//===-- ValueObjectPrinter.cpp -------------------------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "lldb/DataFormatters/ValueObjectPrinter.h" // C Includes // C++ Includes // Other libraries and framework includes // Project includes #include "lldb/Core/Debugger.h" #include "lldb/DataFormatters/DataVisualization.h" #include "lldb/Interpreter/CommandInterpreter.h" #include "lldb/Target/Target.h" using namespace lldb; using namespace lldb_private; DumpValueObjectOptions::DumpValueObjectOptions (ValueObject& valobj) : DumpValueObjectOptions() { m_use_dynamic = valobj.GetDynamicValueType(); m_use_synthetic = valobj.IsSynthetic(); } ValueObjectPrinter::ValueObjectPrinter (ValueObject* valobj, Stream* s) { if (valobj) { DumpValueObjectOptions options(*valobj); Init (valobj,s,options,options.m_max_ptr_depth,0); } else { DumpValueObjectOptions options; Init (valobj,s,options,options.m_max_ptr_depth,0); } } ValueObjectPrinter::ValueObjectPrinter (ValueObject* valobj, Stream* s, const DumpValueObjectOptions& options) { Init(valobj,s,options,options.m_max_ptr_depth,0); } ValueObjectPrinter::ValueObjectPrinter (ValueObject* valobj, Stream* s, const DumpValueObjectOptions& options, uint32_t ptr_depth, uint32_t curr_depth) { Init(valobj,s,options,ptr_depth,curr_depth); } void ValueObjectPrinter::Init (ValueObject* valobj, Stream* s, const DumpValueObjectOptions& options, uint32_t ptr_depth, uint32_t curr_depth) { m_orig_valobj = valobj; m_valobj = nullptr; m_stream = s; this->options = options; m_ptr_depth = ptr_depth; m_curr_depth = curr_depth; assert (m_orig_valobj && "cannot print a NULL ValueObject"); assert (m_stream && "cannot print to a NULL Stream"); m_should_print = eLazyBoolCalculate; m_is_nil = eLazyBoolCalculate; m_is_ptr = eLazyBoolCalculate; m_is_ref = eLazyBoolCalculate; m_is_aggregate = eLazyBoolCalculate; m_summary_formatter = {nullptr,false}; m_value.assign(""); m_summary.assign(""); m_error.assign(""); } bool ValueObjectPrinter::PrintValueObject () { if (!GetMostSpecializedValue () || m_valobj == nullptr) return false; if (ShouldPrintValueObject()) { PrintValidationMarkerIfNeeded(); PrintLocationIfNeeded(); m_stream->Indent(); bool show_type = PrintTypeIfNeeded(); PrintNameIfNeeded(show_type); } bool value_printed = false; bool summary_printed = false; bool val_summary_ok = PrintValueAndSummaryIfNeeded (value_printed,summary_printed); if (val_summary_ok) PrintChildrenIfNeeded (value_printed, summary_printed); else m_stream->EOL(); PrintValidationErrorIfNeeded(); return true; } bool ValueObjectPrinter::GetMostSpecializedValue () { if (m_valobj) return true; bool update_success = m_orig_valobj->UpdateValueIfNeeded (true); if (!update_success) { m_valobj = m_orig_valobj; } else { if (m_orig_valobj->IsDynamic()) { if (options.m_use_dynamic == eNoDynamicValues) { ValueObject *static_value = m_orig_valobj->GetStaticValue().get(); if (static_value) m_valobj = static_value; else m_valobj = m_orig_valobj; } else m_valobj = m_orig_valobj; } else { if (options.m_use_dynamic != eNoDynamicValues) { ValueObject *dynamic_value = m_orig_valobj->GetDynamicValue(options.m_use_dynamic).get(); if (dynamic_value) m_valobj = dynamic_value; else m_valobj = m_orig_valobj; } else m_valobj = m_orig_valobj; } if (m_valobj->IsSynthetic()) { if (options.m_use_synthetic == false) { ValueObject *non_synthetic = m_valobj->GetNonSyntheticValue().get(); if (non_synthetic) m_valobj = non_synthetic; } } else { if (options.m_use_synthetic == true) { ValueObject *synthetic = m_valobj->GetSyntheticValue().get(); if (synthetic) m_valobj = synthetic; } } } m_clang_type = m_valobj->GetClangType(); m_type_flags = m_clang_type.GetTypeInfo (); return true; } const char* ValueObjectPrinter::GetDescriptionForDisplay () { const char* str = m_valobj->GetObjectDescription(); if (!str) str = m_valobj->GetSummaryAsCString(); if (!str) str = m_valobj->GetValueAsCString(); return str; } const char* ValueObjectPrinter::GetRootNameForDisplay (const char* if_fail) { const char *root_valobj_name = options.m_root_valobj_name.empty() ? m_valobj->GetName().AsCString() : options.m_root_valobj_name.c_str(); return root_valobj_name ? root_valobj_name : if_fail; } bool ValueObjectPrinter::ShouldPrintValueObject () { if (m_should_print == eLazyBoolCalculate) m_should_print = (options.m_flat_output == false || m_type_flags.Test (eTypeHasValue)) ? eLazyBoolYes : eLazyBoolNo; return m_should_print == eLazyBoolYes; } bool ValueObjectPrinter::IsNil () { if (m_is_nil == eLazyBoolCalculate) m_is_nil = m_valobj->IsObjCNil() ? eLazyBoolYes : eLazyBoolNo; return m_is_nil == eLazyBoolYes; } bool ValueObjectPrinter::IsPtr () { if (m_is_ptr == eLazyBoolCalculate) m_is_ptr = m_type_flags.Test (eTypeIsPointer) ? eLazyBoolYes : eLazyBoolNo; return m_is_ptr == eLazyBoolYes; } bool ValueObjectPrinter::IsRef () { if (m_is_ref == eLazyBoolCalculate) m_is_ref = m_type_flags.Test (eTypeIsReference) ? eLazyBoolYes : eLazyBoolNo; return m_is_ref == eLazyBoolYes; } bool ValueObjectPrinter::IsAggregate () { if (m_is_aggregate == eLazyBoolCalculate) m_is_aggregate = m_type_flags.Test (eTypeHasChildren) ? eLazyBoolYes : eLazyBoolNo; return m_is_aggregate == eLazyBoolYes; } bool ValueObjectPrinter::PrintLocationIfNeeded () { if (options.m_show_location) { m_stream->Printf("%s: ", m_valobj->GetLocationAsCString()); return true; } return false; } bool ValueObjectPrinter::PrintTypeIfNeeded () { bool show_type = true; // if we are at the root-level and been asked to hide the root's type, then hide it if (m_curr_depth == 0 && options.m_hide_root_type) show_type = false; else // otherwise decide according to the usual rules (asked to show types - always at the root level) show_type = options.m_show_types || (m_curr_depth == 0 && !options.m_flat_output); if (show_type) { // Some ValueObjects don't have types (like registers sets). Only print // the type if there is one to print ConstString type_name; if (options.m_use_type_display_name) type_name = m_valobj->GetDisplayTypeName(); else type_name = m_valobj->GetQualifiedTypeName(); if (type_name) m_stream->Printf("(%s) ", type_name.GetCString()); else show_type = false; } return show_type; } bool ValueObjectPrinter::PrintNameIfNeeded (bool show_type) { if (options.m_flat_output) { // If we are showing types, also qualify the C++ base classes const bool qualify_cxx_base_classes = show_type; if (!options.m_hide_name) { m_valobj->GetExpressionPath(*m_stream, qualify_cxx_base_classes); m_stream->PutCString(" ="); return true; } } else if (!options.m_hide_name) { const char *name_cstr = GetRootNameForDisplay(""); m_stream->Printf ("%s =", name_cstr); return true; } return false; } bool ValueObjectPrinter::CheckScopeIfNeeded () { if (options.m_scope_already_checked) return true; return m_valobj->IsInScope(); } TypeSummaryImpl* ValueObjectPrinter::GetSummaryFormatter () { if (m_summary_formatter.second == false) { TypeSummaryImpl* entry = options.m_summary_sp ? options.m_summary_sp.get() : m_valobj->GetSummaryFormat().get(); if (options.m_omit_summary_depth > 0) entry = NULL; m_summary_formatter.first = entry; m_summary_formatter.second = true; } return m_summary_formatter.first; } void ValueObjectPrinter::GetValueSummaryError (std::string& value, std::string& summary, std::string& error) { if (options.m_format != eFormatDefault && options.m_format != m_valobj->GetFormat()) { m_valobj->GetValueAsCString(options.m_format, value); } else { const char* val_cstr = m_valobj->GetValueAsCString(); if (val_cstr) value.assign(val_cstr); } const char* err_cstr = m_valobj->GetError().AsCString(); if (err_cstr) error.assign(err_cstr); if (ShouldPrintValueObject()) { if (IsNil()) summary.assign("nil"); else if (options.m_omit_summary_depth == 0) { TypeSummaryImpl* entry = GetSummaryFormatter(); if (entry) m_valobj->GetSummaryAsCString(entry, summary); else { const char* sum_cstr = m_valobj->GetSummaryAsCString(); if (sum_cstr) summary.assign(sum_cstr); } } } } bool ValueObjectPrinter::PrintValueAndSummaryIfNeeded (bool& value_printed, bool& summary_printed) { bool error_printed = false; if (ShouldPrintValueObject()) { if (!CheckScopeIfNeeded()) m_error.assign("out of scope"); if (m_error.empty()) { GetValueSummaryError(m_value, m_summary, m_error); } if (m_error.size()) { error_printed = true; m_stream->Printf (" <%s>\n", m_error.c_str()); } else { // Make sure we have a value and make sure the summary didn't // specify that the value should not be printed - and do not print // the value if this thing is nil // (but show the value if the user passes a format explicitly) TypeSummaryImpl* entry = GetSummaryFormatter(); if (!IsNil() && !m_value.empty() && (entry == NULL || (entry->DoesPrintValue(m_valobj) || options.m_format != eFormatDefault) || m_summary.empty()) && !options.m_hide_value) { m_stream->Printf(" %s", m_value.c_str()); value_printed = true; } if (m_summary.size()) { m_stream->Printf(" %s", m_summary.c_str()); summary_printed = true; } } } return !error_printed; } bool ValueObjectPrinter::PrintObjectDescriptionIfNeeded (bool value_printed, bool summary_printed) { if (ShouldPrintValueObject()) { // let's avoid the overly verbose no description error for a nil thing if (options.m_use_objc && !IsNil()) { if (!options.m_hide_value || !options.m_hide_name) m_stream->Printf(" "); const char *object_desc = nullptr; if (value_printed || summary_printed) object_desc = m_valobj->GetObjectDescription(); else object_desc = GetDescriptionForDisplay(); if (object_desc && *object_desc) { m_stream->Printf("%s\n", object_desc); return true; } else if (value_printed == false && summary_printed == false) return true; else return false; } } return true; } bool ValueObjectPrinter::ShouldPrintChildren (bool is_failed_description, uint32_t& curr_ptr_depth) { const bool is_ref = IsRef (); const bool is_ptr = IsPtr (); if (is_failed_description || m_curr_depth < options.m_max_depth) { // We will show children for all concrete types. We won't show // pointer contents unless a pointer depth has been specified. // We won't reference contents unless the reference is the // root object (depth of zero). // Use a new temporary pointer depth in case we override the // current pointer depth below... if (is_ptr || is_ref) { // We have a pointer or reference whose value is an address. // Make sure that address is not NULL AddressType ptr_address_type; if (m_valobj->GetPointerValue (&ptr_address_type) == 0) return false; else if (is_ref && m_curr_depth == 0 && curr_ptr_depth == 0) { // If this is the root object (depth is zero) that we are showing // and it is a reference, and no pointer depth has been supplied // print out what it references. Don't do this at deeper depths // otherwise we can end up with infinite recursion... curr_ptr_depth = 1; } return (curr_ptr_depth > 0); } TypeSummaryImpl* entry = GetSummaryFormatter(); return (!entry || entry->DoesPrintChildren(m_valobj) || m_summary.empty()); } return false; } ValueObject* ValueObjectPrinter::GetValueObjectForChildrenGeneration () { return m_valobj; } void ValueObjectPrinter::PrintChildrenPreamble () { if (options.m_flat_output) { if (ShouldPrintValueObject()) m_stream->EOL(); } else { if (ShouldPrintValueObject()) m_stream->PutCString(IsRef () ? ": {\n" : " {\n"); m_stream->IndentMore(); } } void ValueObjectPrinter::PrintChild (ValueObjectSP child_sp, uint32_t curr_ptr_depth) { DumpValueObjectOptions child_options(options); child_options.SetFormat(options.m_format).SetSummary().SetRootValueObjectName(); child_options.SetScopeChecked(true).SetHideName(options.m_hide_name).SetHideValue(options.m_hide_value) .SetOmitSummaryDepth(child_options.m_omit_summary_depth > 1 ? child_options.m_omit_summary_depth - 1 : 0); if (child_sp.get()) { ValueObjectPrinter child_printer(child_sp.get(), m_stream, child_options, (IsPtr() || IsRef()) && curr_ptr_depth >= 1 ? curr_ptr_depth - 1 : curr_ptr_depth, m_curr_depth + 1); child_printer.PrintValueObject(); } } uint32_t ValueObjectPrinter::GetMaxNumChildrenToPrint (bool& print_dotdotdot) { ValueObject* synth_m_valobj = GetValueObjectForChildrenGeneration(); size_t num_children = synth_m_valobj->GetNumChildren(); print_dotdotdot = false; if (num_children) { const size_t max_num_children = m_valobj->GetTargetSP()->GetMaximumNumberOfChildrenToDisplay(); if (num_children > max_num_children && !options.m_ignore_cap) { print_dotdotdot = true; return max_num_children; } } return num_children; } void ValueObjectPrinter::PrintChildrenPostamble (bool print_dotdotdot) { if (!options.m_flat_output) { if (print_dotdotdot) { m_valobj->GetTargetSP()->GetDebugger().GetCommandInterpreter().ChildrenTruncated(); m_stream->Indent("...