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# Copyright 1999, 2000, 2002, 2007 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, write to the Free Software
# Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
# MA 02110-1301, USA.
# Please email any bugs, comments, and/or additions to this file to:
# hp@axis.com
# Written by Axis Communications AB.
# --- This function copied from arc.exp and rewritten to fit CRIS ---
#
# Test an insn from a template .s/.d.
# The best way to create the .d file is to run the tests without it, let
# dejagnu crash, run as.new on the just built .s file, run objdump -dr on
# the result of that, copy the result into the .d file, and edit in the
# necessary patterns (@OC@, etc.). Sounds complicated but it's easy. The
# catch is that we assume a working assembler is used to build it. That's
# obviously not entirely kosher, but once the .d file is created one can
# verify it's contents over time.
#
# Template patterns:
# @OC@ - placeholder for the opcode
# @OR@ - placeholder for extra replacement to distinguish similar
# testcases.
# @IR+????@ - placeholder for (e.g.) register-operand insn code
# @IM+????@ - placeholder for (e.g.) memory-operand insn code.
proc test_template_insn_reg_mem { args } {
# tmpl opcode ircode imcode avoid_regex dname ircode0
# imcode0 [regex replace OR_replace]
global srcdir subdir objdir
set tmpl [lindex $args 0]
set opcode [lindex $args 1]
set ircode [lindex $args 2]
set imcode [lindex $args 3]
set avoid_regex [lindex $args 4]
set dname [lindex $args 5]
set ircode0 [lindex $args 6]
set imcode0 [lindex $args 7]
if { [llength $args] >= 10 } {
set replace_regex [lindex $args 8]
set replacement [lindex $args 9]
} else {
set replace_regex ""
}
# Any extra replacements (like modifying the test name to something
# else than the @OC@ modification). Replaces occurences of @OR@.
if { [llength $args] >= 11 } then {
set extra_OR_replace [lindex $args 10]
} else {
set extra_OR_replace ""
}
# Get the parts that we will wedge into the insn.
if [regexp "(.)(.)(.)" $imcode junk imcode3 imcode2 imcode1] {
set imcode3 [expr "0x$imcode3" ]
} else {
regexp "(.)(.)" $imcode junk imcode2 imcode1
set imcode3 0
}
set imcode1 [expr "0x$imcode1" ]
set imcode2 [expr "0x$imcode2" ]
if [regexp "(.)(.)(.)" $ircode junk ircode3 ircode2 ircode1] {
set ircode3 [expr "0x$ircode3" ]
} else {
regexp "(.)(.)" $ircode junk ircode2 ircode1
set ircode3 0
}
set ircode1 [expr "0x$ircode1" ]
set ircode2 [expr "0x$ircode2" ]
# To avoid fiddling with the generated .d-file, we have a
# parameter saying what ircode, imcode to subtract.
if [regexp "(.)(.)(.)" $imcode0 junk imcode03 imcode02 imcode01] {
set imcode03 [expr "0x$imcode03" ]
} else {
regexp "(.)(.)" $imcode0 junk imcode02 imcode01
set imcode03 0
}
set imcode01 [expr "0x$imcode01" ]
set imcode02 [expr "0x$imcode02" ]
if [regexp "(.)(.)(.)" $ircode0 junk ircode03 ircode02 ircode01] {
set ircode03 [expr "0x$ircode03" ]
} else {
regexp "(.)(.)" $ircode0 junk ircode02 ircode01
set ircode03 0
}
set ircode01 [expr "0x$ircode01" ]
set ircode02 [expr "0x$ircode02" ]
# The output template may be in another file than what the
# source template is.
if [string match $dname ""] {
set dname $tmpl
}
# Change @OC@ in the template file to $opcode
set in_fd [open $srcdir/$subdir/$tmpl.s r]
set out_fd [open $objdir/$opcode-test.s w]
# FIXME: check return codes
while { [gets $in_fd line] >= 0 } {
if { [string match "" "$avoid_regex"] \
|| ![regexp "$avoid_regex" $line] } {
# verbose "Keeping $line for $opcode"
# If caller passed a replacement regex, use it.
if ![string match "" "$replace_regex"] {
# verbose "Replacing $line with ..."
regsub $replace_regex $line $replacement line
# verbose "... $line"
}
regsub "@OC@" $line $opcode line
puts $out_fd $line
} else {
# verbose "Skipping $line for $opcode"
}
}
close $in_fd
close $out_fd
# Create output template.
set in_fd [open $srcdir/$subdir/$dname.d r]
set out_fd [open $objdir/$opcode-test.d w]
# FIXME: check return codes
while { [gets $in_fd line] >= 0 } {
regsub "@OC@" $line $opcode line
#send_user "$line\n"
