ccls/src/messages/ccls_inheritance_hierarchy.cc

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#include "message_handler.h"
#include "query_utils.h"
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#include "queue_manager.h"
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namespace {
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MethodType kMethodType = "$ccls/inheritanceHierarchy";
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struct In_CclsInheritanceHierarchy : public RequestInMessage {
MethodType GetMethodType() const override { return kMethodType; }
struct Params {
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// If id+kind are specified, expand a node; otherwise textDocument+position
// should be specified for building the root and |levels| of nodes below.
lsTextDocumentIdentifier textDocument;
lsPosition position;
Maybe<Id<void>> id;
SymbolKind kind = SymbolKind::Invalid;
// true: derived classes/functions; false: base classes/functions
bool derived = false;
bool qualified = true;
int levels = 1;
};
Params params;
};
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MAKE_REFLECT_STRUCT(In_CclsInheritanceHierarchy::Params,
textDocument,
position,
id,
kind,
derived,
qualified,
levels);
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MAKE_REFLECT_STRUCT(In_CclsInheritanceHierarchy, id, params);
REGISTER_IN_MESSAGE(In_CclsInheritanceHierarchy);
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struct Out_CclsInheritanceHierarchy
: public lsOutMessage<Out_CclsInheritanceHierarchy> {
struct Entry {
Id<void> id;
SymbolKind kind;
std::string_view name;
lsLocation location;
// For unexpanded nodes, this is an upper bound because some entities may be
// undefined. If it is 0, there are no members.
int numChildren;
// Empty if the |levels| limit is reached.
std::vector<Entry> children;
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};
lsRequestId id;
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std::optional<Entry> result;
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};
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MAKE_REFLECT_STRUCT(Out_CclsInheritanceHierarchy::Entry,
id,
kind,
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name,
location,
numChildren,
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children);
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MAKE_REFLECT_STRUCT(Out_CclsInheritanceHierarchy, jsonrpc, id, result);
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bool Expand(MessageHandler* m,
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Out_CclsInheritanceHierarchy::Entry* entry,
bool derived,
bool qualified,
int levels);
template <typename Q>
bool ExpandHelper(MessageHandler* m,
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Out_CclsInheritanceHierarchy::Entry* entry,
bool derived,
bool qualified,
int levels,
Q& entity) {
const auto* def = entity.AnyDef();
if (!def) {
entry->numChildren = 0;
return false;
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}
entry->name = def->Name(qualified);
if (def->spell) {
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if (std::optional<lsLocation> loc =
GetLsLocation(m->db, m->working_files, *def->spell))
entry->location = *loc;
}
if (derived) {
if (levels > 0) {
for (auto id : entity.derived) {
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Out_CclsInheritanceHierarchy::Entry entry1;
entry1.id = id;
entry1.kind = entry->kind;
if (Expand(m, &entry1, derived, qualified, levels - 1))
entry->children.push_back(std::move(entry1));
}
entry->numChildren = int(entry->children.size());
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} else
entry->numChildren = int(entity.derived.size());
} else {
if (levels > 0) {
for (auto id : def->bases) {
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Out_CclsInheritanceHierarchy::Entry entry1;
entry1.id = id;
entry1.kind = entry->kind;
if (Expand(m, &entry1, derived, qualified, levels - 1))
entry->children.push_back(std::move(entry1));
}
entry->numChildren = int(entry->children.size());
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} else
entry->numChildren = int(def->bases.size());
}
return true;
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}
bool Expand(MessageHandler* m,
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Out_CclsInheritanceHierarchy::Entry* entry,
bool derived,
bool qualified,
int levels) {
if (entry->kind == SymbolKind::Func)
return ExpandHelper(m, entry, derived, qualified, levels,
m->db->funcs[entry->id.id]);
else
return ExpandHelper(m, entry, derived, qualified, levels,
m->db->types[entry->id.id]);
}
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struct Handler_CclsInheritanceHierarchy
: BaseMessageHandler<In_CclsInheritanceHierarchy> {
MethodType GetMethodType() const override { return kMethodType; }
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std::optional<Out_CclsInheritanceHierarchy::Entry>
BuildInitial(SymbolRef sym, bool derived, bool qualified, int levels) {
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Out_CclsInheritanceHierarchy::Entry entry;
entry.id = sym.id;
entry.kind = sym.kind;
Expand(this, &entry, derived, qualified, levels);
return entry;
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}
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void Run(In_CclsInheritanceHierarchy* request) override {
const auto& params = request->params;
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Out_CclsInheritanceHierarchy out;
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out.id = request->id;
if (params.id) {
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Out_CclsInheritanceHierarchy::Entry entry;
entry.id = *params.id;
entry.kind = params.kind;
if (((entry.kind == SymbolKind::Func && entry.id.id < db->funcs.size()) ||
(entry.kind == SymbolKind::Type &&
entry.id.id < db->types.size())) &&
Expand(this, &entry, params.derived, params.qualified,
params.levels))
out.result = std::move(entry);
} else {
QueryFile* file;
if (!FindFileOrFail(db, project, request->id,
params.textDocument.uri.GetPath(), &file))
return;
WorkingFile* working_file =
working_files->GetFileByFilename(file->def->path);
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for (SymbolRef sym : FindSymbolsAtLocation(working_file, file,
request->params.position)) {
if (sym.kind == SymbolKind::Func || sym.kind == SymbolKind::Type) {
out.result = BuildInitial(sym, params.derived, params.qualified,
params.levels);
break;
}
}
}
QueueManager::WriteStdout(kMethodType, out);
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}
};
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REGISTER_MESSAGE_HANDLER(Handler_CclsInheritanceHierarchy);
} // namespace