# Copyright 2017-2018 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 .
# Test "whatis"/"ptype" of different typedef types, and of expressions
# involving casts to/from different typedefs.
#
# Particularly, when "whatis" is given a type name directly, it should
# strip one (and only one) typedef level. Otherwise, it should not
# strip any typedef at all. GDB used to incorrectly strip typedefs of
# expressions involving casts to typedef types. E.g., (gdb) print
# (int_typedef)0" shall result in a value of type "int_typedef", not
# "int".
standard_testfile
# Prepare for testing in language LANG. Lang can be "c" or "c++".
proc prepare {lang} {
global srcfile testfile
if [target_info exists no_long_long] {
set options [list debug additional_flags=-DNO_LONG_LONG]
} else {
set options [list debug]
}
if {$lang == "c++"} {
lappend options c++
set out $testfile-cxx
} else {
set out $testfile-c
}
if { [prepare_for_testing "failed to prepare" \
${out} [list $srcfile] $options] } {
return -1
}
if ![runto_main] then {
fail "can't run to main"
return 0
}
}
# The following list is layed out as a table. It is composed by
# sub-lists (lines), with each line representing one whatis/ptype
# test. The sub-list (line) elements (columns) are (in order):
#
# EXP - The user expression passed to whatis/ptype.
#
# WHATIS - What "whatis" should print.
#
# If the EXP column is a type name, then this will be the same type,
# with one (and only one) typedef level removed. Otherwise, this is
# the type of the expression on the first column, with all typedefs
# preserved.
#
# PTYPE - What "ptype" should print.
#
# This is always the type of the input type/expression stripped from
# all typedefs.
#
# LANGUAGE - If the line is language-specific, which language.
#
# This can be "c" or "c++".
#
# Columns in the table represent:
# EXP # whatis # ptype # language
set table {
{"void_typedef" "void" "void"}
{"void_typedef2" "void_typedef" "void"}
{"int_typedef" "int" "int"}
{"int_typedef2" "int_typedef" "int"}
{"v_int_typedef" "int_typedef" "int"}
{"v_int_typedef2" "int_typedef2" "int"}
{"float_typedef" "float" "float"}
{"float_typedef2" "float_typedef" "float"}
{"v_float_typedef" "float_typedef" "float"}
{"v_float_typedef2" "float_typedef2" "float"}
{"double_typedef" "double" "double"}
{"double_typedef2" "double_typedef" "double"}
{"v_double_typedef" "double_typedef" "double"}
{"v_double_typedef2" "double_typedef2" "double"}
{"long_double_typedef" "long double" "long double"}
{"long_double_typedef2" "long_double_typedef" "long double"}
{"v_long_double_typedef" "long_double_typedef" "long double"}
{"v_long_double_typedef2" "long_double_typedef2" "long double"}
{"colors_typedef" "(enum )?colors" "enum colors( : unsigned int)? {red, green, blue}"}
{"colors_typedef2" "colors_typedef" "enum colors( : unsigned int)? {red, green, blue}"}
{"v_colors_typedef" "colors_typedef" "enum colors( : unsigned int)? {red, green, blue}"}
{"v_colors_typedef2" "colors_typedef2" "enum colors( : unsigned int)? {red, green, blue}"}
{"func_ftype" "void \\(void\\)" "void \\(void\\)"}
{"func_ftype2" "func_ftype" "void \\(void\\)"}
{"func_ftype *" "func_ftype \\*" "void \\(\\*\\)\\(void\\)"}
{"func_ftype2 *" "func_ftype2 \\*" "void \\(\\*\\)\\(void\\)"}
{"v_func_ftype" "func_ftype \\*" "void \\(\\*\\)\\(void\\)"}
{"v_func_ftype2" "func_ftype2 \\*" "void \\(\\*\\)\\(void\\)"}
{"v_t_struct_typedef" "t_struct_typedef" "struct t_struct {.* member;.*}"}
{"v_t_struct_typedef2" "t_struct_typedef2" "struct t_struct {.* member;.*}"}
{"v_t_struct_union_wrapper_typedef" "t_struct_union_wrapper_typedef" "union t_struct_union_wrapper {.*base;.*}"}
{"v_t_struct_union_wrapper_typedef2" "t_struct_union_wrapper_typedef2" "union t_struct_union_wrapper {.*base;.*}"}
{"v_uchar_array_t_struct_typedef" "uchar_array_t_struct_typedef" "unsigned char \\[.*\\]"}
{"v_uchar_array_t_struct_typedef2" "uchar_array_t_struct_typedef2" "unsigned char \\[.*\\]"}
{"v_ns_Struct_typedef" "ns_Struct_typedef" "struct ns::Struct {.* method.*}" "c++"}
{"ns_method_ptr_typedef"
"void \\(ns::Struct::\\*\\)\\(ns::Struct \\* const\\)"
"void \\(ns::Struct::\\*\\)\\(ns::Struct \\* const\\)"
"c++"}
{"ns::method_ptr_typedef"
"void \\(ns::Struct::\\*\\)\\(ns::Struct \\* const\\)"
"void \\(ns::Struct::\\*\\)\\(ns::Struct \\* const\\)"
"c++"}
{"ns_method_ptr_typedef2"
"ns_method_ptr_typedef"
"void \\(ns::Struct::\\*\\)\\(ns::Struct \\* const\\)"
"c++"}
{"ns::method_ptr_typedef2"
"ns::method_ptr_typedef"
"void \\(ns::Struct::\\*\\)\\(ns::Struct \\* const\\)"
"c++"}
{"ns::Struct::method"
"void \\(ns::Struct \\* const\\)"
"void \\(ns::Struct \\* const\\)"
