//===-- FormatEntity.cpp --------------------------------------------------===// // // 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 // //===----------------------------------------------------------------------===// #include "lldb/Core/FormatEntity.h" #include "lldb/Core/Address.h" #include "lldb/Core/AddressRange.h" #include "lldb/Core/Debugger.h" #include "lldb/Core/DumpRegisterValue.h" #include "lldb/Core/Module.h" #include "lldb/Core/ValueObject.h" #include "lldb/Core/ValueObjectVariable.h" #include "lldb/DataFormatters/DataVisualization.h" #include "lldb/DataFormatters/FormatClasses.h" #include "lldb/DataFormatters/FormatManager.h" #include "lldb/DataFormatters/TypeSummary.h" #include "lldb/Expression/ExpressionVariable.h" #include "lldb/Interpreter/CommandInterpreter.h" #include "lldb/Symbol/Block.h" #include "lldb/Symbol/CompileUnit.h" #include "lldb/Symbol/CompilerType.h" #include "lldb/Symbol/Function.h" #include "lldb/Symbol/LineEntry.h" #include "lldb/Symbol/Symbol.h" #include "lldb/Symbol/SymbolContext.h" #include "lldb/Symbol/VariableList.h" #include "lldb/Target/ExecutionContext.h" #include "lldb/Target/ExecutionContextScope.h" #include "lldb/Target/Language.h" #include "lldb/Target/Process.h" #include "lldb/Target/RegisterContext.h" #include "lldb/Target/SectionLoadList.h" #include "lldb/Target/StackFrame.h" #include "lldb/Target/StopInfo.h" #include "lldb/Target/Target.h" #include "lldb/Target/Thread.h" #include "lldb/Utility/AnsiTerminal.h" #include "lldb/Utility/ArchSpec.h" #include "lldb/Utility/CompletionRequest.h" #include "lldb/Utility/ConstString.h" #include "lldb/Utility/FileSpec.h" #include "lldb/Utility/LLDBLog.h" #include "lldb/Utility/Log.h" #include "lldb/Utility/RegisterValue.h" #include "lldb/Utility/Status.h" #include "lldb/Utility/Stream.h" #include "lldb/Utility/StreamString.h" #include "lldb/Utility/StringList.h" #include "lldb/Utility/StructuredData.h" #include "lldb/lldb-defines.h" #include "lldb/lldb-forward.h" #include "llvm/ADT/STLExtras.h" #include "llvm/ADT/StringRef.h" #include "llvm/Support/Compiler.h" #include "llvm/Support/Regex.h" #include "llvm/TargetParser/Triple.h" #include #include #include #include #include #include #include #include namespace lldb_private { class ScriptInterpreter; } namespace lldb_private { struct RegisterInfo; } using namespace lldb; using namespace lldb_private; using Definition = lldb_private::FormatEntity::Entry::Definition; using Entry = FormatEntity::Entry; using EntryType = FormatEntity::Entry::Type; enum FileKind { FileError = 0, Basename, Dirname, Fullpath }; constexpr Definition g_string_entry[] = { Definition("*", EntryType::ParentString)}; constexpr Definition g_addr_entries[] = { Definition("load", EntryType::AddressLoad), Definition("file", EntryType::AddressFile)}; constexpr Definition g_file_child_entries[] = { Definition("basename", EntryType::ParentNumber, FileKind::Basename), Definition("dirname", EntryType::ParentNumber, FileKind::Dirname), Definition("fullpath", EntryType::ParentNumber, FileKind::Fullpath)}; constexpr Definition g_frame_child_entries[] = { Definition("index", EntryType::FrameIndex), Definition("pc", EntryType::FrameRegisterPC), Definition("fp", EntryType::FrameRegisterFP), Definition("sp", EntryType::FrameRegisterSP), Definition("flags", EntryType::FrameRegisterFlags), Definition("no-debug", EntryType::FrameNoDebug), Entry::DefinitionWithChildren("reg", EntryType::FrameRegisterByName, g_string_entry), Definition("is-artificial", EntryType::FrameIsArtificial), }; constexpr Definition g_function_child_entries[] = { Definition("id", EntryType::FunctionID), Definition("name", EntryType::FunctionName), Definition("name-without-args", EntryType::FunctionNameNoArgs), Definition("name-with-args", EntryType::FunctionNameWithArgs), Definition("mangled-name", EntryType::FunctionMangledName), Definition("addr-offset", EntryType::FunctionAddrOffset), Definition("concrete-only-addr-offset-no-padding", EntryType::FunctionAddrOffsetConcrete), Definition("line-offset", EntryType::FunctionLineOffset), Definition("pc-offset", EntryType::FunctionPCOffset), Definition("initial-function", EntryType::FunctionInitial), Definition("changed", EntryType::FunctionChanged), Definition("is-optimized", EntryType::FunctionIsOptimized)}; constexpr Definition g_line_child_entries[] = { Entry::DefinitionWithChildren("file", EntryType::LineEntryFile, g_file_child_entries), Definition("number", EntryType::LineEntryLineNumber), Definition("column", EntryType::LineEntryColumn), Definition("start-addr", EntryType::LineEntryStartAddress), Definition("end-addr", EntryType::LineEntryEndAddress), }; constexpr Definition g_module_child_entries[] = {Entry::DefinitionWithChildren( "file", EntryType::ModuleFile, g_file_child_entries)}; constexpr Definition g_process_child_entries[] = { Definition("id", EntryType::ProcessID), Definition("name", EntryType::ProcessFile, FileKind::Basename), Entry::DefinitionWithChildren("file", EntryType::ProcessFile, g_file_child_entries)}; constexpr Definition g_svar_child_entries[] = { Definition("*", EntryType::ParentString)}; constexpr Definition g_var_child_entries[] = { Definition("*", EntryType::ParentString)}; constexpr Definition g_thread_child_entries[] = { Definition("id", EntryType::ThreadID), Definition("protocol_id", EntryType::ThreadProtocolID), Definition("index", EntryType::ThreadIndexID), Entry::DefinitionWithChildren("info", EntryType::ThreadInfo, g_string_entry), Definition("queue", EntryType::ThreadQueue), Definition("name", EntryType::ThreadName), Definition("stop-reason", EntryType::ThreadStopReason), Definition("stop-reason-raw", EntryType::ThreadStopReasonRaw), Definition("return-value", EntryType::ThreadReturnValue), Definition("completed-expression", EntryType::ThreadCompletedExpression)}; constexpr Definition g_target_child_entries[] = { Definition("arch", EntryType::TargetArch)}; #define _TO_STR2(_val) #_val #define _TO_STR(_val) _TO_STR2(_val) constexpr Definition g_ansi_fg_entries[] = { Definition("black", ANSI_ESC_START _TO_STR(ANSI_FG_COLOR_BLACK) ANSI_ESC_END), Definition("red", ANSI_ESC_START _TO_STR(ANSI_FG_COLOR_RED) ANSI_ESC_END), Definition("green", ANSI_ESC_START _TO_STR(ANSI_FG_COLOR_GREEN) ANSI_ESC_END), Definition("yellow", ANSI_ESC_START _TO_STR(ANSI_FG_COLOR_YELLOW) ANSI_ESC_END), Definition("blue", ANSI_ESC_START _TO_STR(ANSI_FG_COLOR_BLUE) ANSI_ESC_END), Definition("purple", ANSI_ESC_START _TO_STR(ANSI_FG_COLOR_PURPLE) ANSI_ESC_END), Definition("cyan", ANSI_ESC_START _TO_STR(ANSI_FG_COLOR_CYAN) ANSI_ESC_END), Definition("white", ANSI_ESC_START _TO_STR(ANSI_FG_COLOR_WHITE) ANSI_ESC_END), }; constexpr Definition g_ansi_bg_entries[] = { Definition("black", ANSI_ESC_START _TO_STR(ANSI_BG_COLOR_BLACK) ANSI_ESC_END), Definition("red", ANSI_ESC_START _TO_STR(ANSI_BG_COLOR_RED) ANSI_ESC_END), Definition("green", ANSI_ESC_START _TO_STR(ANSI_BG_COLOR_GREEN) ANSI_ESC_END), Definition("yellow", ANSI_ESC_START _TO_STR(ANSI_BG_COLOR_YELLOW) ANSI_ESC_END), Definition("blue", ANSI_ESC_START _TO_STR(ANSI_BG_COLOR_BLUE) ANSI_ESC_END), Definition("purple", ANSI_ESC_START _TO_STR(ANSI_BG_COLOR_PURPLE) ANSI_ESC_END), Definition("cyan", ANSI_ESC_START _TO_STR(ANSI_BG_COLOR_CYAN) ANSI_ESC_END), Definition("white", ANSI_ESC_START _TO_STR(ANSI_BG_COLOR_WHITE) ANSI_ESC_END), }; constexpr Definition g_ansi_entries[] = { Entry::DefinitionWithChildren("fg", EntryType::Invalid, g_ansi_fg_entries), Entry::DefinitionWithChildren("bg", EntryType::Invalid, g_ansi_bg_entries), Definition("normal", ANSI_ESC_START _TO_STR(ANSI_CTRL_NORMAL) ANSI_ESC_END), Definition("bold", ANSI_ESC_START _TO_STR(ANSI_CTRL_BOLD) ANSI_ESC_END), Definition("faint", ANSI_ESC_START _TO_STR(ANSI_CTRL_FAINT) ANSI_ESC_END), Definition("italic", ANSI_ESC_START _TO_STR(ANSI_CTRL_ITALIC) ANSI_ESC_END), Definition("underline", ANSI_ESC_START _TO_STR(ANSI_CTRL_UNDERLINE) ANSI_ESC_END), Definition("slow-blink", ANSI_ESC_START _TO_STR(ANSI_CTRL_SLOW_BLINK) ANSI_ESC_END), Definition("fast-blink", ANSI_ESC_START _TO_STR(ANSI_CTRL_FAST_BLINK) ANSI_ESC_END), Definition("negative", ANSI_ESC_START _TO_STR(ANSI_CTRL_IMAGE_NEGATIVE) ANSI_ESC_END), Definition("conceal", ANSI_ESC_START _TO_STR(ANSI_CTRL_CONCEAL) ANSI_ESC_END), Definition("crossed-out", ANSI_ESC_START _TO_STR(ANSI_CTRL_CROSSED_OUT) ANSI_ESC_END), }; constexpr Definition g_script_child_entries[] = { Definition("frame", EntryType::ScriptFrame), Definition("process", EntryType::ScriptProcess), Definition("target", EntryType::ScriptTarget), Definition("thread", EntryType::ScriptThread), Definition("var", EntryType::ScriptVariable), Definition("svar", EntryType::ScriptVariableSynthetic), Definition("thread", EntryType::ScriptThread)}; constexpr Definition