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|
// Copyright (C) 2021 The Qt Company Ltd.
// SPDX-License-Identifier: LicenseRef-Qt-Commercial OR LGPL-3.0-only OR GPL-2.0-only OR GPL-3.0-only
#include "clangcodeparser.h"
#include "access.h"
#include "classnode.h"
#include "codechunk.h"
#include "config.h"
#include "enumnode.h"
#include "functionnode.h"
#include "namespacenode.h"
#include "propertynode.h"
#include "qdocdatabase.h"
#include "typedefnode.h"
#include "utilities.h"
#include "variablenode.h"
#include <QtCore/qdebug.h>
#include <QtCore/qelapsedtimer.h>
#include <QtCore/qfile.h>
#include <QtCore/qscopedvaluerollback.h>
#include <QtCore/qtemporarydir.h>
#include <QtCore/qtextstream.h>
#include <QtCore/qvarlengtharray.h>
#include <clang-c/Index.h>
#include <cstdio>
QT_BEGIN_NAMESPACE
// We're printing diagnostics in ClangCodeParser::printDiagnostics,
// so avoid clang itself printing them.
static const auto kClangDontDisplayDiagnostics = 0;
static CXTranslationUnit_Flags flags_ = static_cast<CXTranslationUnit_Flags>(0);
static CXIndex index_ = nullptr;
QByteArray ClangCodeParser::s_fn;
constexpr const char fnDummyFileName[] = "/fn_dummyfile.cpp";
#ifndef QT_NO_DEBUG_STREAM
template<class T>
static QDebug operator<<(QDebug debug, const std::vector<T> &v)
{
QDebugStateSaver saver(debug);
debug.noquote();
debug.nospace();
const size_t size = v.size();
debug << "std::vector<>[" << size << "](";
for (size_t i = 0; i < size; ++i) {
if (i)
debug << ", ";
debug << v[i];
}
debug << ')';
return debug;
}
#endif // !QT_NO_DEBUG_STREAM
/*!
Call clang_visitChildren on the given cursor with the lambda as a callback
T can be any functor that is callable with a CXCursor parameter and returns a CXChildVisitResult
(in other word compatible with function<CXChildVisitResult(CXCursor)>
*/
template<typename T>
bool visitChildrenLambda(CXCursor cursor, T &&lambda)
{
CXCursorVisitor visitor = [](CXCursor c, CXCursor,
CXClientData client_data) -> CXChildVisitResult {
return (*static_cast<T *>(client_data))(c);
};
return clang_visitChildren(cursor, visitor, &lambda);
}
/*!
convert a CXString to a QString, and dispose the CXString
*/
static QString fromCXString(CXString &&string)
{
QString ret = QString::fromUtf8(clang_getCString(string));
clang_disposeString(string);
return ret;
}
static QString templateDecl(CXCursor cursor);
/*!
Returns a list of template parameters at \a cursor.
*/
static QStringList getTemplateParameters(CXCursor cursor)
{
QStringList parameters;
visitChildrenLambda(cursor, [¶meters](CXCursor cur) {
QString name = fromCXString(clang_getCursorSpelling(cur));
QString type;
switch (clang_getCursorKind(cur)) {
case CXCursor_TemplateTypeParameter:
type = QStringLiteral("typename");
break;
case CXCursor_NonTypeTemplateParameter:
type = fromCXString(clang_getTypeSpelling(clang_getCursorType(cur)));
// Hack: Omit QtPrivate template parameters from public documentation
if (type.startsWith(QLatin1String("QtPrivate")))
return CXChildVisit_Continue;
break;
case CXCursor_TemplateTemplateParameter:
type = templateDecl(cur) + QLatin1String(" class");
break;
default:
return CXChildVisit_Continue;
}
if (!name.isEmpty())
name.prepend(QLatin1Char(' '));
parameters << type + name;
return CXChildVisit_Continue;
});
return parameters;
}
/*!
Gets the template declaration at specified \a cursor.
*/
static QString templateDecl(CXCursor cursor)
{
QStringList params = getTemplateParameters(cursor);
return QLatin1String("template <") + params.join(QLatin1String(", ")) + QLatin1Char('>');
}
/*!
convert a CXSourceLocation to a qdoc Location
*/
static Location fromCXSourceLocation(CXSourceLocation location)
{
unsigned int line, column;
CXString file;
clang_getPresumedLocation(location, &file, &line, &column);
Location l(fromCXString(std::move(file)));
l.setColumnNo(column);
l.setLineNo(line);
return l;
}
/*!
convert a CX_CXXAccessSpecifier to Node::Access
*/
static Access fromCX_CXXAccessSpecifier(CX_CXXAccessSpecifier spec)
{
switch (spec) {
case CX_CXXPrivate:
return Access::Private;
case CX_CXXProtected:
return Access::Protected;
case CX_CXXPublic:
return Access::Public;
default:
return Access::Public;
}
}
/*!
Returns the spelling in the file for a source range
*/
struct FileCacheEntry
{
QByteArray fileName;
QByteArray content;
};
static inline QString fromCache(const QByteArray &cache,
unsigned int offset1, unsigned int offset2)
{
return QString::fromUtf8(cache.mid(offset1, offset2 - offset1));
}
static QString readFile(CXFile cxFile, unsigned int offset1, unsigned int offset2)
{
using FileCache = QList<FileCacheEntry>;
static FileCache cache;
CXString cxFileName = clang_getFileName(cxFile);
const QByteArray fileName = clang_getCString(cxFileName);
clang_disposeString(cxFileName);
for (const auto &entry : std::as_const(cache)) {
if (fileName == entry.fileName)
return fromCache(entry.content, offset1, offset2);
}
// "fn_dummyfile.cpp" comes with varying cxFile values
if (fileName == fnDummyFileName)
return fromCache(ClangCodeParser::fn(), offset1, offset2);
QFile file(QString::fromUtf8(fileName));
if (file.open(QIODeviceBase::ReadOnly)) { // binary to match clang offsets
FileCacheEntry entry{fileName, file.readAll()};
cache.prepend(entry);
while (cache.size() > 5)
cache.removeLast();
return fromCache(entry.content, offset1, offset2);
}
return {};
}
static QString getSpelling(CXSourceRange range)
{
auto start = clang_getRangeStart(range);
auto end = clang_getRangeEnd(range);
CXFile file1, file2;
unsigned int offset1, offset2;
clang_getFileLocation(start, &file1, nullptr, nullptr, &offset1);
clang_getFileLocation(end, &file2, nullptr, nullptr, &offset2);
if (file1 != file2 || offset2 <= offset1)
return QString();
return readFile(file1, offset1, offset2);
}
/*!
Returns the function name from a given cursor representing a
function declaration. This is usually clang_getCursorSpelling, but
not for the conversion function in which case it is a bit more complicated
*/
QString functionName(CXCursor cursor)
{
if (clang_getCursorKind(cursor) == CXCursor_ConversionFunction) {
// For a CXCursor_ConversionFunction we don't want the spelling which would be something
// like "operator type-parameter-0-0" or "operator unsigned int". we want the actual name as
// spelled;
QString type = fromCXString(clang_getTypeSpelling(clang_getCursorResultType(cursor)));
if (type.isEmpty())
return fromCXString(clang_getCursorSpelling(cursor));
return QLatin1String("operator ") + type;
}
QString name = fromCXString(clang_getCursorSpelling(cursor));
// Remove template stuff from constructor and destructor but not from operator<
auto ltLoc = name.indexOf('<');
if (ltLoc > 0 && !name.startsWith("operator<"))
name = name.left(ltLoc);
return name;
}
/*!
Reconstruct the qualified path name of a function that is
being overridden.
*/
static QString reconstructQualifiedPathForCursor(CXCursor cur)
{
QString path;
auto kind = clang_getCursorKind(cur);
while (!clang_isInvalid(kind) && kind != CXCursor_TranslationUnit) {
switch (kind) {
case CXCursor_Namespace:
case CXCursor_StructDecl:
case CXCursor_ClassDecl:
case CXCursor_UnionDecl:
case CXCursor_ClassTemplate:
path.prepend("::");
path.prepend(fromCXString(clang_getCursorSpelling(cur)));
break;
case CXCursor_FunctionDecl:
case CXCursor_FunctionTemplate:
case CXCursor_CXXMethod:
case CXCursor_Constructor:
case CXCursor_Destructor:
case CXCursor_ConversionFunction:
path = functionName(cur);
break;
default:
break;
}
cur = clang_getCursorSemanticParent(cur);
kind = clang_getCursorKind(cur);
}
return path;
}
/*!
