//===-- lldb-private-enumerations.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 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 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. }; // Address Types 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 }; // 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... enum Vote { eVoteNo = -1, eVoteNoOpinion = 0, eVoteYes = 1 }; enum ArchitectureType { eArchTypeInvalid, eArchTypeMachO, eArchTypeELF, eArchTypeCOFF, kNumArchTypes }; /// Settable state variable types. /// // typedef enum SettableVariableType //{ // eSetVarTypeInt, // eSetVarTypeBoolean, // eSetVarTypeString, // eSetVarTypeArray, // eSetVarTypeDictionary, // eSetVarTypeEnum, // eSetVarTypeNone //} SettableVariableType; enum VarSetOperationType { eVarSetOperationReplace, eVarSetOperationInsertBefore, eVarSetOperationInsertAfter, eVarSetOperationRemove, eVarSetOperationAppend, eVarSetOperationClear, eVarSetOperationAssign, eVarSetOperationInvalid }; 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 }; enum SortOrder { eSortOrderNone, eSortOrderByAddress, eSortOrderByName }; // 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. enum LazyBool { eLazyBoolCalculate = -1, eLazyBoolNo = 0, eLazyBoolYes = 1 }; /// Instruction types 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 }; /// Format category entry types enum FormatCategoryItem { eFormatCategoryItemSummary = 0x0001, eFormatCategoryItemRegexSummary = 0x0002, eFormatCategoryItemFilter = 0x0004, eFormatCategoryItemRegexFilter = 0x0008, eFormatCategoryItemSynth = 0x0010, eFormatCategoryItemRegexSynth = 0x0020, eFormatCategoryItemValue = 0x0040, eFormatCategoryItemRegexValue = 0x0080, eFormatCategoryItemValidator = 0x0100, eFormatCategoryItemRegexValidator = 0x0200 }; /// Expression execution policies enum ExecutionPolicy { eExecutionPolicyOnlyWhenNeeded, eExecutionPolicyNever, eExecutionPolicyAlways, eExecutionPolicyTopLevel // used for top-level code }; // Synchronicity behavior of scripted commands enum ScriptedCommandSynchronicity { eScriptedCommandSynchronicitySynchronous, eScriptedCommandSynchronicityAsynchronous, eScriptedCommandSynchronicityCurrentValue // use whatever the current // synchronicity is }; // Verbosity mode of "po" output enum LanguageRuntimeDescriptionDisplayVerbosity { eLanguageRuntimeDescriptionDisplayVerbosityCompact, // only print the // description string, if // any eLanguageRuntimeDescriptionDisplayVerbosityFull, // print the full-blown // output }; // Loading modules from memory enum MemoryModuleLoadLevel { eMemoryModuleLoadLevelMinimal, // Load sections only eMemoryModuleLoadLevelPartial, // Load function bounds but no symbols eMemoryModuleLoadLevelComplete, // Load sections and all symbols }; // 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 : uint16_t { Invalid = 0, TranslationUnit = 1, Module = 1 << 1, Namespace = 1 << 2, Class = 1 << 3, Struct = 1 << 4, Union = 1 << 5, Function = 1 << 6, Variable = 1 << 7, Enum = 1 << 8, Typedef = 1 << 9, Any = 1 << 15, /// Match 0..n nested modules. AnyModule = Any | Module, /// Match any type. AnyType = Any | Class | Struct | Union | Enum | 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 { 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