llvm-6502/include/llvm/IR/DiagnosticInfo.h
Alex Lorenz a15d888abf MIR Serialization: Connect the machine function analysis pass to the MIR parser.
This commit connects the machine function analysis pass (which creates machine
functions) to the MIR parser, which will initialize the machine functions 
with the state from the MIR file and reconstruct the machine IR.

This commit introduces a new interface called 'MachineFunctionInitializer',
which can be used to provide custom initialization for the machine functions.

This commit also introduces a new diagnostic class called 
'DiagnosticInfoMIRParser' which is used for MIR parsing errors.
This commit modifies the default diagnostic handling in LLVMContext - now the
the diagnostics are printed directly into llvm::errs() so that the MIR parsing 
errors can be printed with colours.  

Reviewers: Justin Bogner

Differential Revision: http://reviews.llvm.org/D9928


git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@239753 91177308-0d34-0410-b5e6-96231b3b80d8
2015-06-15 20:30:22 +00:00

479 lines
19 KiB
C++

//===- llvm/Support/DiagnosticInfo.h - Diagnostic Declaration ---*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file declares the different classes involved in low level diagnostics.
//
// Diagnostics reporting is still done as part of the LLVMContext.
//===----------------------------------------------------------------------===//
#ifndef LLVM_IR_DIAGNOSTICINFO_H
#define LLVM_IR_DIAGNOSTICINFO_H
#include "llvm-c/Core.h"
#include "llvm/ADT/ArrayRef.h"
#include "llvm/IR/DebugLoc.h"
#include "llvm/IR/Module.h"
#include "llvm/Support/Casting.h"
#include <functional>
namespace llvm {
// Forward declarations.
class DiagnosticPrinter;
class Function;
class Instruction;
class LLVMContextImpl;
class Twine;
class Value;
class DebugLoc;
class SMDiagnostic;
/// \brief Defines the different supported severity of a diagnostic.
enum DiagnosticSeverity {
DS_Error,
DS_Warning,
DS_Remark,
// A note attaches additional information to one of the previous diagnostic
// types.
DS_Note
};
/// \brief Defines the different supported kind of a diagnostic.
/// This enum should be extended with a new ID for each added concrete subclass.
enum DiagnosticKind {
DK_Bitcode,
DK_InlineAsm,
DK_StackSize,
DK_Linker,
DK_DebugMetadataVersion,
DK_SampleProfile,
DK_OptimizationRemark,
DK_OptimizationRemarkMissed,
DK_OptimizationRemarkAnalysis,
DK_OptimizationFailure,
DK_MIRParser,
DK_FirstPluginKind
};
/// \brief Get the next available kind ID for a plugin diagnostic.
/// Each time this function is called, it returns a different number.
/// Therefore, a plugin that wants to "identify" its own classes
/// with a dynamic identifier, just have to use this method to get a new ID
/// and assign it to each of its classes.
/// The returned ID will be greater than or equal to DK_FirstPluginKind.
/// Thus, the plugin identifiers will not conflict with the
/// DiagnosticKind values.
int getNextAvailablePluginDiagnosticKind();
/// \brief This is the base abstract class for diagnostic reporting in
/// the backend.
/// The print method must be overloaded by the subclasses to print a
/// user-friendly message in the client of the backend (let us call it a
/// frontend).
class DiagnosticInfo {
private:
/// Kind defines the kind of report this is about.
const /* DiagnosticKind */ int Kind;
/// Severity gives the severity of the diagnostic.
const DiagnosticSeverity Severity;
public:
DiagnosticInfo(/* DiagnosticKind */ int Kind, DiagnosticSeverity Severity)
: Kind(Kind), Severity(Severity) {}
virtual ~DiagnosticInfo() {}
/* DiagnosticKind */ int getKind() const { return Kind; }
DiagnosticSeverity getSeverity() const { return Severity; }
/// Print using the given \p DP a user-friendly message.
/// This is the default message that will be printed to the user.