Find the node from the QDocDatabase \a qdb that corrseponds to the declaration
represented by the cursor \a cur, if it exists.
*/
static Node *findNodeForCursor(QDocDatabase *qdb, CXCursor cur)
{
auto kind = clang_getCursorKind(cur);
if (clang_isInvalid(kind))
return nullptr;
if (kind == CXCursor_TranslationUnit)
return qdb->primaryTreeRoot();
Node *p = findNodeForCursor(qdb, clang_getCursorSemanticParent(cur));
if (p == nullptr)
return nullptr;
if (!p->isAggregate())
return nullptr;
auto parent = static_cast<Aggregate *>(p);
QString name = fromCXString(clang_getCursorSpelling(cur));
switch (kind) {
case CXCursor_Namespace:
return parent->findNonfunctionChild(name, &Node::isNamespace);
case CXCursor_StructDecl:
case CXCursor_ClassDecl:
case CXCursor_UnionDecl:
case CXCursor_ClassTemplate:
return parent->findNonfunctionChild(name, &Node::isClassNode);
case CXCursor_FunctionDecl:
case CXCursor_FunctionTemplate:
case CXCursor_CXXMethod:
case CXCursor_Constructor:
case CXCursor_Destructor:
case CXCursor_ConversionFunction: {
NodeVector candidates;
parent->findChildren(functionName(cur), candidates);
if (candidates.isEmpty())
return nullptr;
CXType funcType = clang_getCursorType(cur);
auto numArg = clang_getNumArgTypes(funcType);
bool isVariadic = clang_isFunctionTypeVariadic(funcType);
QVarLengthArray<QString, 20> args;
for (Node *candidate : std::as_const(candidates)) {
if (!candidate->isFunction(Node::CPP))
continue;
auto fn = static_cast<FunctionNode *>(candidate);
const Parameters ¶meters = fn->parameters();
if (parameters.count() != numArg + isVariadic)
continue;
if (fn->isConst() != bool(clang_CXXMethod_isConst(cur)))
continue;
if (isVariadic && parameters.last().type() != QLatin1String("..."))
continue;
if (fn->isRef() != (clang_Type_getCXXRefQualifier(funcType) == CXRefQualifier_LValue))
continue;
if (fn->isRefRef() != (clang_Type_getCXXRefQualifier(funcType) == CXRefQualifier_RValue))
continue;
bool different = false;
for (int i = 0; i < numArg; ++i) {
CXType argType = clang_getArgType(funcType, i);
if (args.size() <= i)
args.append(fromCXString(clang_getTypeSpelling(argType)));
QString recordedType = parameters.at(i).type();
QString typeSpelling = args.at(i);
auto p = parent;
while (p && recordedType != typeSpelling) {
QString parentScope = p->name() + QLatin1String("::");
recordedType.remove(parentScope);
typeSpelling.remove(parentScope);
p = p->parent();
}
different = recordedType != typeSpelling;
// Retry with a canonical type spelling
if (different && (argType.kind == CXType_Typedef || argType.kind == CXType_Elaborated)) {
QStringView canonicalType = parameters.at(i).canonicalType();
if (!canonicalType.isEmpty()) {
different = canonicalType !=
fromCXString(clang_getTypeSpelling(clang_getCanonicalType(argType)));
}
}
if (different) {
break;
}
}
if (!different)
return fn;
}
return nullptr;
}
case CXCursor_EnumDecl:
return parent->findNonfunctionChild(name, &Node::isEnumType);
case CXCursor_FieldDecl:
case CXCursor_VarDecl:
return parent->findNonfunctionChild(name, &Node::isVariable);
case CXCursor_TypedefDecl:
return parent->findNonfunctionChild(name, &Node::isTypedef);
default:
return nullptr;
}
}
static void setOverridesForFunction(FunctionNode *fn, CXCursor cursor)
{
CXCursor *overridden;
unsigned int numOverridden = 0;
clang_getOverriddenCursors(cursor, &overridden, &numOverridden);
for (uint i = 0; i < numOverridden; ++i) {
QString path = reconstructQualifiedPathForCursor(overridden[i]);
if (!path.isEmpty()) {
fn->setOverride(true);
fn->setOverridesThis(path);
break;
}
}
clang_disposeOverriddenCursors(overridden);
}
class ClangVisitor
{
public:
ClangVisitor(QDocDatabase *qdb, const QMultiHash<QString, QString> &allHeaders)
: qdb_(qdb), parent_(qdb->primaryTreeRoot()), allHeaders_(allHeaders)
{
}
QDocDatabase *qdocDB() { return qdb_; }
CXChildVisitResult visitChildren(CXCursor cursor)
{
auto ret = visitChildrenLambda(cursor, [&](CXCursor cur) {
auto loc = clang_getCursorLocation(cur);
if (clang_Location_isFromMainFile(loc))
return visitSource(cur, loc);
CXFile file;
clang_getFileLocation(loc, &file, nullptr, nullptr, nullptr);
bool isInteresting = false;
auto it = isInterestingCache_.find(file);
if (it != isInterestingCache_.end()) {
isInteresting = *it;
} else {
QFileInfo fi(fromCXString(clang_getFileName(file)));
// Match by file name in case of PCH/installed headers
isInteresting = allHeaders_.contains(fi.fileName());
isInterestingCache_[file] = isInteresting;
}
if (isInteresting) {
return visitHeader(cur, loc);
}
return CXChildVisit_Continue;
});
return ret ? CXChildVisit_Break : CXChildVisit_Continue;
}
/*
Not sure about all the possibilities, when the cursor
location is not in the main file.
*/
CXChildVisitResult visitFnArg(CXCursor cursor, Node **fnNode, bool &ignoreSignature)
{
auto ret = visitChildrenLambda(cursor, [&](CXCursor cur) {
auto loc = clang_getCursorLocation(cur);
if (clang_Location_isFromMainFile(loc))
return visitFnSignature(cur, loc, fnNode, ignoreSignature);
return CXChildVisit_Continue;
});
return ret ? CXChildVisit_Break : CXChildVisit_Continue;
}
Node *nodeForCommentAtLocation(CXSourceLocation loc, CXSourceLocation nextCommentLoc);
private:
/*!
SimpleLoc represents a simple location in the main source file,
which can be used as a key in a QMap.
*/
struct SimpleLoc
{
unsigned int line {}, column {};
friend bool operator<(const SimpleLoc &a, const SimpleLoc &b)
{
return a.line != b.line ? a.line < b.line : a.column < b.column;
}
};
/*!
\variable ClangVisitor::declMap_
Map of all the declarations in the source file so we can match them
with a documentation comment.
*/
QMap<SimpleLoc, CXCursor> declMap_;
QDocDatabase *qdb_;
Aggregate *parent_;
bool m_friendDecl { false }; // true if currently visiting a friend declaration
const QMultiHash<QString, QString> allHeaders_;
QHash<CXFile, bool> isInterestingCache_; // doing a canonicalFilePath is slow, so keep a cache.
/*!
Returns true if the symbol should be ignored for the documentation.
*/
bool ignoredSymbol(const QString &symbolName)
{
if (symbolName == QLatin1String("QPrivateSignal"))
return true;
// Ignore functions generated by property macros
if (symbolName.startsWith("_qt_property_"))
return true;
// Ignore template argument deduction guides
if (symbolName.startsWith("<deduction guide"))
return true;
return false;
}
/*!
The type parameters do not need to be fully qualified
This function removes the ClassName:: if needed.
example: 'QLinkedList::iterator' -> 'iterator'
*/
QString adjustTypeName(const QString &typeName)
{
auto parent = parent_->parent();
if (parent && parent->isClassNode()) {
QStringView typeNameConstRemoved(typeName);
if (typeNameConstRemoved.startsWith(QLatin1String("const ")))
typeNameConstRemoved = typeNameConstRemoved.mid(6);
auto parentName = parent->fullName();
if (typeNameConstRemoved.startsWith(parentName)
&& typeNameConstRemoved.mid(parentName.size(), 2) == QLatin1String("::")) {
QString result = typeName;
result.remove(typeName.indexOf(typeNameConstRemoved), parentName.size() + 2);
return result;
}
}
return typeName;
}
CXChildVisitResult visitSource(CXCursor cursor, CXSourceLocation loc);
CXChildVisitResult visitHeader(CXCursor cursor, CXSourceLocation loc);
CXChildVisitResult visitFnSignature(CXCursor cursor, CXSourceLocation loc, Node **fnNode,
bool &ignoreSignature);
void processFunction(FunctionNode *fn, CXCursor cursor);
bool parseProperty(const QString &spelling, const Location &loc);
void readParameterNamesAndAttributes(FunctionNode *fn, CXCursor cursor);
Aggregate *getSemanticParent(CXCursor cursor);
};
/*!
