ccls/src/query.cc

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#include "query.h"
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#include "indexer.h"
#include "serializers/json.h"
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#include <doctest/doctest.h>
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#include <optional.h>
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#include <loguru.hpp>
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#include <cassert>
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#include <cstdint>
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#include <functional>
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#include <iostream>
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#include <string>
#include <unordered_map>
#include <unordered_set>
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// TODO: Make all copy constructors explicit.
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namespace {
template <typename T>
void VerifyUnique(const std::vector<T>& values0) {
// FIXME: Run on a big code-base for a while and verify no assertions are
// triggered.
#if false
auto values = values0;
std::sort(values.begin(), values.end());
assert(std::unique(values.begin(), values.end()) == values.end());
#endif
}
optional<QueryType::Def> ToQuery(const IdMap& id_map,
const IndexType::Def& type) {
if (type.detailed_name.empty())
return nullopt;
QueryType::Def result;
result.short_name = type.short_name;
result.detailed_name = type.detailed_name;
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result.kind = type.kind;
result.hover = type.hover;
result.comments = type.comments;
result.definition_spelling = id_map.ToQuery(type.definition_spelling);
result.definition_extent = id_map.ToQuery(type.definition_extent);
result.alias_of = id_map.ToQuery(type.alias_of);
result.parents = id_map.ToQuery(type.parents);
result.types = id_map.ToQuery(type.types);
result.funcs = id_map.ToQuery(type.funcs);
result.vars = id_map.ToQuery(type.vars);
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return result;
}
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optional<QueryFunc::Def> ToQuery(const IdMap& id_map,
const IndexFunc::Def& func) {
if (func.detailed_name.empty())
return nullopt;
QueryFunc::Def result;
result.short_name = func.short_name;
result.detailed_name = func.detailed_name;
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result.kind = func.kind;
result.hover = func.hover;
result.comments = func.comments;
result.definition_spelling = id_map.ToQuery(func.definition_spelling);
result.definition_extent = id_map.ToQuery(func.definition_extent);
result.declaring_type = id_map.ToQuery(func.declaring_type);
result.base = id_map.ToQuery(func.base);
result.locals = id_map.ToQuery(func.locals);
result.callees = id_map.ToQuery(func.callees);
result.is_operator = func.is_operator;
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return result;
}
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optional<QueryVar::Def> ToQuery(const IdMap& id_map, const IndexVar::Def& var) {
if (var.detailed_name.empty())
return nullopt;
QueryVar::Def result;
result.short_name = var.short_name;
result.detailed_name = var.detailed_name;
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result.kind = var.kind;
result.hover = var.hover;
result.comments = var.comments;
result.declaration = id_map.ToQuery(var.declaration);
result.definition_spelling = id_map.ToQuery(var.definition_spelling);
result.definition_extent = id_map.ToQuery(var.definition_extent);
result.variable_type = id_map.ToQuery(var.variable_type);
result.declaring_type = id_map.ToQuery(var.declaring_type);
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return result;
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}
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// Adds the mergeable updates in |source| to |dest|. If a mergeable update for
// the destination type already exists, it will be combined. This makes merging
// updates take longer but reduces import time on the querydb thread.
template <typename TId, typename TValue>
void AddMergeableRange(
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std::vector<MergeableUpdate<TId, TValue>>* dest,
const std::vector<MergeableUpdate<TId, TValue>>& source) {
// TODO: Consider caching the lookup table. It can probably save even more
// time at the cost of some additional memory.
// Build lookup table.
spp::sparse_hash_map<TId, size_t> id_to_index;
id_to_index.resize(dest->size());
for (size_t i = 0; i < dest->size(); ++i)
id_to_index[(*dest)[i].id] = i;
// Add entries. Try to add them to an existing entry.
for (const auto& entry : source) {
auto it = id_to_index.find(entry.id);
if (it != id_to_index.end()) {
AddRange(&(*dest)[it->second].to_add, entry.to_add);
AddRange(&(*dest)[it->second].to_remove, entry.to_remove);
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} else {
dest->push_back(entry);
}
}
}
// Compares |previous| and |current|, adding all elements that are
// in |previous| but not |current| to |removed|, and all elements
// that are in |current| but not |previous| to |added|.
//
// Returns true iff |removed| or |added| are non-empty.
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template <typename T>
bool ComputeDifferenceForUpdate(std::vector<T>& previous,
std::vector<T>& current,
std::vector<T>* removed,
std::vector<T>* added) {
// We need to sort to use std::set_difference.
std::sort(previous.begin(), previous.end());
std::sort(current.begin(), current.end());
auto it0 = previous.begin(), it1 = current.begin();
while (it0 != previous.end() && it1 != current.end()) {
// Elements in |previous| that are not in |current|.
if (*it0 < *it1)
removed->push_back(*it0++);
// Elements in |current| that are not in |previous|.
