src/third_party/llvm-project/lldb/include/lldb/lldb-private-enumerations.h - cobalt - Git at Google

 //===-- lldb-private-enumerations.h -----------------------------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLDB_lldb_private_enumerations_h_
 #define LLDB_lldb_private_enumerations_h_

 #include "llvm/ADT/StringRef.h"
 #include "llvm/Support/FormatProviders.h"
 #include "llvm/Support/raw_ostream.h"

 namespace lldb_private {

 //----------------------------------------------------------------------
 // Thread Step Types
 //----------------------------------------------------------------------
 typedef enum StepType {
   eStepTypeNone,
   eStepTypeTrace,     ///< Single step one instruction.
   eStepTypeTraceOver, ///< Single step one instruction, stepping over.
   eStepTypeInto,      ///< Single step into a specified context.
   eStepTypeOver,      ///< Single step over a specified context.
   eStepTypeOut,       ///< Single step out a specified context.
   eStepTypeScripted   ///< A step type implemented by the script interpreter.
 } StepType;

 //----------------------------------------------------------------------
 // Address Types
 //----------------------------------------------------------------------
 typedef enum AddressType {
   eAddressTypeInvalid = 0,
   eAddressTypeFile, ///< Address is an address as found in an object or symbol
                     ///file
   eAddressTypeLoad, ///< Address is an address as in the current target inferior
                     ///process
   eAddressTypeHost  ///< Address is an address in the process that is running
                     ///this code
 } AddressType;

 //----------------------------------------------------------------------
 // Address Class
 //
 // A way of classifying an address used for disassembling and setting
 // breakpoints. Many object files can track exactly what parts of their object
 // files are code, data and other information. This is of course above and
 // beyond just looking at the section types. For example, code might contain PC
 // relative data and the object file might be able to tell us that an address
 // in code is data.
 //----------------------------------------------------------------------
 enum class AddressClass {
   eInvalid,
   eUnknown,
   eCode,
   eCodeAlternateISA,
   eData,
   eDebug,
   eRuntime
 };

 //----------------------------------------------------------------------
 // Votes - Need a tri-state, yes, no, no opinion...
 //----------------------------------------------------------------------
 typedef enum Vote { eVoteNo = -1, eVoteNoOpinion = 0, eVoteYes = 1 } Vote;

 typedef enum ArchitectureType {
   eArchTypeInvalid,
   eArchTypeMachO,
   eArchTypeELF,
   eArchTypeCOFF,
   kNumArchTypes
 } ArchitectureType;

 //----------------------------------------------------------------------
 /// Settable state variable types.
 ///
 //----------------------------------------------------------------------

 // typedef enum SettableVariableType
 //{
 //    eSetVarTypeInt,
 //    eSetVarTypeBoolean,
 //    eSetVarTypeString,
 //    eSetVarTypeArray,
 //    eSetVarTypeDictionary,
 //    eSetVarTypeEnum,
 //    eSetVarTypeNone
 //} SettableVariableType;

 typedef enum VarSetOperationType {
   eVarSetOperationReplace,
   eVarSetOperationInsertBefore,
   eVarSetOperationInsertAfter,
   eVarSetOperationRemove,
   eVarSetOperationAppend,
   eVarSetOperationClear,
   eVarSetOperationAssign,
   eVarSetOperationInvalid
 } VarSetOperationType;

 typedef enum ArgumentRepetitionType {
   eArgRepeatPlain,        // Exactly one occurrence
   eArgRepeatOptional,     // At most one occurrence, but it's optional
   eArgRepeatPlus,         // One or more occurrences
   eArgRepeatStar,         // Zero or more occurrences
   eArgRepeatRange,        // Repetition of same argument, from 1 to n
   eArgRepeatPairPlain,    // A pair of arguments that must always go together
                           // ([arg-type arg-value]), occurs exactly once
   eArgRepeatPairOptional, // A pair that occurs at most once (optional)
   eArgRepeatPairPlus,     // One or more occurrences of a pair
   eArgRepeatPairStar,     // Zero or more occurrences of a pair
   eArgRepeatPairRange,    // A pair that repeats from 1 to n
   eArgRepeatPairRangeOptional // A pair that repeats from 1 to n, but is
                               // optional
 } ArgumentRepetitionType;

 typedef enum SortOrder {
   eSortOrderNone,
   eSortOrderByAddress,
   eSortOrderByName
 } SortOrder;

