediately following may not be indented correctly.
if ((lineIsLineCommentOnly || lineIsCommentOnly)
&& line.find("*INDENT-OFF*", 0) != string::npos)
isIndentModeOff = true;
if (line.length() == 0)
{
if (backslashEndsPrevLine)
{
backslashEndsPrevLine = false;
// check if this line ends a multi-line #define
// if so, remove the #define's cloned beautifier from the active
// beautifier stack and delete it.
if (isInDefineDefinition && !isInDefine)
{
isInDefineDefinition = false;
ASBeautifier* defineBeautifier = activeBeautifierStack->back();
activeBeautifierStack->pop_back();
delete defineBeautifier;
}
}
if (emptyLineFill && !isInQuoteContinuation)
{
if (isInIndentablePreprocBlock)
return preLineWS(preprocBlockIndent, 0);
if (!headerStack->empty() || isInEnum)
return preLineWS(prevFinalLineIndentCount, prevFinalLineSpaceIndentCount);
// must fall thru here
}
else
return line;
}
// handle preprocessor commands
if (isInIndentablePreprocBlock
&& line.length() > 0
&& line[0] != '#')
{
string indentedLine;
if (isInClassHeaderTab || isInClassInitializer)
{
// parsing is turned off in ASFormatter by indent-off
// the originalLine will probably never be returned here
indentedLine = preLineWS(prevFinalLineIndentCount, prevFinalLineSpaceIndentCount) + line;
return getIndentedLineReturn(indentedLine, originalLine);
}
indentedLine = preLineWS(preprocBlockIndent, 0) + line;
return getIndentedLineReturn(indentedLine, originalLine);
}
if (!isInComment
&& !isInQuoteContinuation
&& line.length() > 0
&& ((line[0] == '#' && !isIndentedPreprocessor(line, 0))
|| backslashEndsPrevLine))
{
if (line[0] == '#' && !isInDefine)
{
string preproc = extractPreprocessorStatement(line);
processPreprocessor(preproc, line);
if (isInIndentablePreprocBlock || isInIndentablePreproc)
{
string indentedLine;
if ((preproc.length() >= 2 && preproc.substr(0, 2) == "if")) // #if, #ifdef, #ifndef
{
indentedLine = preLineWS(preprocBlockIndent, 0) + line;
preprocBlockIndent += 1;
isInIndentablePreprocBlock = true;
}
else if (preproc == "else" || preproc == "elif")
{
indentedLine = preLineWS(preprocBlockIndent - 1, 0) + line;
}
else if (preproc == "endif")
{
preprocBlockIndent -= 1;
indentedLine = preLineWS(preprocBlockIndent, 0) + line;
if (preprocBlockIndent == 0)
isInIndentablePreprocBlock = false;
}
else
indentedLine = preLineWS(preprocBlockIndent, 0) + line;
return getIndentedLineReturn(indentedLine, originalLine);
}
if (shouldIndentPreprocConditional && preproc.length() > 0)
{
string indentedLine;
if (preproc.length() >= 2 && preproc.substr(0, 2) == "if") // #if, #ifdef, #ifndef
{
pair<int, int> entry; // indentCount, spaceIndentCount
if (!isInDefine && activeBeautifierStack != nullptr && !activeBeautifierStack->empty())
entry = activeBeautifierStack->back()->computePreprocessorIndent();
else
entry = computePreprocessorIndent();
preprocIndentStack->emplace_back(entry);
indentedLine = preLineWS(preprocIndentStack->back().first,
preprocIndentStack->back().second) + line;
return getIndentedLineReturn(indentedLine, originalLine);
}
if (preproc == "else" || preproc == "elif")
{
if (!preprocIndentStack->empty()) // if no entry don't indent
{
indentedLine = preLineWS(preprocIndentStack->back().first,
preprocIndentStack->back().second) + line;
return getIndentedLineReturn(indentedLine, originalLine);
}
}
else if (preproc == "endif")
{
if (!preprocIndentStack->empty()) // if no entry don't indent
{
indentedLine = preLineWS(preprocIndentStack->back().first,
preprocIndentStack->back().second) + line;
preprocIndentStack->pop_back();
return getIndentedLineReturn(indentedLine, originalLine);
}
}
}
}
// check if the last char is a backslash
if (line.length() > 0)
backslashEndsPrevLine = (line[line.length() - 1] == '\\');
// comments within the definition line can be continued without the backslash
if (isInPreprocessorUnterminatedComment(line))
backslashEndsPrevLine = true;
// check if this line ends a multi-line #define
// if so, use the #define's cloned beautifier for the line's indentation
// and then remove it from the active beautifier stack and delete it.
if (!backslashEndsPrevLine && isInDefineDefinition && !isInDefine)
{
isInDefineDefinition = false;
ASBeautifier* defineBeautifier = activeBeautifierStack->back();
activeBeautifierStack->pop_back();
string indentedLine = defineBeautifier->beautify(line);
delete defineBeautifier;
return getIndentedLineReturn(indentedLine, originalLine);
}
// unless this is a multi-line #define, return this precompiler line as is.
if (!isInDefine && !isInDefineDefinition)
return originalLine;
}
// if there exists any worker beautifier in the activeBeautifierStack,
// then use it instead of me to indent the current line.
// variables set by ASFormatter must be updated.
if (!isInDefine && activeBeautifierStack != nullptr && !activeBeautifierStack->empty())
{
activeBeautifierStack->back()->inLineNumber = inLineNumber;
activeBeautifierStack->back()->runInIndentContinuation = runInIndentContinuation;
activeBeautifierStack->back()->nonInStatementBrace = nonInStatementBrace;
activeBeautifierStack->back()->objCColonAlignSubsequent = objCColonAlignSubsequent;
activeBeautifierStack->back()->lineCommentNoBeautify = lineCommentNoBeautify;
activeBeautifierStack->back()->isElseHeaderIndent = isElseHeaderIndent;
activeBeautifierStack->back()->isCaseHeaderCommentIndent = isCaseHeaderCommentIndent;
activeBeautifierStack->back()->isNonInStatementArray = isNonInStatementArray;
activeBeautifierStack->back()->isSharpAccessor = isSharpAccessor;
activeBeautifierStack->back()->isSharpDelegate = isSharpDelegate;
activeBeautifierStack->back()->isInExternC = isInExternC;
activeBeautifierStack->back()->isInBeautifySQL = isInBeautifySQL;
activeBeautifierStack->back()->isInIndentableStruct = isInIndentableStruct;
activeBeautifierStack->back()->isInIndentablePreproc = isInIndentablePreproc;
// must return originalLine not the trimmed line
return activeBeautifierStack->back()->beautify(originalLine);
}
// Flag an indented header in case this line is a one-line block.
// The header in the header stack will be deleted by a one-line block.
bool isInExtraHeaderIndent = false;
if (!headerStack->empty()
&& lineBeginsWithOpenBrace
&& (headerStack->back() != &AS_OPEN_BRACE
|| probationHeader != nullptr))
isInExtraHeaderIndent = true;
size_t iPrelim = headerStack->size();
// calculate preliminary indentation based on headerStack and data from past lines
computePreliminaryIndentation();
// parse characters in the current line.
parseCurrentLine(line);
// handle special cases of indentation
adjustParsedLineIndentation(iPrelim, isInExtraHeaderIndent);
if (isInObjCMethodDefinition)
adjustObjCMethodDefinitionIndentation(line);
if (isInObjCMethodCall)
adjustObjCMethodCallIndentation(line);
if (isInDefine)
{
if (line.length() > 0 && line[0] == '#')
{
// the 'define' does not have to be attached to the '#'
string preproc = trim(line.substr(1));
if (preproc.compare(0, 6, "define") == 0)
{
if (!continuationIndentStack->empty()
&& continuationIndentStack->back() > 0)
{
defineIndentCount = indentCount;
}
else
{
defineIndentCount = indentCount - 1;
--indentCount;
}
}
}
indentCount -= defineIndentCount;
}
if (indentCount < 0)
indentCount = 0;
if (lineCommentNoBeautify || blockCommentNoBeautify || isInQuoteContinuation)
indentCount = spaceIndentCount = 0;
// finally, insert indentations into beginning of line
string indentedLine = preLineWS(indentCount, spaceIndentCount) + line;
indentedLine = getIndentedLineReturn(indentedLine, originalLine);
prevFinalLineSpaceIndentCount = spaceIndentCount;
prevFinalLineIndentCount = indentCount;
if (lastLineHeader != nullptr)
previousLastLineHeader = lastLineHeader;
if ((lineIsLineCommentOnly || lineIsCommentOnly)
&& line.find("*INDENT-ON*", 0) != string::npos)
isIndentModeOff = false;
return indentedLine;
}
const string& ASBeautifier::getIndentedLineReturn(const string& newLine, const string& originalLine) const
{
if (isIndentModeOff)
return originalLine;
return newLine;
}
string ASBeautifier::preLineWS(int lineIndentCount, int lineSpaceIndentCount) const
{
if (shouldForceTabIndentation)
{
if (tabLength != indentLength)
{
// adjust for different tab length
int indentCountOrig = lineIndentCount;
int spaceIndentCountOrig = lineSpaceIndentCount;
lineIndentCount = ((indentCountOrig * indentLength) + spaceIndentCountOrig) / tabLength;
lineSpaceIndentCount = ((indentCountOrig * indentLength) + spaceIndentCountOrig) % tabLength;
}
else
{
lineIndentCount += lineSpaceIndentCount / indentLength;
lineSpaceIndentCount = lineSpaceIndentCount % indentLength;
}
}
string ws;
for (int i = 0; i < lineIndentCount; i++)
ws += indentString;
while ((lineSpaceIndentCount--) > 0)
ws += string(" ");
return ws;
}
/**
* register a continuation indent.
