コード例 #1
0
ファイル: IndexerJob.cpp プロジェクト: jbulow/rtags
void IndexerJob::nestedClassConstructorCallUgleHack(const CXCursor &parent, CursorInfo &info,
                                                    CXCursorKind refKind, const Location &refLoc)
{
    if (refKind == CXCursor_Constructor
        && clang_getCursorKind(mLastCursor) == CXCursor_TypeRef
        && clang_getCursorKind(parent) == CXCursor_CXXFunctionalCastExpr) {
        const CXStringScope str = clang_getCursorSpelling(mLastCursor);
        int start = -1;
        const char *cstr = str.data();
        int idx = 0;
        while (cstr[idx]) {
            if (start == -1 && cstr[idx] == ' ') {
                start = idx;
            }
            ++idx;
        }
        if (start != -1) {
            // error() << "Changed symbolLength from" << info.symbolLength << "to" << (idx - start - 1) << "for dude reffing" << refLoc;
            info.symbolLength = idx - start - 1;
        }
        RTags::Filter in;
        in.kinds.insert(CXCursor_TypeRef);
        const List<CXCursor> typeRefs = RTags::children(parent, in);
        for (int i=0; i<typeRefs.size(); ++i) {
            const Location loc = createLocation(typeRefs.at(i));
            // error() << "Added" << refLoc << "to targets for" << typeRefs.at(i);
            mData->symbols[loc].targets.insert(refLoc);
        }
    }
}
コード例 #2
0
ファイル: RTagsClang.cpp プロジェクト: jsyjr/rtags
static CXChildVisitResult findChildVisitor(CXCursor cursor, CXCursor, CXClientData data)
{
    FindChildVisitor *u = reinterpret_cast<FindChildVisitor*>(data);
    if (u->name.isEmpty()) {
        if (clang_getCursorKind(cursor) == u->kind) {
            u->cursor = cursor;
            return CXChildVisit_Break;
        }
    } else {
        CXStringScope str = clang_getCursorSpelling(cursor);
        if (str.data() && u->name == str.data()) {
            u->cursor = cursor;
            return CXChildVisit_Break;
        }
    }
    return CXChildVisit_Continue;
}
コード例 #3
0
ファイル: IndexerJob.cpp プロジェクト: jbulow/rtags
bool IndexerJob::handleCursor(const CXCursor &cursor, CXCursorKind kind, const Location &location)
{
    CursorInfo &info = mData->symbols[location];
    if (!info.symbolLength || !RTags::isCursor(info.kind)) {
        CXStringScope name = clang_getCursorSpelling(cursor);
        const char *cstr = name.data();
        info.symbolLength = cstr ? strlen(cstr) : 0;
        info.type = clang_getCursorType(cursor).kind;
        if (!info.symbolLength) {
            // this is for these constructs:
            // typedef struct {
            //    int a;
            // } foobar;
            //
            // We end up not getting a spelling for the cursor

            switch (kind) {
            case CXCursor_ClassDecl:
                info.symbolLength = 5;
                info.symbolName = "class";
                break;
            case CXCursor_UnionDecl:
                info.symbolLength = 5;
                info.symbolName = "union";
                break;
            case CXCursor_StructDecl:
                info.symbolLength = 6;
                info.symbolName = "struct";
                break;
            default:
                mData->symbols.remove(location);
                return false;
            }
        } else {
            info.symbolName = addNamePermutations(cursor, location);
        }

        CXSourceRange range = clang_getCursorExtent(cursor);
        unsigned start, end;
        clang_getSpellingLocation(clang_getRangeStart(range), 0, 0, 0, &start);
        clang_getSpellingLocation(clang_getRangeEnd(range), 0, 0, 0, &end);
        info.start = start;
        info.end = end;

        if (kind == CXCursor_EnumConstantDecl) {
#if CLANG_VERSION_MINOR > 1
            info.enumValue = clang_getEnumConstantDeclValue(cursor);
#else
            info.definition = clang_isCursorDefinition(cursor);
#endif
        } else{
            info.definition = clang_isCursorDefinition(cursor);
        }
        info.kind = kind;
        const String usr = RTags::eatString(clang_getCursorUSR(cursor));
        if (!usr.isEmpty())
            mData->usrMap[usr].insert(location);