 //----------------------------------------------------------------------
 // LazyBool is for boolean values that need to be calculated lazily. Values
 // start off set to eLazyBoolCalculate, and then they can be calculated once
 // and set to eLazyBoolNo or eLazyBoolYes.
 //----------------------------------------------------------------------
 typedef enum LazyBool {
   eLazyBoolCalculate = -1,
   eLazyBoolNo = 0,
   eLazyBoolYes = 1
 } LazyBool;

 //------------------------------------------------------------------
 /// Instruction types
 //------------------------------------------------------------------
 typedef enum InstructionType {
   eInstructionTypeAny, // Support for any instructions at all (at least one)
   eInstructionTypePrologueEpilogue, // All prologue and epilogue instructions
                                     // that push and pop register values and
                                     // modify sp/fp
   eInstructionTypePCModifying,      // Any instruction that modifies the program
                                     // counter/instruction pointer
   eInstructionTypeAll               // All instructions of any kind

 } InstructionType;

 //------------------------------------------------------------------
 /// Format category entry types
 //------------------------------------------------------------------
 typedef enum FormatCategoryItem {
   eFormatCategoryItemSummary = 0x0001,
   eFormatCategoryItemRegexSummary = 0x0002,
   eFormatCategoryItemFilter = 0x0004,
   eFormatCategoryItemRegexFilter = 0x0008,
   eFormatCategoryItemSynth = 0x0010,
   eFormatCategoryItemRegexSynth = 0x0020,
   eFormatCategoryItemValue = 0x0040,
   eFormatCategoryItemRegexValue = 0x0080,
   eFormatCategoryItemValidator = 0x0100,
   eFormatCategoryItemRegexValidator = 0x0200
 } FormatCategoryItem;

 //------------------------------------------------------------------
 /// Expression execution policies
 //------------------------------------------------------------------
 typedef enum {
   eExecutionPolicyOnlyWhenNeeded,
   eExecutionPolicyNever,
   eExecutionPolicyAlways,
   eExecutionPolicyTopLevel // used for top-level code
 } ExecutionPolicy;

 //----------------------------------------------------------------------
 // Ways that the FormatManager picks a particular format for a type
 //----------------------------------------------------------------------
 typedef enum FormatterChoiceCriterion {
   eFormatterChoiceCriterionDirectChoice = 0x00000000,
   eFormatterChoiceCriterionStrippedPointerReference = 0x00000001,
   eFormatterChoiceCriterionNavigatedTypedefs = 0x00000002,
   eFormatterChoiceCriterionRegularExpressionSummary = 0x00000004,
   eFormatterChoiceCriterionRegularExpressionFilter = 0x00000004,
   eFormatterChoiceCriterionLanguagePlugin = 0x00000008,
   eFormatterChoiceCriterionStrippedBitField = 0x00000010,
   eFormatterChoiceCriterionWentToStaticValue = 0x00000020
 } FormatterChoiceCriterion;

 //----------------------------------------------------------------------
 // Synchronicity behavior of scripted commands
 //----------------------------------------------------------------------
 typedef enum ScriptedCommandSynchronicity {
   eScriptedCommandSynchronicitySynchronous,
   eScriptedCommandSynchronicityAsynchronous,
   eScriptedCommandSynchronicityCurrentValue // use whatever the current
                                             // synchronicity is
 } ScriptedCommandSynchronicity;

 //----------------------------------------------------------------------
 // Verbosity mode of "po" output
 //----------------------------------------------------------------------
 typedef enum LanguageRuntimeDescriptionDisplayVerbosity {
   eLanguageRuntimeDescriptionDisplayVerbosityCompact, // only print the
                                                       // description string, if
                                                       // any
   eLanguageRuntimeDescriptionDisplayVerbosityFull,    // print the full-blown
                                                       // output
 } LanguageRuntimeDescriptionDisplayVerbosity;

 //----------------------------------------------------------------------
 // Loading modules from memory
 //----------------------------------------------------------------------
 typedef enum MemoryModuleLoadLevel {
   eMemoryModuleLoadLevelMinimal,  // Load sections only
   eMemoryModuleLoadLevelPartial,  // Load function bounds but no symbols
   eMemoryModuleLoadLevelComplete, // Load sections and all symbols
 } MemoryModuleLoadLevel;