/// It is used when the frontend does not directly take advantage
/// of the information contained in fields of the subclasses.
/// The printed message must not end with '.' nor start with a severity
/// keyword.
virtual void print(DiagnosticPrinter &DP) const = 0;
};
typedef std::function<void(const DiagnosticInfo &)> DiagnosticHandlerFunction;
/// Diagnostic information for inline asm reporting.
/// This is basically a message and an optional location.
class DiagnosticInfoInlineAsm : public DiagnosticInfo {
private:
/// Optional line information. 0 if not set.
unsigned LocCookie;
/// Message to be reported.
const Twine &MsgStr;
/// Optional origin of the problem.
const Instruction *Instr;
public:
/// \p MsgStr is the message to be reported to the frontend.
/// This class does not copy \p MsgStr, therefore the reference must be valid
/// for the whole life time of the Diagnostic.
DiagnosticInfoInlineAsm(const Twine &MsgStr,
DiagnosticSeverity Severity = DS_Error)
: DiagnosticInfo(DK_InlineAsm, Severity), LocCookie(0), MsgStr(MsgStr),
Instr(nullptr) {}
/// \p LocCookie if non-zero gives the line number for this report.
/// \p MsgStr gives the message.
/// This class does not copy \p MsgStr, therefore the reference must be valid
/// for the whole life time of the Diagnostic.
DiagnosticInfoInlineAsm(unsigned LocCookie, const Twine &MsgStr,
DiagnosticSeverity Severity = DS_Error)
: DiagnosticInfo(DK_InlineAsm, Severity), LocCookie(LocCookie),
MsgStr(MsgStr), Instr(nullptr) {}
/// \p Instr gives the original instruction that triggered the diagnostic.
/// \p MsgStr gives the message.
/// This class does not copy \p MsgStr, therefore the reference must be valid
/// for the whole life time of the Diagnostic.
/// Same for \p I.
DiagnosticInfoInlineAsm(const Instruction &I, const Twine &MsgStr,
DiagnosticSeverity Severity = DS_Error);
unsigned getLocCookie() const { return LocCookie; }
const Twine &getMsgStr() const { return MsgStr; }
const Instruction *getInstruction() const { return Instr; }
/// \see DiagnosticInfo::print.
void print(DiagnosticPrinter &DP) const override;
static bool classof(const DiagnosticInfo *DI) {
return DI->getKind() == DK_InlineAsm;
}
};
/// Diagnostic information for stack size reporting.
/// This is basically a function and a size.
class DiagnosticInfoStackSize : public DiagnosticInfo {
private:
/// The function that is concerned by this stack size diagnostic.
const Function &Fn;
/// The computed stack size.
unsigned StackSize;
public:
/// \p The function that is concerned by this stack size diagnostic.
/// \p The computed stack size.
DiagnosticInfoStackSize(const Function &Fn, unsigned StackSize,
DiagnosticSeverity Severity = DS_Warning)
: DiagnosticInfo(DK_StackSize, Severity), Fn(Fn), StackSize(StackSize) {}
const Function &getFunction() const { return Fn; }
unsigned getStackSize() const { return StackSize; }
/// \see DiagnosticInfo::print.
void print(DiagnosticPrinter &DP) const override;
static bool classof(const DiagnosticInfo *DI) {
return DI->getKind() == DK_StackSize;
}
};
/// Diagnostic information for debug metadata version reporting.
/// This is basically a module and a version.
class DiagnosticInfoDebugMetadataVersion : public DiagnosticInfo {
private:
/// The module that is concerned by this debug metadata version diagnostic.
const Module &M;
/// The actual metadata version.
unsigned MetadataVersion;
public:
/// \p The module that is concerned by this debug metadata version diagnostic.
/// \p The actual metadata version.