        switch (info.kind) {
        case CXCursor_Constructor:
        case CXCursor_Destructor: {
            Location parentLocation = createLocation(clang_getCursorSemanticParent(cursor));
            // consider doing this for only declaration/inline definition since
            // declaration and definition should know of one another
            if (parentLocation.isValid()) {
                CursorInfo &parent = mData->symbols[parentLocation];
                parent.references.insert(location);
                info.references.insert(parentLocation);
            }
            break; }
        case CXCursor_CXXMethod: {
            List<CursorInfo*> infos;
            infos.append(&info);
            addOverriddenCursors(cursor, location, infos);
            break; }
        default:
            break;
        }
    }

    return true;
}
コード例 #4
0
ファイル: IndexerJob.cpp プロジェクト: jbulow/rtags
void IndexerJob::handleReference(const CXCursor &cursor, CXCursorKind kind, const Location &location, const CXCursor &ref, const CXCursor &parent)
{
    const CXCursorKind refKind = clang_getCursorKind(ref);
    if (clang_isInvalid(refKind)) {
        superclassTemplateMemberFunctionUgleHack(cursor, kind, location, ref, parent);
        return;
    }

    bool isOperator = false;
    if (kind == CXCursor_CallExpr && (refKind == CXCursor_CXXMethod
                                      || refKind == CXCursor_ConversionFunction
                                      || refKind == CXCursor_FunctionDecl
                                      || refKind == CXCursor_FunctionTemplate)) {
        // these are bullshit, for this construct:
        // foo.bar();
        // the position of the cursor is at the foo, not the bar.
        // They are not interesting for followLocation, renameSymbol or find
        // references so we toss them.
        // For functions it can be the position of the namespace.
        // E.g. Foo::bar(); cursor is on Foo
        // For constructors they happen to be the only thing we have that
        // actually refs the constructor and not the class so we have to keep
        // them for that.
        return;
    }

    switch (refKind) {
    case CXCursor_Constructor:
        if (isImplicit(ref))
            return;
        break;
    case CXCursor_CXXMethod:
    case CXCursor_FunctionDecl:
    case CXCursor_FunctionTemplate: {
        CXStringScope scope = clang_getCursorDisplayName(ref);
        const char *data = scope.data();
        if (data) {
            const int len = strlen(data);
            if (len > 8 && !strncmp(data, "operator", 8) && !isalnum(data[8]) && data[8] != '_') {
                if (isImplicit(ref))
                    return; // eat implicit operator calls
                isOperator = true;
            }
        }
        break; }
    default:
        break;
    }

    const Location reffedLoc = createLocation(ref, 0);
    if (!reffedLoc.isValid())
        return;

    CursorInfo &refInfo = mData->symbols[reffedLoc];
    if (!refInfo.symbolLength && !handleCursor(ref, refKind, reffedLoc))
        return;

    refInfo.references.insert(location);

    CursorInfo &info = mData->symbols[location];
    info.targets.insert(reffedLoc);

    // We need the new cursor to replace the symbolLength. This is important
    // in the following case:
    // struct R { R(const &r); ... }
    // R foo();
    // ...
    // R r = foo();

    // The first cursor on foo() will be a reference to the copy constructor and
    // this cursor will have a symbolLength of 1. Thus you won't be able to jump
    // to foo from the o. This is fixed by making sure the newer target, if
    // better, gets to decide on the symbolLength

    // The !isCursor is var decls and field decls where we set up a target even
    // if they're not considered references

