Index: packages/Python/lldbsuite/test/functionalities/return-value/TestReturnValue.py =================================================================== --- packages/Python/lldbsuite/test/functionalities/return-value/TestReturnValue.py +++ packages/Python/lldbsuite/test/functionalities/return-value/TestReturnValue.py @@ -151,11 +151,11 @@ #self.return_and_test_struct_value ("return_one_int_one_double_packed") self.return_and_test_struct_value ("return_one_int_one_long") + self.return_and_test_struct_value ("return_vector_size_float32_8") + self.return_and_test_struct_value ("return_vector_size_float32_16") + self.return_and_test_struct_value ("return_vector_size_float32_32") # icc and gcc don't support this extension. if self.getCompiler().endswith('clang'): - self.return_and_test_struct_value ("return_vector_size_float32_8") - self.return_and_test_struct_value ("return_vector_size_float32_16") - self.return_and_test_struct_value ("return_vector_size_float32_32") self.return_and_test_struct_value ("return_ext_vector_size_float32_2") self.return_and_test_struct_value ("return_ext_vector_size_float32_4") self.return_and_test_struct_value ("return_ext_vector_size_float32_8") Index: source/Plugins/ABI/SysV-arm/ABISysV_arm.cpp =================================================================== --- source/Plugins/ABI/SysV-arm/ABISysV_arm.cpp +++ source/Plugins/ABI/SysV-arm/ABISysV_arm.cpp @@ -452,12 +452,16 @@ bool is_signed; bool is_complex; uint32_t float_count; + bool is_vfp_candidate = false; + uint8_t vfp_count = 0; + uint8_t vfp_byte_size = 0; // Get the pointer to the first stack argument so we have a place to start // when reading data const RegisterInfo *r0_reg_info = reg_ctx->GetRegisterInfo(eRegisterKindGeneric, LLDB_REGNUM_GENERIC_ARG1); size_t bit_width = compiler_type.GetBitSize(&thread); + size_t byte_size = compiler_type.GetByteSize(&thread); if (compiler_type.IsIntegerType (is_signed)) { @@ -504,8 +508,13 @@ } else if (compiler_type.IsVectorType(nullptr, nullptr)) { - size_t byte_size = compiler_type.GetByteSize(&thread); - if (byte_size <= 16) + if (IsArmHardFloat(thread) && (byte_size == 8 || byte_size == 16)) + { + is_vfp_candidate = true; + vfp_byte_size = 8; + vfp_count = (byte_size == 8?1:2); + } + else if (byte_size <= 16) { DataBufferHeap buffer(16, 0); uint32_t* buffer_ptr = (uint32_t*)buffer.GetBytes(); @@ -576,13 +585,24 @@ } else { + if (is_complex && float_count == 2) + { + if (IsArmHardFloat(thread)) + { + is_vfp_candidate = true; + vfp_byte_size = byte_size / 2; + vfp_count = 2; + } + else if (!GetReturnValuePassedInMemory(thread, reg_ctx, bit_width / 8, value)) + return return_valobj_sp; + } + else // not handled yet return return_valobj_sp; } } else if (compiler_type.IsAggregateType()) { - size_t byte_size = compiler_type.GetByteSize(&thread); if (IsArmHardFloat(thread)) { CompilerType base_type; @@ -590,70 +610,59 @@ if (homogeneous_count > 0 && homogeneous_count <= 4) { - if (base_type.IsFloatingPointType(float_count, is_complex)) + if (base_type.IsVectorType(nullptr, nullptr)) + { + uint64_t base_byte_size = base_type.GetByteSize(nullptr); + if (base_byte_size == 8 || base_byte_size == 16) + { + is_vfp_candidate = true; + vfp_byte_size = 8; + vfp_count = (base_type.GetByteSize(nullptr) == 8 ? homogeneous_count : homogeneous_count * 2); + } + } + else if (base_type.IsFloatingPointType(float_count, is_complex)) { if (float_count == 1 && !is_complex) { - ProcessSP process_sp (thread.GetProcess()); - ByteOrder byte_order = process_sp->GetByteOrder(); + is_vfp_candidate = true; + vfp_byte_size = base_type.GetByteSize(nullptr); + vfp_count = homogeneous_count; + } + } + } + else if (homogeneous_count == 0) + { + const uint32_t num_children = compiler_type.GetNumFields (); - DataBufferSP data_sp (new DataBufferHeap(byte_size, 0)); - const size_t base_byte_size = base_type.GetByteSize(nullptr); - uint32_t data_offset = 0; + if (num_children > 0 && num_children <=2) + { + uint32_t index = 0; + for (index = 0; index < num_children; index++) + { + std::string name; + base_type = compiler_type.GetFieldAtIndex (index, name, NULL, NULL, NULL); - for (uint32_t reg_index = 0; reg_index < homogeneous_count; reg_index++) + if (base_type.IsFloatingPointType(float_count, is_complex)) { - uint32_t regnum = 0; - - if (base_byte_size == 4) - regnum = dwarf_s0 + reg_index; - else if (base_byte_size == 8) - regnum = dwarf_d0 + reg_index; - else - break; - - const RegisterInfo *reg_info = reg_ctx->GetRegisterInfo (eRegisterKindDWARF, regnum); - if (reg_info == nullptr) - break; - - RegisterValue reg_value; - if (!reg_ctx->ReadRegister(reg_info, reg_value)) - break; - - // Make sure we have enough room in "data_sp" - if ((data_offset + base_byte_size) <= data_sp->GetByteSize()) + if (float_count == 2 && is_complex) { - Error error; - const size_t bytes_copied = reg_value.GetAsMemoryData (reg_info, - data_sp->GetBytes() + data_offset, - base_byte_size, - byte_order, - error); - if (bytes_copied != base_byte_size) + if (index != 0 && vfp_byte_size != base_type.GetByteSize(nullptr)) break; - - data_offset += bytes_copied; + else + vfp_byte_size = base_type.GetByteSize(nullptr); } - } - - if (data_offset == byte_size) - { - DataExtractor data; - data.SetByteOrder(byte_order); - data.SetAddressByteSize(process_sp->GetAddressByteSize()); - data.SetData(data_sp); - - return ValueObjectConstResult::Create (&thread, compiler_type, ConstString(""), data); + else + break; } else - { // Some error occurred while getting values from registers - return return_valobj_sp; - } - + break; } - else - { // TODO: Add code to handle complex and vector types. - return return_valobj_sp; + + if (index == num_children) + { + is_vfp_candidate = true; + vfp_byte_size = (vfp_byte_size >> 1); + vfp_count = (num_children << 1); } } } @@ -665,7 +674,7 @@ uint32_t raw_value = reg_ctx->ReadRegisterAsUnsigned(r0_reg_info, 0) & UINT32_MAX; value.SetBytes(&raw_value, byte_size); } - else + else if (!is_vfp_candidate) { if (!GetReturnValuePassedInMemory(thread, reg_ctx, byte_size, value)) return return_valobj_sp; @@ -677,6 +686,64 @@ return return_valobj_sp; } + if (is_vfp_candidate) + { + ProcessSP process_sp (thread.GetProcess()); + ByteOrder byte_order = process_sp->GetByteOrder(); + + DataBufferSP data_sp (new DataBufferHeap(byte_size, 0)); + uint32_t data_offset = 0; + + for (uint32_t reg_index = 0; reg_index < vfp_count; reg_index++) + { + uint32_t regnum = 0; + + if (vfp_byte_size == 4) + regnum = dwarf_s0 + reg_index; + else if (vfp_byte_size == 8) + regnum = dwarf_d0 + reg_index; + else + break; + + const RegisterInfo *reg_info = reg_ctx->GetRegisterInfo (eRegisterKindDWARF, regnum); + if (reg_info == NULL) + break; + + RegisterValue reg_value; + if (!reg_ctx->ReadRegister(reg_info, reg_value)) + break; + + // Make sure we have enough room in "data_sp" + if ((data_offset + vfp_byte_size) <= data_sp->GetByteSize()) + { + Error error; + const size_t bytes_copied = reg_value.GetAsMemoryData (reg_info, + data_sp->GetBytes() + data_offset, + vfp_byte_size, + byte_order, + error); + if (bytes_copied != vfp_byte_size) + break; + + data_offset += bytes_copied; + } + } + + if (data_offset == byte_size) + { + DataExtractor data; + data.SetByteOrder(byte_order); + data.SetAddressByteSize(process_sp->GetAddressByteSize()); + data.SetData(data_sp); + + return ValueObjectConstResult::Create (&thread, compiler_type, ConstString(""), data); + } + else + { // Some error occurred while getting values from registers + return return_valobj_sp; + } + } + // If we get here, we have a valid Value, so make our ValueObject out of it: return_valobj_sp = ValueObjectConstResult::Create(thread.GetStackFrameAtIndex(0).get(),