ccls/src/message_handler.cc

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// Copyright 2017-2018 ccls Authors
// SPDX-License-Identifier: Apache-2.0
#include "message_handler.hh"
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#include "log.hh"
#include "pipeline.hh"
#include "project.hh"
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#include "query.hh"
#include <rapidjson/document.h>
#include <rapidjson/reader.h>
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#include <algorithm>
#include <stdexcept>
using namespace clang;
MAKE_HASHABLE(ccls::SymbolIdx, t.usr, t.kind);
namespace ccls {
REFLECT_STRUCT(CodeActionParam::Context, diagnostics);
REFLECT_STRUCT(CodeActionParam, textDocument, range, context);
void Reflect(JsonReader &, EmptyParam &) {}
REFLECT_STRUCT(TextDocumentParam, textDocument);
REFLECT_STRUCT(DidOpenTextDocumentParam, textDocument);
REFLECT_STRUCT(TextDocumentContentChangeEvent, range, rangeLength, text);
REFLECT_STRUCT(TextDocumentDidChangeParam, textDocument, contentChanges);
REFLECT_STRUCT(TextDocumentPositionParam, textDocument, position);
REFLECT_STRUCT(RenameParam, textDocument, position, newName);
// completion
REFLECT_UNDERLYING(CompletionTriggerKind);
REFLECT_STRUCT(CompletionContext, triggerKind, triggerCharacter);
REFLECT_STRUCT(CompletionParam, textDocument, position, context);
// formatting
REFLECT_STRUCT(FormattingOptions, tabSize, insertSpaces);
REFLECT_STRUCT(DocumentFormattingParam, textDocument, options);
REFLECT_STRUCT(DocumentOnTypeFormattingParam, textDocument, position, ch,
options);
REFLECT_STRUCT(DocumentRangeFormattingParam, textDocument, range, options);
// workspace
REFLECT_UNDERLYING(FileChangeType);
REFLECT_STRUCT(DidChangeWatchedFilesParam::Event, uri, type);
REFLECT_STRUCT(DidChangeWatchedFilesParam, changes);
REFLECT_STRUCT(DidChangeWorkspaceFoldersParam::Event, added, removed);
REFLECT_STRUCT(DidChangeWorkspaceFoldersParam, event);
REFLECT_STRUCT(WorkspaceSymbolParam, query, folders);
namespace {
struct CclsSemanticHighlightSymbol {
int id = 0;
SymbolKind parentKind;
SymbolKind kind;
uint8_t storage;
std::vector<std::pair<int, int>> ranges;
// `lsRanges` is used to compute `ranges`.
std::vector<lsRange> lsRanges;
};
struct CclsSemanticHighlight {
DocumentUri uri;
std::vector<CclsSemanticHighlightSymbol> symbols;
};
REFLECT_STRUCT(CclsSemanticHighlightSymbol, id, parentKind, kind, storage,
ranges, lsRanges);
REFLECT_STRUCT(CclsSemanticHighlight, uri, symbols);
struct CclsSetSkippedRanges {
DocumentUri uri;
std::vector<lsRange> skippedRanges;
};
REFLECT_STRUCT(CclsSetSkippedRanges, uri, skippedRanges);
struct ScanLineEvent {
Position pos;
Position end_pos; // Second key when there is a tie for insertion events.
int id;
CclsSemanticHighlightSymbol *symbol;
bool operator<(const ScanLineEvent &o) const {
// See the comments below when insertion/deletion events are inserted.
if (!(pos == o.pos))
return pos < o.pos;
if (!(o.end_pos == end_pos))
return o.end_pos < end_pos;
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// This comparison essentially order Macro after non-Macro,
// So that macros will not be rendered as Var/Type/...
if (symbol->kind != o.symbol->kind)
return symbol->kind < o.symbol->kind;
// If symbol A and B occupy the same place, we want one to be placed
// before the other consistantly.