*/
void ASBeautifier::registerContinuationIndent(const string& line, int i, int spaceIndentCount_,
int tabIncrementIn, int minIndent, bool updateParenStack)
{
int remainingCharNum = line.length() - i;
int nextNonWSChar = getNextProgramCharDistance(line, i);
// if indent is around the last char in the line OR indent-after-paren is requested,
// indent with the continuation indent
if (nextNonWSChar == remainingCharNum || shouldIndentAfterParen)
{
int previousIndent = spaceIndentCount_;
if (!continuationIndentStack->empty())
previousIndent = continuationIndentStack->back();
int currIndent = continuationIndent * indentLength + previousIndent;
if (currIndent > maxContinuationIndent && line[i] != '{')
currIndent = indentLength * 2 + spaceIndentCount_;
continuationIndentStack->emplace_back(currIndent);
if (updateParenStack)
parenIndentStack->emplace_back(previousIndent);
return;
}
if (updateParenStack)
parenIndentStack->emplace_back(i + spaceIndentCount_ - runInIndentContinuation);
int tabIncrement = tabIncrementIn;
// check for following tabs
for (int j = i + 1; j < (i + nextNonWSChar); j++)
{
if (line[j] == '\t')
tabIncrement += convertTabToSpaces(j, tabIncrement);
}
int continuationIndentCount = i + nextNonWSChar + spaceIndentCount_ + tabIncrement;
// check for run-in statement
if (i > 0 && line[0] == '{')
continuationIndentCount -= indentLength;
if (continuationIndentCount < minIndent)
continuationIndentCount = minIndent + spaceIndentCount_;
// this is not done for an in-statement array
if (continuationIndentCount > maxContinuationIndent
&& !(prevNonLegalCh == '=' && currentNonLegalCh == '{'))
continuationIndentCount = indentLength * 2 + spaceIndentCount_;
if (!continuationIndentStack->empty()
&& continuationIndentCount < continuationIndentStack->back())
continuationIndentCount = continuationIndentStack->back();
// the block opener is not indented for a NonInStatementArray
if ((isNonInStatementArray && line[i] == '{')
&& !isInEnum && !braceBlockStateStack->empty() && braceBlockStateStack->back())
continuationIndentCount = 0;
continuationIndentStack->emplace_back(continuationIndentCount);
}
/**
* Register a continuation indent for a class header or a class initializer colon.
*/
void ASBeautifier::registerContinuationIndentColon(const string& line, int i, int tabIncrementIn)
{
assert(line[i] == ':');
assert(isInClassInitializer || isInClassHeaderTab);
// register indent at first word after the colon
size_t firstChar = line.find_first_not_of(" \t");
if (firstChar == (size_t) i) // firstChar is ':'
{
size_t firstWord = line.find_first_not_of(" \t", firstChar + 1);
if (firstChar != string::npos)
{
int continuationIndentCount = firstWord + spaceIndentCount + tabIncrementIn;
continuationIndentStack->emplace_back(continuationIndentCount);
isContinuation = true;
}
}
}
/**
* Compute indentation for a preprocessor #if statement.
* This may be called for the activeBeautiferStack
* instead of the active ASBeautifier object.
*/
pair<int, int> ASBeautifier::computePreprocessorIndent()
{
computePreliminaryIndentation();
pair<int, int> entry(indentCount, spaceIndentCount);
if (!headerStack->empty()
&& entry.first > 0
&& (headerStack->back() == &AS_IF
|| headerStack->back() == &AS_ELSE
|| headerStack->back() == &AS_FOR
|| headerStack->back() == &AS_WHILE))
--entry.first;
return entry;
}
/**
* get distance to the next non-white space, non-comment character in the line.
* if no such character exists, return the length remaining to the end of the line.
*/
int ASBeautifier::getNextProgramCharDistance(const string& line, int i) const
{
bool inComment = false;
int remainingCharNum = line.length() - i;
int charDistance;
char ch;
for (charDistance = 1; charDistance < remainingCharNum; charDistance++)
{
ch = line[i + charDistance];
if (inComment)
{
if (line.compare(i + charDistance, 2, "*/") == 0)
{
charDistance++;
inComment = false;
}
continue;
}
else if (isWhiteSpace(ch))
continue;
else if (ch == '/')
{
if (line.compare(i + charDistance, 2, "//") == 0)
return remainingCharNum;
if (line.compare(i + charDistance, 2, "/*") == 0)
{
charDistance++;
inComment = true;
}
}
else
return charDistance;
}
return charDistance;
}
/**
* find the index number of a string element in a container of strings
*
* @return the index number of element in the container. -1 if element not found.
* @param container a vector of strings.
* @param element the element to find .
*/
int ASBeautifier::indexOf(const vector<const string*>& container, const string* element) const
{
vector<const string*>::const_iterator where;
where = find(container.begin(), container.end(), element);
if (where == container.end())
return -1;
return (int) (where - container.begin());
}
/**
* convert tabs to spaces.
* i is the position of the character to convert to spaces.
* tabIncrementIn is the increment that must be added for tab indent characters
* to get the correct column for the current tab.
*/
int ASBeautifier::convertTabToSpaces(int i, int tabIncrementIn) const
{
int tabToSpacesAdjustment = indentLength - 1 - ((tabIncrementIn + i) % indentLength);
return tabToSpacesAdjustment;
}
/**
* trim removes the white space surrounding a line.
*
* @return the trimmed line.
* @param str the line to trim.
*/
string ASBeautifier::trim(const string& str) const
{
int start = 0;
int end = str.length() - 1;
while (start < end && isWhiteSpace(str[start]))
start++;
while (start <= end && isWhiteSpace(str[end]))
end--;
// don't trim if it ends in a continuation
if (end > -1 && str[end] == '\\')
end = str.length() - 1;
string returnStr(str, start, end + 1 - start);
return returnStr;
}
/**
* rtrim removes the white space from the end of a line.
*
* @return the trimmed line.
* @param str the line to trim.
*/
string ASBeautifier::rtrim(const string& str) const
{
size_t len = str.length();
size_t end = str.find_last_not_of(" \t");
if (end == string::npos
|| end == len - 1)
return str;
string returnStr(str, 0, end + 1);
return returnStr;
}
/**
* Copy tempStacks for the copy constructor.
* The value of the vectors must also be copied.
*/
vector<vector<const string*>*>* ASBeautifier::copyTempStacks(const ASBeautifier& other) const
{
vector<vector<const string*>*>* tempStacksNew = new vector<vector<const string*>*>;
vector<vector<const string*>*>::iterator iter;
for (iter = other.tempStacks->begin();
iter != other.tempStacks->end();
++iter)
{
vector<const string*>* newVec = new vector<const string*>;
*newVec = **iter;
tempStacksNew->emplace_back(newVec);
}
return tempStacksNew;
}
/**
* delete a member vectors to eliminate memory leak reporting
*/
void ASBeautifier::deleteBeautifierVectors()
{
beautifierFileType = 9; // reset to an invalid type
delete headers;
delete nonParenHeaders;
delete preBlockStatements;
delete preCommandHeaders;
delete assignmentOperators;
delete nonAssignmentOperators;
delete indentableHeaders;
}
/**
* delete a vector object
* T is the type of vector
* used for all vectors except tempStacks
*/
template<typename T>
void ASBeautifier::deleteContainer(T& container)
{
if (container != nullptr)
{
container->clear();
delete (container);
container = nullptr;
}
}
/**
* Delete the ASBeautifier vector object.
* This is a vector of pointers to ASBeautifier objects allocated with the 'new' operator.
* Therefore the ASBeautifier objects have to be deleted in addition to the
* ASBeautifier pointer entries.
*/
void ASBeautifier::deleteBeautifierContainer(vector<ASBeautifier*>*& container)
{
if (container != nullptr)
{
vector<ASBeautifier*>::iterator iter = container->begin();
while (iter < container->end())
{
delete *iter;
++iter;
}
container->clear();
delete (container);
container = nullptr;
}
}
/**
* Delete the tempStacks vector object.
* The tempStacks is a vector of pointers to strings allocated with the 'new' operator.
* Therefore the strings have to be deleted in addition to the tempStacks entries.
*/
void ASBeautifier::deleteTempStacksContainer(vector<vector<const string*>*>*& container)
{
if (container != nullptr)
{
vector<vector<const string*>*>::iterator iter = container->begin();
while (iter < container->end())
{
delete *iter;
++iter;
}
container->clear();
delete (container);
container = nullptr;
}
}
/**
* initialize a vector object
* T is the type of vector used for all vectors
*/
template<typename T>
void ASBeautifier::initContainer(T& container, T value)
{
// since the ASFormatter object is never deleted,
// the existing vectors must be deleted before creating new ones
if (container != nullptr)
deleteContainer(container);
container = value;
}
/**
* Initialize the tempStacks vector object.
* The tempStacks is a vector of pointers to strings allocated with the 'new' operator.
* Any residual entries are deleted before the vector is initialized.
*/
void ASBeautifier::initTempStacksContainer(vector<vector<const string*>*>*& container,
vector<vector<const string*>*>* value)
{
if (container != nullptr)
deleteTempStacksContainer(container);
container = value;
}
/**
* Determine if an assignment statement ends with a comma
* that is not in a function argument. It ends with a
* comma if a comma is the last char on the line.
*
* @return true if line ends with a comma, otherwise false.