g_top_level_entries[] = { Entry::DefinitionWithChildren("addr", EntryType::AddressLoadOrFile, g_addr_entries), Definition("addr-file-or-load", EntryType::AddressLoadOrFile), Entry::DefinitionWithChildren("ansi", EntryType::Invalid, g_ansi_entries), Definition("current-pc-arrow", EntryType::CurrentPCArrow), Entry::DefinitionWithChildren("file", EntryType::File, g_file_child_entries), Definition("language", EntryType::Lang), Entry::DefinitionWithChildren("frame", EntryType::Invalid, g_frame_child_entries), Entry::DefinitionWithChildren("function", EntryType::Invalid, g_function_child_entries), Entry::DefinitionWithChildren("line", EntryType::Invalid, g_line_child_entries), Entry::DefinitionWithChildren("module", EntryType::Invalid, g_module_child_entries), Entry::DefinitionWithChildren("process", EntryType::Invalid, g_process_child_entries), Entry::DefinitionWithChildren("script", EntryType::Invalid, g_script_child_entries), Entry::DefinitionWithChildren("svar", EntryType::VariableSynthetic, g_svar_child_entries, true), Entry::DefinitionWithChildren("thread", EntryType::Invalid, g_thread_child_entries), Entry::DefinitionWithChildren("target", EntryType::Invalid, g_target_child_entries), Entry::DefinitionWithChildren("var", EntryType::Variable, g_var_child_entries, true)}; constexpr Definition g_root = Entry::DefinitionWithChildren( "", EntryType::Root, g_top_level_entries); FormatEntity::Entry::Entry(llvm::StringRef s) : string(s.data(), s.size()), printf_format(), children(), type(Type::String) {} FormatEntity::Entry::Entry(char ch) : string(1, ch), printf_format(), children(), type(Type::String) {} void FormatEntity::Entry::AppendChar(char ch) { if (children.empty() || children.back().type != Entry::Type::String) children.push_back(Entry(ch)); else children.back().string.append(1, ch); } void FormatEntity::Entry::AppendText(const llvm::StringRef &s) { if (children.empty() || children.back().type != Entry::Type::String) children.push_back(Entry(s)); else children.back().string.append(s.data(), s.size()); } void FormatEntity::Entry::AppendText(const char *cstr) { return AppendText(llvm::StringRef(cstr)); } #define ENUM_TO_CSTR(eee) \ case FormatEntity::Entry::Type::eee: \ return #eee const char *FormatEntity::Entry::TypeToCString(Type t) { switch (t) { ENUM_TO_CSTR(Invalid); ENUM_TO_CSTR(ParentNumber); ENUM_TO_CSTR(ParentString); ENUM_TO_CSTR(EscapeCode); ENUM_TO_CSTR(Root); ENUM_TO_CSTR(String); ENUM_TO_CSTR(Scope); ENUM_TO_CSTR(Variable); ENUM_TO_CSTR(VariableSynthetic); ENUM_TO_CSTR(ScriptVariable); ENUM_TO_CSTR(ScriptVariableSynthetic); ENUM_TO_CSTR(AddressLoad); ENUM_TO_CSTR(AddressFile); ENUM_TO_CSTR(AddressLoadOrFile); ENUM_TO_CSTR(ProcessID); ENUM_TO_CSTR(ProcessFile); ENUM_TO_CSTR(ScriptProcess); ENUM_TO_CSTR(ThreadID); ENUM_TO_CSTR(ThreadProtocolID); ENUM_TO_CSTR(ThreadIndexID); ENUM_TO_CSTR(ThreadName); ENUM_TO_CSTR(ThreadQueue); ENUM_TO_CSTR(ThreadStopReason); ENUM_TO_CSTR(ThreadStopReasonRaw); ENUM_TO_CSTR(ThreadReturnValue); ENUM_TO_CSTR(ThreadCompletedExpression); ENUM_TO_CSTR(ScriptThread); ENUM_TO_CSTR(ThreadInfo); ENUM_TO_CSTR(TargetArch); ENUM_TO_CSTR(ScriptTarget); ENUM_TO_CSTR(ModuleFile); ENUM_TO_CSTR(File); ENUM_TO_CSTR(Lang); ENUM_TO_CSTR(FrameIndex); ENUM_TO_CSTR(FrameNoDebug); ENUM_TO_CSTR(FrameRegisterPC); ENUM_TO_CSTR(FrameRegisterSP); ENUM_TO_CSTR(FrameRegisterFP); ENUM_TO_CSTR(FrameRegisterFlags); ENUM_TO_CSTR(FrameRegisterByName); ENUM_TO_CSTR(FrameIsArtificial); ENUM_TO_CSTR(ScriptFrame); ENUM_TO_CSTR(FunctionID); ENUM_TO_CSTR(FunctionDidChange); ENUM_TO_CSTR(FunctionInitialFunction); ENUM_TO_CSTR(FunctionName); ENUM_TO_CSTR(FunctionNameWithArgs); ENUM_TO_CSTR(FunctionNameNoArgs); ENUM_TO_CSTR(FunctionMangledName); ENUM_TO_CSTR(FunctionAddrOffset); ENUM_TO_CSTR(FunctionAddrOffsetConcrete); ENUM_TO_CSTR(FunctionLineOffset); ENUM_TO_CSTR(FunctionPCOffset); ENUM_TO_CSTR(FunctionInitial); ENUM_TO_CSTR(FunctionChanged); ENUM_TO_CSTR(FunctionIsOptimized); ENUM_TO_CSTR(LineEntryFile); ENUM_TO_CSTR(LineEntryLineNumber); ENUM_TO_CSTR(LineEntryColumn); ENUM_TO_CSTR(LineEntryStartAddress); ENUM_TO_CSTR(LineEntryEndAddress); ENUM_TO_CSTR(CurrentPCArrow); } return "???"; } #undef ENUM_TO_CSTR void FormatEntity::Entry::Dump(Stream &s, int depth) const { s.Printf("%*.*s%-20s: ", depth * 2, depth * 2, "", TypeToCString(type)); if (fmt != eFormatDefault) s.Printf("lldb-format = %s, ", FormatManager::GetFormatAsCString(fmt)); if (!string.empty()) s.Printf("string = \"%s\"", string.c_str()); if (!printf_format.empty()) s.Printf("printf_format = \"%s\"", printf_format.c_str()); if (number != 0) s.Printf("number = %" PRIu64 " (0x%" PRIx64 "), ", number, number); if (deref) s.Printf("deref = true, "); s.EOL(); for (const auto &child : children) { child.Dump(s, depth + 1); } } template static bool RunScriptFormatKeyword(Stream &s, const SymbolContext *sc, const ExecutionContext *exe_ctx, T t, const char *script_function_name) { Target *target = Target::GetTargetFromContexts(exe_ctx, sc); if (target) { ScriptInterpreter *script_interpreter = target->GetDebugger().GetScriptInterpreter(); if (script_interpreter) { Status error; std::string script_output; if (script_interpreter->RunScriptFormatKeyword(script_function_name, t, script_output, error) && error.Success()) { s.Printf("%s", script_output.c_str()); return true; } else { s.Printf("", error.AsCString()); } } } return false; } static bool DumpAddressAndContent(Stream &s, const SymbolContext *sc, const ExecutionContext *exe_ctx, const Address &addr, bool print_file_addr_or_load_addr) { Target *target = Target::GetTargetFromContexts(exe_ctx, sc); addr_t vaddr = LLDB_INVALID_ADDRESS; if (exe_ctx && !target->GetSectionLoadList().IsEmpty()) vaddr = addr.GetLoadAddress(target); if (vaddr == LLDB_INVALID_ADDRESS) vaddr = addr.GetFileAddress(); if (vaddr != LLDB_INVALID_ADDRESS) { int addr_width = 0; if (exe_ctx && target) { addr_width = target->GetArchitecture().GetAddressByteSize() * 2; } if (addr_width == 0) addr_width = 16; if (print_file_addr_or_load_addr) { ExecutionContextScope *exe_scope = nullptr; if (exe_ctx) exe_scope = exe_ctx->GetBestExecutionContextScope(); addr.Dump(&s, exe_scope, Address::DumpStyleLoadAddress, Address::DumpStyleModuleWithFileAddress, 0); } else { s.Printf("0x%*.*" PRIx64, addr_width, addr_width, vaddr); } return true; } return false; } static bool DumpAddressOffsetFromFunction(Stream &s, const SymbolContext *sc, const ExecutionContext *exe_ctx, const Address &format_addr, bool concrete_only, bool no_padding, bool print_zero_offsets) { if (format_addr.IsValid()) { Address func_addr; if (sc) { if (sc->function) { func_addr = sc->function->GetAddressRange().GetBaseAddress(); if (sc->block && !concrete_only) { // Check to make sure we aren't in an inline function. If we are, use // the inline block range that contains "format_addr" since blocks // can be discontiguous. Block *inline_block = sc->block->GetContainingInlinedBlock(); AddressRange inline_range; if (inline_block && inline_block->GetRangeContainingAddress( format_addr, inline_range)) func_addr = inline_range.GetBaseAddress(); } } else if (sc->symbol && sc->symbol->ValueIsAddress()) func_addr = sc->symbol->GetAddressRef(); } if (func_addr.IsValid()) { const char *addr_offset_padding = no_padding ? "" : " "; if (func_addr.GetSection() == format_addr.GetSection()) { addr_t func_file_addr = func_addr.GetFileAddress(); addr_t addr_file_addr = format_addr.GetFileAddress(); if (addr_file_addr > func_file_addr || (addr_file_addr == func_file_addr && print_zero_offsets)) { s.Printf("%s+%s%" PRIu64, addr_offset_padding, addr_offset_padding, addr_file_addr - func_file_addr); } else if (addr_file_addr < func_file_addr) { s.Printf("%s-%s%" PRIu64, addr_offset_padding, addr_offset_padding, func_file_addr - addr_file_addr); } return true; } else { Target *target = Target::GetTargetFromContexts(exe_ctx, sc); if (target) { addr_t func_load_addr = func_addr.GetLoadAddress(target); addr_t addr_load_addr = format_addr.GetLoadAddress(target); if (addr_load_addr > func_load_addr || (addr_load_addr == func_load_addr && print_zero_offsets)) { s.Printf("%s+%s%" PRIu64, addr_offset_padding, addr_offset_padding, addr_load_addr - func_load_addr); } else if (addr_load_addr < func_load_addr) { s.Printf("%s-%s%" PRIu64, addr_offset_padding, addr_offset_padding, func_load_addr - addr_load_addr); } return true; } } } } return false; } static bool ScanBracketedRange(llvm::StringRef subpath, size_t &close_bracket_index, const char *&var_name_final_if_array_range, int64_t &index_lower, int64_t &index_higher) { Log *log = GetLog(LLDBLog::DataFormatters); close_bracket_index = llvm::StringRef::npos; const size_t open_bracket_index = subpath.find('['); if (open_bracket_index == llvm::StringRef::npos) { LLDB_LOGF(log, "[ScanBracketedRange] no