else if (*it1 < *it0)
added->push_back(*it1++);
else
++it0, ++it1;
}
while (it0 != previous.end())
removed->push_back(*it0++);
while (it1 != current.end())
added->push_back(*it1++);
return !removed->empty() || !added->empty();
}
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template <typename T>
void CompareGroups(std::vector<T>& previous_data,
std::vector<T>& current_data,
std::function<void(T*)> on_removed,
std::function<void(T*)> on_added,
std::function<void(T*, T*)> on_found) {
std::sort(previous_data.begin(), previous_data.end());
std::sort(current_data.begin(), current_data.end());
auto prev_it = previous_data.begin();
auto curr_it = current_data.begin();
while (prev_it != previous_data.end() && curr_it != current_data.end()) {
// same id
if (prev_it->usr == curr_it->usr) {
on_found(&*prev_it, &*curr_it);
++prev_it;
++curr_it;
}
// prev_id is smaller - prev_it has data curr_it does not have.
else if (prev_it->usr < curr_it->usr) {
on_removed(&*prev_it);
++prev_it;
}
// prev_id is bigger - curr_it has data prev_it does not have.
else {
on_added(&*curr_it);
++curr_it;
}
}
// if prev_it still has data, that means it is not in curr_it and was removed.
while (prev_it != previous_data.end()) {
on_removed(&*prev_it);
++prev_it;
}
// if curr_it still has data, that means it is not in prev_it and was added.
while (curr_it != current_data.end()) {
on_added(&*curr_it);
++curr_it;
}
}
QueryFile::Def BuildFileDef(const IdMap& id_map, const IndexFile& indexed) {
QueryFile::Def def;
def.path = indexed.path;
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def.includes = indexed.includes;
def.inactive_regions = indexed.skipped_by_preprocessor;
// Convert enum to markdown compatible strings
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def.language = [indexed]() {
switch (indexed.language) {
case LanguageId::C:
return "c";
case LanguageId::Cpp:
return "cpp";
case LanguageId::ObjC:
return "objectivec";
default:
return "";
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}
}();
auto add_outline = [&def, &id_map](SymbolIdx idx, Range range) {
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def.outline.push_back(SymbolRef(idx, id_map.ToQuery(range)));
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};
auto add_all_symbols = [&def, &id_map](SymbolIdx idx, Range range) {
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def.all_symbols.push_back(SymbolRef(idx, id_map.ToQuery(range)));
};
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for (const IndexType& type : indexed.types) {
if (type.def.definition_spelling.has_value())
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add_all_symbols(id_map.ToSymbol(type.id),
type.def.definition_spelling.value());
if (type.def.definition_extent.has_value())
add_outline(id_map.ToSymbol(type.id), type.def.definition_extent.value());
for (const Range& use : type.uses)
add_all_symbols(id_map.ToSymbol(type.id), use);
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}
for (const IndexFunc& func : indexed.funcs) {
if (func.def.definition_spelling.has_value())
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add_all_symbols(id_map.ToSymbol(func.id),
func.def.definition_spelling.value());
if (func.def.definition_extent.has_value())
add_outline(id_map.ToSymbol(func.id), func.def.definition_extent.value());
for (const IndexFunc::Declaration& decl : func.declarations) {
// TODO: add more outline info?
add_all_symbols(id_map.ToSymbol(func.id), decl.spelling);
add_outline(id_map.ToSymbol(func.id), decl.spelling);
}
for (const IndexFuncRef& caller : func.callers) {
// Make ranges of implicit function calls larger (spanning one more column
// to the left/right). This is hacky but useful. e.g.
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// textDocument/definition on the space/semicolon in `A a;` or `return
// 42;` will take you to the constructor.
Range range = caller.loc;
if (caller.is_implicit) {
if (range.start.column > 0)
range.start.column--;
range.end.column++;
}
add_all_symbols(id_map.ToSymbol(func.id), range);
}
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}
for (const IndexVar& var : indexed.vars) {
if (var.def.definition_spelling.has_value())
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add_all_symbols(id_map.ToSymbol(var.id),
var.def.definition_spelling.value());
if (var.def.definition_extent.has_value())
add_outline(id_map.ToSymbol(var.id), var.def.definition_extent.value());
for (const Range& use : var.uses)
add_all_symbols(id_map.ToSymbol(var.id), use);
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}
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std::sort(def.outline.begin(), def.outline.end(),
[](const SymbolRef& a, const SymbolRef& b) {
return a.loc.range.start < b.loc.range.start;
});
std::sort(def.all_symbols.begin(), def.all_symbols.end(),
[](const SymbolRef& a, const SymbolRef& b) {
return a.loc.range.start < b.loc.range.start;
});
return def;
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}