*/
bool ASBeautifier::statementEndsWithComma(const string& line, int index) const
{
assert(line[index] == '=');
bool isInComment_ = false;
bool isInQuote_ = false;
int parenCount = 0;
size_t lineLength = line.length();
size_t i = 0;
char quoteChar_ = ' ';
for (i = index + 1; i < lineLength; ++i)
{
char ch = line[i];
if (isInComment_)
{
if (line.compare(i, 2, "*/") == 0)
{
isInComment_ = false;
++i;
}
continue;
}
if (ch == '\\')
{
++i;
continue;
}
if (isInQuote_)
{
if (ch == quoteChar_)
isInQuote_ = false;
continue;
}
if (ch == '"'
|| (ch == '\'' && !isDigitSeparator(line, i)))
{
isInQuote_ = true;
quoteChar_ = ch;
continue;
}
if (line.compare(i, 2, "//") == 0)
break;
if (line.compare(i, 2, "/*") == 0)
{
if (isLineEndComment(line, i))
break;
else
{
isInComment_ = true;
++i;
continue;
}
}
if (ch == '(')
parenCount++;
if (ch == ')')
parenCount--;
}
if (isInComment_
|| isInQuote_
|| parenCount > 0)
return false;
size_t lastChar = line.find_last_not_of(" \t", i - 1);
if (lastChar == string::npos || line[lastChar] != ',')
return false;
return true;
}
/**
* check if current comment is a line-end comment
*
* @return is before a line-end comment.
*/
bool ASBeautifier::isLineEndComment(const string& line, int startPos) const
{
assert(line.compare(startPos, 2, "/*") == 0);
// comment must be closed on this line with nothing after it
size_t endNum = line.find("*/", startPos + 2);
if (endNum != string::npos)
{
size_t nextChar = line.find_first_not_of(" \t", endNum + 2);
if (nextChar == string::npos)
return true;
}
return false;
}
/**
* get the previous word index for an assignment operator
*
* @return is the index to the previous word (the in statement indent).
*/
int ASBeautifier::getContinuationIndentAssign(const string& line, size_t currPos) const
{
assert(line[currPos] == '=');
if (currPos == 0)
return 0;
// get the last legal word (may be a number)
size_t end = line.find_last_not_of(" \t", currPos - 1);
if (end == string::npos || !isLegalNameChar(line[end]))
return 0;
int start; // start of the previous word
for (start = end; start > -1; start--)
{
if (!isLegalNameChar(line[start]) || line[start] == '.')
break;
}
start++;
return start;
}
/**
* get the instatement indent for a comma
*
* @return is the indent to the second word on the line (the in statement indent).
*/
int ASBeautifier::getContinuationIndentComma(const string& line, size_t currPos) const
{
assert(line[currPos] == ',');
// get first word on a line
size_t indent = line.find_first_not_of(" \t");
if (indent == string::npos || !isLegalNameChar(line[indent]))
return 0;
// bypass first word
for (; indent < currPos; indent++)
{
if (!isLegalNameChar(line[indent]))
break;
}
indent++;
if (indent >= currPos || indent < 4)
return 0;
// point to second word or assignment operator
indent = line.find_first_not_of(" \t", indent);
if (indent == string::npos || indent >= currPos)
return 0;
return indent;
}
/**
* get the next word on a line
* the argument 'currPos' must point to the current position.
*
* @return is the next word or an empty string if none found.
*/
string ASBeautifier::getNextWord(const string& line, size_t currPos) const
{
size_t lineLength = line.length();
// get the last legal word (may be a number)
if (currPos == lineLength - 1)
return string();
size_t start = line.find_first_not_of(" \t", currPos + 1);
if (start == string::npos || !isLegalNameChar(line[start]))
return string();
size_t end; // end of the current word
for (end = start + 1; end <= lineLength; end++)
{
if (!isLegalNameChar(line[end]) || line[end] == '.')
break;
}
return line.substr(start, end - start);
}
/**
* Check if a preprocessor directive is always indented.
* C# "region" and "endregion" are always indented.
* C/C++ "pragma omp" is always indented.
*
* @return is true or false.
*/
bool ASBeautifier::isIndentedPreprocessor(const string& line, size_t currPos) const
{
assert(line[0] == '#');
string nextWord = getNextWord(line, currPos);
if (nextWord == "region" || nextWord == "endregion")
return true;
// is it #pragma omp
if (nextWord == "pragma")
{
// find pragma
size_t start = line.find("pragma");
if (start == string::npos || !isLegalNameChar(line[start]))
return false;
// bypass pragma
for (; start < line.length(); start++)
{
if (!isLegalNameChar(line[start]))
break;
}
start++;
if (start >= line.length())
return false;
// point to start of second word
start = line.find_first_not_of(" \t", start);
if (start == string::npos)
return false;
// point to end of second word
size_t end;
for (end = start; end < line.length(); end++)
{
if (!isLegalNameChar(line[end]))
break;
}
// check for "pragma omp"
string word = line.substr(start, end - start);
if (word == "omp" || word == "region" || word == "endregion")
return true;
}
return false;
}
/**
* Check if a preprocessor directive is checking for __cplusplus defined.
*
* @return is true or false.
*/
bool ASBeautifier::isPreprocessorConditionalCplusplus(const string& line) const
{
string preproc = trim(line.substr(1));
if (preproc.compare(0, 5, "ifdef") == 0 && getNextWord(preproc, 4) == "__cplusplus")
return true;
if (preproc.compare(0, 2, "if") == 0)
{
// check for " #if defined(__cplusplus)"
size_t charNum = 2;
charNum = preproc.find_first_not_of(" \t", charNum);
if (charNum != string::npos && preproc.compare(charNum, 7, "defined") == 0)
{
charNum += 7;
charNum = preproc.find_first_not_of(" \t", charNum);
if (preproc.compare(charNum, 1, "(") == 0)
{
++charNum;
charNum = preproc.find_first_not_of(" \t", charNum);
if (preproc.compare(charNum, 11, "__cplusplus") == 0)
return true;
}
}
}
return false;
}
/**
* Check if a preprocessor definition contains an unterminated comment.
* Comments within a preprocessor definition can be continued without the backslash.
*
* @return is true or false.
*/
bool ASBeautifier::isInPreprocessorUnterminatedComment(const string& line)
{
if (!isInPreprocessorComment)
{
size_t startPos = line.find("/*");
if (startPos == string::npos)
return false;
}
size_t endNum = line.find("*/");
if (endNum != string::npos)
{
isInPreprocessorComment = false;
return false;
}
isInPreprocessorComment = true;
return true;
}
void ASBeautifier::popLastContinuationIndent()
{
assert(!continuationIndentStackSizeStack->empty());
int previousIndentStackSize = continuationIndentStackSizeStack->back();
if (continuationIndentStackSizeStack->size() > 1)
continuationIndentStackSizeStack->pop_back();
while (previousIndentStackSize < (int) continuationIndentStack->size())
continuationIndentStack->pop_back();
}
// for unit testing
int ASBeautifier::getBeautifierFileType() const
{ return beautifierFileType; }
/**
* Process preprocessor statements and update the beautifier stacks.
*/
void ASBeautifier::processPreprocessor(const string& preproc, const string& line)
{
// When finding a multi-lined #define statement, the original beautifier
// 1. sets its isInDefineDefinition flag
// 2. clones a new beautifier that will be used for the actual indentation
// of the #define. This clone is put into the activeBeautifierStack in order
// to be called for the actual indentation.
// The original beautifier will have isInDefineDefinition = true, isInDefine = false
// The cloned beautifier will have isInDefineDefinition = true, isInDefine = true
if (shouldIndentPreprocDefine && preproc == "define" && line[line.length() - 1] == '\\')
{
if (!isInDefineDefinition)
{
// this is the original beautifier
isInDefineDefinition = true;
// push a new beautifier into the active stack
// this beautifier will be used for the indentation of this define
ASBeautifier* defineBeautifier = new ASBeautifier(*this);
activeBeautifierStack->emplace_back(defineBeautifier);
}
else
{
// the is the cloned beautifier that is in charge of indenting the #define.
isInDefine = true;
}
}
else if (preproc.length() >= 2 && preproc.substr(0, 2) == "if")
{
if (isPreprocessorConditionalCplusplus(line) && !g_preprocessorCppExternCBrace)
g_preprocessorCppExternCBrace = 1;
// push a new beautifier into the stack
waitingBeautifierStackLengthStack->push_back(waitingBeautifierStack->size());
activeBeautifierStackLengthStack->push_back(activeBeautifierStack->size());
if (activeBeautifierStackLengthStack->back() == 0)
waitingBeautifierStack->emplace_back(new ASBeautifier(*this));
else
waitingBeautifierStack->emplace_back(new ASBeautifier(*activeBeautifierStack->back()));
}
else if (preproc == "else")
{
if ((waitingBeautifierStack != nullptr) && !waitingBeautifierStack->empty())
{
// MOVE current waiting beautifier to active stack.
activeBeautifierStack->emplace_back(waitingBeautifierStack->back());
waitingBeautifierStack->pop_back();
}
}
else if (preproc == "elif")
{
if ((waitingBeautifierStack != nullptr) && !waitingBeautifierStack->empty())
{
// append a COPY current waiting beautifier to active stack, WITHOUT deleting the original.
activeBeautifierStack->emplace_back(new ASBeautifier(*(waitingBeautifierStack->back())));
}
}
else if (preproc == "endif")
{
int stackLength = 0;
ASBeautifier* beautifier = nullptr;
if (waitingBeautifierStackLengthStack != nullptr && !waitingBeautifierStackLengthStack->empty())
{
stackLength = waitingBeautifierStackLengthStack->back();
waitingBeautifierStackLengthStack->pop_back();
while ((int) waitingBeautifierStack->size() > stackLength)
{
beautifier = waitingBeautifierStack->back();
waitingBeautifierStack->pop_back();
delete beautifier;
}
}
if (!activeBeautifierStackLengthStack->empty())
{
stackLength = activeBeautifierStackLengthStack->back();
activeBeautifierStackLengthStack->pop_back();
while ((int) activeBeautifierStack->size() > stackLength)
{
beautifier = activeBeautifierStack->back();
activeBeautifierStack->pop_back();
delete beautifier;
}
}
}
}
// Compute the preliminary indentation based on data in the headerStack
// and data from previous lines.