Visits a cursor in the .cpp file.
This fills the declMap_
*/
CXChildVisitResult ClangVisitor::visitSource(CXCursor cursor, CXSourceLocation loc)
{
auto kind = clang_getCursorKind(cursor);
if (clang_isDeclaration(kind)) {
SimpleLoc l;
clang_getPresumedLocation(loc, nullptr, &l.line, &l.column);
declMap_.insert(l, cursor);
return CXChildVisit_Recurse;
}
return CXChildVisit_Continue;
}
/*!
If the semantic and lexical parent cursors of \a cursor are
not the same, find the Aggregate node for the semantic parent
cursor and return it. Otherwise return the current parent.
*/
Aggregate *ClangVisitor::getSemanticParent(CXCursor cursor)
{
CXCursor sp = clang_getCursorSemanticParent(cursor);
CXCursor lp = clang_getCursorLexicalParent(cursor);
if (!clang_equalCursors(sp, lp) && clang_isDeclaration(clang_getCursorKind(sp))) {
Node *spn = findNodeForCursor(qdb_, sp);
if (spn && spn->isAggregate()) {
return static_cast<Aggregate *>(spn);
}
}
return parent_;
}
CXChildVisitResult ClangVisitor::visitFnSignature(CXCursor cursor, CXSourceLocation, Node **fnNode,
bool &ignoreSignature)
{
switch (clang_getCursorKind(cursor)) {
case CXCursor_Namespace:
return CXChildVisit_Recurse;
case CXCursor_FunctionDecl:
case CXCursor_FunctionTemplate:
case CXCursor_CXXMethod:
case CXCursor_Constructor:
case CXCursor_Destructor:
case CXCursor_ConversionFunction: {
ignoreSignature = false;
if (ignoredSymbol(functionName(cursor))) {
*fnNode = nullptr;
ignoreSignature = true;
} else {
*fnNode = findNodeForCursor(qdb_, cursor);
if (*fnNode) {
if ((*fnNode)->isFunction(Node::CPP)) {
auto *fn = static_cast<FunctionNode *>(*fnNode);
readParameterNamesAndAttributes(fn, cursor);
}
} else { // Possibly an implicitly generated special member
QString name = functionName(cursor);
if (ignoredSymbol(name))
return CXChildVisit_Continue;
Aggregate *semanticParent = getSemanticParent(cursor);
if (semanticParent && semanticParent->isClass()) {
auto *candidate = new FunctionNode(nullptr, name);
processFunction(candidate, cursor);
if (!candidate->isSpecialMemberFunction()) {
delete candidate;
return CXChildVisit_Continue;
}
candidate->setDefault(true);
semanticParent->addChild(*fnNode = candidate);
}
}
}
break;
}
default:
break;
}
return CXChildVisit_Continue;
}
CXChildVisitResult ClangVisitor::visitHeader(CXCursor cursor, CXSourceLocation loc)
{
auto kind = clang_getCursorKind(cursor);
QString templateString;
switch (kind) {
case CXCursor_TypeAliasTemplateDecl:
case CXCursor_TypeAliasDecl: {
QString aliasDecl = getSpelling(clang_getCursorExtent(cursor)).simplified();
QStringList typeAlias = aliasDecl.split(QLatin1Char('='));
if (typeAlias.size() == 2) {
typeAlias[0] = typeAlias[0].trimmed();
const QLatin1String usingString("using ");
qsizetype usingPos = typeAlias[0].indexOf(usingString);
if (usingPos != -1) {
if (kind == CXCursor_TypeAliasTemplateDecl)
templateString = typeAlias[0].left(usingPos).trimmed();
typeAlias[0].remove(0, usingPos + usingString.size());
typeAlias[0] = typeAlias[0].split(QLatin1Char(' ')).first();
typeAlias[1] = typeAlias[1].trimmed();
auto *ta = new TypeAliasNode(parent_, typeAlias[0], typeAlias[1]);
ta->setAccess(fromCX_CXXAccessSpecifier(clang_getCXXAccessSpecifier(cursor)));
ta->setLocation(fromCXSourceLocation(clang_getCursorLocation(cursor)));
ta->setTemplateDecl(templateString);
}
}
return CXChildVisit_Continue;
}
case CXCursor_StructDecl:
case CXCursor_UnionDecl:
if (fromCXString(clang_getCursorSpelling(cursor)).isEmpty()) // anonymous struct or union
return CXChildVisit_Continue;
Q_FALLTHROUGH();
case CXCursor_ClassTemplate:
templateString = templateDecl(cursor);
Q_FALLTHROUGH();
case CXCursor_ClassDecl: {
if (!clang_isCursorDefinition(cursor))
return CXChildVisit_Continue;
if (findNodeForCursor(qdb_, cursor)) // Was already parsed, probably in another TU
return CXChildVisit_Continue;
QString className = fromCXString(clang_getCursorSpelling(cursor));
Aggregate *semanticParent = getSemanticParent(cursor);
if (semanticParent && semanticParent->findNonfunctionChild(className, &Node::isClassNode)) {
return CXChildVisit_Continue;
}
CXCursorKind actualKind = (kind == CXCursor_ClassTemplate) ?
clang_getTemplateCursorKind(cursor) : kind;
Node::NodeType type = Node::Class;
if (actualKind == CXCursor_StructDecl)
type = Node::Struct;
else if (actualKind == CXCursor_UnionDecl)
type = Node::Union;
auto *classe = new ClassNode(type, semanticParent, className);
classe->setAccess(fromCX_CXXAccessSpecifier(clang_getCXXAccessSpecifier(cursor)));
classe->setLocation(fromCXSourceLocation(clang_getCursorLocation(cursor)));
if (kind == CXCursor_ClassTemplate)
classe->setTemplateDecl(templateString);
QScopedValueRollback<Aggregate *> setParent(parent_, classe);
return visitChildren(cursor);
}
case CXCursor_CXXBaseSpecifier: {
if (!parent_->isClassNode())
return CXChildVisit_Continue;
auto access = fromCX_CXXAccessSpecifier(clang_getCXXAccessSpecifier(cursor));
auto type = clang_getCursorType(cursor);
auto baseCursor = clang_getTypeDeclaration(type);
auto baseNode = findNodeForCursor(qdb_, baseCursor);
auto classe = static_cast<ClassNode *>(parent_);
if (baseNode == nullptr || !baseNode->isClassNode()) {
QString bcName = reconstructQualifiedPathForCursor(baseCursor);
classe->addUnresolvedBaseClass(access,
bcName.split(QLatin1String("::"), Qt::SkipEmptyParts));
return CXChildVisit_Continue;
}
auto baseClasse = static_cast<ClassNode *>(baseNode);
classe->addResolvedBaseClass(access, baseClasse);
return CXChildVisit_Continue;
}
case CXCursor_Namespace: {
QString namespaceName = fromCXString(clang_getCursorDisplayName(cursor));
NamespaceNode *ns = nullptr;
if (parent_)
ns = static_cast<NamespaceNode *>(
parent_->findNonfunctionChild(namespaceName, &Node::isNamespace));
if (!ns) {
ns = new NamespaceNode(parent_, namespaceName);
ns->setAccess(Access::Public);
ns->setLocation(fromCXSourceLocation(clang_getCursorLocation(cursor)));
}
QScopedValueRollback<Aggregate *> setParent(parent_, ns);
return visitChildren(cursor);