    if (!RTags::isCursor(info.kind) && (!info.symbolLength || info.bestTarget(mData->symbols).kind == refKind)) {
        CXSourceRange range = clang_getCursorExtent(cursor);
        unsigned start, end;
        clang_getSpellingLocation(clang_getRangeStart(range), 0, 0, 0, &start);
        clang_getSpellingLocation(clang_getRangeEnd(range), 0, 0, 0, &end);
        info.start = start;
        info.end = end;
        info.definition = false;
        info.kind = kind;
        info.symbolLength = isOperator ? end - start : refInfo.symbolLength;
        info.symbolName = refInfo.symbolName;
        info.type = clang_getCursorType(cursor).kind;
        switch (kind) {
        case CXCursor_CallExpr:
            nestedClassConstructorCallUgleHack(parent, info, refKind, reffedLoc);
            // see rtags/tests/nestedClassConstructorCallUgleHack/
            break;
        default:
            break;
        }
    }
    Set<Location> &val = mData->references[location];
    val.insert(reffedLoc);
}
コード例 #5
0
ファイル: ClangIndexer.cpp プロジェクト: clapautius/rtags
bool ClangIndexer::handleCursor(const CXCursor &cursor, CXCursorKind kind, const Location &location)
{
    // error() << "Got a cursor" << cursor;
    std::shared_ptr<CursorInfo> &info = mData->symbols[location];
    if (!info)
        info = std::make_shared<CursorInfo>();

    if (!info->symbolLength) {
        // if (mLogFile) {
        //     String out;
        //     Log(&out) << cursor << a;
        //     fwrite(out.constData(), 1, out.size(), mLogFile);
        //     fwrite("\n", 1, 1, mLogFile);
        // }
        CXStringScope name = clang_getCursorSpelling(cursor);
        const char *cstr = name.data();
        info->symbolLength = cstr ? strlen(cstr) : 0;
        info->type = clang_getCursorType(cursor).kind;
        if (!info->symbolLength) {
            // this is for these constructs:
            // typedef struct {
            //    int a;
            // } foobar;
            //
            // We end up not getting a spelling for the cursor

            switch (kind) {
            case CXCursor_ClassDecl:
                info->symbolLength = 5;
                info->symbolName = "class";
                break;
            case CXCursor_UnionDecl:
                info->symbolLength = 5;
                info->symbolName = "union";
                break;
            case CXCursor_StructDecl:
                info->symbolLength = 6;
                info->symbolName = "struct";
                break;
            default:
                mData->symbols.remove(location);
                return false;
            }
        } else {
            info->symbolName = addNamePermutations(cursor, location);
        }

        CXSourceRange range = clang_getCursorExtent(cursor);
        CXSourceLocation rangeStart = clang_getRangeStart(range);
        CXSourceLocation rangeEnd = clang_getRangeEnd(range);
        unsigned startLine, startColumn, endLine, endColumn;
        clang_getPresumedLocation(rangeStart, 0, &startLine, &startColumn);
        clang_getPresumedLocation(rangeEnd, 0, &endLine, &endColumn);
        info->startLine = startLine;
        info->startColumn = startColumn;
        info->endLine = endLine;
        info->endColumn = endColumn;

        if (kind == CXCursor_EnumConstantDecl) {
#if CINDEX_VERSION_MINOR > 1
            info->enumValue = clang_getEnumConstantDeclValue(cursor);
#else
            info->definition = 1;
#endif
        } else {
            info->definition = clang_isCursorDefinition(cursor);
        }
        info->kind = kind;
        // apparently some function decls will give a different usr for
        // their definition and their declaration.  Using the canonical
        // cursor's usr allows us to join them. Check JSClassRelease in
        // JavaScriptCore for an example.
        const String usr = RTags::eatString(clang_getCursorUSR(clang_getCanonicalCursor(cursor)));
        if (!usr.isEmpty())
            mData->usrMap[usr].insert(location);

        switch (info->kind) {
        case CXCursor_Constructor:
        case CXCursor_Destructor: {
            Location parentLocation = createLocation(clang_getCursorSemanticParent(cursor));
            // consider doing this for only declaration/inline definition since
            // declaration and definition should know of one another
            if (parentLocation.isValid()) {
                std::shared_ptr<CursorInfo> &parent = mData->symbols[parentLocation];
                if (!parent)
                    parent = std::make_shared<CursorInfo>();
                parent->references.insert(location);
                info->references.insert(parentLocation);
            }
            break; }
        case CXCursor_CXXMethod: {
            List<CursorInfo*> infos;
            infos.append(info.get());
            addOverriddenCursors(cursor, location, infos);
            break; }
        default:
            break;
        }
    }