inline optional<QueryFileId> GetQueryFileIdFromPath(QueryDatabase* query_db,
const std::string& path,
bool create_if_missing) {
auto it = query_db->usr_to_file.find(LowerPathIfCaseInsensitive(path));
if (it != query_db->usr_to_file.end())
return QueryFileId(it->second.id);
if (!create_if_missing)
return {};
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size_t idx = query_db->files.size();
query_db->usr_to_file[LowerPathIfCaseInsensitive(path)] = QueryFileId(idx);
query_db->files.push_back(QueryFile(path));
return QueryFileId(idx);
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}
inline optional<QueryTypeId> GetQueryTypeIdFromUsr(QueryDatabase* query_db,
Usr usr,
bool create_if_missing) {
auto it = query_db->usr_to_type.find(usr);
if (it != query_db->usr_to_type.end())
return QueryTypeId(it->second.id);
if (!create_if_missing)
return {};
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size_t idx = query_db->types.size();
query_db->usr_to_type[usr] = QueryTypeId(idx);
query_db->types.push_back(QueryType(usr));
return QueryTypeId(idx);
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}
inline optional<QueryFuncId> GetQueryFuncIdFromUsr(QueryDatabase* query_db,
Usr usr,
bool create_if_missing) {
auto it = query_db->usr_to_func.find(usr);
if (it != query_db->usr_to_func.end())
return QueryFuncId(it->second.id);
if (!create_if_missing)
return {};
size_t idx = query_db->funcs.size();
query_db->usr_to_func[usr] = QueryFuncId(idx);
query_db->funcs.push_back(QueryFunc(usr));
return QueryFuncId(idx);
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}
inline optional<QueryVarId> GetQueryVarIdFromUsr(QueryDatabase* query_db,
Usr usr,
bool create_if_missing) {
auto it = query_db->usr_to_var.find(usr);
if (it != query_db->usr_to_var.end())
return QueryVarId(it->second.id);
if (!create_if_missing)
return {};
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size_t idx = query_db->vars.size();
query_db->usr_to_var[usr] = QueryVarId(idx);
query_db->vars.push_back(QueryVar(usr));
return QueryVarId(idx);
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}
} // namespace
optional<QueryFileId> QueryDatabase::GetQueryFileIdFromPath(
const std::string& path) {
return ::GetQueryFileIdFromPath(this, path, false);
}
optional<QueryTypeId> QueryDatabase::GetQueryTypeIdFromUsr(Usr usr) {
return ::GetQueryTypeIdFromUsr(this, usr, false);
}
optional<QueryFuncId> QueryDatabase::GetQueryFuncIdFromUsr(Usr usr) {
return ::GetQueryFuncIdFromUsr(this, usr, false);
}
optional<QueryVarId> QueryDatabase::GetQueryVarIdFromUsr(Usr usr) {
return ::GetQueryVarIdFromUsr(this, usr, false);
}
IdMap::IdMap(QueryDatabase* query_db, const IdCache& local_ids)
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: local_ids(local_ids) {
// LOG_S(INFO) << "Creating IdMap for " << local_ids.primary_file;
primary_file =
GetQueryFileIdFromPath(query_db, local_ids.primary_file, true).value();
cached_type_ids_.resize(local_ids.type_id_to_usr.size());
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for (const auto& entry : local_ids.type_id_to_usr)
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cached_type_ids_[entry.first] =
GetQueryTypeIdFromUsr(query_db, entry.second, true).value();
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cached_func_ids_.resize(local_ids.func_id_to_usr.size());
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for (const auto& entry : local_ids.func_id_to_usr)
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cached_func_ids_[entry.first] =
GetQueryFuncIdFromUsr(query_db, entry.second, true).value();
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cached_var_ids_.resize(local_ids.var_id_to_usr.size());
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for (const auto& entry : local_ids.var_id_to_usr)
cached_var_ids_[entry.first] =
GetQueryVarIdFromUsr(query_db, entry.second, true).value();
}
QueryLocation IdMap::ToQuery(Range range) const {
return QueryLocation(primary_file, range);
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}
QueryTypeId IdMap::ToQuery(IndexTypeId id) const {
assert(cached_type_ids_.find(id) != cached_type_ids_.end());
return QueryTypeId(cached_type_ids_.find(id)->second);
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}
QueryFuncId IdMap::ToQuery(IndexFuncId id) const {
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if (id.id == -1)
return QueryFuncId((size_t)-1);
assert(cached_func_ids_.find(id) != cached_func_ids_.end());
return QueryFuncId(cached_func_ids_.find(id)->second);
}
QueryVarId IdMap::ToQuery(IndexVarId id) const {
assert(cached_var_ids_.find(id) != cached_var_ids_.end());
return QueryVarId(cached_var_ids_.find(id)->second);
}
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QueryFuncRef IdMap::ToQuery(IndexFuncRef ref) const {
return QueryFuncRef(ToQuery(ref.id), ToQuery(ref.loc), ref.is_implicit);
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}
QueryLocation IdMap::ToQuery(IndexFunc::Declaration decl) const {
// TODO: expose more than just QueryLocation.
