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# Copyright 2016-2019 Free Software Foundation, Inc.
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
# Test a C++ reference marked with DW_OP_GNU_implicit_pointer.
# The referenced value is a global array whose location is a DW_OP_addr.
if [skip_cplus_tests] {
continue
}
load_lib dwarf.exp
# This test can only be run on targets which support DWARF-2 and use gas.
if ![dwarf2_support] {
return 0
}
# We'll place the output of Dwarf::assemble in implref-array.S.
standard_testfile .c .S
# ${testfile} is now "implref-array". srcfile2 is "implref-array.S".
set executable ${testfile}
set asm_file [standard_output_file ${srcfile2}]
# We need to know the size of integer and address types in order
# to write some of the debugging info we'd like to generate.
#
# For that, we ask GDB by debugging our implref-array program.
# Any program would do, but since we already have implref-array
# specifically for this testcase, might as well use that.
if { [prepare_for_testing "failed to prepare" ${testfile} ${srcfile}] } {
return -1
}
set array_length [get_valueof "/u" "sizeof(array) / sizeof(array\[0\])" -1]
# Create the DWARF. We need a regular variable which represents the array, and
# a reference to it that'll be marked with DW_OP_GNU_implicit_pointer.
# The variable must be global so that its name is an exported symbol that we
# can reference from the DWARF using gdb_target_symbol.
Dwarf::assemble ${asm_file} {
global srcdir subdir srcfile array_length
cu {} {
DW_TAG_compile_unit {
{DW_AT_language @DW_LANG_C_plus_plus}
} {
declare_labels int_label sizetype_label array_label variable_label ref_label
set int_size [get_sizeof "int" -1]
set upper_bound [expr ${array_length} - 1]
# gdb always assumes references are implemented as pointers.
set addr_size [get_sizeof "void *" -1]
int_label: DW_TAG_base_type {
{DW_AT_byte_size ${int_size} DW_FORM_udata}
{DW_AT_encoding @DW_ATE_signed}
{DW_AT_name "int"}
}
sizetype_label: DW_TAG_base_type {
{DW_AT_byte_size ${int_size} DW_FORM_udata}
{DW_AT_encoding @DW_ATE_unsigned}
{DW_AT_name "sizetype"}
}
array_label: DW_TAG_array_type {
{DW_AT_type :${int_label}}
} {
DW_TAG_subrange_type {
{DW_AT_type :${sizetype_label}}
{DW_AT_lower_bound 0 DW_FORM_udata}
{DW_AT_upper_bound ${upper_bound} DW_FORM_udata}
}
}
ref_label: DW_TAG_reference_type {
{DW_AT_byte_size ${addr_size} DW_FORM_udata}
{DW_AT_type :${array_label}}
}
variable_label: DW_TAG_variable {
{DW_AT_name "array"}
{DW_AT_type :${array_label}}
{DW_AT_external 1 DW_FORM_flag}
{DW_AT_location {DW_OP_addr [gdb_target_symbol "array"]} SPECIAL_expr}
}
DW_TAG_subprogram {
{MACRO_AT_func { "main" "${srcdir}/${subdir}/${srcfile}" }}
{DW_AT_type :${int_label}}
{DW_AT_external 1 DW_FORM_flag}
} {
DW_TAG_variable {
{DW_AT_name "ref"}
{DW_AT_type :${ref_label}}
{DW_AT_location {DW_OP_GNU_implicit_pointer ${variable_label} 0} SPECIAL_expr}
}
}
}
}
}
if [prepare_for_testing "failed to prepare" ${executable} [list ${asm_file} ${srcfile}] {}] {
return -1
}
# DW_OP_GNU_implicit_pointer implementation requires a valid frame.
if ![runto_main] {
return -1
}
# This matches e.g. '(int (&)[5])'
set ref_type [format {\(int \(&\)\[%d\]\)} ${array_length}]
# This matches e.g. '(int (*)[5])'
set ptr_type [format {\(int \(\*\)\[%d\]\)} ${array_length}]
# Contents of the array. Trim leading/trailing whitespace, '{' and '}'
# since they confuse TCL to no end.
set contents [get_valueof "" "array" ""]
set contents [string trim ${contents}]
set contents [string trim ${contents} "{}"]
# Address of the referenced value.
set address [get_hexadecimal_valueof "&array" ""]
# Doing 'print ref' should show us e.g. '(int (&)[5]) 0xdeadbeef: {0, 1, 2, 3, 4}'.
gdb_test "print ref" " = ${ref_type} @${address}: \\{${contents}\\}"
# Doing 'print &ref' should show us e.g. '(int (*)[5]) 0xdeadbeef <array>'.
gdb_test "print &ref" " = ${ptr_type} ${address} <array>"
# gdb assumes C++ references are implemented as pointers, and print &(&ref)
# shows us the underlying pointer's address. Since in this case there's no
# physical pointer, gdb should tell us so.
gdb_test "print &(&ref)" "Attempt to take address of value not located in memory."
# Test assignment through the synthetic reference.
set first_value 10
gdb_test_no_output "set (ref\[0\] = ${first_value})"
# This matches '{10, 1, 2, 3, 4}'.
set new_contents [format {\{%d, 1, 2, 3, 4\}} ${first_value}]
# Doing 'print ref' should now show us e.g.
# '(int (&)[5]) <synthetic pointer>: {10, 1, 2, 3, 4}'.
gdb_test "print ref" " = ${ref_type} @${address}: ${new_contents}" "print ref after assignment"
gdb_test "print array" " = ${new_contents}" "print array after assignment"
# Test treating the array as a pointer.
set second_value 20
set new_contents [format {\{%d, %d, 2, 3, 4\}} ${first_value} ${second_value}]
gdb_test "print *ref" " = ${first_value}"
gdb_test_no_output "set (*(ref + 1) = ${second_value})"
gdb_test "print ref\[1\]" " = ${second_value}"
gdb_test "print array" " = ${new_contents}" "print array after second assignment"
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