DiagnosticInfoDebugMetadataVersion(const Module &M, unsigned MetadataVersion,
DiagnosticSeverity Severity = DS_Warning)
: DiagnosticInfo(DK_DebugMetadataVersion, Severity), M(M),
MetadataVersion(MetadataVersion) {}
const Module &getModule() const { return M; }
unsigned getMetadataVersion() const { return MetadataVersion; }
/// \see DiagnosticInfo::print.
void print(DiagnosticPrinter &DP) const override;
static bool classof(const DiagnosticInfo *DI) {
return DI->getKind() == DK_DebugMetadataVersion;
}
};
/// Diagnostic information for the sample profiler.
class DiagnosticInfoSampleProfile : public DiagnosticInfo {
public:
DiagnosticInfoSampleProfile(const char *FileName, unsigned LineNum,
const Twine &Msg,
DiagnosticSeverity Severity = DS_Error)
: DiagnosticInfo(DK_SampleProfile, Severity), FileName(FileName),
LineNum(LineNum), Msg(Msg) {}
DiagnosticInfoSampleProfile(const char *FileName, const Twine &Msg,
DiagnosticSeverity Severity = DS_Error)
: DiagnosticInfo(DK_SampleProfile, Severity), FileName(FileName),
LineNum(0), Msg(Msg) {}
DiagnosticInfoSampleProfile(const Twine &Msg,
DiagnosticSeverity Severity = DS_Error)
: DiagnosticInfo(DK_SampleProfile, Severity), FileName(nullptr),
LineNum(0), Msg(Msg) {}
/// \see DiagnosticInfo::print.
void print(DiagnosticPrinter &DP) const override;
static bool classof(const DiagnosticInfo *DI) {
return DI->getKind() == DK_SampleProfile;
}
const char *getFileName() const { return FileName; }
unsigned getLineNum() const { return LineNum; }
const Twine &getMsg() const { return Msg; }
private:
/// Name of the input file associated with this diagnostic.
const char *FileName;
/// Line number where the diagnostic occurred. If 0, no line number will
/// be emitted in the message.
unsigned LineNum;
/// Message to report.
const Twine &Msg;
};
/// Common features for diagnostics dealing with optimization remarks.
class DiagnosticInfoOptimizationBase : public DiagnosticInfo {
public:
/// \p PassName is the name of the pass emitting this diagnostic.
/// \p Fn is the function where the diagnostic is being emitted. \p DLoc is
/// the location information to use in the diagnostic. If line table
/// information is available, the diagnostic will include the source code
/// location. \p Msg is the message to show. Note that this class does not
/// copy this message, so this reference must be valid for the whole life time
/// of the diagnostic.
DiagnosticInfoOptimizationBase(enum DiagnosticKind Kind,
enum DiagnosticSeverity Severity,
const char *PassName, const Function &Fn,
const DebugLoc &DLoc, const Twine &Msg)
: DiagnosticInfo(Kind, Severity), PassName(PassName), Fn(Fn), DLoc(DLoc),
Msg(Msg) {}
/// \see DiagnosticInfo::print.
void print(DiagnosticPrinter &DP) const override;
static bool classof(const DiagnosticInfo *DI) {
return DI->getKind() == DK_OptimizationRemark;
}
/// Return true if this optimization remark is enabled by one of
/// of the LLVM command line flags (-pass-remarks, -pass-remarks-missed,
/// or -pass-remarks-analysis). Note that this only handles the LLVM
/// flags. We cannot access Clang flags from here (they are handled
/// in BackendConsumer::OptimizationRemarkHandler).
virtual bool isEnabled() const = 0;
/// Return true if location information is available for this diagnostic.
bool isLocationAvailable() const;
/// Return a string with the location information for this diagnostic
/// in the format "file:line:col". If location information is not available,
/// it returns "<unknown>:0:0".
const std::string getLocationStr() const;
/// Return location information for this diagnostic in three parts:
/// the source file name, line number and column.
void getLocation(StringRef *Filename, unsigned *Line, unsigned *Column) const;
const char *getPassName() const { return PassName; }
const Function &getFunction() const { return Fn; }
const DebugLoc &getDebugLoc() const { return DLoc; }
const Twine &getMsg() const { return Msg; }
private:
/// Name of the pass that triggers this report. If this matches the
/// regular expression given in -Rpass=regexp, then the remark will
/// be emitted.
const char *PassName;
/// Function where this diagnostic is triggered.
const Function &Fn;
/// Debug location where this diagnostic is triggered.