return symbol->id < o.symbol->id;
}
};
} // namespace
void ReplyOnce::NotReady(bool file) {
if (file)
Error(ErrorCode::InvalidRequest, "not opened");
else
Error(ErrorCode::InternalError, "not indexed");
}
void MessageHandler::Bind(const char *method,
void (MessageHandler::*handler)(JsonReader &)) {
method2notification[method] = [this, handler](JsonReader &reader) {
(this->*handler)(reader);
};
}
template <typename Param>
void MessageHandler::Bind(const char *method,
void (MessageHandler::*handler)(Param &)) {
method2notification[method] = [this, handler](JsonReader &reader) {
Param param{};
Reflect(reader, param);
(this->*handler)(param);
};
}
void MessageHandler::Bind(const char *method,
void (MessageHandler::*handler)(JsonReader &,
ReplyOnce &)) {
method2request[method] = [this, handler](JsonReader &reader,
ReplyOnce &reply) {
(this->*handler)(reader, reply);
};
}
template <typename Param>
void MessageHandler::Bind(const char *method,
void (MessageHandler::*handler)(Param &,
ReplyOnce &)) {
method2request[method] = [this, handler](JsonReader &reader,
ReplyOnce &reply) {
Param param{};
Reflect(reader, param);
(this->*handler)(param, reply);
};
}
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MessageHandler::MessageHandler() {
Bind("$ccls/call", &MessageHandler::ccls_call);
Bind("$ccls/fileInfo", &MessageHandler::ccls_fileInfo);
Bind("$ccls/info", &MessageHandler::ccls_info);
Bind("$ccls/inheritance", &MessageHandler::ccls_inheritance);
Bind("$ccls/member", &MessageHandler::ccls_member);
Bind("$ccls/navigate", &MessageHandler::ccls_navigate);
Bind("$ccls/reload", &MessageHandler::ccls_reload);
Bind("$ccls/vars", &MessageHandler::ccls_vars);
Bind("exit", &MessageHandler::exit);
Bind("initialize", &MessageHandler::initialize);
Bind("shutdown", &MessageHandler::shutdown);
Bind("textDocument/codeAction", &MessageHandler::textDocument_codeAction);
Bind("textDocument/codeLens", &MessageHandler::textDocument_codeLens);
Bind("textDocument/completion", &MessageHandler::textDocument_completion);
Bind("textDocument/definition", &MessageHandler::textDocument_definition);
Bind("textDocument/didChange", &MessageHandler::textDocument_didChange);
Bind("textDocument/didClose", &MessageHandler::textDocument_didClose);
Bind("textDocument/didOpen", &MessageHandler::textDocument_didOpen);
Bind("textDocument/didSave", &MessageHandler::textDocument_didSave);
Bind("textDocument/documentHighlight",
&MessageHandler::textDocument_documentHighlight);
Bind("textDocument/documentLink", &MessageHandler::textDocument_documentLink);
Bind("textDocument/documentSymbol",
&MessageHandler::textDocument_documentSymbol);
Bind("textDocument/foldingRange", &MessageHandler::textDocument_foldingRange);
Bind("textDocument/formatting", &MessageHandler::textDocument_formatting);
Bind("textDocument/hover", &MessageHandler::textDocument_hover);
Bind("textDocument/implementation",
&MessageHandler::textDocument_implementation);
Bind("textDocument/onTypeFormatting",
&MessageHandler::textDocument_onTypeFormatting);
Bind("textDocument/rangeFormatting",
&MessageHandler::textDocument_rangeFormatting);
Bind("textDocument/references", &MessageHandler::textDocument_references);
Bind("textDocument/rename", &MessageHandler::textDocument_rename);
Bind("textDocument/signatureHelp",
&MessageHandler::textDocument_signatureHelp);
Bind("textDocument/typeDefinition",
&MessageHandler::textDocument_typeDefinition);
Bind("workspace/didChangeConfiguration",
&MessageHandler::workspace_didChangeConfiguration);
Bind("workspace/didChangeWatchedFiles",
&MessageHandler::workspace_didChangeWatchedFiles);
Bind("workspace/didChangeWorkspaceFolders",
&MessageHandler::workspace_didChangeWorkspaceFolders);