"c++"}
}
# The 4th column above is optional. If present, it indicates that the
# line should only be tested in the specified language. This is a
# helper function that checks whether LINE's language matches LANG.
proc line_lang_match {line lang} {
if {[llength $line] <= 3} {
return true
}
set line_lang [lindex $line 3]
if {$line_lang == "" || $lang == $line_lang} {
return true
}
return false
}
# Run tests in language LANG.
proc run_tests {lang} {
global table
global gdb_prompt
# Test passing all EXP in the list/table above to whatis/ptype,
# and check what comes out.
with_test_prefix "whatis/ptype" {
foreach line $table {
set type [lindex $line 0]
set whatis [lindex $line 1]
set ptype [lindex $line 2]
if {![line_lang_match $line $lang]} {
continue
}
# GCC doesn't record the target type of "typedef of
# typedef of void" types in the DWARF. See
# .
# Handle that case manually in order to be able to xfail
# it.
if {$type == "void_typedef2"} {
set test "whatis $type"
gdb_test_multiple $test $test {
-re "type = void\r\n$gdb_prompt $" {
# gcc/81267.
setup_xfail "*-*-*"
fail "$test (void)"
}
-re "type = void_typedef\r\n$gdb_prompt $" {
pass $test
}
}
} else {
gdb_test "whatis $type" "type = $whatis"
}
gdb_test "ptype $type" "type = $ptype"
}
}
# If floats and pointers have the same size on this architecture,
# then casting from array/function to float works, because
# arrays/functions first decay to pointers, and then GDB's cast is
# more general than a C cast and accepts any two types of the same
# length.
set float_ptr_same_size \
[get_integer_valueof "sizeof (float) == sizeof (void *)" -1]
# Ditto double.
set double_ptr_same_size \
[get_integer_valueof "sizeof (double) == sizeof (void *)" -1]
# Ditto long double.
set long_double_ptr_same_size \
[get_integer_valueof "sizeof (long double) == sizeof (void *)" -1]
# Test converting/casting all variables in the first column of the
# table to all types (found in the first column of the table).
# The aggregates are all defined to be the same size so that
# casting actually works. (GDB's casting operator is more general
# than a C cast.)
#
# The main idea here is testing all the different paths in the
# value casting code in GDB (value_cast), making sure typedefs are
# preserved.
with_test_prefix "cast" {
foreach line1 $table {
set from [lindex $line1 0]
if {![line_lang_match $line1 $lang]} {
continue
}
foreach line2 $table {
set to [lindex $line2 0]
set whatis [lindex $line2 1]
set ptype [lindex $line2 2]
if {![line_lang_match $line2 $lang]} {
continue
}
# We try all combinations, even those that don't
# parse, or are invalid, to catch the case of a
# regression making them inadvertently valid. For
# example, these convertions are invalid:
#
# float <-> array [iff sizeof pointer != sizeof float]
# array -> function (not function pointer)
# array -> member_ptr
#
# while these are invalid syntax:
#
# (anything) type
# (var) anything
# (method) anything [not method pointer]
# (float) method
#
if {([string match "v_*" $to]
|| (![string match "v_*" $from] && ![string match "*method" $from])
|| [string match "*method" $to])} {
gdb_test "whatis ($to) $from" "syntax error.*" "whatis ($to) $from (syntax)"
gdb_test "ptype ($to) $from" "syntax error.*" "ptype ($to) $from (syntax)"
} elseif {([string match "*float*" $from] && [string match "*array*" $to])
|| (!$float_ptr_same_size
&& ([string match "float*" $to] && [string match "*array*" $from]
|| [string match "float*" $to] && [string match "*method" $from]))
|| (!$double_ptr_same_size
&& ([string match "double*" $to] && [string match "*array*" $from]
|| [string match "double*" $to] && [string match "*method" $from]))
|| (!$long_double_ptr_same_size
&& ([string match "long_double*" $to] && [string match "*array*" $from]
|| [string match "long_double*" $to] && [string match "*method" $from]))
|| ([string match "*ftype" $to] && [string match "*array*" $from])
|| ([string match "*ftype2" $to] && [string match "*array*" $from])
|| ([string match "*ftype" $to] && [string match "*method" $from])
|| ([string match "*ftype2" $to] && [string match "*method" $from])
|| ([string match "*method_ptr*" $to] && [string match "*method" $from])
|| ([string match "*method_ptr*" $to] && [string match "*array*" $from])} {
gdb_test "whatis ($to) $from" "Invalid cast." "whatis ($to) $from (invalid)"
gdb_test "ptype ($to) $from" "Invalid cast." "ptype ($to) $from (invalid)"
} else {
gdb_test "whatis ($to) $from" "type = [string_to_regexp $to]"
gdb_test "ptype ($to) $from" "type = $ptype"
}
}
}
}
}
foreach_with_prefix lang {"c" "c++"} {
prepare $lang
run_tests $lang
}