 //----------------------------------------------------------------------
 // Result enums for when reading multiple lines from IOHandlers
 //----------------------------------------------------------------------
 enum class LineStatus {
   Success, // The line that was just edited if good and should be added to the
            // lines
   Status,  // There is an error with the current line and it needs to be
            // re-edited
            // before it can be accepted
   Done     // Lines are complete
 };

 //----------------------------------------------------------------------
 // Boolean result of running a Type Validator
 //----------------------------------------------------------------------
 enum class TypeValidatorResult : bool { Success = true, Failure = false };

 //----------------------------------------------------------------------
 // Enumerations that can be used to specify scopes types when looking up types.
 //----------------------------------------------------------------------
 enum class CompilerContextKind {
   Invalid = 0,
   TranslationUnit,
   Module,
   Namespace,
   Class,
   Structure,
   Union,
   Function,
   Variable,
   Enumeration,
   Typedef
 };

 //----------------------------------------------------------------------
 // Enumerations that can be used to specify the kind of metric we're looking at
 // when collecting stats.
 //----------------------------------------------------------------------
 enum StatisticKind {
   ExpressionSuccessful = 0,
   ExpressionFailure = 1,
   FrameVarSuccess = 2,
   FrameVarFailure = 3,
   StatisticMax = 4
 };


 inline std::string GetStatDescription(lldb_private::StatisticKind K) {
    switch (K) {
    case StatisticKind::ExpressionSuccessful:
      return "Number of expr evaluation successes";
    case StatisticKind::ExpressionFailure:
      return "Number of expr evaluation failures";
    case StatisticKind::FrameVarSuccess:
      return "Number of frame var successes";
    case StatisticKind::FrameVarFailure:
      return "Number of frame var failures";
    case StatisticKind::StatisticMax:
      return "";
    }
    llvm_unreachable("Statistic not registered!");
 }

 } // namespace lldb_private

 namespace llvm {
 template <> struct format_provider<lldb_private::Vote> {
   static void format(const lldb_private::Vote &V, llvm::raw_ostream &Stream,
                      StringRef Style) {
     switch (V) {
     case lldb_private::eVoteNo:
       Stream << "no";
       return;
     case lldb_private::eVoteNoOpinion:
       Stream << "no opinion";
       return;
     case lldb_private::eVoteYes:
       Stream << "yes";
       return;
     }
     Stream << "invalid";
   }
 };
 }

 #endif // LLDB_lldb_private_enumerations_h_
	//===-- lldb-private-enumerations.h ------------------------------ C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLDB_lldb_private_enumerations_h_
	#define LLDB_lldb_private_enumerations_h_

	#include "llvm/ADT/StringRef.h"
	#include "llvm/Support/FormatProviders.h"
	#include "llvm/Support/raw_ostream.h"

	namespace lldb_private {

	//----------------------------------------------------------------------
	// Thread Step Types
	//----------------------------------------------------------------------
	typedef enum StepType {
	eStepTypeNone,
	eStepTypeTrace, ///< Single step one instruction.
	eStepTypeTraceOver, ///< Single step one instruction, stepping over.
	eStepTypeInto, ///< Single step into a specified context.
	eStepTypeOver, ///< Single step over a specified context.
	eStepTypeOut, ///< Single step out a specified context.
	eStepTypeScripted ///< A step type implemented by the script interpreter.
	} StepType;

	//----------------------------------------------------------------------
	// Address Types
	//----------------------------------------------------------------------
	typedef enum AddressType {
	eAddressTypeInvalid = 0,
	eAddressTypeFile, ///< Address is an address as found in an object or symbol
	///file
	eAddressTypeLoad, ///< Address is an address as in the current target inferior
	///process
	eAddressTypeHost ///< Address is an address in the process that is running
	///this code
	} AddressType;

	//----------------------------------------------------------------------
	// Address Class
	//
	// A way of classifying an address used for disassembling and setting
	// breakpoints. Many object files can track exactly what parts of their object
	// files are code, data and other information. This is of course above and
	// beyond just looking at the section types. For example, code might contain PC
	// relative data and the object file might be able to tell us that an address
	// in code is data.
	//----------------------------------------------------------------------
	enum class AddressClass {
	eInvalid,
	eUnknown,
	eCode,
	eCodeAlternateISA,
	eData,
	eDebug,
	eRuntime
	};

