ccls/src/query_utils.cc

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#include "query_utils.h"
#include "queue_manager.h"
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#include <climits>
namespace {
// Computes roughly how long |range| is.
int ComputeRangeSize(const Range& range) {
if (range.start.line != range.end.line)
return INT_MAX;
return range.end.column - range.start.column;
}
} // namespace
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optional<QueryLocation> GetDefinitionSpellingOfSymbol(QueryDatabase* db,
const QueryTypeId& id) {
QueryType& type = db->types[id.id];
if (type.def)
return type.def->definition_spelling;
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return nullopt;
}
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optional<QueryLocation> GetDefinitionSpellingOfSymbol(QueryDatabase* db,
const QueryFuncId& id) {
QueryFunc& func = db->funcs[id.id];
if (func.def)
return func.def->definition_spelling;
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return nullopt;
}
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optional<QueryLocation> GetDefinitionSpellingOfSymbol(QueryDatabase* db,
const QueryVarId& id) {
QueryVar& var = db->vars[id.id];
if (var.def)
return var.def->definition_spelling;
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return nullopt;
}
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optional<QueryLocation> GetDefinitionSpellingOfSymbol(QueryDatabase* db,
const SymbolIdx& symbol) {
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switch (symbol.kind) {
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case SymbolKind::Type: {
QueryType& type = db->types[symbol.idx];
if (type.def)
return type.def->definition_spelling;
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break;
}
case SymbolKind::Func: {
QueryFunc& func = db->funcs[symbol.idx];
if (func.def)
return func.def->definition_spelling;
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break;
}
case SymbolKind::Var: {
QueryVar& var = db->vars[symbol.idx];
if (var.def)
return var.def->definition_spelling;
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break;
}
case SymbolKind::File:
case SymbolKind::Invalid: {
assert(false && "unexpected");
break;
}
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}
return nullopt;
}
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optional<QueryLocation> GetDefinitionExtentOfSymbol(QueryDatabase* db,
const SymbolIdx& symbol) {
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switch (symbol.kind) {
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case SymbolKind::Type: {
QueryType& type = db->types[symbol.idx];
if (type.def)
return type.def->definition_extent;
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break;
}
case SymbolKind::Func: {
QueryFunc& func = db->funcs[symbol.idx];
if (func.def)
return func.def->definition_extent;
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break;
}
case SymbolKind::Var: {
QueryVar& var = db->vars[symbol.idx];
if (var.def)
return var.def->definition_extent;
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break;
}
case SymbolKind::File: {
return QueryLocation(QueryFileId(symbol.idx),
Range(Position(1, 1), Position(1, 1)));
}
case SymbolKind::Invalid: {
assert(false && "unexpected");
break;
}
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}
return nullopt;
}
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optional<QueryFileId> GetDeclarationFileForSymbol(QueryDatabase* db,
const SymbolIdx& symbol) {
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switch (symbol.kind) {
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case SymbolKind::Type: {
QueryType& type = db->types[symbol.idx];
if (type.def && type.def->definition_spelling)
return type.def->definition_spelling->path;
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break;
}
case SymbolKind::Func: {
QueryFunc& func = db->funcs[symbol.idx];
if (!func.declarations.empty())
return func.declarations[0].path;
if (func.def && func.def->definition_spelling)
return func.def->definition_spelling->path;
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break;
}
case SymbolKind::Var: {
QueryVar& var = db->vars[symbol.idx];
if (var.def && var.def->definition_spelling)
return var.def->definition_spelling->path;
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break;
}
case SymbolKind::File: {
return QueryFileId(symbol.idx);
}
case SymbolKind::Invalid: {
assert(false && "unexpected");
break;
}
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}
return nullopt;
}
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std::vector<QueryLocation> ToQueryLocation(
QueryDatabase* db,
const std::vector<QueryFuncRef>& refs) {
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std::vector<QueryLocation> locs;