Bind("workspace/executeCommand", &MessageHandler::workspace_executeCommand);
Bind("workspace/symbol", &MessageHandler::workspace_symbol);
}
void MessageHandler::Run(InMessage &msg) {
rapidjson::Document &doc = *msg.document;
rapidjson::Value param;
auto it = doc.FindMember("params");
if (it != doc.MemberEnd())
param = it->value;
JsonReader reader(&param);
if (msg.id.Valid()) {
ReplyOnce reply{msg.id};
auto it = method2request.find(msg.method);
if (it != method2request.end()) {
try {
it->second(reader, reply);
} catch (std::invalid_argument &ex) {
reply.Error(ErrorCode::InvalidParams,
"invalid params of " + msg.method + ": expected " +
ex.what() + " for " + reader.GetPath());
} catch (...) {
reply.Error(ErrorCode::InternalError, "failed to process " + msg.method);
}
} else {
reply.Error(ErrorCode::MethodNotFound, "unknown request " + msg.method);
}
} else {
auto it = method2notification.find(msg.method);
if (it != method2notification.end())
try {
it->second(reader);
} catch (...) {
ShowMessageParam param{MessageType::Error,
std::string("failed to process ") + msg.method};
pipeline::Notify(window_showMessage, param);
}
}
}
QueryFile *MessageHandler::FindFile(const std::string &path, int *out_file_id) {
QueryFile *ret = nullptr;
auto it = db->name2file_id.find(LowerPathIfInsensitive(path));
if (it != db->name2file_id.end()) {
QueryFile &file = db->files[it->second];
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if (file.def) {
ret = &file;
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if (out_file_id)
*out_file_id = it->second;
return ret;
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}
}
if (out_file_id)
*out_file_id = -1;
return ret;
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}
void EmitSkippedRanges(WorkingFile *wfile, QueryFile &file) {
CclsSetSkippedRanges params;
params.uri = DocumentUri::FromPath(wfile->filename);
for (Range skipped : file.def->skipped_ranges)
if (auto ls_skipped = GetLsRange(wfile, skipped))
params.skippedRanges.push_back(*ls_skipped);
pipeline::Notify("$ccls/publishSkippedRanges", params);
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}
void EmitSemanticHighlight(DB *db, WorkingFile *wfile, QueryFile &file) {
static GroupMatch match(g_config->highlight.whitelist,
g_config->highlight.blacklist);
assert(file.def);
if (wfile->buffer_content.size() > g_config->highlight.largeFileSize ||
!match.Matches(file.def->path))
return;
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// Group symbols together.
std::unordered_map<SymbolIdx, CclsSemanticHighlightSymbol> grouped_symbols;
for (auto [sym, refcnt] : file.symbol2refcnt) {
if (refcnt <= 0) continue;
std::string_view detailed_name;
SymbolKind parent_kind = SymbolKind::Unknown;
SymbolKind kind = SymbolKind::Unknown;
uint8_t storage = SC_None;
int idx;
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// This switch statement also filters out symbols that are not highlighted.
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switch (sym.kind) {
case Kind::Func: {
idx = db->func_usr[sym.usr];
const QueryFunc &func = db->funcs[idx];
const QueryFunc::Def *def = func.AnyDef();
if (!def)
continue; // applies to for loop
// Don't highlight overloadable operators or implicit lambda ->
// std::function constructor.
std::string_view short_name = def->Name(false);
if (short_name.compare(0, 8, "operator") == 0)
continue; // applies to for loop
kind = def->kind;
storage = def->storage;
detailed_name = short_name;
parent_kind = def->parent_kind;
// Check whether the function name is actually there.
// If not, do not publish the semantic highlight.
// E.g. copy-initialization of constructors should not be highlighted
// but we still want to keep the range for jumping to definition.