	//----------------------------------------------------------------------
	// Votes - Need a tri-state, yes, no, no opinion...
	//----------------------------------------------------------------------
	typedef enum Vote { eVoteNo = -1, eVoteNoOpinion = 0, eVoteYes = 1 } Vote;

	typedef enum ArchitectureType {
	eArchTypeInvalid,
	eArchTypeMachO,
	eArchTypeELF,
	eArchTypeCOFF,
	kNumArchTypes
	} ArchitectureType;

	//----------------------------------------------------------------------
	/// Settable state variable types.
	///
	//----------------------------------------------------------------------

	// typedef enum SettableVariableType
	//{
	// eSetVarTypeInt,
	// eSetVarTypeBoolean,
	// eSetVarTypeString,
	// eSetVarTypeArray,
	// eSetVarTypeDictionary,
	// eSetVarTypeEnum,
	// eSetVarTypeNone
	//} SettableVariableType;

	typedef enum VarSetOperationType {
	eVarSetOperationReplace,
	eVarSetOperationInsertBefore,
	eVarSetOperationInsertAfter,
	eVarSetOperationRemove,
	eVarSetOperationAppend,
	eVarSetOperationClear,
	eVarSetOperationAssign,
	eVarSetOperationInvalid
	} VarSetOperationType;

	typedef enum ArgumentRepetitionType {
	eArgRepeatPlain, // Exactly one occurrence
	eArgRepeatOptional, // At most one occurrence, but it's optional
	eArgRepeatPlus, // One or more occurrences
	eArgRepeatStar, // Zero or more occurrences
	eArgRepeatRange, // Repetition of same argument, from 1 to n
	eArgRepeatPairPlain, // A pair of arguments that must always go together
	// ([arg-type arg-value]), occurs exactly once
	eArgRepeatPairOptional, // A pair that occurs at most once (optional)
	eArgRepeatPairPlus, // One or more occurrences of a pair
	eArgRepeatPairStar, // Zero or more occurrences of a pair
	eArgRepeatPairRange, // A pair that repeats from 1 to n
	eArgRepeatPairRangeOptional // A pair that repeats from 1 to n, but is
	// optional
	} ArgumentRepetitionType;

	typedef enum SortOrder {
	eSortOrderNone,
	eSortOrderByAddress,
	eSortOrderByName
	} SortOrder;

	//----------------------------------------------------------------------
	// LazyBool is for boolean values that need to be calculated lazily. Values
	// start off set to eLazyBoolCalculate, and then they can be calculated once
	// and set to eLazyBoolNo or eLazyBoolYes.
	//----------------------------------------------------------------------
	typedef enum LazyBool {
	eLazyBoolCalculate = -1,
	eLazyBoolNo = 0,
	eLazyBoolYes = 1
	} LazyBool;

	//------------------------------------------------------------------
	/// Instruction types
	//------------------------------------------------------------------
	typedef enum InstructionType {
	eInstructionTypeAny, // Support for any instructions at all (at least one)
	eInstructionTypePrologueEpilogue, // All prologue and epilogue instructions
	// that push and pop register values and
	// modify sp/fp
	eInstructionTypePCModifying, // Any instruction that modifies the program
	// counter/instruction pointer
	eInstructionTypeAll // All instructions of any kind

	} InstructionType;

	//------------------------------------------------------------------
	/// Format category entry types
	//------------------------------------------------------------------
	typedef enum FormatCategoryItem {
	eFormatCategoryItemSummary = 0x0001,
	eFormatCategoryItemRegexSummary = 0x0002,
	eFormatCategoryItemFilter = 0x0004,
	eFormatCategoryItemRegexFilter = 0x0008,
	eFormatCategoryItemSynth = 0x0010,
	eFormatCategoryItemRegexSynth = 0x0020,
	eFormatCategoryItemValue = 0x0040,
	eFormatCategoryItemRegexValue = 0x0080,
	eFormatCategoryItemValidator = 0x0100,
	eFormatCategoryItemRegexValidator = 0x0200
	} FormatCategoryItem;

	//------------------------------------------------------------------
	/// Expression execution policies
	//------------------------------------------------------------------
	typedef enum {
	eExecutionPolicyOnlyWhenNeeded,
	eExecutionPolicyNever,
	eExecutionPolicyAlways,
	eExecutionPolicyTopLevel // used for top-level code
	} ExecutionPolicy;

