gdb/testsuite/gdb.fortran/type-kinds.exp - binutils-gdb - Git at Google

 # Copyright 2019-2021 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/>.

 # This is a set of tests related to GDB's ability to parse and
 # correctly handle the (kind=N) type adjustment mechanism within
 # Fortran.

 load_lib "fortran.exp"

 if { [skip_fortran_tests] } { continue }

 # Cast the value 1 to the type 'BASE_TYPE (kind=TYPE_KIND)'.  The
 # expected result of the cast is CAST_RESULT, and the size of the
 # value returned by the cast should be SIZE_RESULT.  If TYPE_KIND is
 # the empty string then the cast is done to just 'BASE_TYPE'.
 proc test_cast_1_to_type_kind {base_type type_kind cast_result size_result} {
     if { $type_kind != "" } {
 	set kind_string " (kind=$type_kind)"
     } else {
 	set kind_string ""
     }
     set type_string "${base_type}${kind_string}"
     gdb_test "p (($type_string) 1)" " = $cast_result"
     gdb_test "p sizeof (($type_string) 1)" " = $size_result"
 }

 # Test parsing of `(kind=N)` type modifiers.
 proc test_basic_parsing_of_type_kinds {} {
     test_cast_1_to_type_kind "character" "1" "1 '\\\\001'" "1"

     test_cast_1_to_type_kind "complex" "" "\\(1,0\\)" "8"
     test_cast_1_to_type_kind "complex" "4" "\\(1,0\\)" "8"
     test_cast_1_to_type_kind "complex" "8" "\\(1,0\\)" "16"
     test_cast_1_to_type_kind "complex" "16" "\\(1,0\\)" "32"

     test_cast_1_to_type_kind "real" "" "1" "4"
     test_cast_1_to_type_kind "real" "4" "1" "4"
     test_cast_1_to_type_kind "real" "8" "1" "8"
     test_cast_1_to_type_kind "real" "16" "1" "16"

     test_cast_1_to_type_kind "logical" "" "\\.TRUE\\." "4"
     test_cast_1_to_type_kind "logical" "1" "\\.TRUE\\." "1"
     test_cast_1_to_type_kind "logical" "4" "\\.TRUE\\." "4"
     test_cast_1_to_type_kind "logical" "8" "\\.TRUE\\." "8"

     test_cast_1_to_type_kind "integer" "" "1" "4"
     test_cast_1_to_type_kind "integer" "2" "1" "2"
     test_cast_1_to_type_kind "integer" "4" "1" "4"
     test_cast_1_to_type_kind "integer" "8" "1" "8"

     test_cast_1_to_type_kind "double precision" "" "1" "8"
     test_cast_1_to_type_kind "single precision" "" "1" "4"

     test_cast_1_to_type_kind "double complex" "" "\\(1,0\\)" "16"
     test_cast_1_to_type_kind "single complex" "" "\\(1,0\\)" "8"
 }

 proc test_parsing_invalid_type_kinds {} {
     foreach typename {complex real logical integer} {
 	foreach typesize {3 5 7 9} {
 	    gdb_test "p (($typename (kind=$typesize)) 1)" "unsupported kind $typesize for type $typename.*"
 	}
     }
 }

 # Perform some basic checks that GDB can parse the older style
 # TYPE*SIZE type names.
 proc test_old_star_type_sizes {} {
     gdb_test "p ((character*1) 1)" " = 1 '\\\\001'"

     gdb_test "p ((complex*4) 1)" " = \\(1,0\\)"
     gdb_test "p ((complex*8) 1)" " = \\(1,0\\)"
     gdb_test "p ((complex*16) 1)" " = \\(1,0\\)"

     gdb_test "p ((real*4) 1)" " = 1"
     gdb_test "p ((real*8) 1)" " = 1"
     gdb_test "p ((real*16) 1)" " = 1"

     gdb_test "p ((logical*1) 1)" " = \\.TRUE\\."
     gdb_test "p ((logical*4) 1)" " = \\.TRUE\\."
     gdb_test "p ((logical*8) 1)" " = \\.TRUE\\."

     gdb_test "p ((integer*2) 1)" " = 1"
     gdb_test "p ((integer*4) 1)" " = 1"
     gdb_test "p ((integer*8) 1)" " = 1"
 }

 clean_restart

 if [set_lang_fortran] then {
     test_basic_parsing_of_type_kinds
     test_parsing_invalid_type_kinds
     test_old_star_type_sizes
 } else {
     warning "$test_name tests suppressed." 0
 }
	# Copyright 2019-2021 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/>.

