//===-- OptionValueArray.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/Interpreter/OptionValueArray.h" #include "lldb/Host/StringConvert.h" #include "lldb/Utility/Args.h" #include "lldb/Utility/Stream.h" using namespace lldb; using namespace lldb_private; void OptionValueArray::DumpValue(const ExecutionContext *exe_ctx, Stream &strm, uint32_t dump_mask) { const Type array_element_type = ConvertTypeMaskToType(m_type_mask); if (dump_mask & eDumpOptionType) { if ((GetType() == eTypeArray) && (m_type_mask != eTypeInvalid)) strm.Printf("(%s of %ss)", GetTypeAsCString(), GetBuiltinTypeAsCString(array_element_type)); else strm.Printf("(%s)", GetTypeAsCString()); } if (dump_mask & eDumpOptionValue) { const bool one_line = dump_mask & eDumpOptionCommand; const uint32_t size = m_values.size(); if (dump_mask & eDumpOptionType) strm.Printf(" =%s", (m_values.size() > 0 && !one_line) ? "\n" : ""); if (!one_line) strm.IndentMore(); for (uint32_t i = 0; i < size; ++i) { if (!one_line) { strm.Indent(); strm.Printf("[%u]: ", i); } const uint32_t extra_dump_options = m_raw_value_dump ? eDumpOptionRaw : 0; switch (array_element_type) { default: case eTypeArray: case eTypeDictionary: case eTypeProperties: case eTypeFileSpecList: case eTypePathMap: m_values[i]->DumpValue(exe_ctx, strm, dump_mask | extra_dump_options); break; case eTypeBoolean: case eTypeChar: case eTypeEnum: case eTypeFileSpec: case eTypeFileLineColumn: case eTypeFormat: case eTypeSInt64: case eTypeString: case eTypeUInt64: case eTypeUUID: // No need to show the type for dictionaries of simple items m_values[i]->DumpValue(exe_ctx, strm, (dump_mask & (~eDumpOptionType)) | extra_dump_options); break; } if (!one_line) { if (i < (size - 1)) strm.EOL(); } else { strm << ' '; } } if (!one_line) strm.IndentLess(); } } Status OptionValueArray::SetValueFromString(llvm::StringRef value, VarSetOperationType op) { Args args(value.str()); Status error = SetArgs(args, op); if (error.Success()) NotifyValueChanged(); return error; } lldb::OptionValueSP OptionValueArray::GetSubValue(const ExecutionContext *exe_ctx, llvm::StringRef name, bool will_modify, Status &error) const { if (name.empty() || name.front() != '[') { error.SetErrorStringWithFormat( "invalid value path '%s', %s values only support '[]' subvalues " "where is a positive or negative array index", name.str().c_str(), GetTypeAsCString()); return nullptr; } name = name.drop_front(); llvm::StringRef index, sub_value; std::tie(index, sub_value) = name.split(']'); if (index.size() == name.size()) { // Couldn't find a closing bracket return nullptr; } const size_t array_count = m_values.size(); int32_t idx = 0; if (index.getAsInteger(0, idx)) return nullptr; uint32_t new_idx = UINT32_MAX; if (idx < 0) { // Access from the end of the array if the index is negative new_idx = array_count - idx; } else { // Just a standard index new_idx = idx; } if (new_idx < array_count) { if (m_values[new_idx]) { if (!sub_value.empty()) return m_values[new_idx]->GetSubValue(exe_ctx, sub_value, will_modify, error); else return m_values[new_idx]; } } else { if (array_count == 0) error.SetErrorStringWithFormat( "index %i is not valid for an empty array", idx); else if (idx > 0) error.SetErrorStringWithFormat( "index %i out of range, valid values are 0 through %" PRIu64, idx, (uint64_t)(array_count - 1)); else error.SetErrorStringWithFormat("negative index %i out of range, " "valid values are -1 through " "-%" PRIu64, idx, (uint64_t)array_count); } return OptionValueSP(); } size_t OptionValueArray::GetArgs(Args &args) const { args.Clear(); const uint32_t size = m_values.size(); for (uint32_t i = 0; i < size; ++i) { llvm::StringRef string_value = m_values[i]->GetStringValue(); if (!string_value.empty()) args.AppendArgument(string_value); } return args.GetArgumentCount(); } Status OptionValueArray::SetArgs(const Args &args, VarSetOperationType op) { Status error; const