	//----------------------------------------------------------------------
	// Ways that the FormatManager picks a particular format for a type
	//----------------------------------------------------------------------
	typedef enum FormatterChoiceCriterion {
	eFormatterChoiceCriterionDirectChoice = 0x00000000,
	eFormatterChoiceCriterionStrippedPointerReference = 0x00000001,
	eFormatterChoiceCriterionNavigatedTypedefs = 0x00000002,
	eFormatterChoiceCriterionRegularExpressionSummary = 0x00000004,
	eFormatterChoiceCriterionRegularExpressionFilter = 0x00000004,
	eFormatterChoiceCriterionLanguagePlugin = 0x00000008,
	eFormatterChoiceCriterionStrippedBitField = 0x00000010,
	eFormatterChoiceCriterionWentToStaticValue = 0x00000020
	} FormatterChoiceCriterion;

	//----------------------------------------------------------------------
	// Synchronicity behavior of scripted commands
	//----------------------------------------------------------------------
	typedef enum ScriptedCommandSynchronicity {
	eScriptedCommandSynchronicitySynchronous,
	eScriptedCommandSynchronicityAsynchronous,
	eScriptedCommandSynchronicityCurrentValue // use whatever the current
	// synchronicity is
	} ScriptedCommandSynchronicity;

	//----------------------------------------------------------------------
	// Verbosity mode of "po" output
	//----------------------------------------------------------------------
	typedef enum LanguageRuntimeDescriptionDisplayVerbosity {
	eLanguageRuntimeDescriptionDisplayVerbosityCompact, // only print the
	// description string, if
	// any
	eLanguageRuntimeDescriptionDisplayVerbosityFull, // print the full-blown
	// output
	} LanguageRuntimeDescriptionDisplayVerbosity;

	//----------------------------------------------------------------------
	// Loading modules from memory
	//----------------------------------------------------------------------
	typedef enum MemoryModuleLoadLevel {
	eMemoryModuleLoadLevelMinimal, // Load sections only
	eMemoryModuleLoadLevelPartial, // Load function bounds but no symbols
	eMemoryModuleLoadLevelComplete, // Load sections and all symbols
	} MemoryModuleLoadLevel;

	//----------------------------------------------------------------------
	// Result enums for when reading multiple lines from IOHandlers
	//----------------------------------------------------------------------
	enum class LineStatus {
	Success, // The line that was just edited if good and should be added to the
	// lines
	Status, // There is an error with the current line and it needs to be
	// re-edited
	// before it can be accepted
	Done // Lines are complete
	};

	//----------------------------------------------------------------------
	// Boolean result of running a Type Validator
	//----------------------------------------------------------------------
	enum class TypeValidatorResult : bool { Success = true, Failure = false };

	//----------------------------------------------------------------------
	// Enumerations that can be used to specify scopes types when looking up types.
	//----------------------------------------------------------------------
	enum class CompilerContextKind {
	Invalid = 0,
	TranslationUnit,
	Module,
	Namespace,
	Class,
	Structure,
	Union,
	Function,
	Variable,
	Enumeration,
	Typedef
	};

	//----------------------------------------------------------------------
	// Enumerations that can be used to specify the kind of metric we're looking at
	// when collecting stats.
	//----------------------------------------------------------------------
	enum StatisticKind {
	ExpressionSuccessful = 0,
	ExpressionFailure = 1,
	FrameVarSuccess = 2,
	FrameVarFailure = 3,
	StatisticMax = 4
	};


	inline std::string GetStatDescription(lldb_private::StatisticKind K) {
	switch (K) {
	case StatisticKind::ExpressionSuccessful:
	return "Number of expr evaluation successes";
	case StatisticKind::ExpressionFailure:
	return "Number of expr evaluation failures";
	case StatisticKind::FrameVarSuccess:
	return "Number of frame var successes";
	case StatisticKind::FrameVarFailure:
	return "Number of frame var failures";
	case StatisticKind::StatisticMax:
	return "";
	}
	llvm_unreachable("Statistic not registered!");
	}

	} // namespace lldb_private

	namespace llvm {
	template <> struct format_provider<lldb_private::Vote> {
	static void format(const lldb_private::Vote &V, llvm::raw_ostream &Stream,
	StringRef Style) {
	switch (V) {
	case lldb_private::eVoteNo:
	Stream << "no";
	return;
	case lldb_private::eVoteNoOpinion:
	Stream << "no opinion";
	return;
	case lldb_private::eVoteYes:
	Stream << "yes";
	return;
	}
	Stream << "invalid";
	}
	};
	}

	#endif // LLDB_lldb_private_enumerations_h_