DebugLoc DLoc;
/// Message to report.
const Twine &Msg;
};
/// Diagnostic information for applied optimization remarks.
class DiagnosticInfoOptimizationRemark : public DiagnosticInfoOptimizationBase {
public:
/// \p PassName is the name of the pass emitting this diagnostic. If
/// this name matches the regular expression given in -Rpass=, then the
/// diagnostic will be emitted. \p Fn is the function where the diagnostic
/// is being emitted. \p DLoc is the location information to use in the
/// diagnostic. If line table information is available, the diagnostic
/// will include the source code location. \p Msg is the message to show.
/// Note that this class does not copy this message, so this reference
/// must be valid for the whole life time of the diagnostic.
DiagnosticInfoOptimizationRemark(const char *PassName, const Function &Fn,
const DebugLoc &DLoc, const Twine &Msg)
: DiagnosticInfoOptimizationBase(DK_OptimizationRemark, DS_Remark,
PassName, Fn, DLoc, Msg) {}
static bool classof(const DiagnosticInfo *DI) {
return DI->getKind() == DK_OptimizationRemark;
}
/// \see DiagnosticInfoOptimizationBase::isEnabled.
bool isEnabled() const override;
};
/// Diagnostic information for missed-optimization remarks.
class DiagnosticInfoOptimizationRemarkMissed
: public DiagnosticInfoOptimizationBase {
public:
/// \p PassName is the name of the pass emitting this diagnostic. If
/// this name matches the regular expression given in -Rpass-missed=, then the
/// diagnostic will be emitted. \p Fn is the function where the diagnostic
/// is being emitted. \p DLoc is the location information to use in the
/// diagnostic. If line table information is available, the diagnostic
/// will include the source code location. \p Msg is the message to show.
/// Note that this class does not copy this message, so this reference
/// must be valid for the whole life time of the diagnostic.
DiagnosticInfoOptimizationRemarkMissed(const char *PassName,
const Function &Fn,
const DebugLoc &DLoc, const Twine &Msg)
: DiagnosticInfoOptimizationBase(DK_OptimizationRemarkMissed, DS_Remark,
PassName, Fn, DLoc, Msg) {}
static bool classof(const DiagnosticInfo *DI) {
return DI->getKind() == DK_OptimizationRemarkMissed;
}
/// \see DiagnosticInfoOptimizationBase::isEnabled.
bool isEnabled() const override;
};
/// Diagnostic information for optimization analysis remarks.
class DiagnosticInfoOptimizationRemarkAnalysis
: public DiagnosticInfoOptimizationBase {
public:
/// \p PassName is the name of the pass emitting this diagnostic. If
/// this name matches the regular expression given in -Rpass-analysis=, then
/// the diagnostic will be emitted. \p Fn is the function where the diagnostic
/// is being emitted. \p DLoc is the location information to use in the
/// diagnostic. If line table information is available, the diagnostic will
/// include the source code location. \p Msg is the message to show. Note that
/// this class does not copy this message, so this reference must be valid for
/// the whole life time of the diagnostic.
DiagnosticInfoOptimizationRemarkAnalysis(const char *PassName,
const Function &Fn,
const DebugLoc &DLoc,
const Twine &Msg)
: DiagnosticInfoOptimizationBase(DK_OptimizationRemarkAnalysis, DS_Remark,
PassName, Fn, DLoc, Msg) {}
static bool classof(const DiagnosticInfo *DI) {
return DI->getKind() == DK_OptimizationRemarkAnalysis;
}
/// \see DiagnosticInfoOptimizationBase::isEnabled.
bool isEnabled() const override;
};
/// Diagnostic information for machine IR parser.