	# This is a set of tests related to GDB's ability to parse and
	# correctly handle the (kind=N) type adjustment mechanism within
	# Fortran.

	load_lib "fortran.exp"

	if { [skip_fortran_tests] } { continue }

	# Cast the value 1 to the type 'BASE_TYPE (kind=TYPE_KIND)'. The
	# expected result of the cast is CAST_RESULT, and the size of the
	# value returned by the cast should be SIZE_RESULT. If TYPE_KIND is
	# the empty string then the cast is done to just 'BASE_TYPE'.
	proc test_cast_1_to_type_kind {base_type type_kind cast_result size_result} {
	if { $type_kind != "" } {
	set kind_string " (kind=$type_kind)"
	} else {
	set kind_string ""
	}
	set type_string "${base_type}${kind_string}"
	gdb_test "p (($type_string) 1)" " = $cast_result"
	gdb_test "p sizeof (($type_string) 1)" " = $size_result"
	}

	# Test parsing of `(kind=N)` type modifiers.
	proc test_basic_parsing_of_type_kinds {} {
	test_cast_1_to_type_kind "character" "1" "1 '\\\\001'" "1"

	test_cast_1_to_type_kind "complex" "" "\\(1,0\\)" "8"
	test_cast_1_to_type_kind "complex" "4" "\\(1,0\\)" "8"
	test_cast_1_to_type_kind "complex" "8" "\\(1,0\\)" "16"
	test_cast_1_to_type_kind "complex" "16" "\\(1,0\\)" "32"

	test_cast_1_to_type_kind "real" "" "1" "4"
	test_cast_1_to_type_kind "real" "4" "1" "4"
	test_cast_1_to_type_kind "real" "8" "1" "8"
	test_cast_1_to_type_kind "real" "16" "1" "16"

	test_cast_1_to_type_kind "logical" "" "\\.TRUE\\." "4"
	test_cast_1_to_type_kind "logical" "1" "\\.TRUE\\." "1"
	test_cast_1_to_type_kind "logical" "4" "\\.TRUE\\." "4"
	test_cast_1_to_type_kind "logical" "8" "\\.TRUE\\." "8"

	test_cast_1_to_type_kind "integer" "" "1" "4"
	test_cast_1_to_type_kind "integer" "2" "1" "2"
	test_cast_1_to_type_kind "integer" "4" "1" "4"
	test_cast_1_to_type_kind "integer" "8" "1" "8"

	test_cast_1_to_type_kind "double precision" "" "1" "8"
	test_cast_1_to_type_kind "single precision" "" "1" "4"

	test_cast_1_to_type_kind "double complex" "" "\\(1,0\\)" "16"
	test_cast_1_to_type_kind "single complex" "" "\\(1,0\\)" "8"
	}

	proc test_parsing_invalid_type_kinds {} {
	foreach typename {complex real logical integer} {
	foreach typesize {3 5 7 9} {
	gdb_test "p (($typename (kind=$typesize)) 1)" "unsupported kind $typesize for type $typename.*"
	}
	}
	}

	# Perform some basic checks that GDB can parse the older style
	# TYPE*SIZE type names.
	proc test_old_star_type_sizes {} {
	gdb_test "p ((character*1) 1)" " = 1 '\\\\001'"

	gdb_test "p ((complex*4) 1)" " = \\(1,0\\)"
	gdb_test "p ((complex*8) 1)" " = \\(1,0\\)"
	gdb_test "p ((complex*16) 1)" " = \\(1,0\\)"

	gdb_test "p ((real*4) 1)" " = 1"
	gdb_test "p ((real*8) 1)" " = 1"
	gdb_test "p ((real*16) 1)" " = 1"

	gdb_test "p ((logical*1) 1)" " = \\.TRUE\\."
	gdb_test "p ((logical*4) 1)" " = \\.TRUE\\."
	gdb_test "p ((logical*8) 1)" " = \\.TRUE\\."

	gdb_test "p ((integer*2) 1)" " = 1"
	gdb_test "p ((integer*4) 1)" " = 1"
	gdb_test "p ((integer*8) 1)" " = 1"
	}

	clean_restart

	if [set_lang_fortran] then {
	test_basic_parsing_of_type_kinds
	test_parsing_invalid_type_kinds
	test_old_star_type_sizes
	} else {
	warning "$test_name tests suppressed." 0
	}