ccls/src/query.cc

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#include "query.h"
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#include "indexer.h"
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#include "serializer.h"
#include "serializers/json.h"
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#include <cassert>
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#include <cstdint>
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#include <functional>
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#include <optional>
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#include <string>
#include <unordered_map>
#include <unordered_set>
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namespace {
void AssignFileId(const Lid2file_id &, int file_id, SymbolRef &ref) {
if (ref.kind == SymbolKind::File)
ref.usr = file_id;
}
void AssignFileId(const Lid2file_id& lid2file_id, int file_id, Use& use) {
if (use.kind == SymbolKind::File)
use.usr = file_id;
if (use.file_id == -1)
use.file_id = file_id;
else
use.file_id = lid2file_id.find(use.file_id)->second;
}
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template <typename T>
void AssignFileId(const Lid2file_id &, int file_id, T &) {}
template <typename T>
void AssignFileId(const Lid2file_id &lid2file_id, int file_id, Maybe<T> &x) {
if (x)
AssignFileId(lid2file_id, file_id, *x);
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}
template <typename T>
void AssignFileId(const Lid2file_id &lid2file_id, int file_id,
std::vector<T> &xs) {
for (T &x : xs)
AssignFileId(lid2file_id, file_id, x);
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}
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void AddRange(std::vector<Use>& into, const std::vector<Use>& from) {
into.reserve(into.size() + from.size());
for (Use use : from)
into.push_back(use);
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}
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void AddRange(std::vector<Usr>& into, const std::vector<Usr>& from) {
into.insert(into.end(), from.begin(), from.end());
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}
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template <typename T>
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void RemoveRange(std::vector<T>& from, const std::vector<T>& to_remove) {
if (to_remove.size()) {
std::unordered_set<T> to_remove_set(to_remove.begin(), to_remove.end());
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from.erase(
std::remove_if(from.begin(), from.end(),
[&](const T& t) { return to_remove_set.count(t) > 0; }),
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from.end());
}
}
QueryFile::DefUpdate BuildFileDefUpdate(const IndexFile& indexed) {
QueryFile::Def def;
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def.path = std::move(indexed.path);
def.args = std::move(indexed.args);
def.includes = std::move(indexed.includes);
def.skipped_ranges = std::move(indexed.skipped_ranges);
def.dependencies.reserve(indexed.dependencies.size());
for (auto& dep : indexed.dependencies)
def.dependencies.push_back(dep.first());
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def.language = indexed.language;
auto add_all_symbols = [&](Use use, Usr usr, SymbolKind kind) {
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def.all_symbols.push_back(SymbolRef{{use.range, usr, kind, use.role}});
};
auto add_outline = [&](Use use, Usr usr, SymbolKind kind) {
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def.outline.push_back(SymbolRef{{use.range, usr, kind, use.role}});
};
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for (auto& it : indexed.usr2type) {
const IndexType& type = it.second;
if (type.def.spell)
add_all_symbols(*type.def.spell, type.usr, SymbolKind::Type);
if (type.def.extent)
add_outline(*type.def.extent, type.usr, SymbolKind::Type);
for (Use decl : type.declarations) {
add_all_symbols(decl, type.usr, SymbolKind::Type);
// Constructor positions have references to the class,
// which we do not want to show in textDocument/documentSymbol
if (!(decl.role & Role::Reference))
add_outline(decl, type.usr, SymbolKind::Type);
}
for (Use use : type.uses)
if (use.file_id == -1)
add_all_symbols(use, type.usr, SymbolKind::Type);
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}
for (auto& it: indexed.usr2func) {
const IndexFunc& func = it.second;
if (func.def.spell)
add_all_symbols(*func.def.spell, func.usr, SymbolKind::Func);
if (func.def.extent)
add_outline(*func.def.extent, func.usr, SymbolKind::Func);
for (Use use : func.declarations) {
add_all_symbols(use, func.usr, SymbolKind::Func);
add_outline(use, func.usr, SymbolKind::Func);
}
for (Use use : func.uses)
if (use.file_id == -1) {
// Make ranges of implicit function calls larger (spanning one more
// column to the left/right). This is hacky but useful. e.g.
