ccls/src/query.h

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#pragma once
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#include "indexer.h"
#include "serializer.h"
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#include <sparsepp/spp.h>
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#include <functional>
struct QueryFile;
struct QueryType;
struct QueryFunc;
struct QueryVar;
struct QueryDatabase;
using QueryFileId = Id<QueryFile>;
using QueryTypeId = Id<QueryType>;
using QueryFuncId = Id<QueryFunc>;
using QueryVarId = Id<QueryVar>;
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struct IdMap;
using Generation = uint32_t;
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// Example use: |WithGen<Id<QueryType>>|, to mark an |Id| reference with
// generation, so that by comparising the generation with that stored in the
// referenced Query object, we can tell if the reference is stale (the
// referenced object has been deleted or reused).
template <typename T>
struct WithGen {
Generation gen;
T value;
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WithGen() : gen(-1) {}
WithGen(const T& value) : gen(-1), value(value) {}
WithGen(Generation gen, const T& value) : gen(gen), value(value) {}
bool HasValue() const { return value.HasValue(); }
explicit operator bool() const { return HasValue(); }
bool operator==(const WithGen& o) const {
return gen == o.gen && value == o.value;
}
};
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template <typename TVisitor, typename T>
void Reflect(TVisitor& visitor, WithGen<T>& value) {
Reflect(visitor, value.value);
}
struct QueryLocation {
QueryFileId path;
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Range range;
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QueryLocation() {} // Do not use, needed for reflect.
QueryLocation(QueryFileId path, Range range) : path(path), range(range) {}
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QueryLocation OffsetStartColumn(int16_t offset) const {
QueryLocation result = *this;
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result.range.start.column += offset;
return result;
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}
bool HasValue() const { return range.HasValue(); }
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bool operator==(const QueryLocation& o) const {
return path == o.path && range == o.range;
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}
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bool operator!=(const QueryLocation& o) const { return !(*this == o); }
bool operator<(const QueryLocation& o) const {
if (path != o.path)
return path < o.path;
return range < o.range;
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}
};
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MAKE_REFLECT_STRUCT(QueryLocation, path, range);
MAKE_HASHABLE(QueryLocation, t.path, t.range);
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namespace std {
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template <>
struct hash<::SymbolKind> {
size_t operator()(const ::SymbolKind& instance) const {
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return std::hash<int>()(static_cast<int>(instance));
}
};
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} // namespace std
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struct SymbolIdx {
SymbolKind kind;
RawId idx;
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SymbolIdx()
: kind(SymbolKind::Invalid),
idx(RawId(-1)) {} // Default ctor needed by stdlib. Do not use.
SymbolIdx(SymbolKind kind, RawId idx) : kind(kind), idx(idx) {}
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bool operator==(const SymbolIdx& o) const {
return kind == o.kind && idx == o.idx;
}
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bool operator!=(const SymbolIdx& o) const { return !(*this == o); }
bool operator<(const SymbolIdx& o) const {
if (kind != o.kind)
return kind < o.kind;
return idx < o.idx;
}
};
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MAKE_REFLECT_STRUCT(SymbolIdx, kind, idx);
MAKE_HASHABLE(SymbolIdx, t.kind, t.idx);
struct SymbolRef {
SymbolIdx idx;
SymbolRole role;
QueryLocation loc;
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SymbolRef() {} // Do not use, needed for reflect.
SymbolRef(SymbolIdx idx, SymbolRole role, QueryLocation loc)
: idx(idx), role(role), loc(loc) {}
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std::tuple<SymbolIdx, SymbolRole, QueryLocation> ToTuple() const {
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return std::make_tuple(idx, role, loc);
}
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bool operator==(const SymbolRef& o) const { return ToTuple() == o.ToTuple(); }
bool operator!=(const SymbolRef& o) const { return !(*this == o); }
bool operator<(const SymbolRef& o) const { return ToTuple() < o.ToTuple(); }
};
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MAKE_REFLECT_STRUCT(SymbolRef, idx, loc);
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struct QueryFuncRef {
// NOTE: id_ can be -1 if the function call is not coming from a function.
QueryFuncId id_;
QueryLocation loc;
bool is_implicit = false;
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bool HasValue() const { return id_.HasValue(); }
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QueryFuncRef() {} // Do not use, needed for reflect.