return QueryLocation(primary_file, decl.spelling);
}
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optional<QueryLocation> IdMap::ToQuery(optional<Range> range) const {
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if (!range)
return nullopt;
return ToQuery(range.value());
}
optional<QueryTypeId> IdMap::ToQuery(optional<IndexTypeId> id) const {
if (!id)
return nullopt;
return ToQuery(id.value());
}
optional<QueryFuncId> IdMap::ToQuery(optional<IndexFuncId> id) const {
if (!id)
return nullopt;
return ToQuery(id.value());
}
optional<QueryVarId> IdMap::ToQuery(optional<IndexVarId> id) const {
if (!id)
return nullopt;
return ToQuery(id.value());
}
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optional<QueryFuncRef> IdMap::ToQuery(optional<IndexFuncRef> ref) const {
if (!ref)
return nullopt;
return ToQuery(ref.value());
}
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optional<QueryLocation> IdMap::ToQuery(
optional<IndexFunc::Declaration> decl) const {
if (!decl)
return nullopt;
return ToQuery(decl.value());
}
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template <typename In, typename Out>
std::vector<Out> ToQueryTransform(const IdMap& id_map,
const std::vector<In>& input) {
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std::vector<Out> result;
result.reserve(input.size());
for (const In& in : input)
result.push_back(id_map.ToQuery(in));
return result;
}
std::vector<QueryLocation> IdMap::ToQuery(std::vector<Range> ranges) const {
return ToQueryTransform<Range, QueryLocation>(*this, ranges);
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}
std::vector<QueryTypeId> IdMap::ToQuery(std::vector<IndexTypeId> ids) const {
return ToQueryTransform<IndexTypeId, QueryTypeId>(*this, ids);
}
std::vector<QueryFuncId> IdMap::ToQuery(std::vector<IndexFuncId> ids) const {
return ToQueryTransform<IndexFuncId, QueryFuncId>(*this, ids);
}
std::vector<QueryVarId> IdMap::ToQuery(std::vector<IndexVarId> ids) const {
return ToQueryTransform<IndexVarId, QueryVarId>(*this, ids);
}
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std::vector<QueryFuncRef> IdMap::ToQuery(std::vector<IndexFuncRef> refs) const {
return ToQueryTransform<IndexFuncRef, QueryFuncRef>(*this, refs);
}
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std::vector<QueryLocation> IdMap::ToQuery(
std::vector<IndexFunc::Declaration> decls) const {
return ToQueryTransform<IndexFunc::Declaration, QueryLocation>(*this, decls);
}
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SymbolIdx IdMap::ToSymbol(IndexTypeId id) const {
return SymbolIdx(SymbolKind::Type, ToQuery(id).id);
}
SymbolIdx IdMap::ToSymbol(IndexFuncId id) const {
return SymbolIdx(SymbolKind::Func, ToQuery(id).id);
}
SymbolIdx IdMap::ToSymbol(IndexVarId id) const {
return SymbolIdx(SymbolKind::Var, ToQuery(id).id);
}
// ----------------------
// INDEX THREAD FUNCTIONS
// ----------------------
// static
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IndexUpdate IndexUpdate::CreateDelta(const IdMap* previous_id_map,
const IdMap* current_id_map,
IndexFile* previous,
IndexFile* current) {
// This function runs on an indexer thread.
if (!previous_id_map) {
assert(!previous);
IndexFile empty(current->path, nullopt);
return IndexUpdate(*current_id_map, *current_id_map, empty, *current);
}
return IndexUpdate(*previous_id_map, *current_id_map, *previous, *current);
}
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IndexUpdate::IndexUpdate(const IdMap& previous_id_map,
const IdMap& current_id_map,
IndexFile& previous_file,
IndexFile& current_file) {
// This function runs on an indexer thread.
// |query_name| is the name of the variable on the query type.
// |index_name| is the name of the variable on the index type.
// |type| is the type of the variable.
#define PROCESS_UPDATE_DIFF(type_id, query_name, index_name, type) \
{ \
/* Check for changes. */ \
std::vector<type> removed, added; \
auto query_previous = previous_id_map.ToQuery(previous->index_name); \
auto query_current = current_id_map.ToQuery(current->index_name); \
bool did_add = ComputeDifferenceForUpdate(query_previous, query_current, \
&removed, &added); \
if (did_add) { \
query_name.push_back(MergeableUpdate<type_id, type>( \
current_id_map.ToQuery(current->id), added, removed)); \
} \
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}
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// File
files_def_update.push_back(BuildFileDef(current_id_map, current_file));
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// **NOTE** We only remove entries if they were defined in the previous index.
// For example, if a type is included from another file it will be defined
// simply so we can attribute the usage/reference to it. If the reference goes
// away we don't want to remove the type/func/var usage.