locs.reserve(refs.size());
for (const QueryFuncRef& ref : refs)
locs.push_back(ref.loc);
return locs;
}
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std::vector<QueryLocation> ToQueryLocation(
QueryDatabase* db,
const std::vector<QueryTypeId>& ids) {
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std::vector<QueryLocation> locs;
locs.reserve(ids.size());
for (const QueryTypeId& id : ids) {
optional<QueryLocation> loc = GetDefinitionSpellingOfSymbol(db, id);
if (loc)
locs.push_back(loc.value());
}
return locs;
}
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std::vector<QueryLocation> ToQueryLocation(
QueryDatabase* db,
const std::vector<QueryFuncId>& ids) {
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std::vector<QueryLocation> locs;
locs.reserve(ids.size());
for (const QueryFuncId& id : ids) {
optional<QueryLocation> loc = GetDefinitionSpellingOfSymbol(db, id);
if (loc)
locs.push_back(loc.value());
}
return locs;
}
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std::vector<QueryLocation> ToQueryLocation(QueryDatabase* db,
const std::vector<QueryVarId>& ids) {
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std::vector<QueryLocation> locs;
locs.reserve(ids.size());
for (const QueryVarId& id : ids) {
optional<QueryLocation> loc = GetDefinitionSpellingOfSymbol(db, id);
if (loc)
locs.push_back(loc.value());
}
return locs;
}
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std::vector<QueryLocation> GetUsesOfSymbol(QueryDatabase* db,
const SymbolIdx& symbol,
bool include_decl) {
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switch (symbol.kind) {
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case SymbolKind::Type: {
QueryType& type = db->types[symbol.idx];
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std::vector<QueryLocation> ret = type.uses;
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if (include_decl && type.def && type.def->definition_spelling)
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ret.push_back(*type.def->definition_spelling);
return ret;
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}
case SymbolKind::Func: {
// TODO: the vector allocation could be avoided.
QueryFunc& func = db->funcs[symbol.idx];
std::vector<QueryLocation> result = ToQueryLocation(db, func.callers);
if (include_decl) {
AddRange(&result, func.declarations);
if (func.def && func.def->definition_spelling)
result.push_back(*func.def->definition_spelling);
}
return result;
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}
case SymbolKind::Var: {
QueryVar& var = db->vars[symbol.idx];
std::vector<QueryLocation> ret = var.uses;
if (include_decl) {
if (var.def && var.def->definition_spelling)
ret.push_back(*var.def->definition_spelling);
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ret.insert(ret.end(), var.declarations.begin(), var.declarations.end());
}
return ret;
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}
case SymbolKind::File:
case SymbolKind::Invalid: {
assert(false && "unexpected");
break;
}
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}
return {};
}
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std::vector<QueryLocation> GetDeclarationsOfSymbolForGotoDefinition(
QueryDatabase* db,
const SymbolIdx& symbol) {
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switch (symbol.kind) {
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case SymbolKind::Type: {
// Returning the definition spelling of a type is a hack (and is why the
// function has the postfix `ForGotoDefintion`, but it lets the user
// jump to the start of a type if clicking goto-definition on the same
// type from within the type definition.
QueryType& type = db->types[symbol.idx];
if (type.def) {
optional<QueryLocation> declaration = type.def->definition_spelling;
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if (declaration)
return {*declaration};
}
break;
}
case SymbolKind::Func: {
QueryFunc& func = db->funcs[symbol.idx];
return func.declarations;
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}
case SymbolKind::Var: {
return db->vars[symbol.idx].declarations;
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}
default:
break;
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}
return {};
}
bool HasCallersOnSelfOrBaseOrDerived(QueryDatabase* db, QueryFunc& root) {
// Check self.
if (!root.callers.empty())
return true;
// Check for base calls.
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std::queue<QueryFuncId> queue;
PushRange(&queue, root.def->base);
while (!queue.empty()) {
QueryFunc& func = db->funcs[queue.front().id];
queue.pop();
if (!func.callers.empty())
return true;
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if (func.def)
PushRange(&queue, func.def->base);
}
// Check for derived calls.