QueryFuncRef(QueryFuncId id, QueryLocation loc, bool is_implicit)
: id_(id), loc(loc), is_implicit(is_implicit) {}
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std::tuple<QueryFuncId, QueryLocation, bool> ToTuple() const {
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return std::make_tuple(id_, loc, is_implicit);
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}
bool operator==(const QueryFuncRef& o) const {
return ToTuple() == o.ToTuple();
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}
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bool operator!=(const QueryFuncRef& o) const { return !(*this == o); }
bool operator<(const QueryFuncRef& o) const {
return ToTuple() < o.ToTuple();
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}
};
MAKE_REFLECT_STRUCT(QueryFuncRef, id_, loc, is_implicit);
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// There are two sources of reindex updates: the (single) definition of a
// symbol has changed, or one of many users of the symbol has changed.
//
// For simplicitly, if the single definition has changed, we update all of the
// associated single-owner definition data. See |Update*DefId|.
//
// If one of the many symbol users submits an update, we store the update such
// that it can be merged with other updates before actually being applied to
// the main database. See |MergeableUpdate|.
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template <typename TId, typename TValue>
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struct MergeableUpdate {
// The type/func/var which is getting new usages.
TId id;
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// Entries to add and remove.
std::vector<TValue> to_add;
std::vector<TValue> to_remove;
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MergeableUpdate(TId id, std::vector<TValue>&& to_add)
: id(id), to_add(std::move(to_add)) {}
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MergeableUpdate(TId id,
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std::vector<TValue>&& to_add,
std::vector<TValue>&& to_remove)
: id(id), to_add(std::move(to_add)), to_remove(std::move(to_remove)) {}
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};
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template <typename TVisitor, typename TId, typename TValue>
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void Reflect(TVisitor& visitor, MergeableUpdate<TId, TValue>& value) {
REFLECT_MEMBER_START();
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REFLECT_MEMBER(id);
REFLECT_MEMBER(to_add);
REFLECT_MEMBER(to_remove);
REFLECT_MEMBER_END();
}
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template <typename T>
struct WithUsr {
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Usr usr;
T value;
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WithUsr(Usr usr, const T& value) : usr(usr), value(value) {}
WithUsr(Usr usr, T&& value) : usr(usr), value(std::move(value)) {}
};
template <typename TVisitor, typename T>
void Reflect(TVisitor& visitor, WithUsr<T>& value) {
REFLECT_MEMBER_START();
REFLECT_MEMBER(usr);
REFLECT_MEMBER(value);
REFLECT_MEMBER_END();
}
template <typename T>
struct WithFileContent {
T value;
std::string file_content;
WithFileContent(const T& value, const std::string& file_content) : value(value), file_content(file_content) {}
};
template <typename TVisitor, typename T>
void Reflect(TVisitor& visitor, WithFileContent<T>& value) {
REFLECT_MEMBER_START();
REFLECT_MEMBER(value);
REFLECT_MEMBER(file_content);
REFLECT_MEMBER_END();
}
struct QueryFile {
struct Def {
std::string path;
// Language identifier
std::string language;
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// Includes in the file.
std::vector<IndexInclude> includes;
// Outline of the file (ie, for code lens).
std::vector<SymbolRef> outline;
// Every symbol found in the file (ie, for goto definition)
std::vector<SymbolRef> all_symbols;
// Parts of the file which are disabled.
std::vector<Range> inactive_regions;
// Used by |$cquery/freshenIndex|.