// textDocument/definition on the space/semicolon in `A a;` or `return
// 42;` will take you to the constructor.
if (use.role & Role::Implicit) {
if (use.range.start.column > 0)
use.range.start.column--;
use.range.end.column++;
}
add_all_symbols(use, func.usr, SymbolKind::Func);
}
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}
for (auto& it : indexed.usr2var) {
const IndexVar& var = it.second;
if (var.def.spell)
add_all_symbols(*var.def.spell, var.usr, SymbolKind::Var);
if (var.def.extent)
add_outline(*var.def.extent, var.usr, SymbolKind::Var);
for (Use decl : var.declarations) {
add_all_symbols(decl, var.usr, SymbolKind::Var);
add_outline(decl, var.usr, SymbolKind::Var);
}
for (Use use : var.uses)
if (use.file_id == -1)
add_all_symbols(use, var.usr, SymbolKind::Var);
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}
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std::sort(def.outline.begin(), def.outline.end(),
[](const SymbolRef& a, const SymbolRef& b) {
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return a.range.start < b.range.start;
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});
std::sort(def.all_symbols.begin(), def.all_symbols.end(),
[](const SymbolRef& a, const SymbolRef& b) {
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return a.range.start < b.range.start;
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});
return {std::move(def), std::move(indexed.file_contents)};
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}
// Returns true if an element with the same file is found.
template <typename Q>
bool TryReplaceDef(llvm::SmallVectorImpl<Q>& def_list, Q&& def) {
for (auto& def1 : def_list)
if (def1.file_id == def.file_id) {
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def1 = std::move(def);
return true;
}
return false;
}
} // namespace
IndexUpdate IndexUpdate::CreateDelta(IndexFile* previous,
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IndexFile* current) {
IndexUpdate r;
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static IndexFile empty(llvm::sys::fs::UniqueID(0, 0), current->path,
"<empty>");
if (previous)
r.prev_lid2path = std::move(previous->lid2path);
else
previous = &empty;
r.lid2path = std::move(current->lid2path);
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r.files_def_update = BuildFileDefUpdate(std::move(*current));
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r.funcs_hint = current->usr2func.size() - previous->usr2func.size();
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for (auto& it : previous->usr2func) {
auto& func = it.second;
if (func.def.detailed_name[0])
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r.funcs_removed.push_back(func.usr);
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r.funcs_declarations[func.usr].first = std::move(func.declarations);
r.funcs_uses[func.usr].first = std::move(func.uses);
r.funcs_derived[func.usr].first = std::move(func.derived);
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}
for (auto& it : current->usr2func) {
auto& func = it.second;
if (func.def.detailed_name[0])
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r.funcs_def_update.emplace_back(it.first, func.def);
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r.funcs_declarations[func.usr].second = std::move(func.declarations);
r.funcs_uses[func.usr].second = std::move(func.uses);
r.funcs_derived[func.usr].second = std::move(func.derived);
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}
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r.types_hint = current->usr2type.size() - previous->usr2type.size();
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for (auto& it : previous->usr2type) {
auto& type = it.second;
if (type.def.detailed_name[0])
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r.types_removed.push_back(type.usr);
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r.types_declarations[type.usr].first = std::move(type.declarations);
r.types_uses[type.usr].first = std::move(type.uses);
r.types_derived[type.usr].first = std::move(type.derived);
r.types_instances[type.usr].first = std::move(type.instances);
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};
for (auto& it : current->usr2type) {
auto& type = it.second;
if (type.def.detailed_name[0])
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r.types_def_update.emplace_back(it.first, type.def);