class DiagnosticInfoMIRParser : public DiagnosticInfo {
const SMDiagnostic &Diagnostic;
public:
DiagnosticInfoMIRParser(DiagnosticSeverity Severity,
const SMDiagnostic &Diagnostic)
: DiagnosticInfo(DK_MIRParser, Severity), Diagnostic(Diagnostic) {}
const SMDiagnostic &getDiagnostic() const { return Diagnostic; }
void print(DiagnosticPrinter &DP) const override;
static bool classof(const DiagnosticInfo *DI) {
return DI->getKind() == DK_MIRParser;
}
};
// Create wrappers for C Binding types (see CBindingWrapping.h).
DEFINE_SIMPLE_CONVERSION_FUNCTIONS(DiagnosticInfo, LLVMDiagnosticInfoRef)
/// Emit an optimization-applied message. \p PassName is the name of the pass
/// emitting the message. If -Rpass= is given and \p PassName matches the
/// regular expression in -Rpass, then the remark will be emitted. \p Fn is
/// the function triggering the remark, \p DLoc is the debug location where
/// the diagnostic is generated. \p Msg is the message string to use.
void emitOptimizationRemark(LLVMContext &Ctx, const char *PassName,
const Function &Fn, const DebugLoc &DLoc,
const Twine &Msg);
/// Emit an optimization-missed message. \p PassName is the name of the
/// pass emitting the message. If -Rpass-missed= is given and \p PassName
/// matches the regular expression in -Rpass, then the remark will be
/// emitted. \p Fn is the function triggering the remark, \p DLoc is the
/// debug location where the diagnostic is generated. \p Msg is the
/// message string to use.
void emitOptimizationRemarkMissed(LLVMContext &Ctx, const char *PassName,
const Function &Fn, const DebugLoc &DLoc,
const Twine &Msg);
/// Emit an optimization analysis remark message. \p PassName is the name of
/// the pass emitting the message. If -Rpass-analysis= is given and \p
/// PassName matches the regular expression in -Rpass, then the remark will be
/// emitted. \p Fn is the function triggering the remark, \p DLoc is the debug
/// location where the diagnostic is generated. \p Msg is the message string
/// to use.
void emitOptimizationRemarkAnalysis(LLVMContext &Ctx, const char *PassName,
const Function &Fn, const DebugLoc &DLoc,
const Twine &Msg);
/// Diagnostic information for optimization failures.
class DiagnosticInfoOptimizationFailure
: public DiagnosticInfoOptimizationBase {
public:
/// \p Fn is the function where the diagnostic is being emitted. \p DLoc is
/// the location information to use in the diagnostic. If line table
/// information is available, the diagnostic will include the source code
/// location. \p Msg is the message to show. Note that this class does not
/// copy this message, so this reference must be valid for the whole life time
/// of the diagnostic.
DiagnosticInfoOptimizationFailure(const Function &Fn, const DebugLoc &DLoc,
const Twine &Msg)
: DiagnosticInfoOptimizationBase(DK_OptimizationFailure, DS_Warning,
nullptr, Fn, DLoc, Msg) {}
static bool classof(const DiagnosticInfo *DI) {
return DI->getKind() == DK_OptimizationFailure;
}
/// \see DiagnosticInfoOptimizationBase::isEnabled.
bool isEnabled() const override;
};
/// Emit a warning when loop vectorization is specified but fails. \p Fn is the
/// function triggering the warning, \p DLoc is the debug location where the
/// diagnostic is generated. \p Msg is the message string to use.
void emitLoopVectorizeWarning(LLVMContext &Ctx, const Function &Fn,
const DebugLoc &DLoc, const Twine &Msg);
/// Emit a warning when loop interleaving is specified but fails. \p Fn is the
/// function triggering the warning, \p DLoc is the debug location where the
/// diagnostic is generated. \p Msg is the message string to use.
void emitLoopInterleaveWarning(LLVMContext &Ctx, const Function &Fn,
const DebugLoc &DLoc, const Twine &Msg);
} // End namespace llvm
#endif