// Update the class variable indentCount.
void ASBeautifier::computePreliminaryIndentation()
{
indentCount = 0;
spaceIndentCount = 0;
isInClassHeaderTab = false;
if (isInObjCMethodDefinition && !continuationIndentStack->empty())
spaceIndentObjCMethodAlignment = continuationIndentStack->back();
if (!continuationIndentStack->empty())
spaceIndentCount = continuationIndentStack->back();
for (size_t i = 0; i < headerStack->size(); i++)
{
isInClass = false;
if (blockIndent)
{
// do NOT indent opening block for these headers
if (!((*headerStack)[i] == &AS_NAMESPACE
|| (*headerStack)[i] == &AS_MODULE
|| (*headerStack)[i] == &AS_CLASS
|| (*headerStack)[i] == &AS_STRUCT
|| (*headerStack)[i] == &AS_UNION
|| (*headerStack)[i] == &AS_INTERFACE
|| (*headerStack)[i] == &AS_THROWS
|| (*headerStack)[i] == &AS_STATIC))
++indentCount;
}
else if (!(i > 0 && (*headerStack)[i - 1] != &AS_OPEN_BRACE
&& (*headerStack)[i] == &AS_OPEN_BRACE))
++indentCount;
if (!isJavaStyle() && !namespaceIndent && i > 0
&& ((*headerStack)[i - 1] == &AS_NAMESPACE
|| (*headerStack)[i - 1] == &AS_MODULE)
&& (*headerStack)[i] == &AS_OPEN_BRACE)
--indentCount;
if (isCStyle() && i >= 1
&& (*headerStack)[i - 1] == &AS_CLASS
&& (*headerStack)[i] == &AS_OPEN_BRACE)
{
if (classIndent)
++indentCount;
isInClass = true;
}
// is the switchIndent option is on, indent switch statements an additional indent.
else if (switchIndent && i > 1
&& (*headerStack)[i - 1] == &AS_SWITCH
&& (*headerStack)[i] == &AS_OPEN_BRACE)
{
++indentCount;
isInSwitch = true;
}
} // end of for loop
if (isInClassHeader)
{
if (!isJavaStyle())
isInClassHeaderTab = true;
if (lineOpensWithLineComment || lineStartsInComment || lineOpensWithComment)
{
if (!lineBeginsWithOpenBrace)
--indentCount;
if (!continuationIndentStack->empty())
spaceIndentCount -= continuationIndentStack->back();
}
else if (blockIndent)
{
if (!lineBeginsWithOpenBrace)
++indentCount;
}
}
if (isInClassInitializer || isInEnumTypeID)
{
indentCount += classInitializerIndents;
}
if (isInEnum && lineBeginsWithComma && !continuationIndentStack->empty())
{
// unregister '=' indent from the previous line
continuationIndentStack->pop_back();
isContinuation = false;
spaceIndentCount = 0;
}
// Objective-C interface continuation line
if (isInObjCInterface)
++indentCount;
// unindent a class closing brace...
if (!lineStartsInComment
&& isCStyle()
&& isInClass
&& classIndent
&& headerStack->size() >= 2
&& (*headerStack)[headerStack->size() - 2] == &AS_CLASS
&& (*headerStack)[headerStack->size() - 1] == &AS_OPEN_BRACE
&& lineBeginsWithCloseBrace
&& braceBlockStateStack->back())
--indentCount;
// unindent an indented switch closing brace...
else if (!lineStartsInComment
&& isInSwitch
&& switchIndent
&& headerStack->size() >= 2
&& (*headerStack)[headerStack->size() - 2] == &AS_SWITCH
&& (*headerStack)[headerStack->size() - 1] == &AS_OPEN_BRACE
&& lineBeginsWithCloseBrace)
--indentCount;
// handle special case of run-in comment in an indented class statement
if (isInClass
&& classIndent
&& isInRunInComment
&& !lineOpensWithComment
&& headerStack->size() > 1
&& (*headerStack)[headerStack->size() - 2] == &AS_CLASS)
--indentCount;
if (isInConditional)
--indentCount;
if (g_preprocessorCppExternCBrace >= 4)
--indentCount;
}
void ASBeautifier::adjustParsedLineIndentation(size_t iPrelim, bool isInExtraHeaderIndent)
{
if (lineStartsInComment)
return;
// unindent a one-line statement in a header indent
if (!blockIndent
&& lineBeginsWithOpenBrace
&& headerStack->size() < iPrelim
&& isInExtraHeaderIndent
&& (lineOpeningBlocksNum > 0 && lineOpeningBlocksNum <= lineClosingBlocksNum)
&& shouldIndentBracedLine)
--indentCount;
/*
* if '{' doesn't follow an immediately previous '{' in the headerStack
* (but rather another header such as "for" or "if", then unindent it
* by one indentation relative to its block.
*/
else if (!blockIndent
&& lineBeginsWithOpenBrace
&& !(lineOpeningBlocksNum > 0 && lineOpeningBlocksNum <= lineClosingBlocksNum)
&& (headerStack->size() > 1 && (*headerStack)[headerStack->size() - 2] != &AS_OPEN_BRACE)
&& shouldIndentBracedLine)
--indentCount;
// must check one less in headerStack if more than one header on a line (allow-addins)...
else if (headerStack->size() > iPrelim + 1
&& !blockIndent
&& lineBeginsWithOpenBrace
&& !(lineOpeningBlocksNum > 0 && lineOpeningBlocksNum <= lineClosingBlocksNum)
&& (headerStack->size() > 2 && (*headerStack)[headerStack->size() - 3] != &AS_OPEN_BRACE)
&& shouldIndentBracedLine)
--indentCount;
// unindent a closing brace...
else if (lineBeginsWithCloseBrace
&& shouldIndentBracedLine)
--indentCount;
// correctly indent one-line-blocks...
else if (lineOpeningBlocksNum > 0
&& lineOpeningBlocksNum == lineClosingBlocksNum
&& previousLineProbationTab)
--indentCount;
if (indentCount < 0)
indentCount = 0;
// take care of extra brace indentation option...
if (!lineStartsInComment
&& braceIndent
&& shouldIndentBracedLine
&& (lineBeginsWithOpenBrace || lineBeginsWithCloseBrace))
{
if (!braceIndentVtk)
++indentCount;
else
{
// determine if a style VTK brace is indented
bool haveUnindentedBrace = false;
for (size_t i = 0; i < headerStack->size(); i++)
{
if (((*headerStack)[i] == &AS_NAMESPACE
|| (*headerStack)[i] == &AS_MODULE
|| (*headerStack)[i] == &AS_CLASS
|| (*headerStack)[i] == &AS_STRUCT)
&& i + 1 < headerStack->size()
&& (*headerStack)[i + 1] == &AS_OPEN_BRACE)
i++;
else if (lineBeginsWithOpenBrace)
{
// don't double count the current brace
if (i + 1 < headerStack->size()
&& (*headerStack)[i] == &AS_OPEN_BRACE)
haveUnindentedBrace = true;
}
else if ((*headerStack)[i] == &AS_OPEN_BRACE)
haveUnindentedBrace = true;
} // end of for loop
if (haveUnindentedBrace)
++indentCount;
}
}
}
/**
* Compute indentCount adjustment when in a series of else-if statements
* and shouldBreakElseIfs is requested.
* It increments by one for each 'else' in the tempStack.
*/
int ASBeautifier::adjustIndentCountForBreakElseIfComments() const
{
assert(isElseHeaderIndent && !tempStacks->empty());
int indentCountIncrement = 0;
vector<const string*>* lastTempStack = tempStacks->back();
if (lastTempStack != nullptr)
{
for (size_t i = 0; i < lastTempStack->size(); i++)
{
if (*lastTempStack->at(i) == AS_ELSE)
indentCountIncrement++;
}
}
return indentCountIncrement;
}
/**
* Extract a preprocessor statement without the #.
* If a error occurs an empty string is returned.
*/
string ASBeautifier::extractPreprocessorStatement(const string& line) const
{
string preproc;
size_t start = line.find_first_not_of("#/ \t");
if (start == string::npos)
return preproc;
size_t end = line.find_first_of("/ \t", start);
if (end == string::npos)
end = line.length();
preproc = line.substr(start, end - start);
return preproc;
}
void ASBeautifier::adjustObjCMethodDefinitionIndentation(const string& line_)
{
// register indent for Objective-C continuation line
if (line_.length() > 0
&& (line_[0] == '-' || line_[0] == '+'))
{
if (shouldAlignMethodColon && objCColonAlignSubsequent != -1)
{
string convertedLine = getIndentedSpaceEquivalent(line_);
colonIndentObjCMethodAlignment = convertedLine.find(':');
int objCColonAlignSubsequentIndent = objCColonAlignSubsequent + indentLength;
if (objCColonAlignSubsequentIndent > colonIndentObjCMethodAlignment)
colonIndentObjCMethodAlignment = objCColonAlignSubsequentIndent;
}
else if (continuationIndentStack->empty()
|| continuationIndentStack->back() == 0)
{
continuationIndentStack->emplace_back(indentLength);
isContinuation = true;
}
}
// set indent for last definition line
else if (!lineBeginsWithOpenBrace)
{
if (shouldAlignMethodColon)
spaceIndentCount = computeObjCColonAlignment(line_, colonIndentObjCMethodAlignment);
else if (continuationIndentStack->empty())
spaceIndentCount = spaceIndentObjCMethodAlignment;
}
}
void ASBeautifier::adjustObjCMethodCallIndentation(const string& line_)
{
static int keywordIndentObjCMethodAlignment = 0;
if (shouldAlignMethodColon && objCColonAlignSubsequent != -1)
{
if (isInObjCMethodCallFirst)
{
isInObjCMethodCallFirst = false;
string convertedLine = getIndentedSpaceEquivalent(line_);
bracePosObjCMethodAlignment = convertedLine.find('[');
keywordIndentObjCMethodAlignment =
getObjCFollowingKeyword(convertedLine, bracePosObjCMethodAlignment);
colonIndentObjCMethodAlignment = convertedLine.find(':');
if (colonIndentObjCMethodAlignment >= 0)
{
int objCColonAlignSubsequentIndent = objCColonAlignSubsequent + indentLength;
if (objCColonAlignSubsequentIndent > colonIndentObjCMethodAlignment)
colonIndentObjCMethodAlignment = objCColonAlignSubsequentIndent;
if (lineBeginsWithOpenBrace)
colonIndentObjCMethodAlignment -= indentLength;
}
}
else
{
if (line_.find(':') != string::npos)
{
if (colonIndentObjCMethodAlignment < 0)
spaceIndentCount += computeObjCColonAlignment(line_, objCColonAlignSubsequent);
else if (objCColonAlignSubsequent > colonIndentObjCMethodAlignment)
spaceIndentCount = computeObjCColonAlignment(line_, objCColonAlignSubsequent);
else
spaceIndentCount = computeObjCColonAlignment(line_, colonIndentObjCMethodAlignment);
}
else
{
if (spaceIndentCount < colonIndentObjCMethodAlignment)
spaceIndentCount += keywordIndentObjCMethodAlignment;
}
}
}
else // align keywords instead of colons
{
if (isInObjCMethodCallFirst)
{
isInObjCMethodCallFirst = false;
string convertedLine = getIndentedSpaceEquivalent(line_);
bracePosObjCMethodAlignment = convertedLine.find('[');
keywordIndentObjCMethodAlignment =
getObjCFollowingKeyword(convertedLine, bracePosObjCMethodAlignment);
}
else
{
if (spaceIndentCount < keywordIndentObjCMethodAlignment + bracePosObjCMethodAlignment)
spaceIndentCount += keywordIndentObjCMethodAlignment;
}
}
}
/**
* Clear the variables used to align the Objective-C method definitions.