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r.types_declarations[type.usr].second = std::move(type.declarations);
r.types_uses[type.usr].second = std::move(type.uses);
r.types_derived[type.usr].second = std::move(type.derived);
r.types_instances[type.usr].second = std::move(type.instances);
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};
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r.vars_hint = current->usr2var.size() - previous->usr2var.size();
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for (auto& it : previous->usr2var) {
auto& var = it.second;
if (var.def.detailed_name[0])
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r.vars_removed.push_back(var.usr);
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r.vars_declarations[var.usr].first = std::move(var.declarations);
r.vars_uses[var.usr].first = std::move(var.uses);
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}
for (auto& it : current->usr2var) {
auto& var = it.second;
if (var.def.detailed_name[0])
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r.vars_def_update.emplace_back(it.first, var.def);
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r.vars_declarations[var.usr].second = std::move(var.declarations);
r.vars_uses[var.usr].second = std::move(var.uses);
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}
return r;
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}
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void DB::RemoveUsrs(SymbolKind kind,
int file_id,
const std::vector<Usr>& to_remove) {
switch (kind) {
case SymbolKind::Func: {
for (Usr usr : to_remove) {
// FIXME
if (!HasFunc(usr)) continue;
QueryFunc& func = Func(usr);
auto it = llvm::find_if(func.def, [=](const QueryFunc::Def& def) {
return def.file_id == file_id;
});
if (it != func.def.end())
func.def.erase(it);
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}
break;
}
case SymbolKind::Type: {
for (Usr usr : to_remove) {
// FIXME
if (!HasType(usr)) continue;
QueryType& type = Type(usr);
auto it = llvm::find_if(type.def, [=](const QueryType::Def& def) {
return def.file_id == file_id;
});
if (it != type.def.end())
type.def.erase(it);
}
break;
}
case SymbolKind::Var: {
for (Usr usr : to_remove) {
// FIXME
if (!HasVar(usr)) continue;
QueryVar& var = Var(usr);
auto it = llvm::find_if(var.def, [=](const QueryVar::Def& def) {
return def.file_id == file_id;
});
if (it != var.def.end())
var.def.erase(it);
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}
break;
}
default:
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break;
}
}
void DB::ApplyIndexUpdate(IndexUpdate *u) {
#define REMOVE_ADD(C, F) \
for (auto &it : u->C##s_##F) { \
auto R = C##_usr.try_emplace({it.first}, C##_usr.size()); \
if (R.second) \
C##s.emplace_back().usr = it.first; \
auto &entity = C##s[R.first->second]; \
AssignFileId(prev_lid2file_id, u->file_id, it.second.first); \
RemoveRange(entity.F, it.second.first); \
AssignFileId(lid2file_id, u->file_id, it.second.second); \
AddRange(entity.F, it.second.second); \
}
std::unordered_map<int, int> prev_lid2file_id, lid2file_id;
for (auto & [ lid, path ] : u->prev_lid2path)
prev_lid2file_id[lid] = GetFileId(path);
for (auto & [ lid, path ] : u->lid2path)
lid2file_id[lid] = GetFileId(path);
auto UpdateUses = [&](Usr usr, SymbolKind kind,
llvm::DenseMap<WrappedUsr, int> &entity_usr,
auto &entities, auto &p) {
auto R = entity_usr.try_emplace({usr}, entity_usr.size());
if (R.second)
vars.emplace_back().usr = usr;
auto &entity = entities[R.first->second];
for (Use &use : p.first) {
if (use.file_id == -1)
use.file_id = u->file_id;
else {
use.file_id = prev_lid2file_id.find(use.file_id)->second;
files[use.file_id]
.symbol2refcnt[SymbolRef{{use.range, usr, kind, use.role}}]--;
}
}
RemoveRange(entity.uses, p.first);
for (Use &use : p.second) {
if (use.file_id == -1)
use.file_id = u->file_id;
else {
use.file_id = lid2file_id.find(use.file_id)->second;
files[use.file_id]
.symbol2refcnt[SymbolRef{{use.range, usr, kind, use.role}}]++;
}
}
AddRange(entity.uses, p.second);
};
if (u->files_removed)
files[name2file_id[LowerPathIfInsensitive(*u->files_removed)]].def =
std::nullopt;
u->file_id =
u->files_def_update ? Update(std::move(*u->files_def_update)) : -1;
const double grow = 1.3;
size_t t;
if ((t = funcs.size() + u->funcs_hint) > funcs.capacity()) {
t = size_t(t * grow);
funcs.reserve(t);
func_usr.reserve(t);
}
RemoveUsrs(SymbolKind::Func, u->file_id, u->funcs_removed);