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// Types
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CompareGroups<IndexType>(
previous_file.types, current_file.types,
/*onRemoved:*/
[this, &previous_id_map](IndexType* type) {
if (type->def.definition_spelling)
types_removed.push_back(type->usr);
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else {
if (!type->derived.empty())
types_derived.push_back(QueryType::DerivedUpdate(
previous_id_map.ToQuery(type->id), {},
previous_id_map.ToQuery(type->derived)));
if (!type->instances.empty())
types_instances.push_back(QueryType::InstancesUpdate(
previous_id_map.ToQuery(type->id), {},
previous_id_map.ToQuery(type->instances)));
if (!type->uses.empty())
types_uses.push_back(
QueryType::UsesUpdate(previous_id_map.ToQuery(type->id), {},
previous_id_map.ToQuery(type->uses)));
}
},
/*onAdded:*/
[this, &current_id_map](IndexType* type) {
optional<QueryType::Def> def_update =
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ToQuery(current_id_map, type->def);
if (def_update)
types_def_update.push_back(
QueryType::DefUpdate(type->usr, *def_update));
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if (!type->derived.empty())
types_derived.push_back(
QueryType::DerivedUpdate(current_id_map.ToQuery(type->id),
current_id_map.ToQuery(type->derived)));
if (!type->instances.empty())
types_instances.push_back(QueryType::InstancesUpdate(
current_id_map.ToQuery(type->id),
current_id_map.ToQuery(type->instances)));
if (!type->uses.empty())
types_uses.push_back(
QueryType::UsesUpdate(current_id_map.ToQuery(type->id),
current_id_map.ToQuery(type->uses)));
},
/*onFound:*/
[this, &previous_id_map, &current_id_map](IndexType* previous,
IndexType* current) {
optional<QueryType::Def> previous_remapped_def =
ToQuery(previous_id_map, previous->def);
optional<QueryType::Def> current_remapped_def =
ToQuery(current_id_map, current->def);
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if (current_remapped_def &&
previous_remapped_def != current_remapped_def &&
!current_remapped_def->detailed_name.empty()) {
types_def_update.push_back(
QueryType::DefUpdate(current->usr, *current_remapped_def));
}
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PROCESS_UPDATE_DIFF(QueryTypeId, types_derived, derived, QueryTypeId);
PROCESS_UPDATE_DIFF(QueryTypeId, types_instances, instances,
QueryVarId);
PROCESS_UPDATE_DIFF(QueryTypeId, types_uses, uses, QueryLocation);
});
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// Functions
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CompareGroups<IndexFunc>(
previous_file.funcs, current_file.funcs,
/*onRemoved:*/
[this, &previous_id_map](IndexFunc* func) {
if (func->def.definition_spelling) {
funcs_removed.push_back(func->usr);
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} else {
if (!func->declarations.empty())
funcs_declarations.push_back(QueryFunc::DeclarationsUpdate(
previous_id_map.ToQuery(func->id), {},
previous_id_map.ToQuery(func->declarations)));
if (!func->derived.empty())
funcs_derived.push_back(QueryFunc::DerivedUpdate(
previous_id_map.ToQuery(func->id), {},
previous_id_map.ToQuery(func->derived)));
if (!func->callers.empty())
funcs_callers.push_back(QueryFunc::CallersUpdate(
previous_id_map.ToQuery(func->id), {},
previous_id_map.ToQuery(func->callers)));
}
},
/*onAdded:*/
[this, &current_id_map](IndexFunc* func) {
optional<QueryFunc::Def> def_update =
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ToQuery(current_id_map, func->def);
if (def_update)
funcs_def_update.push_back(
QueryFunc::DefUpdate(func->usr, *def_update));
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if (!func->declarations.empty())
funcs_declarations.push_back(QueryFunc::DeclarationsUpdate(
current_id_map.ToQuery(func->id),
current_id_map.ToQuery(func->declarations)));
if (!func->derived.empty())
funcs_derived.push_back(
QueryFunc::DerivedUpdate(current_id_map.ToQuery(func->id),
current_id_map.ToQuery(func->derived)));
if (!func->callers.empty())
funcs_callers.push_back(
QueryFunc::CallersUpdate(current_id_map.ToQuery(func->id),
current_id_map.ToQuery(func->callers)));
},
/*onFound:*/
[this, &previous_id_map, &current_id_map](IndexFunc* previous,
IndexFunc* current) {
optional<QueryFunc::Def> previous_remapped_def =
ToQuery(previous_id_map, previous->def);
optional<QueryFunc::Def> current_remapped_def =
ToQuery(current_id_map, current->def);
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if (current_remapped_def &&
previous_remapped_def != current_remapped_def &&
!current_remapped_def->detailed_name.empty()) {
funcs_def_update.push_back(
QueryFunc::DefUpdate(current->usr, *current_remapped_def));
}
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PROCESS_UPDATE_DIFF(QueryFuncId, funcs_declarations, declarations,
QueryLocation);
PROCESS_UPDATE_DIFF(QueryFuncId, funcs_derived, derived, QueryFuncId);
PROCESS_UPDATE_DIFF(QueryFuncId, funcs_callers, callers, QueryFuncRef);
});
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// Variables
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CompareGroups<IndexVar>(
previous_file.vars, current_file.vars,
/*onRemoved:*/
[this, &previous_id_map](IndexVar* var) {
if (var->def.definition_spelling) {
vars_removed.push_back(var->usr);
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} else {
if (!var->uses.empty())
vars_uses.push_back(
QueryVar::UsesUpdate(previous_id_map.ToQuery(var->id), {},
previous_id_map.ToQuery(var->uses)));
}
},
/*onAdded:*/
[this, &current_id_map](IndexVar* var) {
optional<QueryVar::Def> def_update = ToQuery(current_id_map, var->def);
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if (def_update)
vars_def_update.push_back(QueryVar::DefUpdate(var->usr, *def_update));
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if (!var->uses.empty())
vars_uses.push_back(
QueryVar::UsesUpdate(current_id_map.ToQuery(var->id),
current_id_map.ToQuery(var->uses)));
},
/*onFound:*/
[this, &previous_id_map, &current_id_map](IndexVar* previous,
IndexVar* current) {
optional<QueryVar::Def> previous_remapped_def =
ToQuery(previous_id_map, previous->def);
optional<QueryVar::Def> current_remapped_def =
ToQuery(current_id_map, current->def);
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if (current_remapped_def &&
previous_remapped_def != current_remapped_def &&
!current_remapped_def->detailed_name.empty())
vars_def_update.push_back(
QueryVar::DefUpdate(current->usr, *current_remapped_def));
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PROCESS_UPDATE_DIFF(QueryVarId, vars_uses, uses, QueryLocation);
});
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#undef PROCESS_UPDATE_DIFF
}
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// This function runs on an indexer thread.
