Viewing file:  DiagnosticIDs.h (14.77 KB) -rw-r--r--
Select action/file-type:
 (+) |  (+) |  (+) | Code (+) | Session (+) |  (+) | SDB (+) |  (+) |  (+) |  (+) |  (+) |  (+) |
//===--- DiagnosticIDs.h - Diagnostic IDs Handling --------------*- 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
//
//===----------------------------------------------------------------------===//
///
/// \file
/// Defines the Diagnostic IDs-related interfaces.
///
//===----------------------------------------------------------------------===//
#ifndef LLVM_CLANG_BASIC_DIAGNOSTICIDS_H
#define LLVM_CLANG_BASIC_DIAGNOSTICIDS_H
#include "clang/Basic/LLVM.h"
#include "llvm/ADT/IntrusiveRefCntPtr.h"
#include "llvm/ADT/StringRef.h"
#include <optional>
#include <vector>
namespace clang {
class DiagnosticsEngine;
class SourceLocation;
// Import the diagnostic enums themselves.
namespace diag {
enum class Group;
// Size of each of the diagnostic categories.
enum {
DIAG_SIZE_COMMON = 300,
DIAG_SIZE_DRIVER = 400,
DIAG_SIZE_FRONTEND = 200,
DIAG_SIZE_SERIALIZATION = 120,
DIAG_SIZE_LEX = 400,
DIAG_SIZE_PARSE = 700,
DIAG_SIZE_AST = 300,
DIAG_SIZE_COMMENT = 100,
DIAG_SIZE_CROSSTU = 100,
DIAG_SIZE_SEMA = 4500,
DIAG_SIZE_ANALYSIS = 100,
DIAG_SIZE_REFACTORING = 1000,
DIAG_SIZE_INSTALLAPI = 100,
};
// Start position for diagnostics.
enum {
DIAG_START_COMMON = 0,
DIAG_START_DRIVER = DIAG_START_COMMON + static_cast<int>(DIAG_SIZE_COMMON),
DIAG_START_FRONTEND = DIAG_START_DRIVER + static_cast<int>(DIAG_SIZE_DRIVER),
DIAG_START_SERIALIZATION = DIAG_START_FRONTEND + static_cast<int>(DIAG_SIZE_FRONTEND),
DIAG_START_LEX = DIAG_START_SERIALIZATION + static_cast<int>(DIAG_SIZE_SERIALIZATION),
DIAG_START_PARSE = DIAG_START_LEX + static_cast<int>(DIAG_SIZE_LEX),
DIAG_START_AST = DIAG_START_PARSE + static_cast<int>(DIAG_SIZE_PARSE),
DIAG_START_COMMENT = DIAG_START_AST + static_cast<int>(DIAG_SIZE_AST),
DIAG_START_CROSSTU = DIAG_START_COMMENT + static_cast<int>(DIAG_SIZE_COMMENT),
DIAG_START_SEMA = DIAG_START_CROSSTU + static_cast<int>(DIAG_SIZE_CROSSTU),
DIAG_START_ANALYSIS = DIAG_START_SEMA + static_cast<int>(DIAG_SIZE_SEMA),
DIAG_START_REFACTORING = DIAG_START_ANALYSIS + static_cast<int>(DIAG_SIZE_ANALYSIS),
DIAG_START_INSTALLAPI = DIAG_START_REFACTORING + static_cast<int>(DIAG_SIZE_REFACTORING),
DIAG_UPPER_LIMIT = DIAG_START_INSTALLAPI + static_cast<int>(DIAG_SIZE_INSTALLAPI)
};
class CustomDiagInfo;
/// All of the diagnostics that can be emitted by the frontend.
typedef unsigned kind;
// Get typedefs for common diagnostics.
enum {
#define DIAG(ENUM, FLAGS, DEFAULT_MAPPING, DESC, GROUP, SFINAE, CATEGORY, \
NOWERROR, SHOWINSYSHEADER, SHOWINSYSMACRO, DEFFERABLE) \
ENUM,
#define COMMONSTART
#include "clang/Basic/DiagnosticCommonKinds.inc"
NUM_BUILTIN_COMMON_DIAGNOSTICS
#undef DIAG
};
/// Enum values that allow the client to map NOTEs, WARNINGs, and EXTENSIONs
/// to either Ignore (nothing), Remark (emit a remark), Warning
/// (emit a warning) or Error (emit as an error). It allows clients to
/// map ERRORs to Error or Fatal (stop emitting diagnostics after this one).
enum class Severity {
// NOTE: 0 means "uncomputed".