}
case CXCursor_FunctionTemplate:
templateString = templateDecl(cursor);
Q_FALLTHROUGH();
case CXCursor_FunctionDecl:
case CXCursor_CXXMethod:
case CXCursor_Constructor:
case CXCursor_Destructor:
case CXCursor_ConversionFunction: {
if (findNodeForCursor(qdb_, cursor)) // Was already parsed, probably in another TU
return CXChildVisit_Continue;
QString name = functionName(cursor);
if (ignoredSymbol(name))
return CXChildVisit_Continue;
// constexpr constructors generate also a global instance; ignore
if (kind == CXCursor_Constructor && parent_ == qdb_->primaryTreeRoot())
return CXChildVisit_Continue;
auto *fn = new FunctionNode(parent_, name);
CXSourceRange range = clang_Cursor_getCommentRange(cursor);
if (!clang_Range_isNull(range)) {
QString comment = getSpelling(range);
if (comment.startsWith("//!")) {
qsizetype tag = comment.indexOf(QChar('['));
if (tag > 0) {
qsizetype end = comment.indexOf(QChar(']'), ++tag);
if (end > 0)
fn->setTag(comment.mid(tag, end - tag));
}
}
}
processFunction(fn, cursor);
fn->setTemplateDecl(templateString);
return CXChildVisit_Continue;
}
#if CINDEX_VERSION >= 36
case CXCursor_FriendDecl: {
QScopedValueRollback<bool> setFriend(m_friendDecl, true);
// Visit the friend functions
return visitChildren(cursor);
}
#endif
case CXCursor_EnumDecl: {
auto *en = static_cast<EnumNode *>(findNodeForCursor(qdb_, cursor));
if (en && en->items().size())
return CXChildVisit_Continue; // Was already parsed, probably in another TU
QString enumTypeName = fromCXString(clang_getCursorSpelling(cursor));
if (enumTypeName.isEmpty()) {
enumTypeName = "anonymous";
if (parent_ && (parent_->isClassNode() || parent_->isNamespace())) {
Node *n = parent_->findNonfunctionChild(enumTypeName, &Node::isEnumType);
if (n)
en = static_cast<EnumNode *>(n);
}
}
if (!en) {
en = new EnumNode(parent_, enumTypeName, clang_EnumDecl_isScoped(cursor));
en->setAccess(fromCX_CXXAccessSpecifier(clang_getCXXAccessSpecifier(cursor)));
en->setLocation(fromCXSourceLocation(clang_getCursorLocation(cursor)));
}
// Enum values
visitChildrenLambda(cursor, [&](CXCursor cur) {
if (clang_getCursorKind(cur) != CXCursor_EnumConstantDecl)
return CXChildVisit_Continue;
QString value;
visitChildrenLambda(cur, [&](CXCursor cur) {
if (clang_isExpression(clang_getCursorKind(cur))) {
value = getSpelling(clang_getCursorExtent(cur));
return CXChildVisit_Break;
}
return CXChildVisit_Continue;
});
if (value.isEmpty()) {
QLatin1String hex("0x");
if (!en->items().isEmpty() && en->items().last().value().startsWith(hex)) {
value = hex + QString::number(clang_getEnumConstantDeclValue(cur), 16);
} else {
value = QString::number(clang_getEnumConstantDeclValue(cur));
}
}
en->addItem(EnumItem(fromCXString(clang_getCursorSpelling(cur)), value));
return CXChildVisit_Continue;
});
return CXChildVisit_Continue;
}
case CXCursor_FieldDecl:
case CXCursor_VarDecl: {
if (findNodeForCursor(qdb_, cursor)) // Was already parsed, probably in another TU
return CXChildVisit_Continue;
auto access = fromCX_CXXAccessSpecifier(clang_getCXXAccessSpecifier(cursor));
auto var = new VariableNode(parent_, fromCXString(clang_getCursorSpelling(cursor)));
var->setAccess(access);
var->setLocation(fromCXSourceLocation(clang_getCursorLocation(cursor)));
var->setLeftType(fromCXString(clang_getTypeSpelling(clang_getCursorType(cursor))));
var->setStatic(kind == CXCursor_VarDecl && parent_->isClassNode());
return CXChildVisit_Continue;
}
case CXCursor_TypedefDecl: {
if (findNodeForCursor(qdb_, cursor)) // Was already parsed, probably in another TU
return CXChildVisit_Continue;
auto *td = new TypedefNode(parent_, fromCXString(clang_getCursorSpelling(cursor)));
td->setAccess(fromCX_CXXAccessSpecifier(clang_getCXXAccessSpecifier(cursor)));
td->setLocation(fromCXSourceLocation(clang_getCursorLocation(cursor)));
// Search to see if this is a Q_DECLARE_FLAGS (if the type is QFlags<ENUM>)
visitChildrenLambda(cursor, [&](CXCursor cur) {
if (clang_getCursorKind(cur) != CXCursor_TemplateRef
|| fromCXString(clang_getCursorSpelling(cur)) != QLatin1String("QFlags"))
return CXChildVisit_Continue;
// Found QFlags<XXX>
visitChildrenLambda(cursor, [&](CXCursor cur) {
if (clang_getCursorKind(cur) != CXCursor_TypeRef)
return CXChildVisit_Continue;
auto *en =
findNodeForCursor(qdb_, clang_getTypeDeclaration(clang_getCursorType(cur)));
if (en && en->isEnumType())
static_cast<EnumNode *>(en)->setFlagsType(td);
return CXChildVisit_Break;
});
return CXChildVisit_Break;
});
return CXChildVisit_Continue;
}
default:
if (clang_isDeclaration(kind) && parent_->isClassNode()) {
// may be a property macro or a static_assert
// which is not exposed from the clang API
parseProperty(getSpelling(clang_getCursorExtent(cursor)),
fromCXSourceLocation(loc));
}
return CXChildVisit_Continue;
}
}
void ClangVisitor::readParameterNamesAndAttributes(FunctionNode *fn, CXCursor cursor)
{
Parameters ¶meters = fn->parameters();
// Visit the parameters and attributes
int i = 0;
visitChildrenLambda(cursor, [&](CXCursor cur) {
auto kind = clang_getCursorKind(cur);
if (kind == CXCursor_AnnotateAttr) {
QString annotation = fromCXString(clang_getCursorDisplayName(cur));
if (annotation == QLatin1String("qt_slot")) {
fn->setMetaness(FunctionNode::Slot);
} else if (annotation == QLatin1String("qt_signal")) {
fn->setMetaness(FunctionNode::Signal);
}
if (annotation == QLatin1String("qt_invokable"))
fn->setInvokable(true);
} else if (kind == CXCursor_CXXOverrideAttr) {
fn->setOverride(true);
} else if (kind == CXCursor_ParmDecl) {
if (i >= parameters.count())
return CXChildVisit_Break; // Attributes comes before parameters so we can break.
QString name = fromCXString(clang_getCursorSpelling(cur));
if (!name.isEmpty()) {
parameters[i].setName(name);
// Find the default value
visitChildrenLambda(cur, [&](CXCursor cur) {
if (clang_isExpression(clang_getCursorKind(cur))) {
QString defaultValue = getSpelling(clang_getCursorExtent(cur));
if (defaultValue.startsWith('=')) // In some cases, the = is part of the range.