*/
void ASBeautifier::clearObjCMethodDefinitionAlignment()
{
assert(isImmediatelyPostObjCMethodDefinition);
spaceIndentCount = 0;
spaceIndentObjCMethodAlignment = 0;
colonIndentObjCMethodAlignment = 0;
isInObjCMethodDefinition = false;
isImmediatelyPostObjCMethodDefinition = false;
if (!continuationIndentStack->empty())
continuationIndentStack->pop_back();
}
/**
* Compute the spaceIndentCount necessary to align the current line colon
* with the colon position in the argument.
* If it cannot be aligned indentLength is returned and a new colon
* position is calculated.
*/
int ASBeautifier::computeObjCColonAlignment(const string& line, int colonAlignPosition) const
{
int colonPosition = line.find(':');
if (colonPosition < 0 || colonPosition > colonAlignPosition)
return indentLength;
return (colonAlignPosition - colonPosition);
}
/*
* Compute postition of the keyword following the method call object.
*/
int ASBeautifier::getObjCFollowingKeyword(const string& line, int bracePos) const
{
assert(line[bracePos] == '[');
size_t firstText = line.find_first_not_of(" \t", bracePos + 1);
if (firstText == string::npos)
return -(indentCount * indentLength - 1);
size_t searchBeg = firstText;
size_t objectEnd = 0; // end of object text
if (line[searchBeg] == '[')
{
objectEnd = line.find(']', searchBeg + 1);
if (objectEnd == string::npos)
return 0;
}
else
{
if (line[searchBeg] == '(')
{
searchBeg = line.find(')', searchBeg + 1);
if (searchBeg == string::npos)
return 0;
}
// bypass the object name
objectEnd = line.find_first_of(" \t", searchBeg + 1);
if (objectEnd == string::npos)
return 0;
--objectEnd;
}
size_t keyPos = line.find_first_not_of(" \t", objectEnd + 1);
if (keyPos == string::npos)
return 0;
return keyPos - firstText;
}
/**
* Get a line using the current space indent with all tabs replaced by spaces.
* The indentCount is NOT included
* Needed to compute an accurate alignment.
*/
string ASBeautifier::getIndentedSpaceEquivalent(const string& line_) const
{
string spaceIndent;
spaceIndent.append(spaceIndentCount, ' ');
string convertedLine = spaceIndent + line_;
for (size_t i = spaceIndent.length(); i < convertedLine.length(); i++)
{
if (convertedLine[i] == '\t')
{
size_t numSpaces = indentLength - (i % indentLength);
convertedLine.replace(i, 1, numSpaces, ' ');
i += indentLength - 1;
}
}
return convertedLine;
}
/**
* Parse the current line to update indentCount and spaceIndentCount.
*/
void ASBeautifier::parseCurrentLine(const string& line)
{
bool isInLineComment = false;
bool isInOperator = false;
bool isSpecialChar = false;
bool haveCaseIndent = false;
bool haveAssignmentThisLine = false;
bool closingBraceReached = false;
bool previousLineProbation = (probationHeader != nullptr);
char ch = ' ';
int tabIncrementIn = 0;
if (isInQuote
&& !haveLineContinuationChar
&& !isInVerbatimQuote
&& !isInAsm)
isInQuote = false; // missing closing quote
haveLineContinuationChar = false;
for (size_t i = 0; i < line.length(); i++)
{
ch = line[i];
if (isInBeautifySQL)
continue;
// handle special characters (i.e. backslash+character such as \n, \t, ...)
if (isInQuote && !isInVerbatimQuote)
{
if (isSpecialChar)
{
isSpecialChar = false;
continue;
}
if (line.compare(i, 2, "\\\\") == 0)
{
i++;
continue;
}
if (ch == '\\')
{
if (peekNextChar(line, i) == ' ') // is this '\' at end of line
haveLineContinuationChar = true;
else
isSpecialChar = true;
continue;
}
}
else if (isInDefine && ch == '\\')
continue;
// bypass whitespace here
if (isWhiteSpace(ch))
{
if (ch == '\t')
tabIncrementIn += convertTabToSpaces(i, tabIncrementIn);
continue;
}
// handle quotes (such as 'x' and "Hello Dolly")
if (!(isInComment || isInLineComment)
&& (ch == '"'
|| (ch == '\'' && !isDigitSeparator(line, i))))
{
if (!isInQuote)
{
quoteChar = ch;
isInQuote = true;
char prevCh = i > 0 ? line[i - 1] : ' ';
if (isCStyle() && prevCh == 'R')
{
int parenPos = line.find('(', i);
if (parenPos != -1)
{
isInVerbatimQuote = true;
verbatimDelimiter = line.substr(i + 1, parenPos - i - 1);
}
}
else if (isSharpStyle() && prevCh == '@')
isInVerbatimQuote = true;
// check for "C" following "extern"
else if (g_preprocessorCppExternCBrace == 2 && line.compare(i, 3, "\"C\"") == 0)
++g_preprocessorCppExternCBrace;
}
else if (isInVerbatimQuote && ch == '"')
{
if (isCStyle())
{
string delim = ')' + verbatimDelimiter;
int delimStart = i - delim.length();
if (delimStart > 0 && line.substr(delimStart, delim.length()) == delim)
{
isInQuote = false;
isInVerbatimQuote = false;
}
}
else if (isSharpStyle())
{
if (line.compare(i, 2, "\"\"") == 0)
i++;
else
{
isInQuote = false;
isInVerbatimQuote = false;
continue;
}
}
}
else if (quoteChar == ch)
{
isInQuote = false;
isContinuation = true;
continue;
}
}
if (isInQuote)
continue;
// handle comments
if (!(isInComment || isInLineComment) && line.compare(i, 2, "//") == 0)
{
// if there is a 'case' statement after these comments unindent by 1
if (isCaseHeaderCommentIndent)
--indentCount;
// isElseHeaderIndent is set by ASFormatter if shouldBreakElseIfs is requested
// if there is an 'else' after these comments a tempStacks indent is required
if (isElseHeaderIndent && lineOpensWithLineComment && !tempStacks->empty())
indentCount += adjustIndentCountForBreakElseIfComments();
isInLineComment = true;
i++;
continue;
}
else if (!(isInComment || isInLineComment) && line.compare(i, 2, "/*") == 0)
{
// if there is a 'case' statement after these comments unindent by 1
if (isCaseHeaderCommentIndent && lineOpensWithComment)
--indentCount;
// isElseHeaderIndent is set by ASFormatter if shouldBreakElseIfs is requested
// if there is an 'else' after these comments a tempStacks indent is required
if (isElseHeaderIndent && lineOpensWithComment && !tempStacks->empty())
indentCount += adjustIndentCountForBreakElseIfComments();
isInComment = true;
i++;
if (!lineOpensWithComment) // does line start with comment?
blockCommentNoIndent = true; // if no, cannot indent continuation lines
continue;
}
else if ((isInComment || isInLineComment) && line.compare(i, 2, "*/") == 0)
{
size_t firstText = line.find_first_not_of(" \t");
// if there is a 'case' statement after these comments unindent by 1
// only if the ending comment is the first entry on the line
if (isCaseHeaderCommentIndent && firstText == i)
--indentCount;
// if this comment close starts the line, must check for else-if indent
// isElseHeaderIndent is set by ASFormatter if shouldBreakElseIfs is requested
// if there is an 'else' after these comments a tempStacks indent is required
if (firstText == i)
{
if (isElseHeaderIndent && !lineOpensWithComment && !tempStacks->empty())
indentCount += adjustIndentCountForBreakElseIfComments();
}
isInComment = false;
i++;
blockCommentNoIndent = false; // OK to indent next comment
continue;
}
// treat indented preprocessor lines as a line comment
else if (line[0] == '#' && isIndentedPreprocessor(line, i))
{
isInLineComment = true;
}
if (isInLineComment)
{
// bypass rest of the comment up to the comment end
while (i + 1 < line.length())
i++;
continue;
}
if (isInComment)
{
// if there is a 'case' statement after these comments unindent by 1
if (!lineOpensWithComment && isCaseHeaderCommentIndent)
--indentCount;
// isElseHeaderIndent is set by ASFormatter if shouldBreakElseIfs is requested
// if there is an 'else' after these comments a tempStacks indent is required
if (!lineOpensWithComment && isElseHeaderIndent && !tempStacks->empty())
indentCount += adjustIndentCountForBreakElseIfComments();
// bypass rest of the comment up to the comment end
while (i + 1 < line.length()
&& line.compare(i + 1, 2, "*/") != 0)
i++;
continue;
}
// if we have reached this far then we are NOT in a comment or string of special character...