\n"); } m_stream->IndentLess(); m_stream->Indent("}\n"); } } void ValueObjectPrinter::PrintChildren (uint32_t curr_ptr_depth) { ValueObject* synth_m_valobj = GetValueObjectForChildrenGeneration(); bool print_dotdotdot = false; size_t num_children = GetMaxNumChildrenToPrint(print_dotdotdot); if (num_children) { PrintChildrenPreamble (); for (size_t idx=0; idxGetChildAtIndex(idx, true)); PrintChild (child_sp, curr_ptr_depth); } PrintChildrenPostamble (print_dotdotdot); } else if (IsAggregate()) { // Aggregate, no children... if (ShouldPrintValueObject()) { // if it has a synthetic value, then don't print {}, the synthetic children are probably only being used to vend a value if (m_valobj->DoesProvideSyntheticValue()) m_stream->PutCString( "\n"); else m_stream->PutCString(" {}\n"); } } else { if (ShouldPrintValueObject()) m_stream->EOL(); } } bool ValueObjectPrinter::PrintChildrenOneLiner (bool hide_names) { if (!GetMostSpecializedValue () || m_valobj == nullptr) return false; ValueObject* synth_m_valobj = GetValueObjectForChildrenGeneration(); bool print_dotdotdot = false; size_t num_children = GetMaxNumChildrenToPrint(print_dotdotdot); if (num_children) { m_stream->PutChar('('); for (uint32_t idx=0; idxGetChildAtIndex(idx, true)); if (child_sp) child_sp = child_sp->GetQualifiedRepresentationIfAvailable(options.m_use_dynamic, options.m_use_synthetic); if (child_sp) { if (idx) m_stream->PutCString(", "); if (!hide_names) { const char* name = child_sp.get()->GetName().AsCString(); if (name && *name) { m_stream->PutCString(name); m_stream->PutCString(" = "); } } child_sp->DumpPrintableRepresentation(*m_stream, ValueObject::eValueObjectRepresentationStyleSummary, lldb::eFormatInvalid, ValueObject::ePrintableRepresentationSpecialCasesDisable); } } if (print_dotdotdot) m_stream->PutCString(", ...)"); else m_stream->PutChar(')'); } return true; } void ValueObjectPrinter::PrintChildrenIfNeeded (bool value_printed, bool summary_printed) { // this flag controls whether we tried to display a description for this object and failed // if that happens, we want to display the children, if any bool is_failed_description = !PrintObjectDescriptionIfNeeded(value_printed, summary_printed); uint32_t curr_ptr_depth = m_ptr_depth; bool print_children = ShouldPrintChildren (is_failed_description,curr_ptr_depth); bool print_oneline = (curr_ptr_depth > 0 || options.m_show_types || !options.m_allow_oneliner_mode || options.m_flat_output || options.m_show_location) ? false : DataVisualization::ShouldPrintAsOneLiner(*m_valobj); if (print_children) { if (print_oneline) { m_stream->PutChar(' '); PrintChildrenOneLiner (false); m_stream->EOL(); } else PrintChildren (curr_ptr_depth); } else if (m_curr_depth >= options.m_max_depth && IsAggregate() && ShouldPrintValueObject()) { m_stream->PutCString("{...}\n"); } else m_stream->EOL(); } bool ValueObjectPrinter::ShouldPrintValidation () { return options.m_run_validator; } bool ValueObjectPrinter::PrintValidationMarkerIfNeeded () { if (!ShouldPrintValidation()) return false; m_validation = m_valobj->GetValidationStatus(); if (TypeValidatorResult::Failure == m_validation.first) { m_stream->Printf("! "); return true; } return false; } bool ValueObjectPrinter::PrintValidationErrorIfNeeded () { if (!ShouldPrintValidation()) return false; if (TypeValidatorResult::Success == m_validation.first) return false; if (m_validation.second.empty()) m_validation.second.assign("unknown error"); m_stream->Printf(" ! validation error: %s", m_validation.second.c_str()); m_stream->EOL(); return true; }