Ignored = 1, ///< Do not present this diagnostic, ignore it.
Remark = 2, ///< Present this diagnostic as a remark.
Warning = 3, ///< Present this diagnostic as a warning.
Error = 4, ///< Present this diagnostic as an error.
Fatal = 5 ///< Present this diagnostic as a fatal error.
};
/// Flavors of diagnostics we can emit. Used to filter for a particular
/// kind of diagnostic (for instance, for -W/-R flags).
enum class Flavor {
WarningOrError, ///< A diagnostic that indicates a problem or potential
///< problem. Can be made fatal by -Werror.
Remark ///< A diagnostic that indicates normal progress through
///< compilation.
};
}
class DiagnosticMapping {
LLVM_PREFERRED_TYPE(diag::Severity)
unsigned Severity : 3;
LLVM_PREFERRED_TYPE(bool)
unsigned IsUser : 1;
LLVM_PREFERRED_TYPE(bool)
unsigned IsPragma : 1;
LLVM_PREFERRED_TYPE(bool)
unsigned HasNoWarningAsError : 1;
LLVM_PREFERRED_TYPE(bool)
unsigned HasNoErrorAsFatal : 1;
LLVM_PREFERRED_TYPE(bool)
unsigned WasUpgradedFromWarning : 1;
public:
static DiagnosticMapping Make(diag::Severity Severity, bool IsUser,
bool IsPragma) {
DiagnosticMapping Result;
Result.Severity = (unsigned)Severity;
Result.IsUser = IsUser;
Result.IsPragma = IsPragma;
Result.HasNoWarningAsError = 0;
Result.HasNoErrorAsFatal = 0;
Result.WasUpgradedFromWarning = 0;
return Result;
}
diag::Severity getSeverity() const { return (diag::Severity)Severity; }
void setSeverity(diag::Severity Value) { Severity = (unsigned)Value; }
bool isUser() const { return IsUser; }
bool isPragma() const { return IsPragma; }
bool isErrorOrFatal() const {
return getSeverity() == diag::Severity::Error ||
getSeverity() == diag::Severity::Fatal;
}
bool hasNoWarningAsError() const { return HasNoWarningAsError; }
void setNoWarningAsError(bool Value) { HasNoWarningAsError = Value; }
bool hasNoErrorAsFatal() const { return HasNoErrorAsFatal; }
void setNoErrorAsFatal(bool Value) { HasNoErrorAsFatal = Value; }
/// Whether this mapping attempted to map the diagnostic to a warning, but
/// was overruled because the diagnostic was already mapped to an error or
/// fatal error.
bool wasUpgradedFromWarning() const { return WasUpgradedFromWarning; }
void setUpgradedFromWarning(bool Value) { WasUpgradedFromWarning = Value; }
/// Serialize this mapping as a raw integer.
unsigned serialize() const {
return (IsUser << 7) | (IsPragma << 6) | (HasNoWarningAsError << 5) |
(HasNoErrorAsFatal << 4) | (WasUpgradedFromWarning << 3) | Severity;
}
/// Deserialize a mapping.
static DiagnosticMapping deserialize(unsigned Bits) {
DiagnosticMapping Result;
Result.IsUser = (Bits >> 7) & 1;
Result.IsPragma = (Bits >> 6) & 1;
Result.HasNoWarningAsError = (Bits >> 5) & 1;
Result.HasNoErrorAsFatal = (Bits >> 4) & 1;
Result.WasUpgradedFromWarning = (Bits >> 3) & 1;
Result.Severity = Bits & 0x7;
return Result;
}
bool operator==(DiagnosticMapping Other) const {
return serialize() == Other.serialize();
}
};
/// Used for handling and querying diagnostic IDs.
