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ccls_call.cc
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ccls_call.cc
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// Copyright 2017-2018 ccls Authors
// SPDX-License-Identifier: Apache-2.0
#include "hierarchy.hh"
#include "message_handler.hh"
#include "pipeline.hh"
#include "query.hh"
#include <map>
#include <unordered_set>
namespace ccls {
namespace {
enum class CallType : uint8_t { Direct = 0, Base = 1, Derived = 2, All = 1 | 2 };
REFLECT_UNDERLYING(CallType);
bool operator&(CallType lhs, CallType rhs) { return uint8_t(lhs) & uint8_t(rhs); }
struct Param : TextDocumentPositionParam {
// If id is specified, expand a node; otherwise textDocument+position should
// be specified for building the root and |levels| of nodes below.
Usr usr;
std::string id;
// true: callee tree (functions called by this function); false: caller tree
// (where this function is called)
bool callee = false;
// Base: include base functions; All: include both base and derived
// functions.
CallType callType = CallType::All;
bool qualified = true;
int levels = 1;
bool hierarchy = false;
};
REFLECT_STRUCT(Param, textDocument, position, id, callee, callType, qualified, levels, hierarchy);
struct Out_cclsCall {
Usr usr;
std::string id;
std::string_view name;
Location location;
CallType callType = CallType::Direct;
int numChildren;
// Empty if the |levels| limit is reached.
std::vector<Out_cclsCall> children;
bool operator==(const Out_cclsCall &o) const { return location == o.location; }
bool operator<(const Out_cclsCall &o) const { return location < o.location; }
};
REFLECT_STRUCT(Out_cclsCall, id, name, location, callType, numChildren, children);
struct Out_incomingCall {
CallHierarchyItem from;
std::vector<lsRange> fromRanges;
};
REFLECT_STRUCT(Out_incomingCall, from, fromRanges);
struct Out_outgoingCall {
CallHierarchyItem to;
std::vector<lsRange> fromRanges;
};
REFLECT_STRUCT(Out_outgoingCall, to, fromRanges);
bool expand(MessageHandler *m, Out_cclsCall *entry, bool callee, CallType call_type, bool qualified, int levels) {
const QueryFunc &func = m->db->getFunc(entry->usr);
const QueryFunc::Def *def = func.anyDef();
entry->numChildren = 0;
if (!def)
return false;
auto handle = [&](SymbolRef sym, int file_id, CallType call_type1) {
entry->numChildren++;
if (levels > 0) {
Out_cclsCall entry1;
entry1.id = std::to_string(sym.usr);
entry1.usr = sym.usr;
if (auto loc = getLsLocation(m->db, m->wfiles, Use{{sym.range, sym.role}, file_id}))
entry1.location = *loc;
entry1.callType = call_type1;
if (expand(m, &entry1, callee, call_type, qualified, levels - 1))
entry->children.push_back(std::move(entry1));
}
};
auto handle_uses = [&](const QueryFunc &func, CallType call_type) {
if (callee) {
if (const auto *def = func.anyDef())
for (SymbolRef sym : def->callees)
if (sym.kind == Kind::Func)
handle(sym, def->file_id, call_type);
} else {
for (Use use : func.uses) {
const QueryFile &file1 = m->db->files[use.file_id];
Maybe<ExtentRef> best;
for (auto [sym, refcnt] : file1.symbol2refcnt)
if (refcnt > 0 && sym.extent.valid() && sym.kind == Kind::Func && sym.extent.start <= use.range.start &&
use.range.end <= sym.extent.end && (!best || best->extent.start < sym.extent.start))
best = sym;
if (best)
handle(*best, use.file_id, call_type);
}
}
};
std::unordered_set<Usr> seen;
seen.insert(func.usr);
std::vector<const QueryFunc *> stack;
entry->name = def->name(qualified);
handle_uses(func, CallType::Direct);
// Callers/callees of base functions.
if (call_type & CallType::Base) {
stack.push_back(&func);
while (stack.size()) {
const QueryFunc &func1 = *stack.back();
stack.pop_back();
if (auto *def1 = func1.anyDef()) {
eachDefinedFunc(m->db, def1->bases, [&](QueryFunc &func2) {
if (!seen.count(func2.usr)) {
seen.insert(func2.usr);
stack.push_back(&func2);
handle_uses(func2, CallType::Base);
}
});
}
}
}
// Callers/callees of derived functions.