    return true;
}
コード例 #6
0
ファイル: ClangIndexer.cpp プロジェクト: clapautius/rtags
void ClangIndexer::handleReference(const CXCursor &cursor, CXCursorKind kind, const Location &location, const CXCursor &ref, const CXCursor &parent)
{
    const CXCursorKind refKind = clang_getCursorKind(ref);
    if (clang_isInvalid(refKind)) {
        superclassTemplateMemberFunctionUgleHack(cursor, kind, location, ref, parent);
        return;
    }

    bool isOperator = false;
    if (kind == CXCursor_CallExpr && (refKind == CXCursor_CXXMethod
                                      || refKind == CXCursor_ConversionFunction
                                      || refKind == CXCursor_FunctionDecl
                                      || refKind == CXCursor_FunctionTemplate)) {
        // these are bullshit, for this construct:
        // foo.bar();
        // the position of the cursor is at the foo, not the bar.
        // They are not interesting for followLocation, renameSymbol or find
        // references so we toss them.
        // For functions it can be the position of the namespace.
        // E.g. Foo::bar(); cursor is on Foo
        // For constructors they happen to be the only thing we have that
        // actually refs the constructor and not the class so we have to keep
        // them for that.
        return;
    }

    switch (refKind) {
    case CXCursor_Constructor:
        if (isImplicit(ref))
            return;
        break;
    case CXCursor_CXXMethod:
    case CXCursor_FunctionDecl:
    case CXCursor_FunctionTemplate: {
        CXStringScope scope = clang_getCursorDisplayName(ref);
        const char *data = scope.data();
        if (data) {
            const int len = strlen(data);
            if (len > 8 && !strncmp(data, "operator", 8) && !isalnum(data[8]) && data[8] != '_') {
                if (isImplicit(ref))
                    return; // eat implicit operator calls
                isOperator = true;
            }
        }
        break; }
    default:
        break;
    }

    const Location reffedLoc = createLocation(ref);
    if (!reffedLoc.isValid()) {
        if (kind == CXCursor_ObjCMessageExpr) {
            mData->pendingReferenceMap[RTags::eatString(clang_getCursorUSR(clang_getCanonicalCursor(ref)))].insert(location);
            // insert it, we'll hook up the target and references later
            handleCursor(cursor, kind, location);
        }
        return;
    }

    std::shared_ptr<CursorInfo> &refInfo = mData->symbols[reffedLoc];
    if ((!refInfo || !refInfo->symbolLength) && !handleCursor(ref, refKind, reffedLoc))
        return;

    refInfo->references.insert(location);

    std::shared_ptr<CursorInfo> &info = mData->symbols[location];
    if (!info)
        info = std::make_shared<CursorInfo>();
    info->targets.insert(reffedLoc);

    // We need the new cursor to replace the symbolLength. This is important
    // in the following case:
    // struct R { R(const &r); ... }
    // R foo();
    // ...
    // R r = foo();

    // The first cursor on foo() will be a reference to the copy constructor and
    // this cursor will have a symbolLength of 1. Thus you won't be able to jump
    // to foo from the o. This is fixed by making sure the newer target, if
    // better, gets to decide on the symbolLength

    // The !isCursor is var decls and field decls where we set up a target even
    // if they're not considered references

    if (!RTags::isCursor(info->kind) && (!info->symbolLength || info->bestTarget(mData->symbols)->kind == refKind)) {
        CXSourceRange range = clang_getCursorExtent(cursor);
        CXSourceLocation rangeStart = clang_getRangeStart(range);
        CXSourceLocation rangeEnd = clang_getRangeEnd(range);
        unsigned startLine, startColumn, endLine, endColumn;
        clang_getPresumedLocation(rangeStart, 0, &startLine, &startColumn);
        clang_getPresumedLocation(rangeEnd, 0, &endLine, &endColumn);
        info->startLine = startLine;
        info->startColumn = startColumn;
        info->endLine = endLine;
        info->endColumn = endColumn;
        info->definition = false;
        info->kind = kind;
        if (isOperator) {
            unsigned start, end;
            clang_getSpellingLocation(rangeStart, 0, 0, 0, &start);
            clang_getSpellingLocation(rangeEnd, 0, 0, 0, &end);
            info->symbolLength = end - start;
        } else {
            info->symbolLength = refInfo->symbolLength;
        }
        info->symbolName = refInfo->symbolName;
        info->type = clang_getCursorType(cursor).kind;
    }
}