///
/// Can be used and shared by multiple Diagnostics for multiple translation units.
class DiagnosticIDs : public RefCountedBase<DiagnosticIDs> {
public:
/// The level of the diagnostic, after it has been through mapping.
enum Level {
Ignored, Note, Remark, Warning, Error, Fatal
};
private:
/// Information for uniquing and looking up custom diags.
std::unique_ptr<diag::CustomDiagInfo> CustomDiagInfo;
public:
DiagnosticIDs();
~DiagnosticIDs();
/// Return an ID for a diagnostic with the specified format string and
/// level.
///
/// If this is the first request for this diagnostic, it is registered and
/// created, otherwise the existing ID is returned.
// FIXME: Replace this function with a create-only facilty like
// createCustomDiagIDFromFormatString() to enforce safe usage. At the time of
// writing, nearly all callers of this function were invalid.
unsigned getCustomDiagID(Level L, StringRef FormatString);
//===--------------------------------------------------------------------===//
// Diagnostic classification and reporting interfaces.
//
/// Given a diagnostic ID, return a description of the issue.
StringRef getDescription(unsigned DiagID) const;
/// Return true if the unmapped diagnostic levelof the specified
/// diagnostic ID is a Warning or Extension.
///
/// This only works on builtin diagnostics, not custom ones, and is not
/// legal to call on NOTEs.
static bool isBuiltinWarningOrExtension(unsigned DiagID);
/// Return true if the specified diagnostic is mapped to errors by
/// default.
static bool isDefaultMappingAsError(unsigned DiagID);
/// Get the default mapping for this diagnostic.
static DiagnosticMapping getDefaultMapping(unsigned DiagID);
/// Determine whether the given built-in diagnostic ID is a Note.
static bool isBuiltinNote(unsigned DiagID);
/// Determine whether the given built-in diagnostic ID is for an
/// extension of some sort.
static bool isBuiltinExtensionDiag(unsigned DiagID) {
bool ignored;
return isBuiltinExtensionDiag(DiagID, ignored);
}
/// Determine whether the given built-in diagnostic ID is for an
/// extension of some sort, and whether it is enabled by default.
///
/// This also returns EnabledByDefault, which is set to indicate whether the
/// diagnostic is ignored by default (in which case -pedantic enables it) or
/// treated as a warning/error by default.
///
static bool isBuiltinExtensionDiag(unsigned DiagID, bool &EnabledByDefault);
/// Given a group ID, returns the flag that toggles the group.
/// For example, for Group::DeprecatedDeclarations, returns
/// "deprecated-declarations".
static StringRef getWarningOptionForGroup(diag::Group);
/// Given a diagnostic group ID, return its documentation.
static StringRef getWarningOptionDocumentation(diag::Group GroupID);
/// Given a group ID, returns the flag that toggles the group.
/// For example, for "deprecated-declarations", returns
/// Group::DeprecatedDeclarations.
static std::optional<diag::Group> getGroupForWarningOption(StringRef);
/// Return the lowest-level group that contains the specified diagnostic.
static std::optional<diag::Group> getGroupForDiag(unsigned DiagID);
/// Return the lowest-level warning option that enables the specified
/// diagnostic.