bracketed range, skipping entirely"); return false; } close_bracket_index = subpath.find(']', open_bracket_index + 1); if (close_bracket_index == llvm::StringRef::npos) { LLDB_LOGF(log, "[ScanBracketedRange] no bracketed range, skipping entirely"); return false; } else { var_name_final_if_array_range = subpath.data() + open_bracket_index; if (close_bracket_index - open_bracket_index == 1) { LLDB_LOGF( log, "[ScanBracketedRange] '[]' detected.. going from 0 to end of data"); index_lower = 0; } else { const size_t separator_index = subpath.find('-', open_bracket_index + 1); if (separator_index == llvm::StringRef::npos) { const char *index_lower_cstr = subpath.data() + open_bracket_index + 1; index_lower = ::strtoul(index_lower_cstr, nullptr, 0); index_higher = index_lower; LLDB_LOGF(log, "[ScanBracketedRange] [%" PRId64 "] detected, high index is same", index_lower); } else { const char *index_lower_cstr = subpath.data() + open_bracket_index + 1; const char *index_higher_cstr = subpath.data() + separator_index + 1; index_lower = ::strtoul(index_lower_cstr, nullptr, 0); index_higher = ::strtoul(index_higher_cstr, nullptr, 0); LLDB_LOGF(log, "[ScanBracketedRange] [%" PRId64 "-%" PRId64 "] detected", index_lower, index_higher); } if (index_lower > index_higher && index_higher > 0) { LLDB_LOGF(log, "[ScanBracketedRange] swapping indices"); const int64_t temp = index_lower; index_lower = index_higher; index_higher = temp; } } } return true; } static bool DumpFile(Stream &s, const FileSpec &file, FileKind file_kind) { switch (file_kind) { case FileKind::FileError: break; case FileKind::Basename: if (file.GetFilename()) { s << file.GetFilename(); return true; } break; case FileKind::Dirname: if (file.GetDirectory()) { s << file.GetDirectory(); return true; } break; case FileKind::Fullpath: if (file) { s << file; return true; } break; } return false; } static bool DumpRegister(Stream &s, StackFrame *frame, RegisterKind reg_kind, uint32_t reg_num, Format format) { if (frame) { RegisterContext *reg_ctx = frame->GetRegisterContext().get(); if (reg_ctx) { const uint32_t lldb_reg_num = reg_ctx->ConvertRegisterKindToRegisterNumber(reg_kind, reg_num); if (lldb_reg_num != LLDB_INVALID_REGNUM) { const RegisterInfo *reg_info = reg_ctx->GetRegisterInfoAtIndex(lldb_reg_num); if (reg_info) { RegisterValue reg_value; if (reg_ctx->ReadRegister(reg_info, reg_value)) { DumpRegisterValue(reg_value, s, *reg_info, false, false, format); return true; } } } } } return false; } static ValueObjectSP ExpandIndexedExpression(ValueObject *valobj, size_t index, bool deref_pointer) { Log *log = GetLog(LLDBLog::DataFormatters); std::string name_to_deref = llvm::formatv("[{0}]", index); LLDB_LOG(log, "[ExpandIndexedExpression] name to deref: {0}", name_to_deref); ValueObject::GetValueForExpressionPathOptions options; ValueObject::ExpressionPathEndResultType final_value_type; ValueObject::ExpressionPathScanEndReason reason_to_stop; ValueObject::ExpressionPathAftermath what_next = (deref_pointer ? ValueObject::eExpressionPathAftermathDereference : ValueObject::eExpressionPathAftermathNothing); ValueObjectSP item = valobj->GetValueForExpressionPath( name_to_deref, &reason_to_stop, &final_value_type, options, &what_next); if (!item) { LLDB_LOGF(log, "[ExpandIndexedExpression] ERROR: why stopping = %d," " final_value_type %d", reason_to_stop, final_value_type); } else { LLDB_LOGF(log, "[ExpandIndexedExpression] ALL RIGHT: why stopping = %d," " final_value_type %d", reason_to_stop, final_value_type); } return item; } static char ConvertValueObjectStyleToChar( ValueObject::ValueObjectRepresentationStyle style) { switch (style) { case ValueObject::eValueObjectRepresentationStyleLanguageSpecific: return '@'; case ValueObject::eValueObjectRepresentationStyleValue: return 'V'; case ValueObject::eValueObjectRepresentationStyleLocation: return 'L'; case ValueObject::eValueObjectRepresentationStyleSummary: return 'S'; case ValueObject::eValueObjectRepresentationStyleChildrenCount: return '#'; case ValueObject::eValueObjectRepresentationStyleType: return 'T'; case ValueObject::eValueObjectRepresentationStyleName: return 'N'; case ValueObject::eValueObjectRepresentationStyleExpressionPath: return '>'; } return '\0'; } /// Options supported by format_provider for integral arithmetic types. /// See table in FormatProviders.h. static llvm::Regex LLVMFormatPattern{"x[-+]?\\d*|n|d", llvm::Regex::IgnoreCase}; static bool DumpValueWithLLVMFormat(Stream &s, llvm::StringRef options, ValueObject &valobj) { std::string formatted; std::string llvm_format = ("{0:" + options + "}").str(); auto type_info = valobj.GetTypeInfo(); if ((type_info & eTypeIsInteger) && LLVMFormatPattern.match(options)) { if (type_info & eTypeIsSigned) { bool success = false; int64_t integer = valobj.GetValueAsSigned(0, &success); if (success) formatted = llvm::formatv(llvm_format.data(), integer); } else { bool success = false; uint64_t integer = valobj.GetValueAsUnsigned(0, &success); if (success) formatted = llvm::formatv(llvm_format.data(), integer); } } if (formatted.empty()) return false; s.Write(formatted.data(), formatted.size()); return true; } static bool DumpValue(Stream &s, const SymbolContext *sc, const ExecutionContext *exe_ctx, const FormatEntity::Entry &entry, ValueObject *valobj) { if (valobj == nullptr) return false; Log *log = GetLog(LLDBLog::DataFormatters); Format custom_format = eFormatInvalid; ValueObject::ValueObjectRepresentationStyle val_obj_display = entry.string.empty() ? ValueObject::eValueObjectRepresentationStyleValue : ValueObject::eValueObjectRepresentationStyleSummary; bool do_deref_pointer = entry.deref; bool is_script = false; switch (entry.type) { case FormatEntity::Entry::Type::ScriptVariable: is_script = true; break; case FormatEntity::Entry::Type::Variable: custom_format = entry.fmt; val_obj_display = (ValueObject::ValueObjectRepresentationStyle)entry.number; break; case FormatEntity::Entry::Type::ScriptVariableSynthetic: is_script = true; [[fallthrough]]; case FormatEntity::Entry::Type::VariableSynthetic: custom_format = entry.fmt; val_obj_display = (ValueObject::ValueObjectRepresentationStyle)entry.number; if (!valobj->IsSynthetic()) { valobj = valobj->GetSyntheticValue().get(); if (valobj == nullptr) return false; } break; default: return false; } ValueObject::ExpressionPathAftermath what_next = (do_deref_pointer ? ValueObject::eExpressionPathAftermathDereference : ValueObject::eExpressionPathAftermathNothing); ValueObject::GetValueForExpressionPathOptions options; options.DontCheckDotVsArrowSyntax() .DoAllowBitfieldSyntax() .DoAllowFragileIVar() .SetSyntheticChildrenTraversal( ValueObject::GetValueForExpressionPathOptions:: SyntheticChildrenTraversal::Both); ValueObject *target = nullptr; const char *var_name_final_if_array_range = nullptr; size_t close_bracket_index = llvm::StringRef::npos; int64_t index_lower = -1; int64_t index_higher = -1; bool is_array_range = false; bool was_plain_var = false; bool was_var_format = false; bool was_var_indexed = false; ValueObject::ExpressionPathScanEndReason reason_to_stop = ValueObject::eExpressionPathScanEndReasonEndOfString; ValueObject::ExpressionPathEndResultType final_value_type = ValueObject::eExpressionPathEndResultTypePlain; if (is_script) { return RunScriptFormatKeyword(s, sc, exe_ctx, valobj, entry.string.c_str()); } auto split = llvm::StringRef(entry.string).split(':'); auto subpath = split.first; auto llvm_format = split.second; // simplest case ${var}, just print valobj's value if (subpath.empty()) { if (entry.printf_format.empty() && entry.fmt == eFormatDefault && entry.number == ValueObject::eValueObjectRepresentationStyleValue) was_plain_var = true; else was_var_format = true; target = valobj; } else // this is ${var.something} or multiple .something nested { if (subpath[0] == '[') was_var_indexed = true; ScanBracketedRange(subpath, close_bracket_index, var_name_final_if_array_range, index_lower, index_higher); Status error; LLDB_LOG(log, "[Debugger::FormatPrompt] symbol to expand: {0}", subpath); target = valobj ->GetValueForExpressionPath(subpath, &reason_to_stop, &final_value_type, options, &what_next) .get(); if (!target) { LLDB_LOGF(log, "[Debugger::FormatPrompt] ERROR: why stopping = %d," " final_value_type %d", reason_to_stop, final_value_type); return false; } else { LLDB_LOGF(log, "[Debugger::FormatPrompt] ALL RIGHT: why stopping = %d," " final_value_type %d", reason_to_stop, final_value_type); target = target ->GetQualifiedRepresentationIfAvailable( target->GetDynamicValueType(), true) .get(); } } is_array_range = (final_value_type == ValueObject::eExpressionPathEndResultTypeBoundedRange || final_value_type == ValueObject::eExpressionPathEndResultTypeUnboundedRange); do_deref_pointer = (what_next == ValueObject::eExpressionPathAftermathDereference); if (do_deref_pointer && !is_array_range) { // I have not deref-ed yet, let's do it // this happens when we are not going through // GetValueForVariableExpressionPath to get to the target ValueObject Status error; target = target->Dereference(error).get(); if (error.Fail()) { LLDB_LOGF(log, "[Debugger::FormatPrompt] ERROR: %s\n", error.AsCString("unknown")); return false; } do_deref_pointer = false; } if (!target) { LLDB_LOGF(log, "[Debugger::FormatPrompt] could not calculate target for " "prompt expression"); return false; } // we do not want to use the summary for a bitfield of type T:n if we were // originally dealing with just a T - that would get us into an endless // recursion if (target->IsBitfield() && was_var_indexed) { // TODO: check for a (T:n)-specific summary - we should still obey that StreamString bitfield_name; bitfield_name.Printf("%s:%d", target->GetTypeName().AsCString(), target->GetBitfieldBitSize()); auto type_sp = std::make_shared( bitfield_name.GetString(), lldb::eFormatterMatchExact); if (val_obj_display == ValueObject::eValueObjectRepresentationStyleSummary && !DataVisualization::GetSummaryForType(type_sp)) val_obj_display = ValueObject::eValueObjectRepresentationStyleValue; } // TODO use flags for these const uint32_t type_info_flags = target->GetCompilerType().GetTypeInfo(nullptr); bool is_array = (type_info_flags & eTypeIsArray) != 0; bool is_pointer = (type_info_flags & eTypeIsPointer) != 0; bool is_aggregate = target->GetCompilerType().IsAggregateType(); if ((is_array || is_pointer) && (!is_array_range) && val_obj_display == ValueObject::eValueObjectRepresentationStyleValue) // this should be // wrong, but there // are some // exceptions { StreamString str_temp; LLDB_LOGF(log, "[Debugger::FormatPrompt] I am into array || pointer && !range"); if (target->HasSpecialPrintableRepresentation(val_obj_display, custom_format)) { // try to use the special cases bool success = target->DumpPrintableRepresentation( str_temp, val_obj_display, custom_format); LLDB_LOGF(log, "[Debugger::FormatPrompt] special cases did%s match", success ? "" : "n't"); // should not happen if (success) s << str_temp.GetString(); return true; } else { if (was_plain_var) // if ${var} { s << target->GetTypeName() << " @ " << target->GetLocationAsCString(); } else if (is_pointer) // if pointer, value is the address stored { target->DumpPrintableRepresentation( s, val_obj_display, custom_format, ValueObject::PrintableRepresentationSpecialCases::eDisable); } return true; } } // if directly trying to print ${var}, and this is an aggregate, display a // nice type @ location message if (is_aggregate && was_plain_var) { s << target->GetTypeName() << " @ " << target->GetLocationAsCString(); return true; } // if directly trying to print ${var%V}, and this is an aggregate, do not let // the user do it if (is_aggregate && ((was_var_format && val_obj_display == ValueObject::eValueObjectRepresentationStyleValue))) { s << ""; return true; } if (!is_array_range) { if (!llvm_format.empty()) { if (DumpValueWithLLVMFormat(s, llvm_format, *target)) { LLDB_LOGF(log, "dumping using llvm format"); return true; } else { LLDB_LOG( log, "empty output using llvm format '{0}' - with type info flags {1}", entry.printf_format, target->GetTypeInfo()); } } LLDB_LOGF(log, "dumping ordinary printable output"); return target->DumpPrintableRepresentation(s, val_obj_display, custom_format); } else { LLDB_LOGF(log, "[Debugger::FormatPrompt] checking if I can handle as array"); if (!is_array && !is_pointer) return false; LLDB_LOGF(log, "[Debugger::FormatPrompt] handle as array"); StreamString special_directions_stream; llvm::StringRef special_directions; if (close_bracket_index != llvm::StringRef::npos && subpath.size() > close_bracket_index) { ConstString additional_data(subpath.drop_front(close_bracket_index + 1)); special_directions_stream.Printf("${%svar%s", do_deref_pointer ? "*" : "", additional_data.GetCString()); if (entry.fmt != eFormatDefault) { const char format_char = FormatManager::GetFormatAsFormatChar(entry.fmt); if (format_char != '\0') special_directions_stream.Printf("%%%c", format_char); else { const char *format_cstr = FormatManager::GetFormatAsCString(entry.fmt); special_directions_stream.Printf("%%%s", format_cstr); } } else if (entry.number != 0) { const char style_char = ConvertValueObjectStyleToChar( (ValueObject::ValueObjectRepresentationStyle)entry.number); if (style_char) special_directions_stream.Printf("%%%c", style_char); } special_directions_stream.PutChar('}'); special_directions = llvm::StringRef(special_directions_stream.GetString()); } // let us display items index_lower thru index_higher of this array s.PutChar('['); if (index_higher < 0) index_higher = valobj->GetNumChildrenIgnoringErrors() - 1; uint32_t max_num_children = target->GetTargetSP()->GetMaximumNumberOfChildrenToDisplay(); bool success = true; for (int64_t index = index_lower; index <= index_higher; ++index) { ValueObject *item = ExpandIndexedExpression(target, index, false).get(); if (!item) { LLDB_LOGF(log, "[Debugger::FormatPrompt] ERROR in getting child item at " "index %" PRId64, index); } else { LLDB_LOGF( log, "[Debugger::FormatPrompt] special_directions for child item: %s", special_directions.data() ? special_directions.data() : ""); } if (special_directions.empty()) { success &= item->DumpPrintableRepresentation(s, val_obj_display, custom_format); } else { success &= FormatEntity::FormatStringRef( special_directions, s, sc, exe_ctx, nullptr, item, false, false); } if (--max_num_children == 0) { s.PutCString(", ..."); break; } if (index < index_higher) s.PutChar(','); } s.PutChar(']'); return success; } } static bool DumpRegister(Stream &s, StackFrame *frame, const char *reg_name, Format format) { if (frame) { RegisterContext *reg_ctx = frame->GetRegisterContext().get(); if (reg_ctx) { const RegisterInfo *reg_info = reg_ctx->GetRegisterInfoByName(reg_name); if (reg_info) { RegisterValue reg_value; if (reg_ctx->ReadRegister(reg_info, reg_value)) { DumpRegisterValue(reg_value, s, *reg_info, false, false, format); return true; } } } } return false; } static bool FormatThreadExtendedInfoRecurse( const FormatEntity::Entry &entry, const StructuredData::ObjectSP &thread_info_dictionary, const SymbolContext *sc, const ExecutionContext *exe_ctx, Stream &s) { llvm::StringRef path(entry.string); StructuredData::ObjectSP value = thread_info_dictionary->GetObjectForDotSeparatedPath(path); if (value) { if (value->GetType() == eStructuredDataTypeInteger) { const char *token_format = "0x%4.4" PRIx64; if (!entry.printf_format.empty()) token_format = entry.printf_format.c_str(); s.Printf(token_format, value->GetUnsignedIntegerValue()); return true; } else if (value->GetType() == eStructuredDataTypeFloat) { s.Printf("%f", value->GetAsFloat()->GetValue()); return true; } else if (value->GetType() == eStructuredDataTypeString) { s.Format("{0}", value->GetAsString()->GetValue()); return true; } else if (value->GetType() == eStructuredDataTypeArray) { if (value->GetAsArray()->GetSize() > 0) { s.Printf("%zu", value->GetAsArray()->GetSize()); return true; } } else if (value->GetType() == eStructuredDataTypeDictionary) { s.Printf("%zu", value->GetAsDictionary()->GetKeys()->GetAsArray()->GetSize()); return true; } } return false; } static inline bool IsToken(const char *var_name_begin, const char *var) { return (::strncmp(var_name_begin, var, strlen(var)) == 0); } /// Parses the basename out of a demangled function name /// that may include function arguments. Supports /// template functions. /// /// Returns pointers to the opening and closing parenthesis of /// `full_name`. Can return nullptr for either parenthesis if /// none is exists. static std::pair ParseBaseName(char const *full_name) { const char *open_paren = strchr(full_name, '('); const char *close_paren = nullptr; const char *generic = strchr(full_name, '<'); // if before the arguments list begins there is a template sign // then scan to the end of the generic args before you try to find // the arguments list if (generic && open_paren && generic < open_paren) { int generic_depth = 1; ++generic; for (; *generic && generic_depth > 0; generic++) { if (*generic == '<') generic_depth++; if (*generic == '>') generic_depth--; } if (*generic) open_paren = strchr(generic, '('); else open_paren = nullptr; } if (open_paren) { if (IsToken(open_paren, "(anonymous namespace)")) { open_paren = strchr(open_paren + strlen("(anonymous namespace)"), '('); if (open_paren) close_paren = strchr(open_paren, ')'); } else close_paren = strchr(open_paren, ')'); } return {open_paren, close_paren}; } /// Writes out the function name in 'full_name' to 'out_stream' /// but replaces