defaultValue = QStringView{defaultValue}.mid(1).trimmed().toString();
if (defaultValue.isEmpty())
defaultValue = QStringLiteral("...");
parameters[i].setDefaultValue(defaultValue);
return CXChildVisit_Break;
}
return CXChildVisit_Continue;
});
}
++i;
}
return CXChildVisit_Continue;
});
}
struct CXXSpecifiers {
bool is_explicit = false;
bool is_constexpr = false;
};
static CXXSpecifiers get_specifiers(CXCursor cursor) {
CXXSpecifiers specifiers{};
CXTranslationUnit tu{clang_Cursor_getTranslationUnit(cursor)};
CXToken* tokens = nullptr;
unsigned token_count{0};
clang_tokenize(tu, clang_getCursorExtent(cursor), &tokens, &token_count);
for (unsigned index = 0; index < token_count; ++index) {
if (clang_getTokenKind(tokens[index]) == CXToken_Keyword) {
QString token_spelling{fromCXString(clang_getTokenSpelling(tu, tokens[index]))};
if (token_spelling == "explicit") specifiers.is_explicit = true;
else if (token_spelling == "constexpr") specifiers.is_constexpr = true;
}
}
clang_disposeTokens(tu, tokens, token_count);
return specifiers;
}
void ClangVisitor::processFunction(FunctionNode *fn, CXCursor cursor)
{
CXCursorKind kind = clang_getCursorKind(cursor);
CXType funcType = clang_getCursorType(cursor);
fn->setAccess(fromCX_CXXAccessSpecifier(clang_getCXXAccessSpecifier(cursor)));
fn->setLocation(fromCXSourceLocation(clang_getCursorLocation(cursor)));
if (kind == CXCursor_Constructor
// a constructor template is classified as CXCursor_FunctionTemplate
|| (kind == CXCursor_FunctionTemplate && fn->name() == parent_->name()))
fn->setMetaness(FunctionNode::Ctor);
else if (kind == CXCursor_Destructor)
fn->setMetaness(FunctionNode::Dtor);
else
fn->setReturnType(adjustTypeName(
fromCXString(clang_getTypeSpelling(clang_getResultType(funcType)))));
fn->setStatic(clang_CXXMethod_isStatic(cursor));
fn->setConst(clang_CXXMethod_isConst(cursor));
fn->setVirtualness(!clang_CXXMethod_isVirtual(cursor)
? FunctionNode::NonVirtual
: clang_CXXMethod_isPureVirtual(cursor)
? FunctionNode::PureVirtual
: FunctionNode::NormalVirtual);
CXXSpecifiers specifiers{get_specifiers(cursor)};
if (specifiers.is_explicit) fn->markExplicit();
if (specifiers.is_constexpr) fn->markConstexpr();
CXRefQualifierKind refQualKind = clang_Type_getCXXRefQualifier(funcType);
if (refQualKind == CXRefQualifier_LValue)
fn->setRef(true);
else if (refQualKind == CXRefQualifier_RValue)
fn->setRefRef(true);
// For virtual functions, determine what it overrides
// (except for destructor for which we do not want to classify as overridden)
if (!fn->isNonvirtual() && kind != CXCursor_Destructor)
setOverridesForFunction(fn, cursor);
int numArg = clang_getNumArgTypes(funcType);
Parameters ¶meters = fn->parameters();
parameters.clear();
parameters.reserve(numArg);
// TODO: [clang16-required][unsound-code][bug-ridden]
// The following code that sets the metaness of the currently
// processed function node incorrect in multiple ways with regards
// to the specification of move/copy constructors/assignment
// operators.
//
// For example, it doesn't correctly allow for qualifiers nor does
// it correctly respect the argument disposition.
//
// It was previously bugged and still present a series of bugs
// such as being able to misidentify constructors types.
//
// A by-specification implementation in our currently used
// libclang is not particularly feasible due to the required
// complexity and is preferred to be avoided.
//
// To solve the issue, we pushed a series of patches to upstream
// llvm to expose some of the C++ API methods that would
// trivialize the following code.
//
// Those methods will be available on LLVM 16, which is currently
// expected for January 2023.
// When LLVM 16 comes out and we upgrade to it, the following code
// should be fixed and the minimum required version of libclang
// for QDoc should be updated.
for (int i = 0; i < numArg; ++i) {
CXType argType = clang_getArgType(funcType, i);
if (fn->isCtor()) {
// TODO:KLUDGE: [temporary-hack]
// The following is used to fix a very specific bug in the
// way QDoc assigns the metaness of constructors.
// It is nonetheless quite imperfect in its handling and
// is only used as a temporary fix while LLVM 16 is not
// available.
//
// This is expected to be removed as soon as LLVM 16 comes out.
static auto remove_qualifiers = [](QString type_spelling) {
// REMARK: While, generally, a type with
// both qualifiers would be written "const volatile
// T", clang accepts "volatile const T" too.
//
// Nonetheless, we do not handle that case as
// libclang, when providing the spelling, currently
// always writes the const-qualifier before the
// volatile-qualifier.
if (type_spelling.startsWith("const "))
type_spelling.remove(0, QString("const ").size());
if (type_spelling.startsWith("volatile "))
type_spelling.remove(0, QString("volatile ").size());
return type_spelling;
};
const QString type_spelling{remove_qualifiers(fromCXString(clang_getTypeSpelling(clang_getPointeeType(argType))))};
if (type_spelling == fn->name()) {
if (argType.kind == CXType_RValueReference) fn->setMetaness(FunctionNode::MCtor);
else if (argType.kind == CXType_LValueReference) fn->setMetaness(FunctionNode::CCtor);
}
} else if ((kind == CXCursor_CXXMethod) && (fn->name() == QLatin1String("operator="))) {
if (argType.kind == CXType_RValueReference)
fn->setMetaness(FunctionNode::MAssign);
else if (argType.kind == CXType_LValueReference)
fn->setMetaness(FunctionNode::CAssign);
}
parameters.append(adjustTypeName(fromCXString(clang_getTypeSpelling(argType))));
if (argType.kind == CXType_Typedef || argType.kind == CXType_Elaborated) {
parameters.last().setCanonicalType(fromCXString(
clang_getTypeSpelling(clang_getCanonicalType(argType))));
}
}
if (parameters.count() > 0) {
if (parameters.last().type().endsWith(QLatin1String("QPrivateSignal"))) {
parameters.pop_back(); // remove the QPrivateSignal argument
parameters.setPrivateSignal();
}
}
if (clang_isFunctionTypeVariadic(funcType))
parameters.append(QStringLiteral("..."));
readParameterNamesAndAttributes(fn, cursor);
// Friend functions are not members
if (m_friendDecl)
fn->setRelatedNonmember(true);
}
bool ClangVisitor::parseProperty(const QString &spelling, const Location &loc)
{
if (!spelling.startsWith(QLatin1String("Q_PROPERTY"))
&& !spelling.startsWith(QLatin1String("QDOC_PROPERTY"))
&& !spelling.startsWith(QLatin1String("Q_OVERRIDE")))
return false;
qsizetype lpIdx = spelling.indexOf(QChar('('));
qsizetype rpIdx = spelling.lastIndexOf(QChar(')'));
if (lpIdx <= 0 || rpIdx <= lpIdx)
return false;
QString signature = spelling.mid(lpIdx + 1, rpIdx - lpIdx - 1);
signature = signature.simplified();
QStringList parts = signature.split(QChar(' '), Qt::SkipEmptyParts);
static const QStringList attrs =
QStringList() << "READ" << "MEMBER" << "WRITE"
<< "NOTIFY" << "CONSTANT" << "FINAL"
<< "REQUIRED" << "BINDABLE" << "DESIGNABLE"
<< "RESET" << "REVISION" << "SCRIPTABLE"
<< "STORED" << "USER";
// Find the location of the first attribute. All preceding parts
// represent the property type + name.
auto it = std::find_if(parts.cbegin(), parts.cend(),
[](const QString &attr) -> bool {
return attrs.contains(attr);
});
if (it == parts.cend() || std::distance(parts.cbegin(), it) < 2)
return false;
QStringList typeParts;
std::copy(parts.cbegin(), it, std::back_inserter(typeParts));
parts.erase(parts.cbegin(), it);
QString name = typeParts.takeLast();
// Move the pointer operator(s) from name to type
while (!name.isEmpty() && name.front() == QChar('*')) {
typeParts.last().push_back(name.front());
name.removeFirst();
}
// Need at least READ or MEMBER + getter/member name
if (parts.size() < 2 || name.isEmpty())
return false;
auto *property = new PropertyNode(parent_, name);
property->setAccess(Access::Public);
property->setLocation(loc);
property->setDataType(typeParts.join(QChar(' ')));
int i = 0;
while (i < parts.size()) {
const QString &key = parts.at(i++);
// Keywords with no associated values
if (key == "CONSTANT") {
property->setConstant();
} else if (key == "REQUIRED") {
property->setRequired();
}
if (i < parts.size()) {
QString value = parts.at(i++);
if (key == "READ") {
qdb_->addPropertyFunction(property, value, PropertyNode::FunctionRole::Getter);
} else if (key == "WRITE") {
qdb_->addPropertyFunction(property, value, PropertyNode::FunctionRole::Setter);
property->setWritable(true);
} else if (key == "MEMBER") {
property->setWritable(true);
} else if (key == "STORED") {
property->setStored(value.toLower() == "true");
} else if (key == "BINDABLE") {
property->setPropertyType(PropertyNode::PropertyType::BindableProperty);
qdb_->addPropertyFunction(property, value, PropertyNode::FunctionRole::Bindable);
} else if (key == "RESET") {
qdb_->addPropertyFunction(property, value, PropertyNode::FunctionRole::Resetter);
} else if (key == "NOTIFY") {
qdb_->addPropertyFunction(property, value, PropertyNode::FunctionRole::Notifier);
}
}
}
return true;
}
/*!