///
/// If there is no -Wfoo flag that controls the diagnostic, this returns null.
static StringRef getWarningOptionForDiag(unsigned DiagID);
/// Return the category number that a specified \p DiagID belongs to,
/// or 0 if no category.
static unsigned getCategoryNumberForDiag(unsigned DiagID);
/// Return the number of diagnostic categories.
static unsigned getNumberOfCategories();
/// Given a category ID, return the name of the category.
static StringRef getCategoryNameFromID(unsigned CategoryID);
/// Return true if a given diagnostic falls into an ARC diagnostic
/// category.
static bool isARCDiagnostic(unsigned DiagID);
/// Return true if a given diagnostic is a codegen-time ABI check.
static bool isCodegenABICheckDiagnostic(unsigned DiagID);
/// Enumeration describing how the emission of a diagnostic should
/// be treated when it occurs during C++ template argument deduction.
enum SFINAEResponse {
/// The diagnostic should not be reported, but it should cause
/// template argument deduction to fail.
///
/// The vast majority of errors that occur during template argument
/// deduction fall into this category.
SFINAE_SubstitutionFailure,
/// The diagnostic should be suppressed entirely.
///
/// Warnings generally fall into this category.
SFINAE_Suppress,
/// The diagnostic should be reported.
///
/// The diagnostic should be reported. Various fatal errors (e.g.,
/// template instantiation depth exceeded) fall into this category.
SFINAE_Report,
/// The diagnostic is an access-control diagnostic, which will be
/// substitution failures in some contexts and reported in others.
SFINAE_AccessControl
};
/// Determines whether the given built-in diagnostic ID is
/// for an error that is suppressed if it occurs during C++ template
/// argument deduction.
///
/// When an error is suppressed due to SFINAE, the template argument
/// deduction fails but no diagnostic is emitted. Certain classes of
/// errors, such as those errors that involve C++ access control,
/// are not SFINAE errors.
static SFINAEResponse getDiagnosticSFINAEResponse(unsigned DiagID);
/// Whether the diagnostic message can be deferred.
///
/// For single source offloading languages, a diagnostic message occurred
/// in a device host function may be deferred until the function is sure
/// to be emitted.
static bool isDeferrable(unsigned DiagID);
/// Get the string of all diagnostic flags.
///
/// \returns A list of all diagnostics flags as they would be written in a
/// command line invocation including their `no-` variants. For example:
/// `{"-Wempty-body", "-Wno-empty-body", ...}`
static std::vector<std::string> getDiagnosticFlags();
/// Get the set of all diagnostic IDs in the group with the given name.
///
/// \param[out] Diags - On return, the diagnostics in the group.
/// \returns \c true if the given group is unknown, \c false otherwise.
bool getDiagnosticsInGroup(diag::Flavor Flavor, StringRef Group,
SmallVectorImpl<diag::kind> &Diags) const;
/// Get the set of all diagnostic IDs.
static void getAllDiagnostics(diag::Flavor Flavor,
std::vector<diag::kind> &Diags);
/// Get the diagnostic option with the closest edit distance to the
/// given group name.
static StringRef getNearestOption(diag::Flavor Flavor, StringRef Group);
private:
/// Classify the specified diagnostic ID into a Level, consumable by
/// the DiagnosticClient.
///
/// The classification is based on the way the client configured the
/// DiagnosticsEngine object.
///
/// \param Loc The source location for which we are interested in finding out
/// the diagnostic state. Can be null in order to query the latest state.
DiagnosticIDs::Level
getDiagnosticLevel(unsigned DiagID, SourceLocation Loc,
const DiagnosticsEngine &Diag) const LLVM_READONLY;
diag::Severity
getDiagnosticSeverity(unsigned DiagID, SourceLocation Loc,
const DiagnosticsEngine &Diag) const LLVM_READONLY;
/// Used to report a diagnostic that is finally fully formed.
///
/// \returns \c true if the diagnostic was emitted, \c false if it was
/// suppressed.
bool ProcessDiag(DiagnosticsEngine &Diag) const;
/// Used to emit a diagnostic that is finally fully formed,
/// ignoring suppression.
void EmitDiag(DiagnosticsEngine &Diag, Level DiagLevel) const;
/// Whether the diagnostic may leave the AST in a state where some
/// invariants can break.
bool isUnrecoverable(unsigned DiagID) const;
friend class DiagnosticsEngine;
};
} // end namespace clang
#endif
|