clang-tests-external/gdb/7.5/gdb/testsuite/gdb.cell/ptype.exp - llvm-archive - Git at Google

 # Copyright 2009, 2011-2012 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/>.
 #
 # Contributed by Markus Deuling <deuling@de.ibm.com>.
 #
 # Testsuite for Cell Broadband Engine combined debugger
 # Test ptype and print/set of SPU-side registers.

 load_lib cell.exp

 set ppu_file "break"
 set ppu_src ${srcdir}/${subdir}/${ppu_file}.c
 set ppu_bin ${objdir}/${subdir}/${ppu_file}
 set spu_file "break-spu"
 set spu_src ${srcdir}/${subdir}/${spu_file}.c
 set spu_bin ${objdir}/${subdir}/${spu_file}

 if {[skip_cell_tests]} {
     return 0
 }

 # Compile SPU binary.
 if { [gdb_compile_cell_spu $spu_src $spu_bin executable {debug}]  != "" } {
   unsupported "Compiling spu binary failed."
   return -1
 }
 # Compile PPU binary.
 if { [gdb_cell_embedspu $spu_bin $spu_bin-embed.o {debug}]  != "" } {
   unsupported "Embedding spu binary failed."
   return -1
 }
 if { [gdb_compile_cell_ppu [list $ppu_src $spu_bin-embed.o] $ppu_bin executable {debug}] != "" } {
   unsupported "Compiling ppu binary failed."
   return -1
 }

 if [get_compiler_info] {
   return -1
 }

 gdb_exit
 gdb_start
 gdb_reinitialize_dir $srcdir/$subdir
 gdb_load ${ppu_bin}

 if ![runto_main] then {
   fail "Can't run to main"
   return 0
 }

 # Continue to SPU
 cont_spu_main

 gdb_test "info registers r2"  \
 	 "r2.*\{uint128 =.*v2_int64 =.*v4_int32 =.*v8_int16 =.*v16_int8 =.*v2_double =.*v4_float =.*\}.*" \
 	 "info registers r2"

 for {set check_reg 10} {$check_reg < 12} {incr check_reg} {
   gdb_test "print \$r$check_reg\.v4_int32" \
 	   ".*= \{.*,.*,.*,.*\}" \
 	   "print \$r$check_reg\.v4_int32"

   gdb_test "ptype \$r$check_reg" \
 	   "type = union __spu_builtin_type_vec128.*\{.*int128_t uint128.* \
 	    int64_t v2_int64.*int32_t v4_int32.*int16_t v8_int16.* \
 	    int8_t v16_int8.*double v2_double.*float v4_float.*\}" \
 	   "ptype \$r$check_reg"

   gdb_test "set \$r$check_reg\.v4_int32 = {1,2,3,4}" \
 	   "" \
 	   "set \$r$check_reg\.v4_int32 = {1,2,3,4}"

   gdb_test "print \$r$check_reg\.v4_int32" \
 	   ".*= \{.*1, 2, 3, 4.*\}" \
 	   "print \$r$check_reg\.v4_int32"

   gdb_test "print \$r$check_reg.v4_int32\[0\]" \
 	   ".*= 1.*" \
 	   "print \$r$check_reg.v4_int32\[0\]"

   gdb_test "print \$r$check_reg.v4_int32\[1\]" \
 	   ".*= 2.*" \
 	   "print \$r$check_reg.v4_int32\[1\]"

   gdb_test "print \$r$check_reg.v4_int32\[2\]" \
 	   ".*= 3.*" \
 	   "print \$r$check_reg.v4_int32\[2\]"

   gdb_test "print \$r$check_reg.v4_int32\[3\]" \
 	   ".*= 4.*" \
 	   "print \$r$check_reg.v4_int32\[3\]"

   gdb_test "print \$r$check_reg.v4_int32\[4\]" \
 	   "no such vector element" \
 	   "print \$r$check_reg.v4_int32\[4\]"

   # Set single array elements to other values and check the results.
   gdb_test "set \$r$check_reg\.v4_int32\[0\] = 5" \
 	   "" \
 	   "set \$r$check_reg\.v4_int32\[0\] = 5"
   gdb_test "print \$r$check_reg.v4_int32\[0\]" \
 	   ".*= 5.*" \
 	   "print \$r$check_reg.v4_int32\[0\]"

   gdb_test "set \$r$check_reg\.v4_int32\[1\] = 6" \
 	   "" \
 	   "set \$r$check_reg\.v4_int32\[1\] = 6"
   gdb_test "print \$r$check_reg.v4_int32\[1\]" \
 	   ".*= 6.*" \
 	   "print \$r$check_reg.v4_int32\[1\]"

   gdb_test "set \$r$check_reg\.v4_int32\[2\] = 7" \
 	   "" \
 	   "set \$r$check_reg\.v4_int32\[2\] = 7"
   gdb_test "print \$r$check_reg.v4_int32\[2\]" \
 	   ".*= 7.*" \
 	   "print \$r$check_reg.v4_int32\[2\]"

   gdb_test "set \$r$check_reg\.v4_int32\[3\] = 8" \
 	   "" \
 	   "set \$r$check_reg\.v4_int32\[3\] = 8"
   gdb_test "print \$r$check_reg.v4_int32\[3\]" \
 	   ".*= 8.*" \
 	   "print \$r$check_reg.v4_int32\[3\]"