std::vector<std::string> dependencies;
};
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using DefUpdate = WithFileContent<Def>;
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optional<Def> def;
Maybe<Id<void>> symbol_idx;
explicit QueryFile(const std::string& path) {
def = Def();
def->path = path;
}
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};
MAKE_REFLECT_STRUCT(QueryFile::Def,
path,
language,
outline,
all_symbols,
inactive_regions,
dependencies);
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struct QueryType {
using Def = TypeDefDefinitionData<QueryTypeId,
QueryFuncId,
QueryVarId,
QueryLocation>;
using DefUpdate = WithUsr<Def>;
using DerivedUpdate = MergeableUpdate<QueryTypeId, QueryTypeId>;
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using InstancesUpdate = MergeableUpdate<QueryTypeId, QueryVarId>;
using UsesUpdate = MergeableUpdate<QueryTypeId, QueryLocation>;
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Usr usr;
Generation gen;
Maybe<Id<void>> symbol_idx;
optional<Def> def;
std::vector<QueryTypeId> derived;
std::vector<QueryVarId> instances;
std::vector<QueryLocation> uses;
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explicit QueryType(const Usr& usr) : usr(usr), gen(0) {}
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};
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struct QueryFunc {
using Def = FuncDefDefinitionData<QueryTypeId,
QueryFuncId,
QueryVarId,
QueryFuncRef,
QueryLocation>;
using DefUpdate = WithUsr<Def>;
using DeclarationsUpdate = MergeableUpdate<QueryFuncId, QueryLocation>;
using DerivedUpdate = MergeableUpdate<QueryFuncId, QueryFuncId>;
using CallersUpdate = MergeableUpdate<QueryFuncId, QueryFuncRef>;
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Usr usr;
Generation gen;
Maybe<Id<void>> symbol_idx;
optional<Def> def;
std::vector<QueryLocation> declarations;
std::vector<QueryFuncId> derived;
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std::vector<QueryFuncRef> callers;
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explicit QueryFunc(const Usr& usr) : usr(usr), gen(0) {}
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};
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struct QueryVar {
using Def = VarDefDefinitionData<QueryTypeId,
QueryFuncId,
QueryVarId,
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QueryLocation>;
using DefUpdate = WithUsr<Def>;
using DeclarationsUpdate = MergeableUpdate<QueryVarId, QueryLocation>;
using UsesUpdate = MergeableUpdate<QueryVarId, QueryLocation>;
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Usr usr;
Generation gen;
Maybe<Id<void>> symbol_idx;
optional<Def> def;
std::vector<QueryLocation> declarations;
std::vector<QueryLocation> uses;
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explicit QueryVar(const Usr& usr) : usr(usr), gen(0) {}
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};
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struct IndexUpdate {
// Creates a new IndexUpdate based on the delta from previous to current. If
// no delta computation should be done just pass null for previous.
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static IndexUpdate CreateDelta(const IdMap* previous_id_map,
const IdMap* current_id_map,
IndexFile* previous,
IndexFile* current);
// Merge |update| into this update; this can reduce overhead / index update
// work can be parallelized.
void Merge(IndexUpdate&& update);
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// Dump the update to a string.
std::string ToString();
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// File updates.
std::vector<std::string> files_removed;
std::vector<QueryFile::DefUpdate> files_def_update;
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// Type updates.
std::vector<Usr> types_removed;
std::vector<QueryType::DefUpdate> types_def_update;
std::vector<QueryType::DerivedUpdate> types_derived;
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std::vector<QueryType::InstancesUpdate> types_instances;
std::vector<QueryType::UsesUpdate> types_uses;
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// Function updates.
std::vector<Usr> funcs_removed;
std::vector<QueryFunc::DefUpdate> funcs_def_update;
std::vector<QueryFunc::DeclarationsUpdate> funcs_declarations;
std::vector<QueryFunc::DerivedUpdate> funcs_derived;
std::vector<QueryFunc::CallersUpdate> funcs_callers;
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// Variable updates.
std::vector<Usr> vars_removed;
std::vector<QueryVar::DefUpdate> vars_def_update;
std::vector<QueryVar::DeclarationsUpdate> vars_declarations;
std::vector<QueryVar::UsesUpdate> vars_uses;
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private:
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// Creates an index update assuming that |previous| is already
// in the index, so only the delta between |previous| and |current|
// will be applied.
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IndexUpdate(const IdMap& previous_id_map,
const IdMap& current_id_map,
IndexFile& previous,
IndexFile& current);
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};
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// NOTICE: We're not reflecting on files_removed or files_def_update, it is too
// much output when logging
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MAKE_REFLECT_STRUCT(IndexUpdate,
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types_removed,
types_def_update,
types_derived,
types_instances,
types_uses,
funcs_removed,
funcs_def_update,
funcs_declarations,
funcs_derived,
funcs_callers,
vars_removed,
vars_def_update,
vars_declarations,
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vars_uses);
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struct NormalizedPath {
explicit NormalizedPath(const std::string& path);
bool operator==(const NormalizedPath& rhs) const;
bool operator!=(const NormalizedPath& rhs) const;
std::string path;
};
MAKE_HASHABLE(NormalizedPath, t.path);
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// The query database is heavily optimized for fast queries. It is stored
// in-memory.
struct QueryDatabase {
// All File/Func/Type/Var symbols.
