llvm-project/clang-tools-extra/clangd/TUScheduler.h

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//===--- TUScheduler.h -------------------------------------------*-C++-*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_CLANG_TOOLS_EXTRA_CLANGD_TUSCHEDULER_H
#define LLVM_CLANG_TOOLS_EXTRA_CLANGD_TUSCHEDULER_H
#include "ASTSignals.h"
#include "Compiler.h"
#include "Diagnostics.h"
#include "GlobalCompilationDatabase.h"
#include "index/CanonicalIncludes.h"
#include "support/Function.h"
#include "support/MemoryTree.h"
#include "support/Path.h"
#include "support/Threading.h"
#include "llvm/ADT/Optional.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/ADT/StringMap.h"
#include "llvm/ADT/StringRef.h"
#include <chrono>
#include <string>
namespace clang {
namespace clangd {
class ParsedAST;
struct PreambleData;
/// Returns a number of a default async threads to use for TUScheduler.
/// Returned value is always >= 1 (i.e. will not cause requests to be processed
/// synchronously).
unsigned getDefaultAsyncThreadsCount();
struct InputsAndAST {
const ParseInputs &Inputs;
ParsedAST &AST;
};
struct InputsAndPreamble {
llvm::StringRef Contents;
const tooling::CompileCommand &Command;
// This can be nullptr if no preamble is available.
const PreambleData *Preamble;
// This can be nullptr if no ASTSignals are available.
const ASTSignals *Signals;
};
/// Determines whether diagnostics should be generated for a file snapshot.
enum class WantDiagnostics {
Yes, /// Diagnostics must be generated for this snapshot.
No, /// Diagnostics must not be generated for this snapshot.
Auto, /// Diagnostics must be generated for this snapshot or a subsequent one,
/// within a bounded amount of time.
};
/// Configuration of the AST retention policy. This only covers retention of
/// *idle* ASTs. If queue has operations requiring the AST, they might be
/// kept in memory.
struct ASTRetentionPolicy {
/// Maximum number of ASTs to be retained in memory when there are no pending
/// requests for them.
unsigned MaxRetainedASTs = 3;
};
/// Clangd may wait after an update to see if another one comes along.
/// This is so we rebuild once the user stops typing, not when they start.
/// Debounce may be disabled/interrupted if we must build this version.
/// The debounce time is responsive to user preferences and rebuild time.
/// In the future, we could also consider different types of edits.
struct DebouncePolicy {
using clock = std::chrono::steady_clock;
/// The minimum time that we always debounce for.
clock::duration Min = /*zero*/ {};
/// The maximum time we may debounce for.
clock::duration Max = /*zero*/ {};
/// Target debounce, as a fraction of file rebuild time.
/// e.g. RebuildRatio = 2, recent builds took 200ms => debounce for 400ms.
float RebuildRatio = 1;
/// Compute the time to debounce based on this policy and recent build times.
clock::duration compute(llvm::ArrayRef<clock::duration> History) const;
/// A policy that always returns the same duration, useful for tests.
static DebouncePolicy fixed(clock::duration);
};
enum class PreambleAction {
Idle,
Building,
};
struct ASTAction {
enum Kind {
Queued, // The action is pending in the thread task queue to be run.
RunningAction, // Started running actions on the TU.
Building, // The AST is being built.
Idle, // Indicates the worker thread is idle, and ready to run any upcoming
// actions.
};
ASTAction() = default;
ASTAction(Kind K, llvm::StringRef Name) : K(K), Name(Name) {}
Kind K = ASTAction::Idle;
/// The name of the action currently running, e.g. Update, GoToDef, Hover.
/// Empty if we are in the idle state.
std::string Name;
};
// Internal status of the TU in TUScheduler.
struct TUStatus {
struct BuildDetails {
/// Indicates whether clang failed to build the TU.
bool BuildFailed = false;
/// Indicates whether we reused the prebuilt AST.
bool ReuseAST = false;
};
/// Serialize this to an LSP file status item.
FileStatus render(PathRef File) const;
PreambleAction PreambleActivity = PreambleAction::Idle;
ASTAction ASTActivity;
/// Stores status of the last build for the translation unit.