Given a comment at location \a loc, return a Node for this comment
\a nextCommentLoc is the location of the next comment so the declaration
must be inbetween.
Returns nullptr if no suitable declaration was found between the two comments.
*/
Node *ClangVisitor::nodeForCommentAtLocation(CXSourceLocation loc, CXSourceLocation nextCommentLoc)
{
ClangVisitor::SimpleLoc docloc;
clang_getPresumedLocation(loc, nullptr, &docloc.line, &docloc.column);
auto decl_it = declMap_.upperBound(docloc);
if (decl_it == declMap_.end())
return nullptr;
unsigned int declLine = decl_it.key().line;
unsigned int nextCommentLine;
clang_getPresumedLocation(nextCommentLoc, nullptr, &nextCommentLine, nullptr);
if (nextCommentLine < declLine)
return nullptr; // there is another comment before the declaration, ignore it.
// make sure the previous decl was finished.
if (decl_it != declMap_.begin()) {
CXSourceLocation prevDeclEnd = clang_getRangeEnd(clang_getCursorExtent(*(std::prev(decl_it))));
unsigned int prevDeclLine;
clang_getPresumedLocation(prevDeclEnd, nullptr, &prevDeclLine, nullptr);
if (prevDeclLine >= docloc.line) {
// The previous declaration was still going. This is only valid if the previous
// declaration is a parent of the next declaration.
auto parent = clang_getCursorLexicalParent(*decl_it);
if (!clang_equalCursors(parent, *(std::prev(decl_it))))
return nullptr;
}
}
auto *node = findNodeForCursor(qdb_, *decl_it);
// borrow the parameter name from the definition
if (node && node->isFunction(Node::CPP))
readParameterNamesAndAttributes(static_cast<FunctionNode *>(node), *decl_it);
return node;
}
/*!
Get the include paths from the qdoc configuration database
\a config. Call the initializeParser() in the base class.
Get the defines list from the qdocconf database.
\note on \macos and Linux, we try to also query the system
and framework (\macos) include paths from the compiler.
*/
void ClangCodeParser::initializeParser()
{
Config &config = Config::instance();
m_version = config.getString(CONFIG_VERSION);
auto args = config.getCanonicalPathList(CONFIG_INCLUDEPATHS,
Config::IncludePaths);
#ifdef Q_OS_MACOS
args.append(Utilities::getInternalIncludePaths(QStringLiteral("clang++")));
#elif defined(Q_OS_LINUX)
args.append(Utilities::getInternalIncludePaths(QStringLiteral("g++")));
#endif
m_includePaths.clear();
for (const auto &path : std::as_const(args)) {
if (!path.isEmpty())
m_includePaths.append(path.toUtf8());
}
m_includePaths.erase(std::unique(m_includePaths.begin(), m_includePaths.end()),
m_includePaths.end());
CppCodeParser::initializeParser();
m_pchFileDir.reset(nullptr);
m_allHeaders.clear();
m_pchName.clear();
m_defines.clear();
QSet<QString> accepted;
{
const QStringList tmpDefines = config.getStringList(CONFIG_CLANGDEFINES);
for (const QString &def : tmpDefines) {
if (!accepted.contains(def)) {
QByteArray tmp("-D");
tmp.append(def.toUtf8());
m_defines.append(tmp.constData());
accepted.insert(def);
}
}
}
{
const QStringList tmpDefines = config.getStringList(CONFIG_DEFINES);
for (const QString &def : tmpDefines) {
if (!accepted.contains(def) && !def.contains(QChar('*'))) {
QByteArray tmp("-D");
tmp.append(def.toUtf8());
m_defines.append(tmp.constData());
accepted.insert(def);
}
}
}
qCDebug(lcQdoc).nospace() << __FUNCTION__ << " Clang v" << CINDEX_VERSION_MAJOR << '.'
<< CINDEX_VERSION_MINOR;
}
/*!
*/
void ClangCodeParser::terminateParser()
{
CppCodeParser::terminateParser();
}
/*!
*/
QString ClangCodeParser::language()
{
return "Clang";
}
/*!
Returns a list of extensions for header files.
*/
QStringList ClangCodeParser::headerFileNameFilter()
{
return QStringList() << "*.ch"
<< "*.h"
<< "*.h++"
<< "*.hh"
<< "*.hpp"
<< "*.hxx";
}
/*!
Returns a list of extensions for source files, i.e. not
header files.
*/
QStringList ClangCodeParser::sourceFileNameFilter()
{
return QStringList() << "*.c++"
<< "*.cc"
<< "*.cpp"
<< "*.cxx"
<< "*.mm";
}
/*!
Parse the C++ header file identified by \a filePath and add
the parsed contents to the database. The \a location is used
for reporting errors.
*/
void ClangCodeParser::parseHeaderFile(const Location & /*location*/, const QString &filePath)
{
QFileInfo fi(filePath);
const QString &fileName = fi.fileName();
const QString &canonicalPath = fi.canonicalPath();
if (m_allHeaders.contains(fileName, canonicalPath))
return;
m_allHeaders.insert(fileName, canonicalPath);
}
static const char *defaultArgs_[] = {
/*
https://bugreports.qt.io/browse/QTBUG-94365
An unidentified bug in Clang 15.x causes parsing failures due to errors in
the AST. This replicates only with C++20 support enabled - avoid the issue
by using C++17 with Clang 15.
*/
#if LIBCLANG_VERSION_MAJOR == 15
"-std=c++17",
#else
"-std=c++20",
#endif
#ifndef Q_OS_WIN
"-fPIC",
#else
"-fms-compatibility-version=19",
#endif
"-DQ_QDOC",
"-DQ_CLANG_QDOC",
"-DQT_DISABLE_DEPRECATED_UP_TO=0",
"-DQT_ANNOTATE_CLASS(type,...)=static_assert(sizeof(#__VA_ARGS__),#type);",
"-DQT_ANNOTATE_CLASS2(type,a1,a2)=static_assert(sizeof(#a1,#a2),#type);",
"-DQT_ANNOTATE_FUNCTION(a)=__attribute__((annotate(#a)))",
"-DQT_ANNOTATE_ACCESS_SPECIFIER(a)=__attribute__((annotate(#a)))",
"-Wno-constant-logical-operand",
"-Wno-macro-redefined",
"-Wno-nullability-completeness",
"-fvisibility=default",
"-ferror-limit=0",
("-I" CLANG_RESOURCE_DIR)
};
/*!
Load the default arguments and the defines into \a args.
Clear \a args first.
*/
void ClangCodeParser::getDefaultArgs()
{
m_args.clear();
m_args.insert(m_args.begin(), std::begin(defaultArgs_), std::end(defaultArgs_));
// Add the defines from the qdocconf file.
for (const auto &p : std::as_const(m_defines))
m_args.push_back(p.constData());
}
static QList<QByteArray> includePathsFromHeaders(const QMultiHash<QString, QString> &allHeaders)
{
QList<QByteArray> result;
for (auto it = allHeaders.cbegin(); it != allHeaders.cend(); ++it) {
const QByteArray path = "-I" + it.value().toLatin1();
const QByteArray parent =
"-I" + QDir::cleanPath(it.value() + QLatin1String("/../")).toLatin1();
if (!result.contains(path))
result.append(path);
if (!result.contains(parent))
result.append(parent);
}
return result;
}
/*!
Load the include paths into \a moreArgs. If no include paths
were provided, try to guess reasonable include paths.
*/
void ClangCodeParser::getMoreArgs()
{
if (m_includePaths.isEmpty()) {
/*
The include paths provided are inadequate. Make a list
of reasonable places to look for include files and use
that list instead.
*/
qCWarning(lcQdoc) << "No include paths passed to qdoc; guessing reasonable include paths";
QString basicIncludeDir = QDir::cleanPath(QString(Config::installDir + "/../include"));
m_moreArgs += "-I" + basicIncludeDir.toLatin1();
m_moreArgs += includePathsFromHeaders(m_allHeaders);
} else {
m_moreArgs = m_includePaths;
}
}
/*!
Building the PCH must be possible when there are no .cpp
files, so it is moved here to its own member function, and
it is called after the list of header files is complete.