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void IndexUpdate::Merge(const IndexUpdate& update) {
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#define INDEX_UPDATE_APPEND(name) AddRange(&name, update.name);
#define INDEX_UPDATE_MERGE(name) AddMergeableRange(&name, update.name);
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INDEX_UPDATE_APPEND(files_removed);
INDEX_UPDATE_APPEND(files_def_update);
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INDEX_UPDATE_APPEND(types_removed);
INDEX_UPDATE_APPEND(types_def_update);
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INDEX_UPDATE_MERGE(types_derived);
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INDEX_UPDATE_MERGE(types_instances);
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INDEX_UPDATE_MERGE(types_uses);
INDEX_UPDATE_APPEND(funcs_removed);
INDEX_UPDATE_APPEND(funcs_def_update);
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INDEX_UPDATE_MERGE(funcs_declarations);
INDEX_UPDATE_MERGE(funcs_derived);
INDEX_UPDATE_MERGE(funcs_callers);
INDEX_UPDATE_APPEND(vars_removed);
INDEX_UPDATE_APPEND(vars_def_update);
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INDEX_UPDATE_MERGE(vars_uses);
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#undef INDEX_UPDATE_APPEND
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#undef INDEX_UPDATE_MERGE
}
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std::string IndexUpdate::ToString() {
rapidjson::StringBuffer output;
rapidjson::Writer<rapidjson::StringBuffer> writer;
JsonWriter json_writer(&writer);
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IndexUpdate& update = *this;
Reflect(json_writer, update);
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return output.GetString();
}
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// ------------------------
// QUERYDB THREAD FUNCTIONS
// ------------------------
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void QueryDatabase::RemoveUsrs(SymbolKind usr_kind,
const std::vector<Usr>& to_remove) {
// This function runs on the querydb thread.
// When we remove an element, we just erase the state from the storage. We do
// not update array indices because that would take a huge amount of time for
// a very large index.
//
// There means that there is some memory growth that will never be reclaimed,
// but it should be pretty minimal and is solved by simply restarting the
// indexer and loading from cache, which is a fast operation.
//
// TODO: Add "cquery: Reload Index" command which unloads all querydb state
// and fully reloads from cache. This will address the memory leak above.
switch (usr_kind) {
case SymbolKind::Type: {
for (const Usr& usr : to_remove)
types[usr_to_type[usr].id].def = nullopt;
break;
}
case SymbolKind::Func: {
for (const Usr& usr : to_remove)
funcs[usr_to_func[usr].id].def = nullopt;
break;
}
case SymbolKind::Var: {
for (const Usr& usr : to_remove)
vars[usr_to_var[usr].id].def = nullopt;
break;
}
case SymbolKind::File:
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case SymbolKind::Invalid:
break;
}
}
void QueryDatabase::ApplyIndexUpdate(IndexUpdate* update) {
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// This function runs on the querydb thread.
// Example types:
// storage_name => std::vector<optional<QueryType>>
// merge_update => QueryType::DerivedUpdate =>
// MergeableUpdate<QueryTypeId, QueryTypeId> def => QueryType
// def->def_var_name => std::vector<QueryTypeId>
#define HANDLE_MERGEABLE(update_var_name, def_var_name, storage_name) \
for (auto merge_update : update->update_var_name) { \
auto& def = storage_name[merge_update.id.id]; \
AddRange(&def.def_var_name, merge_update.to_add); \
RemoveRange(&def.def_var_name, merge_update.to_remove); \
VerifyUnique(def.def_var_name); \
}
for (const std::string& filename : update->files_removed)
files[usr_to_file[filename].id].def = nullopt;
ImportOrUpdate(update->files_def_update);
RemoveUsrs(SymbolKind::Type, update->types_removed);
ImportOrUpdate(update->types_def_update);
HANDLE_MERGEABLE(types_derived, derived, types);
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HANDLE_MERGEABLE(types_instances, instances, types);
HANDLE_MERGEABLE(types_uses, uses, types);
RemoveUsrs(SymbolKind::Func, update->funcs_removed);
ImportOrUpdate(update->funcs_def_update);
HANDLE_MERGEABLE(funcs_declarations, declarations, funcs);
HANDLE_MERGEABLE(funcs_derived, derived, funcs);
HANDLE_MERGEABLE(funcs_callers, callers, funcs);
RemoveUsrs(SymbolKind::Var, update->vars_removed);
ImportOrUpdate(update->vars_def_update);
HANDLE_MERGEABLE(vars_uses, uses, vars);
#undef HANDLE_MERGEABLE
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}
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void QueryDatabase::ImportOrUpdate(
const std::vector<QueryFile::DefUpdate>& updates) {
// This function runs on the querydb thread.