PushRange(&queue, root.derived);
while (!queue.empty()) {
QueryFunc& func = db->funcs[queue.front().id];
queue.pop();
if (!func.callers.empty())
return true;
PushRange(&queue, func.derived);
}
return false;
}
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std::vector<QueryFuncRef> GetCallersForAllBaseFunctions(QueryDatabase* db,
QueryFunc& root) {
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std::vector<QueryFuncRef> callers;
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if (!root.def)
return callers;
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std::queue<QueryFuncId> queue;
PushRange(&queue, root.def->base);
while (!queue.empty()) {
QueryFunc& func = db->funcs[queue.front().id];
queue.pop();
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AddRange(&callers, func.callers);
if (func.def)
PushRange(&queue, func.def->base);
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}
return callers;
}
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std::vector<QueryFuncRef> GetCallersForAllDerivedFunctions(QueryDatabase* db,
QueryFunc& root) {
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std::vector<QueryFuncRef> callers;
std::queue<QueryFuncId> queue;
PushRange(&queue, root.derived);
while (!queue.empty()) {
QueryFunc& func = db->funcs[queue.front().id];
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queue.pop();
PushRange(&queue, func.derived);
AddRange(&callers, func.callers);
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}
return callers;
}
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optional<lsPosition> GetLsPosition(WorkingFile* working_file,
const Position& position) {
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if (!working_file)
return lsPosition(position.line, position.column);
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int column = position.column;
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optional<int> start =
working_file->GetBufferPosFromIndexPos(position.line, &column, false);
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if (!start)
return nullopt;
return lsPosition(*start, column);
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}
optional<lsRange> GetLsRange(WorkingFile* working_file, const Range& location) {
if (!working_file) {
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return lsRange(lsPosition(location.start.line, location.start.column),
lsPosition(location.end.line, location.end.column));
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}
int start_column = location.start.column, end_column = location.end.column;
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optional<int> start = working_file->GetBufferPosFromIndexPos(
location.start.line, &start_column, false);
optional<int> end = working_file->GetBufferPosFromIndexPos(location.end.line,
&end_column, true);
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if (!start || !end)
return nullopt;
// If remapping end fails (end can never be < start), just guess that the
// final location didn't move. This only screws up the highlighted code
// region if we guess wrong, so not a big deal.
//
// Remapping fails often in C++ since there are a lot of "};" at the end of
// class/struct definitions.
if (*end < *start)
*end = *start + (location.end.line - location.start.line);
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if (*start == *end && start_column > end_column)
end_column = start_column;
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return lsRange(lsPosition(*start, start_column),
lsPosition(*end, end_column));
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}
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lsDocumentUri GetLsDocumentUri(QueryDatabase* db,
QueryFileId file_id,
std::string* path) {
QueryFile& file = db->files[file_id.id];
if (file.def) {
*path = file.def->path;
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return lsDocumentUri::FromPath(*path);
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} else {
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*path = "";
return lsDocumentUri::FromPath("");
}
}
lsDocumentUri GetLsDocumentUri(QueryDatabase* db, QueryFileId file_id) {
QueryFile& file = db->files[file_id.id];
if (file.def) {
return lsDocumentUri::FromPath(file.def->path);
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} else {
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return lsDocumentUri::FromPath("");
}
}
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optional<lsLocation> GetLsLocation(QueryDatabase* db,
WorkingFiles* working_files,
const QueryLocation& location) {
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std::string path;
lsDocumentUri uri = GetLsDocumentUri(db, location.path, &path);
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optional<lsRange> range =
GetLsRange(working_files->GetFileByFilename(path), location.range);
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if (!range)
return nullopt;
return lsLocation(uri, *range);
}
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std::vector<lsLocation> GetLsLocations(
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QueryDatabase* db,
WorkingFiles* working_files,
const std::vector<QueryLocation>& locations) {
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std::unordered_set<lsLocation> unique_locations;
for (const QueryLocation& query_location : locations) {
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optional<lsLocation> location =
GetLsLocation(db, working_files, query_location);
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if (!location)
continue;
unique_locations.insert(*location);
}
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std::vector<lsLocation> result;
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result.reserve(unique_locations.size());
result.assign(unique_locations.begin(), unique_locations.end());
return result;
}
// Returns a symbol. The symbol will have *NOT* have a location assigned.