*/
void ClangCodeParser::buildPCH()
{
if (!m_pchFileDir && !moduleHeader().isEmpty()) {
m_pchFileDir.reset(new QTemporaryDir(QDir::tempPath() + QLatin1String("/qdoc_pch")));
if (m_pchFileDir->isValid()) {
const QByteArray module = moduleHeader().toUtf8();
QByteArray header;
QByteArray privateHeaderDir;
qCDebug(lcQdoc) << "Build and visit PCH for" << moduleHeader();
// A predicate for std::find_if() to locate a path to the module's header
// (e.g. QtGui/QtGui) to be used as pre-compiled header
struct FindPredicate
{
enum SearchType { Any, Module, Private };
QByteArray &candidate_;
const QByteArray &module_;
SearchType type_;
FindPredicate(QByteArray &candidate, const QByteArray &module,
SearchType type = Any)
: candidate_(candidate), module_(module), type_(type)
{
}
bool operator()(const QByteArray &p) const
{
if (type_ != Any && !p.endsWith(module_))
return false;
candidate_ = p + "/";
switch (type_) {
case Any:
case Module:
candidate_.append(module_);
break;
case Private:
candidate_.append("private");
break;
default:
break;
}
if (p.startsWith("-I"))
candidate_ = candidate_.mid(2);
return QFile::exists(QString::fromUtf8(candidate_));
}
};
// First, search for an include path that contains the module name, then any path
QByteArray candidate;
auto it = std::find_if(m_includePaths.begin(), m_includePaths.end(),
FindPredicate(candidate, module, FindPredicate::Module));
if (it == m_includePaths.end())
it = std::find_if(m_includePaths.begin(), m_includePaths.end(),
FindPredicate(candidate, module, FindPredicate::Any));
if (it != m_includePaths.end())
header = candidate;
// Find the path to module's private headers - currently unused
it = std::find_if(m_includePaths.begin(), m_includePaths.end(),
FindPredicate(candidate, module, FindPredicate::Private));
if (it != m_includePaths.end())
privateHeaderDir = candidate;
if (header.isEmpty()) {
qWarning() << "(qdoc) Could not find the module header in include paths for module"
<< module << " (include paths: " << m_includePaths << ")";
qWarning() << " Artificial module header built from header dirs in qdocconf "
"file";
}
m_args.push_back("-xc++");
CXTranslationUnit tu;
QString tmpHeader = m_pchFileDir->path() + "/" + module;
if (QFile tmpHeaderFile(tmpHeader); tmpHeaderFile.open(QIODevice::Text | QIODevice::WriteOnly)) {
QTextStream out(&tmpHeaderFile);
if (header.isEmpty()) {
for (auto it = m_allHeaders.constKeyValueBegin();
it != m_allHeaders.constKeyValueEnd(); ++it) {
if (!(*it).first.endsWith(QLatin1String("_p.h"))
&& !(*it).first.startsWith(QLatin1String("moc_"))) {
QString line = QLatin1String("#include \"") + (*it).second
+ QLatin1String("/") + (*it).first + QLatin1String("\"");
out << line << "\n";
}
}
} else {
QFileInfo headerFile(header);
if (!headerFile.exists()) {
qWarning() << "Could not find module header file" << header;
return;
}
out << QLatin1String("#include \"") + header + QLatin1String("\"");
}
}
CXErrorCode err =
clang_parseTranslationUnit2(index_, tmpHeader.toLatin1().data(), m_args.data(),
static_cast<int>(m_args.size()), nullptr, 0,
flags_ | CXTranslationUnit_ForSerialization, &tu);
qCDebug(lcQdoc) << __FUNCTION__ << "clang_parseTranslationUnit2(" << tmpHeader << m_args
<< ") returns" << err;
printDiagnostics(tu);
if (!err && tu) {
m_pchName = m_pchFileDir->path().toUtf8() + "/" + module + ".pch";
auto error = clang_saveTranslationUnit(tu, m_pchName.constData(),
clang_defaultSaveOptions(tu));
if (error) {
qCCritical(lcQdoc) << "Could not save PCH file for" << moduleHeader();
m_pchName.clear();
} else {
// Visit the header now, as token from pre-compiled header won't be visited
// later
CXCursor cur = clang_getTranslationUnitCursor(tu);
ClangVisitor visitor(m_qdb, m_allHeaders);
visitor.visitChildren(cur);
qCDebug(lcQdoc) << "PCH built and visited for" << moduleHeader();
}
} else {
m_pchFileDir->remove();
qCCritical(lcQdoc) << "Could not create PCH file for " << moduleHeader();
}
clang_disposeTranslationUnit(tu);
m_args.pop_back(); // remove the "-xc++";
}
}
}
/*!
Precompile the header files for the current module.
*/
void ClangCodeParser::precompileHeaders()
{
getDefaultArgs();
getMoreArgs();
for (const auto &p : std::as_const(m_moreArgs))
m_args.push_back(p.constData());
flags_ = static_cast<CXTranslationUnit_Flags>(CXTranslationUnit_Incomplete
| CXTranslationUnit_SkipFunctionBodies
| CXTranslationUnit_KeepGoing);
index_ = clang_createIndex(1, kClangDontDisplayDiagnostics);
buildPCH();
clang_disposeIndex(index_);
}
static float getUnpatchedVersion(QString t)
{
if (t.count(QChar('.')) > 1)
t.truncate(t.lastIndexOf(QChar('.')));
return t.toFloat();
}
/*!
Get ready to parse the C++ cpp file identified by \a filePath
and add its parsed contents to the database. \a location is
used for reporting errors.
Call matchDocsAndStuff() to do all the parsing and tree building.
*/
void ClangCodeParser::parseSourceFile(const Location & /*location*/, const QString &filePath)
{
/*
The set of open namespaces is cleared before parsing
each source file. The word "source" here means cpp file.
*/
m_qdb->clearOpenNamespaces();
m_currentFile = filePath;
flags_ = static_cast<CXTranslationUnit_Flags>(CXTranslationUnit_Incomplete
| CXTranslationUnit_SkipFunctionBodies
| CXTranslationUnit_KeepGoing);
index_ = clang_createIndex(1, kClangDontDisplayDiagnostics);
getDefaultArgs();
if (!m_pchName.isEmpty() && !filePath.endsWith(".mm")) {
m_args.push_back("-w");
m_args.push_back("-include-pch");
m_args.push_back(m_pchName.constData());
}
getMoreArgs();
for (const auto &p : std::as_const(m_moreArgs))
m_args.push_back(p.constData());
CXTranslationUnit tu;
CXErrorCode err =
clang_parseTranslationUnit2(index_, filePath.toLocal8Bit(), m_args.data(),
static_cast<int>(m_args.size()), nullptr, 0, flags_, &tu);
qCDebug(lcQdoc) << __FUNCTION__ << "clang_parseTranslationUnit2(" << filePath << m_args
<< ") returns" << err;
printDiagnostics(tu);
if (err || !tu) {
qWarning() << "(qdoc) Could not parse source file" << filePath << " error code:" << err;
clang_disposeTranslationUnit(tu);
clang_disposeIndex(index_);
return;
}
CXCursor tuCur = clang_getTranslationUnitCursor(tu);
ClangVisitor visitor(m_qdb, m_allHeaders);
visitor.visitChildren(tuCur);
CXToken *tokens;
unsigned int numTokens = 0;
const QSet<QString> &commands = topicCommands() + metaCommands();
clang_tokenize(tu, clang_getCursorExtent(tuCur), &tokens, &numTokens);
for (unsigned int i = 0; i < numTokens; ++i) {
if (clang_getTokenKind(tokens[i]) != CXToken_Comment)
continue;
QString comment = fromCXString(clang_getTokenSpelling(tu, tokens[i]));
if (!comment.startsWith("/*!"))
continue;
auto commentLoc = clang_getTokenLocation(tu, tokens[i]);
auto loc = fromCXSourceLocation(commentLoc);
auto end_loc = fromCXSourceLocation(clang_getRangeEnd(clang_getTokenExtent(tu, tokens[i])));
Doc::trimCStyleComment(loc, comment);
// Doc constructor parses the comment.
Doc doc(loc, end_loc, comment, commands, topicCommands());
if (hasTooManyTopics(doc))
continue;
DocList docs;
QString topic;
NodeList nodes;
const TopicList &topics = doc.topicsUsed();
if (!topics.isEmpty())
topic = topics[0].m_topic;
if (topic.isEmpty()) {
Node *n = nullptr;
if (i + 1 < numTokens) {
// Try to find the next declaration.