if (call_type & CallType::Derived) {
stack.push_back(&func);
while (stack.size()) {
const QueryFunc &func1 = *stack.back();
stack.pop_back();
eachDefinedFunc(m->db, func1.derived, [&](QueryFunc &func2) {
if (!seen.count(func2.usr)) {
seen.insert(func2.usr);
stack.push_back(&func2);
handle_uses(func2, CallType::Derived);
}
});
}
}
std::sort(entry->children.begin(), entry->children.end());
entry->children.erase(std::unique(entry->children.begin(), entry->children.end()), entry->children.end());
return true;
}
std::optional<Out_cclsCall> buildInitial(MessageHandler *m, Usr root_usr, bool callee, CallType call_type,
bool qualified, int levels) {
const auto *def = m->db->getFunc(root_usr).anyDef();
if (!def)
return {};
Out_cclsCall entry;
entry.id = std::to_string(root_usr);
entry.usr = root_usr;
entry.callType = CallType::Direct;
if (def->spell) {
if (auto loc = getLsLocation(m->db, m->wfiles, *def->spell))
entry.location = *loc;
}
expand(m, &entry, callee, call_type, qualified, levels);
return entry;
}
} // namespace
void MessageHandler::ccls_call(JsonReader &reader, ReplyOnce &reply) {
Param param;
reflect(reader, param);
std::optional<Out_cclsCall> result;
if (param.id.size()) {
try {
param.usr = std::stoull(param.id);
} catch (...) {
return;
}
result.emplace();
result->id = std::to_string(param.usr);
result->usr = param.usr;
result->callType = CallType::Direct;
if (db->hasFunc(param.usr))
expand(this, &*result, param.callee, param.callType, param.qualified, param.levels);
} else {
auto [file, wf] = findOrFail(param.textDocument.uri.getPath(), reply);
if (!wf)
return;
for (SymbolRef sym : findSymbolsAtLocation(wf, file, param.position)) {
if (sym.kind == Kind::Func) {
result = buildInitial(this, sym.usr, param.callee, param.callType, param.qualified, param.levels);
break;
}
}
}
if (param.hierarchy)
reply(result);
else
reply(flattenHierarchy(result));
}
void MessageHandler::textDocument_prepareCallHierarchy(TextDocumentPositionParam ¶m, ReplyOnce &reply) {
std::string path = param.textDocument.uri.getPath();
auto [file, wf] = findOrFail(path, reply);
if (!file)
return;
std::vector<CallHierarchyItem> result;
for (SymbolRef sym : findSymbolsAtLocation(wf, file, param.position)) {
if (sym.kind != Kind::Func)
continue;
const auto *def = db->getFunc(sym.usr).anyDef();
if (!def)
continue;
auto r = getLsRange(wf, sym.range);
if (!r)
continue;
CallHierarchyItem &item = result.emplace_back();
item.name = def->name(false);
item.kind = def->kind;
item.detail = def->name(true);
item.uri = DocumentUri::fromPath(path);
item.range = item.selectionRange = *r;
item.data = std::to_string(sym.usr);
}
reply(result);
}
static lsRange toLsRange(Range r) { return {{r.start.line, r.start.column}, {r.end.line, r.end.column}}; }
static void add(std::map<SymbolIdx, std::pair<int, std::vector<lsRange>>> &sym2ranges, SymbolRef sym, int file_id) {
auto [it, inserted] = sym2ranges.try_emplace(SymbolIdx{sym.usr, sym.kind});
if (inserted)
it->second.first = file_id;
if (it->second.first == file_id)
it->second.second.push_back(toLsRange(sym.range));
}
template <typename Out>
static std::vector<Out> toCallResult(DB *db,
const std::map<SymbolIdx, std::pair<int, std::vector<lsRange>>> &sym2ranges) {
std::vector<Out> result;
for (auto &[sym, ranges] : sym2ranges) {
CallHierarchyItem item;
item.uri = getLsDocumentUri(db, ranges.first);
auto r = ranges.second[0];
item.range = {{uint16_t(r.start.line), int16_t(r.start.character)},
{uint16_t(r.end.line), int16_t(r.end.character)}};
item.selectionRange = item.range;
switch (sym.kind) {
default:
continue;
case Kind::Func: {
auto idx = db->func_usr[sym.usr];
const QueryFunc &func = db->funcs[idx];
const QueryFunc::Def *def = func.anyDef();
if (!def)
continue;
item.name = def->name(false);
item.kind = def->kind;
item.detail = def->name(true);
item.data = std::to_string(sym.usr);
}
}
result.push_back({std::move(item), std::move(ranges.second)});
}
return result;
}
void MessageHandler::callHierarchy_incomingCalls(CallsParam ¶m, ReplyOnce &reply) {
Usr usr;
try {
usr = std::stoull(param.item.data);
} catch (...) {
return;
}
const QueryFunc &func = db->getFunc(usr);
std::map<SymbolIdx, std::pair<int, std::vector<lsRange>>> sym2ranges;
for (Use use : func.uses) {
const QueryFile &file = db->files[use.file_id];
Maybe<ExtentRef> best;
for (auto [sym, refcnt] : file.symbol2refcnt)
if (refcnt > 0 && sym.extent.valid() && sym.kind == Kind::Func && sym.extent.start <= use.range.start &&
use.range.end <= sym.extent.end && (!best || best->extent.start < sym.extent.start))
best = sym;
if (best)
add(sym2ranges, *best, use.file_id);
}
reply(toCallResult<Out_incomingCall>(db, sym2ranges));
}
void MessageHandler::callHierarchy_outgoingCalls(CallsParam ¶m, ReplyOnce &reply) {
Usr usr;
try {
usr = std::stoull(param.item.data);
} catch (...) {
return;
}
const QueryFunc &func = db->getFunc(usr);
std::map<SymbolIdx, std::pair<int, std::vector<lsRange>>> sym2ranges;
if (const auto *def = func.anyDef())
for (SymbolRef sym : def->callees)
if (sym.kind == Kind::Func) {
add(sym2ranges, sym, def->file_id);
}
reply(toCallResult<Out_outgoingCall>(db, sym2ranges));
}
} // namespace ccls