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optional<lsSymbolInformation> GetSymbolInfo(QueryDatabase* db,
WorkingFiles* working_files,
SymbolIdx symbol,
bool use_short_name) {
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switch (symbol.kind) {
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case SymbolKind::File: {
QueryFile& file = db->files[symbol.idx];
if (!file.def)
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return nullopt;
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lsSymbolInformation info;
info.name = file.def->path;
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info.kind = lsSymbolKind::File;
return info;
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}
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case SymbolKind::Type: {
QueryType& type = db->types[symbol.idx];
if (!type.def)
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return nullopt;
lsSymbolInformation info;
if (use_short_name)
info.name = type.def->ShortName();
else
info.name = type.def->detailed_name;
if (type.def->detailed_name != type.def->ShortName())
info.containerName = type.def->detailed_name;
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// TODO ClangSymbolKind -> lsSymbolKind
switch (type.def->kind) {
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default:
info.kind = lsSymbolKind::Class;
break;
case ClangSymbolKind::Namespace:
info.kind = lsSymbolKind::Namespace;
break;
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}
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return info;
}
case SymbolKind::Func: {
QueryFunc& func = db->funcs[symbol.idx];
if (!func.def)
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return nullopt;
lsSymbolInformation info;
if (use_short_name)
info.name = func.def->ShortName();
else
info.name = func.def->detailed_name;
info.containerName = func.def->detailed_name;
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info.kind = lsSymbolKind::Function;
if (func.def->declaring_type.has_value()) {
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QueryType& container = db->types[func.def->declaring_type->id];
if (container.def)
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info.kind = lsSymbolKind::Method;
}
return info;
}
case SymbolKind::Var: {
QueryVar& var = db->vars[symbol.idx];
if (!var.def)
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return nullopt;
lsSymbolInformation info;
if (use_short_name)
info.name = var.def->ShortName();
else
info.name = var.def->detailed_name;
info.containerName = var.def->detailed_name;
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info.kind = lsSymbolKind::Variable;
return info;
}
case SymbolKind::Invalid: {
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return nullopt;
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}
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};
return nullopt;
}
// TODO Sort only by range length, not |kind| or |idx|
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std::vector<SymbolRef> FindSymbolsAtLocation(WorkingFile* working_file,
QueryFile* file,
lsPosition position) {
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std::vector<SymbolRef> symbols;
symbols.reserve(1);
int target_line = position.line;
int target_column = position.character;
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if (working_file) {
optional<int> index_line = working_file->GetIndexPosFromBufferPos(
target_line, &target_column, false);
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if (index_line)
target_line = *index_line;
}
for (const SymbolRef& ref : file->def->all_symbols) {
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if (ref.loc.range.Contains(target_line, target_column))
symbols.push_back(ref);
}
// Order shorter ranges first, since they are more detailed/precise. This is
// important for macros which generate code so that we can resolving the
// macro argument takes priority over the entire macro body.
//
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// Order SymbolKind::Var before SymbolKind::Type. Macro calls are treated as
// Var currently. If a macro expands to tokens led by a SymbolKind::Type, the
// macro and the Type have the same range. We want to find the macro
// definition instead of the Type definition.
//
// Then order functions before other types, which makes goto definition work
// better on constructors.
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std::sort(symbols.begin(), symbols.end(),
[](const SymbolRef& a, const SymbolRef& b) {
int a_size = ComputeRangeSize(a.loc.range);
int b_size = ComputeRangeSize(b.loc.range);
if (a_size != b_size)
return a_size < b_size;
// operator> orders Var/Func before Type.
int t =
static_cast<int>(a.idx.kind) - static_cast<int>(b.idx.kind);
if (t)
return t > 0;
return a.idx.idx < b.idx.idx;
});
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return symbols;
}
void EmitDiagnostics(WorkingFiles* working_files,
std::string path,
std::vector<lsDiagnostic> diagnostics) {
// Emit diagnostics.
Out_TextDocumentPublishDiagnostics out;
out.params.uri = lsDocumentUri::FromPath(path);
out.params.diagnostics = diagnostics;
QueueManager::WriteStdout(IpcId::TextDocumentPublishDiagnostics, out);
// Cache diagnostics so we can show fixits.
working_files->DoActionOnFile(path, [&](WorkingFile* working_file) {
if (working_file)
working_file->diagnostics_ = diagnostics;
});
}