CXSourceLocation nextCommentLoc = commentLoc;
while (i + 2 < numTokens && clang_getTokenKind(tokens[i + 1]) != CXToken_Comment)
++i; // already skip all the tokens that are not comments
nextCommentLoc = clang_getTokenLocation(tu, tokens[i + 1]);
n = visitor.nodeForCommentAtLocation(commentLoc, nextCommentLoc);
}
if (n) {
nodes.append(n);
docs.append(doc);
} else if (CodeParser::isWorthWarningAbout(doc)) {
bool future = false;
if (doc.metaCommandsUsed().contains(COMMAND_SINCE)) {
QString sinceVersion = doc.metaCommandArgs(COMMAND_SINCE).at(0).first;
if (getUnpatchedVersion(sinceVersion) > getUnpatchedVersion(m_version))
future = true;
}
if (!future) {
doc.location().warning(
QStringLiteral("Cannot tie this documentation to anything"),
QStringLiteral("qdoc found a /*! ... */ comment, but there was no "
"topic command (e.g., '\\%1', '\\%2') in the "
"comment and no function definition following "
"the comment.")
.arg(COMMAND_FN, COMMAND_PAGE));
}
}
} else {
// Store the namespace scope from lexical parents of the comment
m_namespaceScope.clear();
CXCursor cur = clang_getCursor(tu, commentLoc);
while (true) {
CXCursorKind kind = clang_getCursorKind(cur);
if (clang_isTranslationUnit(kind) || clang_isInvalid(kind))
break;
if (kind == CXCursor_Namespace)
m_namespaceScope << fromCXString(clang_getCursorSpelling(cur));
cur = clang_getCursorLexicalParent(cur);
}
processTopicArgs(doc, topic, nodes, docs);
}
processMetaCommands(nodes, docs);
}
clang_disposeTokens(tu, tokens, numTokens);
clang_disposeTranslationUnit(tu);
clang_disposeIndex(index_);
m_namespaceScope.clear();
s_fn.clear();
}
/*!
Use clang to parse the function signature from a function
command. \a location is used for reporting errors. \a fnSignature
is the string to parse. It is always a function decl.
*/
Node *ClangCodeParser::parseFnArg(const Location &location, const QString &fnSignature, const QString &idTag)
{
Node *fnNode = nullptr;
/*
If the \fn command begins with a tag, then don't try to
parse the \fn command with clang. Use the tag to search
for the correct function node. It is an error if it can
not be found. Return 0 in that case.
*/
if (!idTag.isEmpty()) {
fnNode = m_qdb->findFunctionNodeForTag(idTag);
if (!fnNode) {
location.error(
QStringLiteral("tag \\fn [%1] not used in any include file in current module").arg(idTag));
} else {
/*
The function node was found. Use the formal
parameter names from the \fn command, because
they will be the names used in the documentation.
*/
auto *fn = static_cast<FunctionNode *>(fnNode);
QStringList leftParenSplit = fnSignature.mid(fnSignature.indexOf(fn->name())).split('(');
if (leftParenSplit.size() > 1) {
QStringList rightParenSplit = leftParenSplit[1].split(')');
if (!rightParenSplit.empty()) {
QString params = rightParenSplit[0];
if (!params.isEmpty()) {
QStringList commaSplit = params.split(',');
Parameters ¶meters = fn->parameters();
if (parameters.count() == commaSplit.size()) {
for (int i = 0; i < parameters.count(); ++i) {
QStringList blankSplit = commaSplit[i].split(' ', Qt::SkipEmptyParts);
if (blankSplit.size() > 1) {
QString pName = blankSplit.last();
// Remove any non-letters from the start of parameter name
auto it = std::find_if(std::begin(pName), std::end(pName),
[](const QChar &c) { return c.isLetter(); });
parameters[i].setName(
pName.remove(0, std::distance(std::begin(pName), it)));
}
}
}
}
}
}
}
return fnNode;
}
auto flags = static_cast<CXTranslationUnit_Flags>(CXTranslationUnit_Incomplete
| CXTranslationUnit_SkipFunctionBodies
| CXTranslationUnit_KeepGoing);
CXIndex index = clang_createIndex(1, kClangDontDisplayDiagnostics);
std::vector<const char *> args(std::begin(defaultArgs_), std::end(defaultArgs_));
// Add the defines from the qdocconf file.
for (const auto &p : std::as_const(m_defines))
args.push_back(p.constData());
if (!m_pchName.isEmpty()) {
args.push_back("-w");
args.push_back("-include-pch");
args.push_back(m_pchName.constData());
}
CXTranslationUnit tu;
s_fn.clear();
for (const auto &ns : std::as_const(m_namespaceScope))
s_fn.prepend("namespace " + ns.toUtf8() + " {");
s_fn += fnSignature.toUtf8();
if (!s_fn.endsWith(";"))
s_fn += "{ }";
s_fn.append(m_namespaceScope.size(), '}');
const char *dummyFileName = fnDummyFileName;
CXUnsavedFile unsavedFile { dummyFileName, s_fn.constData(),
static_cast<unsigned long>(s_fn.size()) };
CXErrorCode err = clang_parseTranslationUnit2(index, dummyFileName, args.data(),
int(args.size()), &unsavedFile, 1, flags, &tu);
qCDebug(lcQdoc) << __FUNCTION__ << "clang_parseTranslationUnit2(" << dummyFileName << args
<< ") returns" << err;
printDiagnostics(tu);
if (err || !tu) {
location.error(QStringLiteral("clang could not parse \\fn %1").arg(fnSignature));
clang_disposeTranslationUnit(tu);
clang_disposeIndex(index);
return fnNode;
} else {
/*
Always visit the tu if one is constructed, because
it might be possible to find the correct node, even
if clang detected diagnostics. Only bother to report
the diagnostics if they stop us finding the node.
*/
CXCursor cur = clang_getTranslationUnitCursor(tu);
ClangVisitor visitor(m_qdb, m_allHeaders);
bool ignoreSignature = false;
visitor.visitFnArg(cur, &fnNode, ignoreSignature);
/*
If the visitor couldn't find a FunctionNode for the
signature, then print the clang diagnostics if there
were any.
*/
if (fnNode == nullptr) {
unsigned diagnosticCount = clang_getNumDiagnostics(tu);
const auto &config = Config::instance();
if (diagnosticCount > 0 && (!config.preparing() || config.singleExec())) {
bool report = true;
QStringList signature = fnSignature.split(QChar('('));
if (signature.size() > 1) {
QStringList qualifiedName = signature.at(0).split(QChar(' '));
qualifiedName = qualifiedName.last().split(QLatin1String("::"));
if (qualifiedName.size() > 1) {
QString qualifier = qualifiedName.at(0);
int i = 0;
while (qualifier.size() > i && !qualifier.at(i).isLetter())
qualifier[i++] = QChar(' ');
if (i > 0)
qualifier = qualifier.simplified();
ClassNode *cn = m_qdb->findClassNode(QStringList(qualifier));
if (cn && cn->isInternal())
report = false;
}
}
if (report) {
location.warning(
QStringLiteral("clang couldn't find function when parsing \\fn %1").arg(fnSignature));
}
}
}
}
clang_disposeTranslationUnit(tu);
clang_disposeIndex(index);
return fnNode;
}
void ClangCodeParser::printDiagnostics(const CXTranslationUnit &translationUnit) const
{
if (!lcQdocClang().isDebugEnabled())
return;
static const auto displayOptions = CXDiagnosticDisplayOptions::CXDiagnostic_DisplaySourceLocation
| CXDiagnosticDisplayOptions::CXDiagnostic_DisplayColumn
| CXDiagnosticDisplayOptions::CXDiagnostic_DisplayOption;
for (unsigned i = 0, numDiagnostics = clang_getNumDiagnostics(translationUnit); i < numDiagnostics; ++i) {
auto diagnostic = clang_getDiagnostic(translationUnit, i);
auto formattedDiagnostic = clang_formatDiagnostic(diagnostic, displayOptions);
qCDebug(lcQdocClang) << clang_getCString(formattedDiagnostic);
clang_disposeString(formattedDiagnostic);
clang_disposeDiagnostic(diagnostic);
}
}
QT_END_NAMESPACE
|