   # Now there should be {5, 6, 7, 8} in that array.
   gdb_test "print \$r$check_reg\.v4_int32" \
 	   ".*= \{.*5, 6, 7, 8.*\}" \
 	   "print \$r$check_reg\.v4_int32"
 }

 gdb_exit
 return 0
	# Copyright 2009, 2011-2012 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/>.
	#
	# Contributed by Markus Deuling <deuling@de.ibm.com>.
	#
	# Testsuite for Cell Broadband Engine combined debugger
	# Test ptype and print/set of SPU-side registers.

	load_lib cell.exp

	set ppu_file "break"
	set ppu_src ${srcdir}/${subdir}/${ppu_file}.c
	set ppu_bin ${objdir}/${subdir}/${ppu_file}
	set spu_file "break-spu"
	set spu_src ${srcdir}/${subdir}/${spu_file}.c
	set spu_bin ${objdir}/${subdir}/${spu_file}

	if {[skip_cell_tests]} {
	return 0
	}

	# Compile SPU binary.
	if { [gdb_compile_cell_spu $spu_src $spu_bin executable {debug}] != "" } {
	unsupported "Compiling spu binary failed."
	return -1
	}
	# Compile PPU binary.
	if { [gdb_cell_embedspu $spu_bin $spu_bin-embed.o {debug}] != "" } {
	unsupported "Embedding spu binary failed."
	return -1
	}
	if { [gdb_compile_cell_ppu [list $ppu_src $spu_bin-embed.o] $ppu_bin executable {debug}] != "" } {
	unsupported "Compiling ppu binary failed."
	return -1
	}

	if [get_compiler_info] {
	return -1
	}

	gdb_exit
	gdb_start
	gdb_reinitialize_dir $srcdir/$subdir
	gdb_load ${ppu_bin}

	if ![runto_main] then {
	fail "Can't run to main"
	return 0
	}

	# Continue to SPU
	cont_spu_main

	gdb_test "info registers r2" \
	"r2.\{uint128 =.v2_int64 =.v4_int32 =.v8_int16 =.v16_int8 =.v2_double =.v4_float =.\}.*" \
	"info registers r2"

	for {set check_reg 10} {$check_reg < 12} {incr check_reg} {
	gdb_test "print \$r$check_reg\.v4_int32" \
	".= \{.,.,.,.*\}" \
	"print \$r$check_reg\.v4_int32"

	gdb_test "ptype \$r$check_reg" \
	"type = union __spu_builtin_type_vec128.\{.int128_t uint128.* \
	int64_t v2_int64.int32_t v4_int32.int16_t v8_int16.* \
	int8_t v16_int8.double v2_double.float v4_float.*\}" \
	"ptype \$r$check_reg"

	gdb_test "set \$r$check_reg\.v4_int32 = {1,2,3,4}" \
	"" \
	"set \$r$check_reg\.v4_int32 = {1,2,3,4}"

	gdb_test "print \$r$check_reg\.v4_int32" \
	".= \{.1, 2, 3, 4.*\}" \
	"print \$r$check_reg\.v4_int32"

	gdb_test "print \$r$check_reg.v4_int32\[0\]" \
	".= 1." \
	"print \$r$check_reg.v4_int32\[0\]"

	gdb_test "print \$r$check_reg.v4_int32\[1\]" \
	".= 2." \
	"print \$r$check_reg.v4_int32\[1\]"

	gdb_test "print \$r$check_reg.v4_int32\[2\]" \
	".= 3." \
	"print \$r$check_reg.v4_int32\[2\]"

	gdb_test "print \$r$check_reg.v4_int32\[3\]" \
	".= 4." \
	"print \$r$check_reg.v4_int32\[3\]"

	gdb_test "print \$r$check_reg.v4_int32\[4\]" \
	"no such vector element" \
	"print \$r$check_reg.v4_int32\[4\]"

	# Set single array elements to other values and check the results.
	gdb_test "set \$r$check_reg\.v4_int32\[0\] = 5" \
	"" \
	"set \$r$check_reg\.v4_int32\[0\] = 5"
	gdb_test "print \$r$check_reg.v4_int32\[0\]" \
	".= 5." \
	"print \$r$check_reg.v4_int32\[0\]"

	gdb_test "set \$r$check_reg\.v4_int32\[1\] = 6" \
	"" \
	"set \$r$check_reg\.v4_int32\[1\] = 6"
	gdb_test "print \$r$check_reg.v4_int32\[1\]" \
	".= 6." \
	"print \$r$check_reg.v4_int32\[1\]"

	gdb_test "set \$r$check_reg\.v4_int32\[2\] = 7" \
	"" \
	"set \$r$check_reg\.v4_int32\[2\] = 7"
	gdb_test "print \$r$check_reg.v4_int32\[2\]" \
	".= 7." \
	"print \$r$check_reg.v4_int32\[2\]"

	gdb_test "set \$r$check_reg\.v4_int32\[3\] = 8" \
	"" \
	"set \$r$check_reg\.v4_int32\[3\] = 8"
	gdb_test "print \$r$check_reg.v4_int32\[3\]" \
	".= 8." \
	"print \$r$check_reg.v4_int32\[3\]"

	# Now there should be {5, 6, 7, 8} in that array.
	gdb_test "print \$r$check_reg\.v4_int32" \
	".= \{.5, 6, 7, 8.*\}" \
	"print \$r$check_reg\.v4_int32"
	}

	gdb_exit
	return 0