if (probationHeader != nullptr)
{
if ((probationHeader == &AS_STATIC && ch == '{')
|| (probationHeader == &AS_SYNCHRONIZED && ch == '('))
{
// insert the probation header as a new header
isInHeader = true;
headerStack->emplace_back(probationHeader);
// handle the specific probation header
isInConditional = (probationHeader == &AS_SYNCHRONIZED);
isContinuation = false;
// if the probation comes from the previous line, then indent by 1 tab count.
if (previousLineProbation
&& ch == '{'
&& !(blockIndent && probationHeader == &AS_STATIC))
{
++indentCount;
previousLineProbationTab = true;
}
previousLineProbation = false;
}
// dismiss the probation header
probationHeader = nullptr;
}
prevNonSpaceCh = currentNonSpaceCh;
currentNonSpaceCh = ch;
if (!isLegalNameChar(ch) && ch != ',' && ch != ';')
{
prevNonLegalCh = currentNonLegalCh;
currentNonLegalCh = ch;
}
if (isInHeader)
{
isInHeader = false;
currentHeader = headerStack->back();
}
else
currentHeader = nullptr;
if (isCStyle() && isInTemplate
&& (ch == '<' || ch == '>')
&& !(line.length() > i + 1 && line.compare(i, 2, ">=") == 0))
{
if (ch == '<')
{
++templateDepth;
continuationIndentStackSizeStack->push_back(continuationIndentStack->size());
registerContinuationIndent(line, i, spaceIndentCount, tabIncrementIn, 0, true);
}
else if (ch == '>')
{
popLastContinuationIndent();
if (--templateDepth <= 0)
{
ch = ';';
isInTemplate = false;
templateDepth = 0;
}
}
}
// handle parentheses
if (ch == '(' || ch == '[' || ch == ')' || ch == ']')
{
if (ch == '(' || ch == '[')
{
isInOperator = false;
// if have a struct header, this is a declaration not a definition
if (ch == '('
&& !headerStack->empty()
&& headerStack->back() == &AS_STRUCT)
{
headerStack->pop_back();
isInClassHeader = false;
if (line.find(AS_STRUCT, 0) > i) // if not on this line
indentCount -= classInitializerIndents;
if (indentCount < 0)
indentCount = 0;
}
if (parenDepth == 0)
{
parenStatementStack->push_back(isContinuation);
isContinuation = true;
}
parenDepth++;
if (ch == '[')
{
++squareBracketCount;
if (squareBracketCount == 1 && isCStyle())
{
isInObjCMethodCall = true;
isInObjCMethodCallFirst = true;
}
}
continuationIndentStackSizeStack->push_back(continuationIndentStack->size());
if (currentHeader != nullptr)
registerContinuationIndent(line, i, spaceIndentCount, tabIncrementIn, minConditionalIndent, true);
else
registerContinuationIndent(line, i, spaceIndentCount, tabIncrementIn, 0, true);
}
else if (ch == ')' || ch == ']')
{
if (ch == ']')
--squareBracketCount;
if (squareBracketCount <= 0)
{
squareBracketCount = 0;
if (isInObjCMethodCall)
isImmediatelyPostObjCMethodCall = true;
}
foundPreCommandHeader = false;
parenDepth--;
if (parenDepth == 0)
{
if (!parenStatementStack->empty()) // in case of unmatched closing parens
{
isContinuation = parenStatementStack->back();
parenStatementStack->pop_back();
}
isInAsm = false;
isInConditional = false;
}
if (!continuationIndentStackSizeStack->empty())
{
popLastContinuationIndent();
if (!parenIndentStack->empty())
{
int poppedIndent = parenIndentStack->back();
parenIndentStack->pop_back();
if (i == 0)
spaceIndentCount = poppedIndent;
}
}
}
continue;
}
if (ch == '{')
{
// first, check if '{' is a block-opener or a static-array opener
bool isBlockOpener = ((prevNonSpaceCh == '{' && braceBlockStateStack->back())
|| prevNonSpaceCh == '}'
|| prevNonSpaceCh == ')'
|| prevNonSpaceCh == ';'
|| peekNextChar(line, i) == '{'
|| foundPreCommandHeader
|| foundPreCommandMacro
|| isInClassHeader
|| (isInClassInitializer && !isLegalNameChar(prevNonSpaceCh))
|| isNonInStatementArray
|| isInObjCMethodDefinition
|| isInObjCInterface
|| isSharpAccessor
|| isSharpDelegate
|| isInExternC
|| isInAsmBlock
|| getNextWord(line, i) == AS_NEW
|| (isInDefine
&& (prevNonSpaceCh == '('
|| isLegalNameChar(prevNonSpaceCh))));
if (isInObjCMethodDefinition)
{
objCColonAlignSubsequent = 0;
isImmediatelyPostObjCMethodDefinition = true;
if (lineBeginsWithOpenBrace) // for run-in braces
clearObjCMethodDefinitionAlignment();
}
if (!isBlockOpener && !isContinuation && !isInClassInitializer && !isInEnum)
{
if (headerStack->empty())
isBlockOpener = true;
else if (headerStack->back() == &AS_OPEN_BRACE
&& headerStack->size() >= 2)
{
if ((*headerStack)[headerStack->size() - 2] == &AS_NAMESPACE
|| (*headerStack)[headerStack->size() - 2] == &AS_MODULE
|| (*headerStack)[headerStack->size() - 2] == &AS_CLASS
|| (*headerStack)[headerStack->size() - 2] == &AS_INTERFACE
|| (*headerStack)[headerStack->size() - 2] == &AS_STRUCT
|| (*headerStack)[headerStack->size() - 2] == &AS_UNION)
isBlockOpener = true;
}
else if (headerStack->back() == &AS_NAMESPACE
|| headerStack->back() == &AS_MODULE
|| headerStack->back() == &AS_CLASS
|| headerStack->back() == &AS_INTERFACE
|| headerStack->back() == &AS_STRUCT
|| headerStack->back() == &AS_UNION)
isBlockOpener = true;
}
if (!isBlockOpener && currentHeader != nullptr)
{
for (size_t n = 0; n < nonParenHeaders->size(); n++)
if (currentHeader == (*nonParenHeaders)[n])
{
isBlockOpener = true;
break;
}
}
braceBlockStateStack->push_back(isBlockOpener);
if (!isBlockOpener)
{
continuationIndentStackSizeStack->push_back(continuationIndentStack->size());
registerContinuationIndent(line, i, spaceIndentCount, tabIncrementIn, 0, true);
parenDepth++;
if (i == 0)
shouldIndentBracedLine = false;
isInEnumTypeID = false;
continue;
}
// this brace is a block opener...
++lineOpeningBlocksNum;
if (isInClassInitializer || isInEnumTypeID)
{
// decrease tab count if brace is broken
if (lineBeginsWithOpenBrace)
{
indentCount -= classInitializerIndents;
// decrease one more if an empty class
if (!headerStack->empty()
&& (*headerStack).back() == &AS_CLASS)
{
int nextChar = getNextProgramCharDistance(line, i);
if ((int) line.length() > nextChar && line[nextChar] == '}')
--indentCount;
}
}
}
if (isInObjCInterface)
{
isInObjCInterface = false;
if (lineBeginsWithOpenBrace)
--indentCount;
}
if (braceIndent && !namespaceIndent && !headerStack->empty()
&& ((*headerStack).back() == &AS_NAMESPACE
|| (*headerStack).back() == &AS_MODULE))
{
shouldIndentBracedLine = false;
--indentCount;
}
// an indentable struct is treated like a class in the header stack
if (!headerStack->empty()
&& (*headerStack).back() == &AS_STRUCT
&& isInIndentableStruct)
(*headerStack).back() = &AS_CLASS;
squareBracketDepthStack->emplace_back(parenDepth);
blockStatementStack->push_back(isContinuation);
if (!continuationIndentStack->empty())
{
// completely purge the inStatementIndentStack
while (!continuationIndentStack->empty())
popLastContinuationIndent();
if (isInClassInitializer || isInClassHeaderTab)
{
if (lineBeginsWithOpenBrace || lineBeginsWithComma)
spaceIndentCount = 0;
}
else
spaceIndentCount = 0;
}
blockTabCount += (isContinuation ? 1 : 0);
if (g_preprocessorCppExternCBrace == 3)
++g_preprocessorCppExternCBrace;
parenDepth = 0;
isInClassHeader = false;
isInClassHeaderTab = false;
isInClassInitializer = false;
isInEnumTypeID = false;
isContinuation = false;
isInQuestion = false;
isInLet = false;
foundPreCommandHeader = false;
foundPreCommandMacro = false;
isInExternC = false;
tempStacks->emplace_back(new vector<const string*>);
headerStack->emplace_back(&AS_OPEN_BRACE);
lastLineHeader = &AS_OPEN_BRACE;
continue;
} // end '{'
//check if a header has been reached
bool isPotentialHeader = isCharPotentialHeader(line, i);
if (isPotentialHeader && squareBracketCount == 0)
{
const string* newHeader = findHeader(line, i, headers);
// Qt headers may be variables in C++
if (isCStyle()
&& (newHeader == &AS_FOREVER || newHeader == &AS_FOREACH))
{
if (line.find_first_of("=;", i) != string::npos)
newHeader = nullptr;
}
else if (newHeader == &AS_USING
&& ASBeautifier::peekNextChar(line, i + (*newHeader).length() - 1) != '(')
newHeader = nullptr;
if (newHeader != nullptr)
{
// if we reached here, then this is a header...
bool isIndentableHeader = true;
isInHeader = true;
vector<const string*>* lastTempStack = nullptr;;
if (!tempStacks->empty())
lastTempStack = tempStacks->back();
// if a new block is opened, push a new stack into tempStacks to hold the
// future list of headers in the new block.