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std::vector<SymbolIdx> symbols;
// Raw data storage. Accessible via SymbolIdx instances.
std::vector<QueryFile> files;
std::vector<QueryType> types;
std::vector<QueryFunc> funcs;
std::vector<QueryVar> vars;
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// Lookup symbol based on a usr.
spp::sparse_hash_map<NormalizedPath, QueryFileId> usr_to_file;
spp::sparse_hash_map<Usr, QueryTypeId> usr_to_type;
spp::sparse_hash_map<Usr, QueryFuncId> usr_to_func;
spp::sparse_hash_map<Usr, QueryVarId> usr_to_var;
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// Marks the given Usrs as invalid.
void RemoveUsrs(SymbolKind usr_kind, const std::vector<Usr>& to_remove);
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// Insert the contents of |update| into |db|.
void ApplyIndexUpdate(IndexUpdate* update);
void ImportOrUpdate(const std::vector<QueryFile::DefUpdate>& updates);
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void ImportOrUpdate(std::vector<QueryType::DefUpdate>&& updates);
void ImportOrUpdate(std::vector<QueryFunc::DefUpdate>&& updates);
void ImportOrUpdate(std::vector<QueryVar::DefUpdate>&& updates);
void UpdateSymbols(Maybe<Id<void>>* symbol_idx, SymbolKind kind, RawId idx);
std::string_view GetSymbolDetailedName(RawId symbol_idx) const;
std::string_view GetSymbolShortName(RawId symbol_idx) const;
// Query the indexing structure to look up symbol id for given Usr.
Maybe<QueryFileId> GetQueryFileIdFromPath(const std::string& path);
Maybe<QueryTypeId> GetQueryTypeIdFromUsr(Usr usr);
Maybe<QueryFuncId> GetQueryFuncIdFromUsr(Usr usr);
Maybe<QueryVarId> GetQueryVarIdFromUsr(Usr usr);
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};
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template <typename I>
struct IndexToQuery;
// clang-format off
template <> struct IndexToQuery<IndexFuncId> { using type = QueryFuncId; };
template <> struct IndexToQuery<IndexTypeId> { using type = QueryTypeId; };
template <> struct IndexToQuery<IndexVarId> { using type = QueryVarId; };
template <> struct IndexToQuery<IndexFuncRef> { using type = QueryFuncRef; };
template <> struct IndexToQuery<Range> { using type = QueryLocation; };
template <> struct IndexToQuery<IndexFunc::Declaration> { using type = QueryLocation; };
template <typename I> struct IndexToQuery<optional<I>> {
using type = optional<typename IndexToQuery<I>::type>;
};
template <typename I> struct IndexToQuery<std::vector<I>> {
using type = std::vector<typename IndexToQuery<I>::type>;
};
// clang-format on
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struct IdMap {
const IdCache& local_ids;
QueryFileId primary_file;
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IdMap(QueryDatabase* query_db, const IdCache& local_ids);
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// FIXME Too verbose
// clang-format off
QueryLocation ToQuery(Range range) const;
QueryTypeId ToQuery(IndexTypeId id) const;
QueryFuncId ToQuery(IndexFuncId id) const;
QueryVarId ToQuery(IndexVarId id) const;
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QueryFuncRef ToQuery(IndexFuncRef ref) const;
QueryLocation ToQuery(IndexFunc::Declaration decl) const;
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template <typename I>
Maybe<typename IndexToQuery<I>::type> ToQuery(Maybe<I> id) const {
if (!id)
return nullopt;
return ToQuery(*id);
}
template <typename I>
Maybe<WithGen<typename IndexToQuery<I>::type>> ToQuery(Maybe<I> id, int) const {
if (!id)
return nullopt;
return ToQuery(*id, 0);
}
template <typename I>
std::vector<typename IndexToQuery<I>::type> ToQuery(const std::vector<I>& a) const {
std::vector<typename IndexToQuery<I>::type> ret;
ret.reserve(a.size());
for (auto& x : a)
ret.push_back(ToQuery(x));
return ret;
}
template <typename I>
std::vector<WithGen<typename IndexToQuery<I>::type>> ToQuery(std::vector<I> a, int) const {
std::vector<WithGen<typename IndexToQuery<I>::type>> ret;
ret.reserve(a.size());
for (auto& x : a)
ret.push_back(ToQuery(x, 0));
return ret;
}
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// clang-format on
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SymbolIdx ToSymbol(IndexTypeId id) const;
SymbolIdx ToSymbol(IndexFuncId id) const;
SymbolIdx ToSymbol(IndexVarId id) const;
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private:
spp::sparse_hash_map<IndexTypeId, QueryTypeId> cached_type_ids_;
spp::sparse_hash_map<IndexFuncId, QueryFuncId> cached_func_ids_;
spp::sparse_hash_map<IndexVarId, QueryVarId> cached_var_ids_;
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};