std::string_view concise_name =
detailed_name.substr(0, detailed_name.find('<'));
int16_t start_line = sym.range.start.line;
int16_t start_col = sym.range.start.column;
if (start_line < 0 || start_line >= wfile->index_lines.size())
continue;
std::string_view line = wfile->index_lines[start_line];
sym.range.end.line = start_line;
if (!(start_col + concise_name.size() <= line.size() &&
line.compare(start_col, concise_name.size(), concise_name) == 0))
continue;
sym.range.end.column = start_col + concise_name.size();
break;
}
case Kind::Type: {
idx = db->type_usr[sym.usr];
const QueryType &type = db->types[idx];
for (auto &def : type.def) {
kind = def.kind;
detailed_name = def.detailed_name;
if (def.spell) {
parent_kind = def.parent_kind;
break;
}
}
break;
}
case Kind::Var: {
idx = db->var_usr[sym.usr];
const QueryVar &var = db->vars[idx];
for (auto &def : var.def) {
kind = def.kind;
storage = def.storage;
detailed_name = def.detailed_name;
if (def.spell) {
parent_kind = def.parent_kind;
break;
}
}
break;
}
default:
continue; // applies to for loop
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}
if (std::optional<lsRange> loc = GetLsRange(wfile, sym.range)) {
auto it = grouped_symbols.find(sym);
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if (it != grouped_symbols.end()) {
it->second.lsRanges.push_back(*loc);
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} else {
CclsSemanticHighlightSymbol symbol;
symbol.id = idx;
symbol.parentKind = parent_kind;
symbol.kind = kind;
symbol.storage = storage;
symbol.lsRanges.push_back(*loc);
grouped_symbols[sym] = symbol;
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}
}
}
// Make ranges non-overlapping using a scan line algorithm.
std::vector<ScanLineEvent> events;
int id = 0;
for (auto &entry : grouped_symbols) {
CclsSemanticHighlightSymbol &symbol = entry.second;
for (auto &loc : symbol.lsRanges) {
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// For ranges sharing the same start point, the one with leftmost end
// point comes first.
events.push_back({loc.start, loc.end, id, &symbol});
// For ranges sharing the same end point, their relative order does not
// matter, therefore we arbitrarily assign loc.end to them. We use
// negative id to indicate a deletion event.
events.push_back({loc.end, loc.end, ~id, &symbol});
id++;
}
symbol.lsRanges.clear();
}
std::sort(events.begin(), events.end());
std::vector<uint8_t> deleted(id, 0);
int top = 0;
for (size_t i = 0; i < events.size(); i++) {
while (top && deleted[events[top - 1].id])
top--;
// Order [a, b0) after [a, b1) if b0 < b1. The range comes later overrides
// the ealier. The order of [a0, b) [a1, b) does not matter.
// The order of [a, b) [b, c) does not as long as we do not emit empty
// ranges.
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// Attribute range [events[i-1].pos, events[i].pos) to events[top-1].symbol
// .
if (top && !(events[i - 1].pos == events[i].pos))
events[top - 1].symbol->lsRanges.push_back(
{events[i - 1].pos, events[i].pos});
if (events[i].id >= 0)
events[top++] = events[i];
else
deleted[~events[i].id] = 1;
}
CclsSemanticHighlight params;
params.uri = DocumentUri::FromPath(wfile->filename);
// Transform lsRange into pair<int, int> (offset pairs)
if (!g_config->highlight.lsRanges) {
std::vector<std::pair<lsRange, CclsSemanticHighlightSymbol *>> scratch;
for (auto &entry : grouped_symbols) {
for (auto &range : entry.second.lsRanges)
scratch.emplace_back(range, &entry.second);
entry.second.lsRanges.clear();
}
std::sort(scratch.begin(), scratch.end(),
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[](auto &l, auto &r) { return l.first.start < r.first.start; });
const auto &buf = wfile->buffer_content;
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int l = 0, c = 0, i = 0, p = 0;
auto mov = [&](int line, int col) {
if (l < line)
c = 0;
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for (; l < line && i < buf.size(); i++) {
if (buf[i] == '\n')
l++;
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if (uint8_t(buf[i]) < 128 || 192 <= uint8_t(buf[i]))
p++;
}
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if (l < line)
return true;
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for (; c < col && i < buf.size() && buf[i] != '\n'; c++)
if (p++, uint8_t(buf[i++]) >= 128)
// Skip 0b10xxxxxx
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while (i < buf.size() && uint8_t(buf[i]) >= 128 &&
uint8_t(buf[i]) < 192)
i++;
return c < col;
};
for (auto &entry : scratch) {
lsRange &r = entry.first;
if (mov(r.start.line, r.start.character))
continue;
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int beg = p;
if (mov(r.end.line, r.end.character))
continue;
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entry.second->ranges.emplace_back(beg, p);
}
}
for (auto &entry : grouped_symbols)
if (entry.second.ranges.size() || entry.second.lsRanges.size())
params.symbols.push_back(std::move(entry.second));
pipeline::Notify("$ccls/publishSemanticHighlight", params);
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}
} // namespace ccls