for (auto& def : updates) {
auto it = usr_to_file.find(LowerPathIfCaseInsensitive(def.path));
assert(it != usr_to_file.end());
QueryFile& existing = files[it->second.id];
existing.def = def;
UpdateDetailedNames(&existing.detailed_name_idx, SymbolKind::File,
it->second.id, def.path, def.path);
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}
}
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void QueryDatabase::ImportOrUpdate(
const std::vector<QueryType::DefUpdate>& updates) {
// This function runs on the querydb thread.
for (auto& def : updates) {
assert(!def.value.detailed_name.empty());
auto it = usr_to_type.find(def.usr);
assert(it != usr_to_type.end());
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assert(it->second.id >= 0 && it->second.id < types.size());
QueryType& existing = types[it->second.id];
// Keep the existing definition if it is higher quality.
if (existing.def && existing.def->definition_spelling &&
!def.value.definition_spelling)
continue;
existing.def = def.value;
UpdateDetailedNames(&existing.detailed_name_idx, SymbolKind::Type,
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it->second.id, def.value.short_name,
def.value.detailed_name);
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}
}
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void QueryDatabase::ImportOrUpdate(
const std::vector<QueryFunc::DefUpdate>& updates) {
// This function runs on the querydb thread.
for (auto& def : updates) {
assert(!def.value.detailed_name.empty());
auto it = usr_to_func.find(def.usr);
assert(it != usr_to_func.end());
assert(it->second.id >= 0 && it->second.id < funcs.size());
QueryFunc& existing = funcs[it->second.id];
// Keep the existing definition if it is higher quality.
if (existing.def && existing.def->definition_spelling &&
!def.value.definition_spelling)
continue;
existing.def = def.value;
UpdateDetailedNames(&existing.detailed_name_idx, SymbolKind::Func,
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it->second.id, def.value.short_name,
def.value.detailed_name);
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}
}
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void QueryDatabase::ImportOrUpdate(
const std::vector<QueryVar::DefUpdate>& updates) {
// This function runs on the querydb thread.
for (auto& def : updates) {
assert(!def.value.detailed_name.empty());
auto it = usr_to_var.find(def.usr);
assert(it != usr_to_var.end());
assert(it->second.id >= 0 && it->second.id < vars.size());
QueryVar& existing = vars[it->second.id];
// Keep the existing definition if it is higher quality.
if (existing.def && existing.def->definition_spelling &&
!def.value.definition_spelling)
continue;
existing.def = def.value;
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if (!def.value.is_local())
UpdateDetailedNames(&existing.detailed_name_idx, SymbolKind::Var,
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it->second.id, def.value.short_name,
def.value.detailed_name);
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}
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}
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void QueryDatabase::UpdateDetailedNames(size_t* qualified_name_index,
SymbolKind kind,
size_t symbol_index,
const std::string& short_name,
const std::string& detailed_name) {
if (*qualified_name_index == -1) {
short_names.push_back(short_name);
detailed_names.push_back(detailed_name);
symbols.push_back(SymbolIdx(kind, symbol_index));
*qualified_name_index = detailed_names.size() - 1;
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} else {
short_names[*qualified_name_index] = short_name;
detailed_names[*qualified_name_index] = detailed_name;
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}
}
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TEST_SUITE("query") {
IndexUpdate GetDelta(IndexFile previous, IndexFile current) {
QueryDatabase db;
IdMap previous_map(&db, previous.id_cache);
IdMap current_map(&db, current.id_cache);
return IndexUpdate::CreateDelta(&previous_map, &current_map, &previous,
&current);
}
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TEST_CASE("remove defs") {
IndexFile previous("foo.cc", nullopt);
IndexFile current("foo.cc", nullopt);
previous.Resolve(previous.ToTypeId(HashUsr("usr1")))
->def.definition_spelling = Range(Position(1, 0));
previous.Resolve(previous.ToFuncId(HashUsr("usr2")))
->def.definition_spelling = Range(Position(2, 0));
previous.Resolve(previous.ToVarId(HashUsr("usr3")))
->def.definition_spelling = Range(Position(3, 0));
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IndexUpdate update = GetDelta(previous, current);
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REQUIRE(update.types_removed == std::vector<Usr>{HashUsr("usr1")});
REQUIRE(update.funcs_removed == std::vector<Usr>{HashUsr("usr2")});
REQUIRE(update.vars_removed == std::vector<Usr>{HashUsr("usr3")});
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}
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TEST_CASE("do not remove ref-only defs") {
IndexFile previous("foo.cc", nullopt);
IndexFile current("foo.cc", nullopt);
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previous.Resolve(previous.ToTypeId(HashUsr("usr1")))
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->uses.push_back(Range(Position(1, 0)));