each argument type with the variable name /// and the corresponding pretty-printed value static void PrettyPrintFunctionNameWithArgs(Stream &out_stream, char const *full_name, ExecutionContextScope *exe_scope, VariableList const &args) { auto [open_paren, close_paren] = ParseBaseName(full_name); if (open_paren) out_stream.Write(full_name, open_paren - full_name + 1); else { out_stream.PutCString(full_name); out_stream.PutChar('('); } FormatEntity::PrettyPrintFunctionArguments(out_stream, args, exe_scope); if (close_paren) out_stream.PutCString(close_paren); else out_stream.PutChar(')'); } static void FormatInlinedBlock(Stream &out_stream, Block *block) { if (!block) return; Block *inline_block = block->GetContainingInlinedBlock(); if (inline_block) { if (const InlineFunctionInfo *inline_info = inline_block->GetInlinedFunctionInfo()) { out_stream.PutCString(" [inlined] "); inline_info->GetName().Dump(&out_stream); } } } bool FormatEntity::FormatStringRef(const llvm::StringRef &format_str, Stream &s, const SymbolContext *sc, const ExecutionContext *exe_ctx, const Address *addr, ValueObject *valobj, bool function_changed, bool initial_function) { if (!format_str.empty()) { FormatEntity::Entry root; Status error = FormatEntity::Parse(format_str, root); if (error.Success()) { return FormatEntity::Format(root, s, sc, exe_ctx, addr, valobj, function_changed, initial_function); } } return false; } bool FormatEntity::FormatCString(const char *format, Stream &s, const SymbolContext *sc, const ExecutionContext *exe_ctx, const Address *addr, ValueObject *valobj, bool function_changed, bool initial_function) { if (format && format[0]) { FormatEntity::Entry root; llvm::StringRef format_str(format); Status error = FormatEntity::Parse(format_str, root); if (error.Success()) { return FormatEntity::Format(root, s, sc, exe_ctx, addr, valobj, function_changed, initial_function); } } return false; } bool FormatEntity::Format(const Entry &entry, Stream &s, const SymbolContext *sc, const ExecutionContext *exe_ctx, const Address *addr, ValueObject *valobj, bool function_changed, bool initial_function) { switch (entry.type) { case Entry::Type::Invalid: case Entry::Type::ParentNumber: // Only used for // FormatEntity::Entry::Definition encoding case Entry::Type::ParentString: // Only used for // FormatEntity::Entry::Definition encoding return false; case Entry::Type::EscapeCode: if (exe_ctx) { if (Target *target = exe_ctx->GetTargetPtr()) { Debugger &debugger = target->GetDebugger(); if (debugger.GetUseColor()) { s.PutCString(entry.string); } } } // Always return true, so colors being disabled is transparent. return true; case Entry::Type::Root: for (const auto &child : entry.children) { if (!Format(child, s, sc, exe_ctx, addr, valobj, function_changed, initial_function)) { return false; // If any item of root fails, then the formatting fails } } return true; // Only return true if all items succeeded case Entry::Type::String: s.PutCString(entry.string); return true; case Entry::Type::Scope: { StreamString scope_stream; bool success = false; for (const auto &child : entry.children) { success = Format(child, scope_stream, sc, exe_ctx, addr, valobj, function_changed, initial_function); if (!success) break; } // Only if all items in a scope succeed, then do we print the output into // the main stream if (success) s.Write(scope_stream.GetString().data(), scope_stream.GetString().size()); } return true; // Scopes always successfully print themselves case Entry::Type::Variable: case Entry::Type::VariableSynthetic: case Entry::Type::ScriptVariable: case Entry::Type::ScriptVariableSynthetic: return DumpValue(s, sc, exe_ctx, entry, valobj); case Entry::Type::AddressFile: case Entry::Type::AddressLoad: case Entry::Type::AddressLoadOrFile: return ( addr != nullptr && addr->IsValid() && DumpAddressAndContent(s, sc, exe_ctx, *addr, entry.type == Entry::Type::AddressLoadOrFile)); case Entry::Type::ProcessID: if (exe_ctx) { Process *process = exe_ctx->GetProcessPtr(); if (process) { const char *format = "%" PRIu64; if (!entry.printf_format.empty()) format = entry.printf_format.c_str(); s.Printf(format, process->GetID()); return true; } } return false; case Entry::Type::ProcessFile: if (exe_ctx) { Process *process = exe_ctx->GetProcessPtr(); if (process) { Module *exe_module = process->GetTarget().GetExecutableModulePointer(); if (exe_module) { if (DumpFile(s, exe_module->GetFileSpec(), (FileKind)entry.number)) return true; } } } return false; case Entry::Type::ScriptProcess: if (exe_ctx) { Process *process = exe_ctx->GetProcessPtr(); if (process) return RunScriptFormatKeyword(s, sc, exe_ctx, process, entry.string.c_str()); } return false; case Entry::Type::ThreadID: if (exe_ctx) { Thread *thread = exe_ctx->GetThreadPtr(); if (thread) { const char *format = "0x%4.4" PRIx64; if (!entry.printf_format.empty()) { // Watch for the special "tid" format... if (entry.printf_format == "tid") { // TODO(zturner): Rather than hardcoding this to be platform // specific, it should be controlled by a setting and the default // value of the setting can be different depending on the platform. Target &target = thread->GetProcess()->GetTarget(); ArchSpec arch(target.GetArchitecture()); llvm::Triple::OSType ostype = arch.IsValid() ? arch.GetTriple().getOS() : llvm::Triple::UnknownOS; if (ostype == llvm::Triple::FreeBSD || ostype == llvm::Triple::Linux || ostype == llvm::Triple::NetBSD || ostype == llvm::Triple::OpenBSD) { format = "%" PRIu64; } } else { format = entry.printf_format.c_str(); } } s.Printf(format, thread->GetID()); return true; } } return false; case Entry::Type::ThreadProtocolID: if (exe_ctx) { Thread *thread = exe_ctx->GetThreadPtr(); if (thread) { const char *format = "0x%4.4" PRIx64; if (!entry.printf_format.empty()) format = entry.printf_format.c_str(); s.Printf(format, thread->GetProtocolID()); return true; } } return false; case Entry::Type::ThreadIndexID: if (exe_ctx) { Thread *thread = exe_ctx->GetThreadPtr(); if (thread) { const char *format = "%" PRIu32; if (!entry.printf_format.empty()) format = entry.printf_format.c_str(); s.Printf(format, thread->GetIndexID()); return true; } } return false; case Entry::Type::ThreadName: if (exe_ctx) { Thread *thread = exe_ctx->GetThreadPtr(); if (thread) { const char *cstr = thread->GetName(); if (cstr && cstr[0]) { s.PutCString(cstr); return true; } } } return false; case Entry::Type::ThreadQueue: if (exe_ctx) { Thread *thread = exe_ctx->GetThreadPtr(); if (thread) { const char *cstr = thread->GetQueueName(); if (cstr && cstr[0]) { s.PutCString(cstr); return true; } } } return false; case Entry::Type::ThreadStopReason: if (exe_ctx) { if (Thread *thread = exe_ctx->GetThreadPtr()) { std::string stop_description = thread->GetStopDescription(); if (!stop_description.empty()) { s.PutCString(stop_description); return true; } } } return false; case Entry::Type::ThreadStopReasonRaw: if (exe_ctx) { if (Thread *thread = exe_ctx->GetThreadPtr()) { std::string stop_description = thread->GetStopDescriptionRaw(); if (!stop_description.empty()) { s.PutCString(stop_description); return true; } } } return false; case Entry::Type::ThreadReturnValue: if (exe_ctx) { Thread *thread = exe_ctx->GetThreadPtr(); if (thread) { StopInfoSP stop_info_sp = thread->GetStopInfo(); if (stop_info_sp && stop_info_sp->IsValid()) { ValueObjectSP return_valobj_sp = StopInfo::GetReturnValueObject(stop_info_sp); if (return_valobj_sp) { if (llvm::Error error = return_valobj_sp->Dump(s)) { s << "error: " << toString(std::move(error)); return false; } return true; } } } } return false; case Entry::Type::ThreadCompletedExpression: if (exe_ctx) { Thread *thread = exe_ctx->GetThreadPtr(); if (thread) { StopInfoSP stop_info_sp = thread->GetStopInfo(); if (stop_info_sp && stop_info_sp->IsValid()) { ExpressionVariableSP expression_var_sp = StopInfo::GetExpressionVariable(stop_info_sp); if (expression_var_sp && expression_var_sp->GetValueObject()) { if (llvm::Error error = expression_var_sp->GetValueObject()->Dump(s)) { s << "error: " << toString(std::move(error)); return false; } return true; } } } } return false; case Entry::Type::ScriptThread: if (exe_ctx) { Thread *thread = exe_ctx->GetThreadPtr(); if (thread) return RunScriptFormatKeyword(s, sc, exe_ctx, thread, entry.string.c_str()); } return false; case Entry::Type::ThreadInfo: if (exe_ctx) { Thread *thread = exe_ctx->GetThreadPtr(); if (thread) { StructuredData::ObjectSP object_sp = thread->GetExtendedInfo(); if (object_sp && object_sp->GetType() == eStructuredDataTypeDictionary) { if (FormatThreadExtendedInfoRecurse(entry, object_sp, sc, exe_ctx, s)) return true; } } } return false; case Entry::Type::TargetArch: if (exe_ctx) { Target *target = exe_ctx->GetTargetPtr(); if (target) { const ArchSpec &arch = target->GetArchitecture(); if (arch.IsValid()) { s.PutCString(arch.GetArchitectureName()); return true; } } } return false; case Entry::Type::ScriptTarget: if (exe_ctx) { Target *target = exe_ctx->GetTargetPtr(); if (target) return RunScriptFormatKeyword(s, sc, exe_ctx, target, entry.string.c_str()); } return false; case Entry::Type::ModuleFile: if (sc) { Module *module = sc->module_sp.get(); if (module) { if (DumpFile(s, module->GetFileSpec(), (FileKind)entry.number)) return true; } } return false; case Entry::Type::File: if (sc) { CompileUnit *cu = sc->comp_unit; if (cu) { if (DumpFile(s, cu->GetPrimaryFile(), (FileKind)entry.number)) return true; } } return false; case Entry::Type::Lang: if (sc) { CompileUnit *cu = sc->comp_unit; if (cu) { const char *lang_name = Language::GetNameForLanguageType(cu->GetLanguage()); if (lang_name) { s.PutCString(lang_name); return true; } } } return false; case Entry::Type::FrameIndex: if (exe_ctx) { StackFrame *frame = exe_ctx->GetFramePtr(); if (frame) { const char *format = "%" PRIu32; if (!entry.printf_format.empty()) format = entry.printf_format.c_str(); s.Printf(format, frame->GetFrameIndex()); return true; } } return false; case Entry::Type::FrameRegisterPC: if (exe_ctx) { StackFrame *frame = exe_ctx->GetFramePtr(); if (frame) { const Address &pc_addr = frame->GetFrameCodeAddress(); if (pc_addr.IsValid()) { if (DumpAddressAndContent(s, sc, exe_ctx, pc_addr, false)) return true; } } } return false; case Entry::Type::FrameRegisterSP: if (exe_ctx) { StackFrame *frame = exe_ctx->GetFramePtr(); if (frame) { if (DumpRegister(s, frame, eRegisterKindGeneric, LLDB_REGNUM_GENERIC_SP, (lldb::Format)entry.number)) return true; } } return false; case Entry::Type::FrameRegisterFP: if (exe_ctx) { StackFrame *frame = exe_ctx->GetFramePtr(); if (frame) { if (DumpRegister(s, frame, eRegisterKindGeneric, LLDB_REGNUM_GENERIC_FP, (lldb::Format)entry.number)) return true; } } return false; case Entry::Type::FrameRegisterFlags: if (exe_ctx) { StackFrame *frame = exe_ctx->GetFramePtr(); if (frame) { if (DumpRegister(s, frame, eRegisterKindGeneric, LLDB_REGNUM_GENERIC_FLAGS, (lldb::Format)entry.number)) return true; } } return false; case Entry::Type::FrameNoDebug: if (exe_ctx) { StackFrame *frame = exe_ctx->GetFramePtr(); if (frame) { return !frame->HasDebugInformation(); } } return true; case Entry::Type::FrameRegisterByName: if (exe_ctx) { StackFrame *frame = exe_ctx->GetFramePtr(); if (frame) { if (DumpRegister(s, frame, entry.string.c_str(), (lldb::Format)entry.number)) return true; } } return false; case Entry::Type::FrameIsArtificial: { if (exe_ctx) if (StackFrame *frame = exe_ctx->GetFramePtr()) return frame->IsArtificial(); return false; } case Entry::Type::ScriptFrame: if (exe_ctx) { StackFrame *frame = exe_ctx->GetFramePtr(); if (frame) return RunScriptFormatKeyword(s, sc, exe_ctx, frame, entry.string.c_str()); } return false; case Entry::Type::FunctionID: if (sc) { if (sc->function) { s.Printf("function{0x%8.8" PRIx64 "}", sc->function->GetID()); return true; } else if (sc->symbol) { s.Printf("symbol[%u]", sc->symbol->GetID()); return true; } } return false; case Entry::Type::FunctionDidChange: return function_changed; case Entry::Type::FunctionInitialFunction: return initial_function; case Entry::Type::FunctionName: { if (!sc) return false; Language *language_plugin = nullptr; bool language_plugin_handled = false; StreamString ss; if (sc->function) language_plugin = Language::FindPlugin(sc->function->GetLanguage()); else if (sc->symbol) language_plugin = Language::FindPlugin(sc->symbol->GetLanguage()); if (language_plugin) language_plugin_handled = language_plugin->GetFunctionDisplayName( sc, exe_ctx, Language::FunctionNameRepresentation::eName, ss); if (language_plugin_handled) { s << ss.GetString(); return true; } else { const char *name = nullptr; if (sc->function) name = sc->function->GetName().AsCString(nullptr); else if (sc->symbol) name = sc->symbol->GetName().AsCString(nullptr); if (name) { s.PutCString(name); FormatInlinedBlock(s, sc->block); return true; } } } return false; case Entry::Type::FunctionNameNoArgs: { if (!sc) return false; Language *language_plugin = nullptr; bool language_plugin_handled = false; StreamString ss; if (sc->function) language_plugin = Language::FindPlugin(sc->function->GetLanguage()); else if (sc->symbol) language_plugin = Language::FindPlugin(sc->symbol->GetLanguage()); if (language_plugin) language_plugin_handled = language_plugin->GetFunctionDisplayName( sc, exe_ctx, Language::FunctionNameRepresentation::eNameWithNoArgs, ss); if (language_plugin_handled) { s << ss.GetString(); return true; } else { ConstString name; if (sc->function) name = sc->function->GetNameNoArguments(); else if (sc->symbol) name = sc->symbol->GetNameNoArguments(); if (name) { s.PutCString(name.GetCString()); FormatInlinedBlock(s, sc->block); return true; } } } return false; case Entry::Type::FunctionNameWithArgs: { if (!sc) return false; Language *language_plugin = nullptr; bool language_plugin_handled = false; StreamString ss; if (sc->function) language_plugin = Language::FindPlugin(sc->function->GetLanguage()); else if (sc->symbol) language_plugin = Language::FindPlugin(sc->symbol->GetLanguage()); if (language_plugin) language_plugin_handled = language_plugin->GetFunctionDisplayName( sc, exe_ctx, Language::FunctionNameRepresentation::eNameWithArgs, ss); if (language_plugin_handled) { s << ss.GetString(); return true; } else { // Print the function name with arguments in it if (sc->function) { ExecutionContextScope *exe_scope = exe_ctx ? exe_ctx->GetBestExecutionContextScope() : nullptr; const char *cstr = sc->function->GetName().AsCString(nullptr); if (cstr) { const InlineFunctionInfo *inline_info = nullptr; VariableListSP variable_list_sp; bool get_function_vars = true; if (sc->block) { Block *inline_block = sc->block->GetContainingInlinedBlock(); if (inline_block) { get_function_vars = false; inline_info = inline_block->GetInlinedFunctionInfo(); if (inline_info) variable_list_sp = inline_block->GetBlockVariableList(true); } } if (get_function_vars) { variable_list_sp = sc->function->GetBlock(true).GetBlockVariableList(true); } if (inline_info) { s.PutCString(cstr); s.PutCString(" [inlined] "); cstr = inline_info->GetName().GetCString(); } VariableList args; if (variable_list_sp) variable_list_sp->AppendVariablesWithScope( eValueTypeVariableArgument, args); if (args.GetSize() > 0) { PrettyPrintFunctionNameWithArgs(s, cstr, exe_scope, args); } else { s.PutCString(cstr); } return true; } } else if (sc->symbol) { const char *cstr = sc->symbol->GetName().AsCString(nullptr); if (cstr) { s.PutCString(cstr); return true; } } } } return false; case Entry::Type::FunctionMangledName: { if (!sc) return false; const char *name = nullptr; if (sc->symbol) name = sc->symbol->GetMangled().GetName(Mangled::ePreferMangled).AsCString(); else if (sc->function) name = sc->function->GetMangled() .GetName(Mangled::ePreferMangled) .AsCString(); if (!name) return false; s.PutCString(name); FormatInlinedBlock(s, sc->block); return true; } case Entry::Type::FunctionAddrOffset: if (addr) { if (DumpAddressOffsetFromFunction(s, sc, exe_ctx, *addr, false, false, false)) return true; } return false; case Entry::Type::FunctionAddrOffsetConcrete: if (addr) { if (DumpAddressOffsetFromFunction(s, sc, exe_ctx, *addr, true, true, true)) return true; } return false; case Entry::Type::FunctionLineOffset: if (sc) return (DumpAddressOffsetFromFunction( s, sc, exe_ctx, sc->line_entry.range.GetBaseAddress(), false, false, false)); return false; case Entry::Type::FunctionPCOffset: if (exe_ctx) { StackFrame *frame = exe_ctx->GetFramePtr(); if (frame) { if (DumpAddressOffsetFromFunction(s, sc, exe_ctx, frame->GetFrameCodeAddress(), false, false, false)) return true; } } return false; case Entry::Type::FunctionChanged: return function_changed; case Entry::Type::FunctionIsOptimized: { bool is_optimized = false; if (sc && sc->function && sc->function->GetIsOptimized()) { is_optimized = true; } return is_optimized; } case Entry::Type::FunctionInitial: return initial_function; case Entry::Type::LineEntryFile: if (sc && sc->line_entry.IsValid()) { Module *module = sc->module_sp.get(); if (module) { if (DumpFile(s, sc->line_entry.GetFile(), (FileKind)entry.number)) return true; } } return false; case Entry::Type::LineEntryLineNumber: if (sc && sc->line_entry.IsValid()) { const char *format = "%" PRIu32; if (!entry.printf_format.empty()) format = entry.printf_format.c_str(); s.Printf(format, sc->line_entry.line); return true; } return false; case Entry::Type::LineEntryColumn: if (sc && sc->line_entry.IsValid() && sc->line_entry.column) { const char *format = "%" PRIu32; if (!entry.printf_format.empty()) format = entry.printf_format.c_str(); s.Printf(format, sc->line_entry.column); return true; } return false; case Entry::Type::LineEntryStartAddress: case Entry::Type::LineEntryEndAddress: if (sc && sc->line_entry.range.GetBaseAddress().IsValid()) { Address addr = sc->line_entry.range.GetBaseAddress(); if (entry.type == Entry::Type::LineEntryEndAddress) addr.Slide(sc->line_entry.range.GetByteSize()); if (DumpAddressAndContent(s, sc, exe_ctx, addr, false)) return true; } return false; case Entry::Type::CurrentPCArrow: if (addr && exe_ctx && exe_ctx->GetFramePtr()) { RegisterContextSP reg_ctx = exe_ctx->GetFramePtr()->GetRegisterContextSP(); if (reg_ctx) { addr_t pc_loadaddr = reg_ctx->GetPC(); if (pc_loadaddr != LLDB_INVALID_ADDRESS) { Address pc; pc.SetLoadAddress(pc_loadaddr, exe_ctx->GetTargetPtr()); if (pc == *addr) { s.Printf("-> "); return true; } } } s.Printf(" "); return true; } return false; } return false; } static bool DumpCommaSeparatedChildEntryNames(Stream &s, const Definition *parent) { if (parent->children) { const size_t n = parent->num_children; for (size_t i = 0; i < n; ++i) { if (i > 0) s.PutCString(", "); s.Printf("\"%s\"", parent->children[i].name); } return true; } return false; } static Status ParseEntry(const llvm::StringRef &format_str, const Definition *parent, FormatEntity::Entry &entry) { Status error; const size_t sep_pos = format_str.find_first_of(".[:"); const char sep_char = (sep_pos == llvm::StringRef::npos) ? '\0' : format_str[sep_pos]; llvm::StringRef key = format_str.substr(0, sep_pos); const size_t n = parent->num_children; for (size_t i = 0; i < n; ++i) { const Definition *entry_def = parent->children + i; if (key == entry_def->name || entry_def->name[0] == '*') { llvm::StringRef value; if (sep_char) value = format_str.substr(sep_pos + (entry_def->keep_separator ? 0 : 1)); switch (entry_def->type) { case FormatEntity::Entry::Type::ParentString: entry.string = format_str.str(); return error; // Success case FormatEntity::Entry::Type::ParentNumber: entry.number = entry_def->data; return error; // Success case FormatEntity::Entry::Type::EscapeCode: entry.type = entry_def->type; entry.string = entry_def->string; return error; // Success default: entry.type = entry_def->type; break; } if (value.empty()) { if (entry_def->type == FormatEntity::Entry::Type::Invalid) { if (entry_def->children) { StreamString error_strm; error_strm.Printf("'%s' can't be specified on its own, you must " "access one of its children: ", entry_def->name); DumpCommaSeparatedChildEntryNames(error_strm, entry_def); error.SetErrorStringWithFormat("%s", error_strm.GetData()); } else if (sep_char == ':') { // Any value whose separator is a with a ':' means this value has a // string argument that needs to be stored in the entry (like // "${script.var:}"). In this case the string value is the empty // string which is ok. } else { error.SetErrorStringWithFormat("%s", "invalid entry definitions"); } } } else { if (entry_def->children) { error = ParseEntry(value, entry_def, entry); } else if (sep_char == ':') { // Any value whose separator is a with a ':' means this value has a // string argument that needs to be stored in the entry (like // "${script.var:modulename.function}") entry.string = value.str(); } else { error.SetErrorStringWithFormat( "'%s' followed by '%s' but it has no children", key.str().c_str(), value.str().c_str()); } } return error; } } StreamString error_strm; if (parent->type == FormatEntity::Entry::Type::Root) error_strm.Printf( "invalid top level item '%s'. Valid top level items are: ", key.str().c_str()); else error_strm.Printf("invalid member '%s' in '%s'. Valid members are: ", key.str().c_str(), parent->name); DumpCommaSeparatedChildEntryNames(error_strm, parent); error.SetErrorStringWithFormat("%s", error_strm.GetData()); return error; } static const Definition *FindEntry(const llvm::StringRef &format_str, const Definition *parent, llvm::StringRef &remainder) { Status error; std::pair p = format_str.split('.'); const size_t n = parent->num_children; for (size_t i = 0; i < n; ++i) { const Definition *entry_def = parent->children + i; if (p.first == entry_def->name || entry_def->name[0] == '*') { if (p.second.empty()) { if (format_str.back() == '.') remainder = format_str.drop_front(format_str.size() - 1); else remainder = llvm::StringRef(); // Exact match return entry_def; } else { if (entry_def->children) { return FindEntry(p.second, entry_def, remainder); } else { remainder = p.second; return entry_def; } } } } remainder = format_str; return parent; } static Status ParseInternal(llvm::StringRef &format, Entry &parent_entry, uint32_t depth) { Status error; while (!format.empty() && error.Success()) { const size_t non_special_chars = format.find_first_of("${}\\"); if (non_special_chars == llvm::StringRef::npos) { // No special characters, just string bytes so add them and we are done parent_entry.AppendText(format); return error; } if (non_special_chars > 0) { // We have a special character, so add all characters before these as a // plain string parent_entry.AppendText(format.substr(0, non_special_chars)); format = format.drop_front(non_special_chars); } switch (format[0]) { case '\0': return error; case '{': { format = format.drop_front(); // Skip the '{' Entry scope_entry(Entry::Type::Scope); error = ParseInternal(format, scope_entry, depth + 1); if (error.Fail()) return error; parent_entry.AppendEntry(std::move(scope_entry)); } break; case '}': if (depth == 0) error.SetErrorString("unmatched '}' character"); else format = format .drop_front(); // Skip the '}' as we are at the end of the scope return error; case '\\': { format = format.drop_front(); // Skip the '\' character if (format.empty()) { error.SetErrorString( "'\\' character was not followed by another character"); return error; } const char desens_char = format[0]; format = format.drop_front(); // Skip the desensitized char character switch (desens_char) { case 'a': parent_entry.AppendChar('\a'); break; case 'b': parent_entry.AppendChar('\b'); break; case 'f': parent_entry.AppendChar('\f'); break; case 'n': parent_entry.AppendChar('\n'); break; case 'r': parent_entry.AppendChar('\r'); break; case 't': parent_entry.AppendChar('\t'); break; case 'v': parent_entry.AppendChar('\v'); break; case '\'': parent_entry.AppendChar('\''); break; case '\\': parent_entry.AppendChar('\\'); break; case '0': // 1 to 3 octal chars { // Make a string that can hold onto the initial zero char, up to 3 // octal digits, and a terminating NULL. char oct_str[5] = {0, 0, 0, 0, 0}; int i; for (i = 0; (format[i] >= '0' && format[i] <= '7') && i < 4; ++i) oct_str[i] = format[i]; // We don't want to consume the last octal character since the main // for loop will do this for us, so we advance p by one less than i // (even if i is zero) format = format.drop_front(i); unsigned long octal_value = ::strtoul(oct_str, nullptr, 8); if (octal_value <= UINT8_MAX) { parent_entry.AppendChar((char)octal_value); } else { error.SetErrorString("octal number is larger than a single byte"); return error; } } break; case 'x': // hex number in the format if (isxdigit(format[0])) { // Make a string that can hold onto two hex chars plus a // NULL terminator char hex_str[3] = {0, 0, 0}; hex_str[0] = format[0]; format = format.drop_front(); if (isxdigit(format[0])) { hex_str[1] = format[0]; format = format.drop_front(); } unsigned long hex_value = strtoul(hex_str, nullptr, 16); if (hex_value <= UINT8_MAX) { parent_entry.AppendChar((char)hex_value); } else { error.SetErrorString("hex number is larger than a single byte"); return error; } } else { parent_entry.AppendChar(desens_char); } break; default: // Just desensitize any other character by just printing what came // after the '\' parent_entry.AppendChar(desens_char); break; } } break; case '$': format = format.drop_front(); // Skip the '$' if (format.empty() || format.front() != '{') { // Print '$' when not followed by '{'. parent_entry.AppendText("$"); } else { format = format.drop_front(); // Skip the '{' llvm::StringRef variable, variable_format; error = FormatEntity::ExtractVariableInfo(format, variable, variable_format); if (error.Fail()) return error; bool verify_is_thread_id = false; Entry entry; if (!variable_format.empty()) { entry.printf_format = variable_format.str(); // If the format contains a '%' we are going to assume this is a // printf style format. So if you want to format your thread ID // using "0x%llx" you can use: ${thread.id%0x%llx} // // If there is no '%' in the format, then it is assumed to be a // LLDB format name, or one of the extended formats specified in // the switch statement below. if (entry.printf_format.find('%') == std::string::npos) { bool clear_printf = false; if (entry.printf_format.size() == 1) { switch (entry.printf_format[0]) { case '@': // if this is an @ sign, print ObjC description entry.number = ValueObject:: eValueObjectRepresentationStyleLanguageSpecific; clear_printf = true; break; case 'V': // if this is a V, print the value using the default // format entry.number = ValueObject::eValueObjectRepresentationStyleValue; clear_printf = true; break; case 'L': // if this is an L, print the location of the value entry.number = ValueObject::eValueObjectRepresentationStyleLocation; clear_printf = true; break; case 'S': // if this is an S, print the summary after all entry.number = ValueObject::eValueObjectRepresentationStyleSummary; clear_printf = true; break; case '#': // if this is a '#', print the number of children entry.number = ValueObject::eValueObjectRepresentationStyleChildrenCount; clear_printf = true; break; case 'T': // if this is a 'T', print the type entry.number = ValueObject::eValueObjectRepresentationStyleType; clear_printf = true; break; case 'N': // if this is a 'N', print the name entry.number = ValueObject::eValueObjectRepresentationStyleName; clear_printf = true; break; case '>': // if this is a '>', print the expression path entry.number = ValueObject::eValueObjectRepresentationStyleExpressionPath; clear_printf = true; break; } } if (entry.number == 0) { if (FormatManager::GetFormatFromCString( entry.printf_format.c_str(), entry.fmt)) { clear_printf = true; } else if (entry.printf_format == "tid") { verify_is_thread_id = true; } else { error.SetErrorStringWithFormat("invalid format: '%s'", entry.printf_format.c_str()); return error; } } // Our format string turned out to not be a printf style format // so lets clear the string if (clear_printf) entry.printf_format.clear(); } } // Check for dereferences if (variable[0] == '*') { entry.deref = true; variable = variable.drop_front(); } error = ParseEntry(variable, &g_root, entry); if (error.Fail()) return error; llvm::StringRef entry_string(entry.string); if (entry_string.contains(':')) { auto [_, llvm_format] = entry_string.split(':'); if (!llvm_format.empty() && !LLVMFormatPattern.match(llvm_format)) { error.SetErrorStringWithFormat("invalid llvm format: '%s'", llvm_format.data()); return error; } } if (verify_is_thread_id) { if (entry.type != Entry::Type::ThreadID && entry.type != Entry::Type::ThreadProtocolID) { error.SetErrorString("the 'tid' format can only be used on " "${thread.id} and ${thread.protocol_id}"); } } switch (entry.type) { case Entry::Type::Variable: case Entry::Type::VariableSynthetic: if (entry.number == 0) { if (entry.string.empty()) entry.number = ValueObject::eValueObjectRepresentationStyleValue; else entry.number = ValueObject::eValueObjectRepresentationStyleSummary; } break; default: // Make sure someone didn't try to dereference anything but ${var} // or ${svar} if (entry.deref) { error.SetErrorStringWithFormat( "${%s} can't be dereferenced, only ${var} and ${svar} can.", variable.str().c_str()); return error; } } parent_entry.AppendEntry(std::move(entry)); } break; } } return error; } Status FormatEntity::ExtractVariableInfo(llvm::StringRef &format_str, llvm::StringRef &variable_name, llvm::StringRef &variable_format) { Status error; variable_name = llvm::StringRef(); variable_format = llvm::StringRef(); const size_t paren_pos = format_str.find('}'); if (paren_pos != llvm::StringRef::npos) { const size_t percent_pos = format_str.find('%'); if (percent_pos < paren_pos) { if (percent_pos > 0) { if (percent_pos > 1) variable_name = format_str.substr(0, percent_pos); variable_format = format_str.substr(percent_pos + 1, paren_pos - (percent_pos + 1)); } } else { variable_name = format_str.substr(0, paren_pos); } // Strip off elements and the formatting and the trailing '}' format_str = format_str.substr(paren_pos + 1); } else { error.SetErrorStringWithFormat( "missing terminating '}' character for '${%s'", format_str.str().c_str()); } return error; } bool FormatEntity::FormatFileSpec(const FileSpec &file_spec, Stream &s, llvm::StringRef variable_name, llvm::StringRef variable_format) { if (variable_name.empty() || variable_name == ".fullpath") { file_spec.Dump(s.AsRawOstream()); return true; } else if (variable_name == ".basename") { s.PutCString(file_spec.GetFilename().GetStringRef()); return true; } else if (variable_name == ".dirname") { s.PutCString(file_spec.GetFilename().GetStringRef()); return true; } return false; } static std::string MakeMatch(const llvm::StringRef &prefix, const char *suffix) { std::string match(prefix.str()); match.append(suffix); return match; } static void AddMatches(const Definition *def, const llvm::StringRef &prefix, const llvm::StringRef &match_prefix, StringList &matches) { const size_t n = def->num_children; if (n > 0) { for (size_t i = 0; i < n; ++i) { std::string match = prefix.str(); if (match_prefix.empty()) matches.AppendString(MakeMatch(prefix, def->children[i].name)); else if (strncmp(def->children[i].name, match_prefix.data(), match_prefix.size()) == 0) matches.AppendString( MakeMatch(prefix, def->children[i].name + match_prefix.size())); } } } void FormatEntity::AutoComplete(CompletionRequest &request) { llvm::StringRef str = request.GetCursorArgumentPrefix(); const size_t dollar_pos = str.rfind('$'); if (dollar_pos == llvm::StringRef::npos) return; // Hitting TAB after $ at the end of the string add a "{" if (dollar_pos == str.size() - 1) { std::string match = str.str(); match.append("{"); request.AddCompletion(match); return; } if (str[dollar_pos + 1] != '{') return; const size_t close_pos = str.find('}', dollar_pos + 2); if (close_pos != llvm::StringRef::npos) return; const size_t format_pos = str.find('%', dollar_pos + 2); if (format_pos != llvm::StringRef::npos) return; llvm::StringRef partial_variable(str.substr(dollar_pos + 2)); if (partial_variable.empty()) { // Suggest all top level entities as we are just past "${" StringList new_matches; AddMatches(&g_root, str, llvm::StringRef(), new_matches); request.AddCompletions(new_matches); return; } // We have a partially specified variable, find it llvm::StringRef remainder; const Definition *entry_def = FindEntry(partial_variable, &g_root, remainder); if (!entry_def) return; const size_t n = entry_def->num_children; if (remainder.empty()) { // Exact match if (n > 0) { // "${thread.info" request.AddCompletion(MakeMatch(str, ".")); } else { // "${thread.id" request.AddCompletion(MakeMatch(str, "}")); } } else if (remainder == ".") { // "${thread." StringList new_matches; AddMatches(entry_def, str, llvm::StringRef(), new_matches); request.AddCompletions(new_matches); } else { // We have a partial match // "${thre" StringList new_matches; AddMatches(entry_def, str, remainder, new_matches); request.AddCompletions(new_matches); } } void FormatEntity::PrettyPrintFunctionArguments( Stream &out_stream, VariableList const &args, ExecutionContextScope *exe_scope) { const size_t num_args = args.GetSize(); for (size_t arg_idx = 0; arg_idx < num_args; ++arg_idx) { std::string buffer; VariableSP var_sp(args.GetVariableAtIndex(arg_idx)); ValueObjectSP var_value_sp(ValueObjectVariable::Create(exe_scope, var_sp)); StreamString ss; llvm::StringRef var_representation; const char *var_name = var_value_sp->GetName().GetCString(); if (var_value_sp->GetCompilerType().IsValid()) { if (exe_scope && exe_scope->CalculateTarget()) var_value_sp = var_value_sp->GetQualifiedRepresentationIfAvailable( exe_scope->CalculateTarget() ->TargetProperties::GetPreferDynamicValue(), exe_scope->CalculateTarget() ->TargetProperties::GetEnableSyntheticValue()); if (var_value_sp->GetCompilerType().IsAggregateType() && DataVisualization::ShouldPrintAsOneLiner(*var_value_sp)) { static StringSummaryFormat format(TypeSummaryImpl::Flags() .SetHideItemNames(false) .SetShowMembersOneLiner(true), ""); format.FormatObject(var_value_sp.get(), buffer, TypeSummaryOptions()); var_representation = buffer; } else var_value_sp->DumpPrintableRepresentation( ss, ValueObject::ValueObjectRepresentationStyle:: eValueObjectRepresentationStyleSummary, eFormatDefault, ValueObject::PrintableRepresentationSpecialCases::eAllow, false); } if (!ss.GetString().empty()) var_representation = ss.GetString(); if (arg_idx > 0) out_stream.PutCString(", "); if (var_value_sp->GetError().Success()) { if (!var_representation.empty()) out_stream.Printf("%s=%s", var_name, var_representation.str().c_str()); else out_stream.Printf("%s=%s at %s", var_name, var_value_sp->GetTypeName().GetCString(), var_value_sp->GetLocationAsCString()); } else out_stream.Printf("%s=", var_name); } } Status FormatEntity::Parse(const llvm::StringRef &format_str, Entry &entry) { entry.Clear(); entry.type = Entry::Type::Root; llvm::StringRef modifiable_format(format_str); return ParseInternal(modifiable_format, entry, 0); }