Update(lid2file_id, u->file_id, std::move(u->funcs_def_update));
REMOVE_ADD(func, declarations);
REMOVE_ADD(func, derived);
for (auto & [ usr, p ] : u->funcs_uses)
UpdateUses(usr, SymbolKind::Func, func_usr, funcs, p);
if ((t = types.size() + u->types_hint) > types.capacity()) {
t = size_t(t * grow);
types.reserve(t);
type_usr.reserve(t);
}
RemoveUsrs(SymbolKind::Type, u->file_id, u->types_removed);
Update(lid2file_id, u->file_id, std::move(u->types_def_update));
REMOVE_ADD(type, declarations);
REMOVE_ADD(type, derived);
REMOVE_ADD(type, instances);
for (auto & [ usr, p ] : u->types_uses)
UpdateUses(usr, SymbolKind::Type, type_usr, types, p);
if ((t = vars.size() + u->vars_hint) > vars.capacity()) {
t = size_t(t * grow);
vars.reserve(t);
var_usr.reserve(t);
}
RemoveUsrs(SymbolKind::Var, u->file_id, u->vars_removed);
Update(lid2file_id, u->file_id, std::move(u->vars_def_update));
REMOVE_ADD(var, declarations);
for (auto & [ usr, p ] : u->vars_uses)
UpdateUses(usr, SymbolKind::Var, var_usr, vars, p);
#undef REMOVE_ADD
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}
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int DB::GetFileId(const std::string& path) {
auto it = name2file_id.try_emplace(LowerPathIfInsensitive(path));
if (it.second) {
int id = files.size();
it.first->second = files.emplace_back().id = id;
}
return it.first->second;
}
int DB::Update(QueryFile::DefUpdate&& u) {
int file_id = GetFileId(u.first.path);
files[file_id].def = u.first;
return file_id;
}
void DB::Update(const Lid2file_id &lid2file_id, int file_id,
std::vector<std::pair<Usr, QueryFunc::Def>> &&us) {
for (auto &u : us) {
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auto& def = u.second;
assert(def.detailed_name[0]);
u.second.file_id = file_id;
AssignFileId(lid2file_id, file_id, def.spell);
AssignFileId(lid2file_id, file_id, def.extent);
AssignFileId(lid2file_id, file_id, def.callees);
auto R = func_usr.try_emplace({u.first}, func_usr.size());
if (R.second)
funcs.emplace_back();
QueryFunc& existing = funcs[R.first->second];
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existing.usr = u.first;
if (!TryReplaceDef(existing.def, std::move(def)))
existing.def.push_back(std::move(def));
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}
}
void DB::Update(const Lid2file_id &lid2file_id, int file_id,
std::vector<std::pair<Usr, QueryType::Def>> &&us) {
for (auto &u : us) {
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auto& def = u.second;
assert(def.detailed_name[0]);
u.second.file_id = file_id;
AssignFileId(lid2file_id, file_id, def.spell);
AssignFileId(lid2file_id, file_id, def.extent);
auto R = type_usr.try_emplace({u.first}, type_usr.size());
if (R.second)
types.emplace_back();
QueryType& existing = types[R.first->second];
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existing.usr = u.first;
if (!TryReplaceDef(existing.def, std::move(def)))
existing.def.push_back(std::move(def));
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}
}
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void DB::Update(const Lid2file_id &lid2file_id, int file_id,
std::vector<std::pair<Usr, QueryVar::Def>> &&us) {
for (auto &u : us) {
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auto& def = u.second;
assert(def.detailed_name[0]);
u.second.file_id = file_id;
AssignFileId(lid2file_id, file_id, def.spell);
AssignFileId(lid2file_id, file_id, def.extent);
auto R = var_usr.try_emplace({u.first}, var_usr.size());
if (R.second)
vars.emplace_back();
QueryVar& existing = vars[R.first->second];
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existing.usr = u.first;
if (!TryReplaceDef(existing.def, std::move(def)))
existing.def.push_back(std::move(def));
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}
}
std::string_view DB::GetSymbolName(SymbolIdx sym, bool qualified) {
Usr usr = sym.usr;
switch (sym.kind) {
default:
break;
case SymbolKind::File:
if (files[usr].def)
return files[usr].def->path;
break;
case SymbolKind::Func:
if (const auto* def = Func(usr).AnyDef())
return def->Name(qualified);
break;
case SymbolKind::Type:
if (const auto* def = Type(usr).AnyDef())
return def->Name(qualified);
break;
case SymbolKind::Var:
if (const auto* def = Var(usr).AnyDef())
return def->Name(qualified);
break;
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}
return "";
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}