// take care of the special case: 'else if (...)'
if (newHeader == &AS_IF && lastLineHeader == &AS_ELSE)
{
headerStack->pop_back();
}
// take care of 'else'
else if (newHeader == &AS_ELSE)
{
if (lastTempStack != nullptr)
{
int indexOfIf = indexOf(*lastTempStack, &AS_IF);
if (indexOfIf != -1)
{
// recreate the header list in headerStack up to the previous 'if'
// from the temporary snapshot stored in lastTempStack.
int restackSize = lastTempStack->size() - indexOfIf - 1;
for (int r = 0; r < restackSize; r++)
{
headerStack->emplace_back(lastTempStack->back());
lastTempStack->pop_back();
}
if (!closingBraceReached)
indentCount += restackSize;
}
/*
* If the above if is not true, i.e. no 'if' before the 'else',
* then nothing beautiful will come out of this...
* I should think about inserting an Exception here to notify the caller of this...
*/
}
}
// check if 'while' closes a previous 'do'
else if (newHeader == &AS_WHILE)
{
if (lastTempStack != nullptr)
{
int indexOfDo = indexOf(*lastTempStack, &AS_DO);
if (indexOfDo != -1)
{
// recreate the header list in headerStack up to the previous 'do'
// from the temporary snapshot stored in lastTempStack.
int restackSize = lastTempStack->size() - indexOfDo - 1;
for (int r = 0; r < restackSize; r++)
{
headerStack->emplace_back(lastTempStack->back());
lastTempStack->pop_back();
}
if (!closingBraceReached)
indentCount += restackSize;
}
}
}
// check if 'catch' closes a previous 'try' or 'catch'
else if (newHeader == &AS_CATCH || newHeader == &AS_FINALLY)
{
if (lastTempStack != nullptr)
{
int indexOfTry = indexOf(*lastTempStack, &AS_TRY);
if (indexOfTry == -1)
indexOfTry = indexOf(*lastTempStack, &AS_CATCH);
if (indexOfTry != -1)
{
// recreate the header list in headerStack up to the previous 'try'
// from the temporary snapshot stored in lastTempStack.
int restackSize = lastTempStack->size() - indexOfTry - 1;
for (int r = 0; r < restackSize; r++)
{
headerStack->emplace_back(lastTempStack->back());
lastTempStack->pop_back();
}
if (!closingBraceReached)
indentCount += restackSize;
}
}
}
else if (newHeader == &AS_CASE)
{
isInCase = true;
if (!haveCaseIndent)
{
haveCaseIndent = true;
if (!lineBeginsWithOpenBrace)
--indentCount;
}
}
else if (newHeader == &AS_DEFAULT)
{
isInCase = true;
--indentCount;
}
else if (newHeader == &AS_STATIC
|| newHeader == &AS_SYNCHRONIZED)
{
if (!headerStack->empty()
&& (headerStack->back() == &AS_STATIC
|| headerStack->back() == &AS_SYNCHRONIZED))
{
isIndentableHeader = false;
}
else
{
isIndentableHeader = false;
probationHeader = newHeader;
}
}
else if (newHeader == &AS_TEMPLATE)
{
isInTemplate = true;
isIndentableHeader = false;
}
if (isIndentableHeader)
{
headerStack->emplace_back(newHeader);
isContinuation = false;
if (indexOf(*nonParenHeaders, newHeader) == -1)
{
isInConditional = true;
}
lastLineHeader = newHeader;
}
else
isInHeader = false;
i += newHeader->length() - 1;
continue;
} // newHeader != nullptr
if (findHeader(line, i, preCommandHeaders) != nullptr)
foundPreCommandHeader = true;
// Objective-C NSException macros are preCommandHeaders
if (isCStyle() && findKeyword(line, i, AS_NS_DURING))
foundPreCommandMacro = true;
if (isCStyle() && findKeyword(line, i, AS_NS_HANDLER))
foundPreCommandMacro = true;
if (parenDepth == 0 && findKeyword(line, i, AS_ENUM))
isInEnum = true;
if (isSharpStyle() && findKeyword(line, i, AS_LET))
isInLet = true;
} // isPotentialHeader
if (ch == '?')
isInQuestion = true;
// special handling of colons
if (ch == ':')
{
if (line.length() > i + 1 && line[i + 1] == ':') // look for ::
{
++i;
continue;
}
else if (isInQuestion)
{
// do nothing special
}
else if (parenDepth > 0)
{
// found a 'for' loop or an objective-C statement
// so do nothing special
}
else if (isInEnum)
{
// found an enum with a base-type
isInEnumTypeID = true;
if (i == 0)
indentCount += classInitializerIndents;
}
else if (isCStyle()
&& !isInCase
&& (prevNonSpaceCh == ')' || foundPreCommandHeader))
{
// found a 'class' c'tor initializer
isInClassInitializer = true;
registerContinuationIndentColon(line, i, tabIncrementIn);
if (i == 0)
indentCount += classInitializerIndents;
}
else if (isInClassHeader || isInObjCInterface)
{
// is in a 'class A : public B' definition
isInClassHeaderTab = true;
registerContinuationIndentColon(line, i, tabIncrementIn);
}
else if (isInAsm || isInAsmOneLine || isInAsmBlock)
{
// do nothing special
}
else if (isDigit(peekNextChar(line, i)))
{
// found a bit field - do nothing special
}
else if (isCStyle() && isInClass && prevNonSpaceCh != ')')
{
// found a 'private:' or 'public:' inside a class definition
--indentCount;
if (modifierIndent)
spaceIndentCount += (indentLength / 2);
}
else if (isCStyle() && !isInClass
&& headerStack->size() >= 2
&& (*headerStack)[headerStack->size() - 2] == &AS_CLASS
&& (*headerStack)[headerStack->size() - 1] == &AS_OPEN_BRACE)
{
// found a 'private:' or 'public:' inside a class definition
// and on the same line as the class opening brace
// do nothing
}
else if (isJavaStyle() && lastLineHeader == &AS_FOR)
{
// found a java for-each statement
// so do nothing special
}
else
{
currentNonSpaceCh = ';'; // so that braces after the ':' will appear as block-openers
char peekedChar = peekNextChar(line, i);
if (isInCase)
{
isInCase = false;
ch = ';'; // from here on, treat char as ';'
}
else if (isCStyle() || (isSharpStyle() && peekedChar == ';'))
{
// is in a label (e.g. 'label1:')
if (labelIndent)
--indentCount; // unindent label by one indent
else if (!lineBeginsWithOpenBrace)
indentCount = 0; // completely flush indent to left
}
}
}
if ((ch == ';' || (parenDepth > 0 && ch == ',')) && !continuationIndentStackSizeStack->empty())
while ((int) continuationIndentStackSizeStack->back() + (parenDepth > 0 ? 1 : 0)
< (int) continuationIndentStack->size())
continuationIndentStack->pop_back();
else if (ch == ',' && isInEnum && isNonInStatementArray && !continuationIndentStack->empty())
continuationIndentStack->pop_back();
// handle commas
// previous "isInStatement" will be from an assignment operator or class initializer
if (ch == ',' && parenDepth == 0 && !isContinuation && !isNonInStatementArray)
{
// is comma at end of line
size_t nextChar = line.find_first_not_of(" \t", i + 1);
if (nextChar != string::npos)
{
if (line.compare(nextChar, 2, "//") == 0
|| line.compare(nextChar, 2, "/*") == 0)
nextChar = string::npos;
}
// register indent
if (nextChar == string::npos)
{
// register indent at previous word
if (isJavaStyle() && isInClassHeader)
{
// do nothing for now
}
// register indent at second word on the line
else if (!isInTemplate && !isInClassHeaderTab && !isInClassInitializer)
{
int prevWord = getContinuationIndentComma(line, i);
int continuationIndentCount = prevWord + spaceIndentCount + tabIncrementIn;
continuationIndentStack->emplace_back(continuationIndentCount);
isContinuation = true;
}
}
}
// handle comma first initializers
if (ch == ',' && parenDepth == 0 && lineBeginsWithComma
&& (isInClassInitializer || isInClassHeaderTab))
spaceIndentCount = 0;
// handle ends of statements
if ((ch == ';' && parenDepth == 0) || ch == '}')
{
if (ch == '}')
{
// first check if this '}' closes a previous block, or a static array...
if (braceBlockStateStack->size() > 1)
{
bool braceBlockState = braceBlockStateStack->back();
braceBlockStateStack->pop_back();
if (!braceBlockState)
{
if (!continuationIndentStackSizeStack->empty())
{
// this brace is a static array
popLastContinuationIndent();
parenDepth--;
if (i == 0)
shouldIndentBracedLine = false;
if (!parenIndentStack->empty())
{
int poppedIndent = parenIndentStack->back();
parenIndentStack->pop_back();
if (i == 0)
spaceIndentCount = poppedIndent;
}
}
continue;
}
}
// this brace is block closer...
++lineClosingBlocksNum;
if (!continuationIndentStackSizeStack->empty())
popLastContinuationIndent();
if (!squareBracketDepthStack->empty())
{
parenDepth = squareBracketDepthStack->back();
squareBracketDepthStack->pop_back();
isContinuation = blockStatementStack->back();
blockStatementStack->pop_back();
if (isContinuation)
blockTabCount--;
}
closingBraceReached = true;
if (i == 0)
spaceIndentCount = 0;
isInAsmBlock = false;
isInAsm = isInAsmOneLine = isInQuote = false; // close these just in case
int headerPlace = indexOf(*headerStack, &AS_OPEN_BRACE);
if (headerPlace != -1)
{
const string* popped = headerStack->back();
while (popped != &AS_OPEN_BRACE)
{
headerStack->pop_back();
popped = headerStack->back();
}
headerStack->pop_back();
if (headerStack->empty())
g_preprocessorCppExternCBrace = 0;
// do not indent namespace brace unless namespaces are indented
if (!namespaceIndent && !headerStack->empty()
&& ((*headerStack).back() == &AS_NAMESPACE
|| (*headerStack).back() == &AS_MODULE)
&& i == 0) // must be the first brace on the line
shouldIndentBracedLine = false;
if (!tempStacks->empty())
{
vector<const string*>* temp = tempStacks->back();
tempStacks->pop_back();
delete temp;
}
}
ch = ' '; // needed due to cases such as '}else{', so that headers ('else' in this case) will be identified...