BuildDetails Details;
};
class ParsingCallbacks {
public:
virtual ~ParsingCallbacks() = default;
/// Called on the AST that was built for emitting the preamble. The built AST
/// contains only AST nodes from the #include directives at the start of the
/// file. AST node in the current file should be observed on onMainAST call.
virtual void onPreambleAST(PathRef Path, llvm::StringRef Version,
ASTContext &Ctx,
std::shared_ptr<clang::Preprocessor> PP,
const CanonicalIncludes &) {}
/// The argument function is run under the critical section guarding against
/// races when closing the files.
using PublishFn = llvm::function_ref<void(llvm::function_ref<void()>)>;
/// Called on the AST built for the file itself. Note that preamble AST nodes
/// are not deserialized and should be processed in the onPreambleAST call
/// instead.
/// The \p AST always contains all AST nodes for the main file itself, and
/// only a portion of the AST nodes deserialized from the preamble. Note that
/// some nodes from the preamble may have been deserialized and may also be
/// accessed from the main file AST, e.g. redecls of functions from preamble,
/// etc. Clients are expected to process only the AST nodes from the main file
/// in this callback (obtained via ParsedAST::getLocalTopLevelDecls) to obtain
/// optimal performance.
///
/// When information about the file (e.g. diagnostics) is
/// published to clients, this should be wrapped in Publish, e.g.
/// void onMainAST(...) {
/// Diags = renderDiagnostics();
/// Publish([&] { notifyDiagnostics(Path, Diags); });
/// }
/// This guarantees that clients will see results in the correct sequence if
/// the file is concurrently closed and/or reopened. (The lambda passed to
/// Publish() may never run in this case).
virtual void onMainAST(PathRef Path, ParsedAST &AST, PublishFn Publish) {}
/// Called whenever the AST fails to build. \p Diags will have the diagnostics
/// that led to failure.
virtual void onFailedAST(PathRef Path, llvm::StringRef Version,
std::vector<Diag> Diags, PublishFn Publish) {}
/// Called whenever the TU status is updated.
virtual void onFileUpdated(PathRef File, const TUStatus &Status) {}
/// Preamble for the TU have changed. This might imply new semantics (e.g.
/// different highlightings). Any actions on the file are guranteed to see new
/// preamble after the callback.
virtual void onPreamblePublished(PathRef File) {}
};
/// Handles running tasks for ClangdServer and managing the resources (e.g.,
/// preambles and ASTs) for opened files.
/// TUScheduler is not thread-safe, only one thread should be providing updates
/// and scheduling tasks.
/// Callbacks are run on a threadpool and it's appropriate to do slow work in
/// them. Each task has a name, used for tracing (should be UpperCamelCase).
class TUScheduler {
public:
struct Options {
/// Number of concurrent actions.
/// Governs per-file worker threads and threads spawned for other tasks.
/// (This does not prevent threads being spawned, but rather blocks them).
/// If 0, executes actions synchronously on the calling thread.
unsigned AsyncThreadsCount = getDefaultAsyncThreadsCount();
/// Cache (large) preamble data in RAM rather than temporary files on disk.
bool StorePreamblesInMemory = false;
/// Time to wait after an update to see if another one comes along.
/// This tries to ensure we rebuild once the user stops typing.
DebouncePolicy UpdateDebounce;
/// Determines when to keep idle ASTs in memory for future use.
ASTRetentionPolicy RetentionPolicy;
/// Used to create a context that wraps each single operation.
/// Typically to inject per-file configuration.
/// If the path is empty, context sholud be "generic".
std::function<Context(PathRef)> ContextProvider;
};
TUScheduler(const GlobalCompilationDatabase &CDB, const Options &Opts,
std::unique_ptr<ParsingCallbacks> ASTCallbacks = nullptr);
~TUScheduler();
struct FileStats {
std::size_t UsedBytesAST = 0;
std::size_t UsedBytesPreamble = 0;
unsigned PreambleBuilds = 0;
unsigned ASTBuilds = 0;
};
/// Returns resources used for each of the currently open files.
/// Results are inherently racy as they measure activity of other threads.
llvm::StringMap<FileStats> fileStats() const;
/// Returns a list of files with ASTs currently stored in memory. This method
/// is not very reliable and is only used for test. E.g., the results will not
/// contain files that currently run something over their AST.
std::vector<Path> getFilesWithCachedAST() const;
/// Schedule an update for \p File.
/// The compile command in \p Inputs is ignored; worker queries CDB to get
/// the actual compile command.
/// If diagnostics are requested (Yes), and the context is cancelled
/// before they are prepared, they may be skipped if eventual-consistency
/// permits it (i.e. WantDiagnostics is downgraded to Auto).