size_t argc = args.GetArgumentCount(); switch (op) { case eVarSetOperationInvalid: error.SetErrorString("unsupported operation"); break; case eVarSetOperationInsertBefore: case eVarSetOperationInsertAfter: if (argc > 1) { uint32_t idx = StringConvert::ToUInt32(args.GetArgumentAtIndex(0), UINT32_MAX); const uint32_t count = GetSize(); if (idx > count) { error.SetErrorStringWithFormat( "invalid insert array index %u, index must be 0 through %u", idx, count); } else { if (op == eVarSetOperationInsertAfter) ++idx; for (size_t i = 1; i < argc; ++i, ++idx) { lldb::OptionValueSP value_sp(CreateValueFromCStringForTypeMask( args.GetArgumentAtIndex(i), m_type_mask, error)); if (value_sp) { if (error.Fail()) return error; if (idx >= m_values.size()) m_values.push_back(value_sp); else m_values.insert(m_values.begin() + idx, value_sp); } else { error.SetErrorString( "array of complex types must subclass OptionValueArray"); return error; } } } } else { error.SetErrorString("insert operation takes an array index followed by " "one or more values"); } break; case eVarSetOperationRemove: if (argc > 0) { const uint32_t size = m_values.size(); std::vector remove_indexes; bool all_indexes_valid = true; size_t i; for (i = 0; i < argc; ++i) { const size_t idx = StringConvert::ToSInt32(args.GetArgumentAtIndex(i), INT32_MAX); if (idx >= size) { all_indexes_valid = false; break; } else remove_indexes.push_back(idx); } if (all_indexes_valid) { size_t num_remove_indexes = remove_indexes.size(); if (num_remove_indexes) { // Sort and then erase in reverse so indexes are always valid if (num_remove_indexes > 1) { llvm::sort(remove_indexes.begin(), remove_indexes.end()); for (std::vector::const_reverse_iterator pos = remove_indexes.rbegin(), end = remove_indexes.rend(); pos != end; ++pos) { m_values.erase(m_values.begin() + *pos); } } else { // Only one index m_values.erase(m_values.begin() + remove_indexes.front()); } } } else { error.SetErrorStringWithFormat( "invalid array index '%s', aborting remove operation", args.GetArgumentAtIndex(i)); } } else { error.SetErrorString("remove operation takes one or more array indices"); } break; case eVarSetOperationClear: Clear(); break; case eVarSetOperationReplace: if (argc > 1) { uint32_t idx = StringConvert::ToUInt32(args.GetArgumentAtIndex(0), UINT32_MAX); const uint32_t count = GetSize(); if (idx > count) { error.SetErrorStringWithFormat( "invalid replace array index %u, index must be 0 through %u", idx, count); } else { for (size_t i = 1; i < argc; ++i, ++idx) { lldb::OptionValueSP value_sp(CreateValueFromCStringForTypeMask( args.GetArgumentAtIndex(i), m_type_mask, error)); if (value_sp) { if (error.Fail()) return error; if (idx < count) m_values[idx] = value_sp; else m_values.push_back(value_sp); } else { error.SetErrorString( "array of complex types must subclass OptionValueArray"); return error; } } } } else { error.SetErrorString("replace operation takes an array index followed by " "one or more values"); } break; case eVarSetOperationAssign: m_values.clear(); // Fall through to append case LLVM_FALLTHROUGH; case eVarSetOperationAppend: for (size_t i = 0; i < argc; ++i) { lldb::OptionValueSP value_sp(CreateValueFromCStringForTypeMask( args.GetArgumentAtIndex(i), m_type_mask, error)); if (value_sp) { if (error.Fail()) return error; m_value_was_set = true; AppendValue(value_sp); } else { error.SetErrorString( "array of complex types must subclass OptionValueArray"); } } break; } return error; } lldb::OptionValueSP OptionValueArray::DeepCopy() const { OptionValueArray *copied_array = new OptionValueArray(m_type_mask, m_raw_value_dump); lldb::OptionValueSP copied_value_sp(copied_array); *static_cast(copied_array) = *this; copied_array->m_callback = m_callback; const uint32_t size = m_values.size(); for (uint32_t i = 0; i < size; ++i) { copied_array->AppendValue(m_values[i]->DeepCopy()); } return copied_value_sp; }