} // ch == '}'
/*
* Create a temporary snapshot of the current block's header-list in the
* uppermost inner stack in tempStacks, and clear the headerStack up to
* the beginning of the block.
* Thus, the next future statement will think it comes one indent past
* the block's '{' unless it specifically checks for a companion-header
* (such as a previous 'if' for an 'else' header) within the tempStacks,
* and recreates the temporary snapshot by manipulating the tempStacks.
*/
if (!tempStacks->back()->empty())
while (!tempStacks->back()->empty())
tempStacks->back()->pop_back();
while (!headerStack->empty() && headerStack->back() != &AS_OPEN_BRACE)
{
tempStacks->back()->emplace_back(headerStack->back());
headerStack->pop_back();
}
if (parenDepth == 0 && ch == ';')
isContinuation = false;
if (isInObjCMethodDefinition)
{
objCColonAlignSubsequent = 0;
isImmediatelyPostObjCMethodDefinition = true;
}
previousLastLineHeader = nullptr;
isInClassHeader = false; // for 'friend' class
isInEnum = false;
isInEnumTypeID = false;
isInQuestion = false;
isInTemplate = false;
isInObjCInterface = false;
foundPreCommandHeader = false;
foundPreCommandMacro = false;
squareBracketCount = 0;
continue;
}
if (isPotentialHeader)
{
// check for preBlockStatements in C/C++ ONLY if not within parentheses
// (otherwise 'struct XXX' statements would be wrongly interpreted...)
if (!isInTemplate && !(isCStyle() && parenDepth > 0))
{
const string* newHeader = findHeader(line, i, preBlockStatements);
// handle CORBA IDL module
if (newHeader == &AS_MODULE)
{
char nextChar = peekNextChar(line, i + newHeader->length() - 1);
if (prevNonSpaceCh == ')' || !isalpha(nextChar))
newHeader = nullptr;
}
if (newHeader != nullptr
&& !(isCStyle() && newHeader == &AS_CLASS && isInEnum)) // is not 'enum class'
{
if (!isSharpStyle())
headerStack->emplace_back(newHeader);
// do not need 'where' in the headerStack
// do not need second 'class' statement in a row
else if (!(newHeader == &AS_WHERE
|| ((newHeader == &AS_CLASS || newHeader == &AS_STRUCT)
&& !headerStack->empty()
&& (headerStack->back() == &AS_CLASS
|| headerStack->back() == &AS_STRUCT))))
headerStack->emplace_back(newHeader);
if (!headerStack->empty())
{
if ((*headerStack).back() == &AS_CLASS
|| (*headerStack).back() == &AS_STRUCT
|| (*headerStack).back() == &AS_INTERFACE)
{
isInClassHeader = true;
}
else if ((*headerStack).back() == &AS_NAMESPACE
|| (*headerStack).back() == &AS_MODULE)
{
// remove continuationIndent from namespace
if (!continuationIndentStack->empty())
continuationIndentStack->pop_back();
isContinuation = false;
}
}
i += newHeader->length() - 1;
continue;
}
}
const string* foundIndentableHeader = findHeader(line, i, indentableHeaders);
if (foundIndentableHeader != nullptr)
{
// must bypass the header before registering the in statement
i += foundIndentableHeader->length() - 1;
if (!isInOperator && !isInTemplate && !isNonInStatementArray)
{
registerContinuationIndent(line, i, spaceIndentCount, tabIncrementIn, 0, false);
isContinuation = true;
}
continue;
}
if (isCStyle() && findKeyword(line, i, AS_OPERATOR))
isInOperator = true;
if (g_preprocessorCppExternCBrace == 1 && findKeyword(line, i, AS_EXTERN))
++g_preprocessorCppExternCBrace;
if (g_preprocessorCppExternCBrace == 3) // extern "C" is not followed by a '{'
g_preprocessorCppExternCBrace = 0;
// "new" operator is a pointer, not a calculation
if (findKeyword(line, i, AS_NEW))
{
if (isContinuation && !continuationIndentStack->empty() && prevNonSpaceCh == '=')
continuationIndentStack->back() = 0;
}
if (isCStyle())
{
if (findKeyword(line, i, AS_ASM)
|| findKeyword(line, i, AS__ASM__))
{
isInAsm = true;
}
else if (findKeyword(line, i, AS_MS_ASM) // microsoft specific
|| findKeyword(line, i, AS_MS__ASM))
{
int index = 4;
if (peekNextChar(line, i) == '_') // check for __asm
index = 5;
char peekedChar = peekNextChar(line, i + index);
if (peekedChar == '{' || peekedChar == ' ')
isInAsmBlock = true;
else
isInAsmOneLine = true;
}
}
// bypass the entire name for all others
string name = getCurrentWord(line, i);
i += name.length() - 1;
continue;
}
// Handle Objective-C statements
if (ch == '@' && !isWhiteSpace(line[i + 1])
&& isCharPotentialHeader(line, i + 1))
{
string curWord = getCurrentWord(line, i + 1);
if (curWord == AS_INTERFACE && headerStack->empty())
{
isInObjCInterface = true;
string name = '@' + curWord;
i += name.length() - 1;
continue;
}
else if (isInObjCInterface)
{
--indentCount;
isInObjCInterface = false;
}
if (curWord == AS_PUBLIC
|| curWord == AS_PRIVATE
|| curWord == AS_PROTECTED)
{
--indentCount;
if (modifierIndent)
spaceIndentCount += (indentLength / 2);
string name = '@' + curWord;
i += name.length() - 1;
continue;
}
else if (curWord == AS_END)
{
popLastContinuationIndent();
spaceIndentCount = 0;
isInObjCMethodDefinition = false;
string name = '@' + curWord;
i += name.length() - 1;
continue;
}
}
else if ((ch == '-' || ch == '+')
&& peekNextChar(line, i) == '('
&& headerStack->empty()
&& line.find_first_not_of(" \t") == i)
{
if (isInObjCInterface)
--indentCount;
isInObjCInterface = false;
isInObjCMethodDefinition = true;
continue;
}
// Handle operators
bool isPotentialOperator = isCharPotentialOperator(ch);
if (isPotentialOperator)
{
// Check if an operator has been reached.
const string* foundAssignmentOp = findOperator(line, i, assignmentOperators);
const string* foundNonAssignmentOp = findOperator(line, i, nonAssignmentOperators);
if (foundNonAssignmentOp != nullptr)
{
if (foundNonAssignmentOp == &AS_LAMBDA)
foundPreCommandHeader = true;
if (isInTemplate && foundNonAssignmentOp == &AS_GR_GR)
foundNonAssignmentOp = nullptr;
}
// Since findHeader's boundary checking was not used above, it is possible
// that both an assignment op and a non-assignment op where found,
// e.g. '>>' and '>>='. If this is the case, treat the LONGER one as the
// found operator.
if (foundAssignmentOp != nullptr && foundNonAssignmentOp != nullptr)
{
if (foundAssignmentOp->length() < foundNonAssignmentOp->length())
foundAssignmentOp = nullptr;
else
foundNonAssignmentOp = nullptr;
}
if (foundNonAssignmentOp != nullptr)
{
if (foundNonAssignmentOp->length() > 1)
i += foundNonAssignmentOp->length() - 1;
// For C++ input/output, operator<< and >> should be
// aligned, if we are not in a statement already and
// also not in the "operator<<(...)" header line
if (!isInOperator
&& continuationIndentStack->empty()
&& isCStyle()
&& (foundNonAssignmentOp == &AS_GR_GR
|| foundNonAssignmentOp == &AS_LS_LS))
{
// this will be true if the line begins with the operator
if (i < 2 && spaceIndentCount == 0)
spaceIndentCount += 2 * indentLength;
// align to the beginning column of the operator
registerContinuationIndent(line, i - foundNonAssignmentOp->length(), spaceIndentCount, tabIncrementIn, 0, false);
}
}
else if (foundAssignmentOp != nullptr)
{
foundPreCommandHeader = false; // clears this for array assignments
foundPreCommandMacro = false;
if (foundAssignmentOp->length() > 1)
i += foundAssignmentOp->length() - 1;
if (!isInOperator && !isInTemplate && (!isNonInStatementArray || isInEnum))
{
// if multiple assignments, align on the previous word
if (foundAssignmentOp == &AS_ASSIGN
&& prevNonSpaceCh != ']' // an array
&& statementEndsWithComma(line, i))
{
if (!haveAssignmentThisLine) // only one assignment indent per line
{
// register indent at previous word
haveAssignmentThisLine = true;
int prevWordIndex = getContinuationIndentAssign(line, i);
int continuationIndentCount = prevWordIndex + spaceIndentCount + tabIncrementIn;
continuationIndentStack->emplace_back(continuationIndentCount);
isContinuation = true;
}
}
// don't indent an assignment if 'let'
else if (isInLet)
{
isInLet = false;
}
else if (!lineBeginsWithComma)
{
if (i == 0 && spaceIndentCount == 0)
spaceIndentCount += indentLength;
registerContinuationIndent(line, i, spaceIndentCount, tabIncrementIn, 0, false);
isContinuation = true;
}
}
}
}
} // end of for loop * end of for loop * end of for loop * end of for loop * end of for loop *
}
} // end namespace astyle