/// Returns true if the file was not previously tracked.
bool update(PathRef File, ParseInputs Inputs, WantDiagnostics WD);
/// Remove \p File from the list of tracked files and schedule removal of its
/// resources. Pending diagnostics for closed files may not be delivered, even
/// if requested with WantDiags::Auto or WantDiags::Yes.
void remove(PathRef File);
/// Schedule an async task with no dependencies.
/// Path may be empty (it is used only to set the Context).
void run(llvm::StringRef Name, llvm::StringRef Path,
llvm::unique_function<void()> Action);
/// Similar to run, except the task is expected to be quick.
/// This function will not honor AsyncThreadsCount (except
/// if threading is disabled with AsyncThreadsCount=0)
/// It is intended to run quick tasks that need to run ASAP
void runQuick(llvm::StringRef Name, llvm::StringRef Path,
llvm::unique_function<void()> Action);
/// Defines how a runWithAST action is implicitly cancelled by other actions.
enum ASTActionInvalidation {
/// The request will run unless explicitly cancelled.
NoInvalidation,
/// The request will be implicitly cancelled by a subsequent update().
/// (Only if the request was not yet cancelled).
/// Useful for requests that are generated by clients, without any explicit
/// user action. These can otherwise e.g. force every version to be built.
InvalidateOnUpdate,
};
/// Schedule an async read of the AST. \p Action will be called when AST is
/// ready. The AST passed to \p Action refers to the version of \p File
/// tracked at the time of the call, even if new updates are received before
/// \p Action is executed.
/// If an error occurs during processing, it is forwarded to the \p Action
/// callback.
/// If the context is cancelled before the AST is ready, or the invalidation
/// policy is triggered, the callback will receive a CancelledError.
void runWithAST(llvm::StringRef Name, PathRef File,
Callback<InputsAndAST> Action,
ASTActionInvalidation = NoInvalidation);
/// Controls whether preamble reads wait for the preamble to be up-to-date.
enum PreambleConsistency {
/// The preamble may be generated from an older version of the file.
/// Reading from locations in the preamble may cause files to be re-read.
/// This gives callers two options:
/// - validate that the preamble is still valid, and only use it if so
/// - accept that the preamble contents may be outdated, and try to avoid
/// reading source code from headers.
/// This is the fastest option, usually a preamble is available immediately.
Stale,
/// Besides accepting stale preamble, this also allow preamble to be absent
/// (not ready or failed to build).
StaleOrAbsent,
};
/// Schedule an async read of the preamble.
/// If there's no up-to-date preamble, we follow the PreambleConsistency
/// policy.
/// If an error occurs, it is forwarded to the \p Action callback.
/// Context cancellation is ignored and should be handled by the Action.
/// (In practice, the Action is almost always executed immediately).
void runWithPreamble(llvm::StringRef Name, PathRef File,
PreambleConsistency Consistency,
Callback<InputsAndPreamble> Action);
/// Wait until there are no scheduled or running tasks.
/// Mostly useful for synchronizing tests.
bool blockUntilIdle(Deadline D) const;
private:
/// This class stores per-file data in the Files map.
struct FileData;
public:
/// Responsible for retaining and rebuilding idle ASTs. An implementation is
/// an LRU cache.
class ASTCache;
/// Tracks headers included by open files, to get known-good compile commands.
class HeaderIncluderCache;
// The file being built/processed in the current thread. This is a hack in
// order to get the file name into the index implementations. Do not depend on
// this inside clangd.
// FIXME: remove this when there is proper index support via build system
// integration.
// FIXME: move to ClangdServer via createProcessingContext.
static llvm::Optional<llvm::StringRef> getFileBeingProcessedInContext();
void profile(MemoryTree &MT) const;
private:
void runWithSemaphore(llvm::StringRef Name, llvm::StringRef Path,
llvm::unique_function<void()> Action, Semaphore &Sem);
const GlobalCompilationDatabase &CDB;
Options Opts;
std::unique_ptr<ParsingCallbacks> Callbacks; // not nullptr
Semaphore Barrier;
Semaphore QuickRunBarrier;
llvm::StringMap<std::unique_ptr<FileData>> Files;
std::unique_ptr<ASTCache> IdleASTs;
std::unique_ptr<HeaderIncluderCache> HeaderIncluders;
// None when running tasks synchronously and non-None when running tasks
// asynchronously.
llvm::Optional<AsyncTaskRunner> PreambleTasks;
llvm::Optional<AsyncTaskRunner> WorkerThreads;
// Used to create contexts for operations that are not bound to a particular
// file (e.g. index queries).
std::string LastActiveFile;
};
} // namespace clangd
} // namespace clang
#endif