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previous.Resolve(previous.ToFuncId(HashUsr("usr2")))
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->callers.push_back(IndexFuncRef(IndexFuncId(0), Range(Position(2, 0)),
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false /*is_implicit*/));
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previous.Resolve(previous.ToVarId(HashUsr("usr3")))
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->uses.push_back(Range(Position(3, 0)));
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IndexUpdate update = GetDelta(previous, current);
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REQUIRE(update.types_removed == std::vector<Usr>{});
REQUIRE(update.funcs_removed == std::vector<Usr>{});
REQUIRE(update.vars_removed == std::vector<Usr>{});
}
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TEST_CASE("func callers") {
IndexFile previous("foo.cc", nullopt);
IndexFile current("foo.cc", nullopt);
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IndexFunc* pf = previous.Resolve(previous.ToFuncId(HashUsr("usr")));
IndexFunc* cf = current.Resolve(current.ToFuncId(HashUsr("usr")));
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pf->callers.push_back(IndexFuncRef(IndexFuncId(0), Range(Position(1, 0)),
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false /*is_implicit*/));
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cf->callers.push_back(IndexFuncRef(IndexFuncId(0), Range(Position(2, 0)),
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false /*is_implicit*/));
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IndexUpdate update = GetDelta(previous, current);
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REQUIRE(update.funcs_removed == std::vector<Usr>{});
REQUIRE(update.funcs_callers.size() == 1);
REQUIRE(update.funcs_callers[0].id == QueryFuncId(0));
REQUIRE(update.funcs_callers[0].to_remove.size() == 1);
REQUIRE(update.funcs_callers[0].to_remove[0].loc.range ==
Range(Position(1, 0)));
REQUIRE(update.funcs_callers[0].to_add.size() == 1);
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REQUIRE(update.funcs_callers[0].to_add[0].loc.range ==
Range(Position(2, 0)));
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}
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TEST_CASE("type usages") {
IndexFile previous("foo.cc", nullopt);
IndexFile current("foo.cc", nullopt);
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IndexType* pt = previous.Resolve(previous.ToTypeId(HashUsr("usr")));
IndexType* ct = current.Resolve(current.ToTypeId(HashUsr("usr")));
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pt->uses.push_back(Range(Position(1, 0)));
ct->uses.push_back(Range(Position(2, 0)));
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IndexUpdate update = GetDelta(previous, current);
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REQUIRE(update.types_removed == std::vector<Usr>{});
REQUIRE(update.types_def_update.empty());
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REQUIRE(update.types_uses.size() == 1);
REQUIRE(update.types_uses[0].to_remove.size() == 1);
REQUIRE(update.types_uses[0].to_remove[0].range == Range(Position(1, 0)));
REQUIRE(update.types_uses[0].to_add.size() == 1);
REQUIRE(update.types_uses[0].to_add[0].range == Range(Position(2, 0)));
}
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TEST_CASE("apply delta") {
IndexFile previous("foo.cc", nullopt);
IndexFile current("foo.cc", nullopt);
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IndexFunc* pf = previous.Resolve(previous.ToFuncId(HashUsr("usr")));
IndexFunc* cf = current.Resolve(current.ToFuncId(HashUsr("usr")));
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pf->callers.push_back(IndexFuncRef(IndexFuncId(0), Range(Position(1, 0)),
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false /*is_implicit*/));
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pf->callers.push_back(IndexFuncRef(IndexFuncId(0), Range(Position(2, 0)),
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false /*is_implicit*/));
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cf->callers.push_back(IndexFuncRef(IndexFuncId(0), Range(Position(4, 0)),
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false /*is_implicit*/));
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cf->callers.push_back(IndexFuncRef(IndexFuncId(0), Range(Position(5, 0)),
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false /*is_implicit*/));
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QueryDatabase db;
IdMap previous_map(&db, previous.id_cache);
IdMap current_map(&db, current.id_cache);
REQUIRE(db.funcs.size() == 1);
IndexUpdate import_update =
IndexUpdate::CreateDelta(nullptr, &previous_map, nullptr, &previous);
IndexUpdate delta_update = IndexUpdate::CreateDelta(
&previous_map, &current_map, &previous, &current);
db.ApplyIndexUpdate(&import_update);
REQUIRE(db.funcs[0].callers.size() == 2);
REQUIRE(db.funcs[0].callers[0].loc.range == Range(Position(1, 0)));
REQUIRE(db.funcs[0].callers[1].loc.range == Range(Position(2, 0)));
db.ApplyIndexUpdate(&delta_update);
REQUIRE(db.funcs[0].callers.size() == 2);
REQUIRE(db.funcs[0].callers[0].loc.range == Range(Position(4, 0)));
REQUIRE(db.funcs[0].callers[1].loc.range == Range(Position(5, 0)));
}
}