regsub "@OR@" $line $extra_OR_replace line
if [string match "*@IM+????@*" $line] {
# Insert the memory opcode. imcode2 occupies the high four bits
# of the first (presented as leftmost) byte of the
# IC parameter, and imcode1 the low four bits of the second
# (rightmost) byte.
regexp "^(.*)@IM\\+(.)(.)(.)(.)@(.*)$" \
$line junk leftpart n1 n2 n3 n4 rightpart
# verbose "IM $n1 $n2 $n3 $n4 ($imcode1 $imcode2 $imcode3 $imcode01 $imcode02 $imcode03)"
set n1 [expr 0x$n1 - $imcode01 ]
set n3 [expr 0x$n3 - $imcode03 ]
set n4 [expr 0x$n4 - $imcode02 ]
set n [expr ($imcode1 << 12) + ($n1 << 12) + (0x$n2 << 8) \
+ ($n3 << 4) + ($imcode3 << 4) + $n4 + $imcode2 ]
set n [format "%04x" $n]
puts $out_fd "$leftpart$n$rightpart"
} elseif [string match "*@IR+????@*" $line] {
# As IM, but use the register opcode.
regexp "^(.*)@IR\\+(.)(.)(.)(.)@(.*)$" \
$line junk leftpart n1 n2 n3 n4 rightpart
# verbose "IR $n1 $n2 $n3 $n4 ($ircode1 $ircode2 $ircode3 $ircode01 $ircode02 $ircode03)"
set n1 [expr 0x$n1 - $ircode01 ]
set n3 [expr 0x$n3 - $ircode03 ]
set n4 [expr 0x$n4 - $ircode02 ]
set n [expr ($ircode1 << 12) + ($n1 << 12) + (0x$n2 << 8) \
+ ($n3 << 4) + ($ircode3 << 4) + $n4 + $ircode2 ]
set n [format "%04x" $n]
puts $out_fd "$leftpart$n$rightpart"
} else {
puts $out_fd $line
}
}
close $in_fd
close $out_fd
# Finally, run the test.
run_dump_test $objdir/$opcode-test
# "make clean" won't delete these, so for now we must.
catch "exec rm -f $objdir/$opcode-test.s $objdir/$opcode-test.d"
}
# --- End of arc.exp borrow ---
proc test_template_insn_reg { args } {
# tmpl opcode ircode avoid_regex dname ircode0 [regex replace OR_replace]
if { [llength $args] == 6 } {
test_template_insn_reg_mem [lindex $args 0] [lindex $args 1] \
[lindex $args 2] 00 [lindex $args 3] [lindex $args 4] \
[lindex $args 5] 00
} elseif { [llength $args] == 9 } {
test_template_insn_reg_mem [lindex $args 0] [lindex $args 1] \
[lindex $args 2] 00 [lindex $args 3] [lindex $args 4] \
[lindex $args 5] 00 [lindex $args 6] [lindex $args 7] \
[lindex $args 8]
} else {
test_template_insn_reg_mem [lindex $args 0] [lindex $args 1] \
[lindex $args 2] 00 [lindex $args 3] [lindex $args 4] \
[lindex $args 5] 00 [lindex $args 6] [lindex $args 7]
}
}
# For insn with only memory operands.
proc test_template_insn_mem { args } {
# tmpl opcode imcode avoid_regex dname imcode0 [regex replace]
if { [llength $args] == 6 } {
test_template_insn_reg_mem [lindex $args 0] [lindex $args 1] 00 \
[lindex $args 2] [lindex $args 3] [lindex $args 4] 00 \
[lindex $args 5]
} else {
test_template_insn_reg_mem [lindex $args 0] [lindex $args 1] 00 \
[lindex $args 2] [lindex $args 3] [lindex $args 4] 00 \
[lindex $args 5] [lindex $args 6] [lindex $args 7]
}
}
# For insn without substitutions in the output pattern.
proc test_template_insn_single { tmpl opcode avoid_regex dname } {
test_template_insn_reg_mem $tmpl $opcode 00 00 "$avoid_regex" $dname 00 00
}
# For iteration over special registers. Spec reg name in "regname",
# number in "regno". Type (size) in "regtype". Size-patterns to avoid
# in input_avoid.
proc to_sreg { regname regno regtype input_avoid } {
test_template_insn_reg_mem binop move \
[format "%0x63" $regno] [format "%0xa3" $regno] \
",r\[0-9\]+,r\[0-9\]|@OC@\[^\\.\]|$input_avoid" \
"x-to-$regtype-sreg" 063 0a3 \
"@OC@\[^ \]+ (.*),r\[0-9\]+" [format "@OC@ \\1,%s" $regname] \
$regname
}
# As to_sreg, but using unop, since we don't need to test constants.
proc sreg_to { regname regno regtype input_avoid } {
test_template_insn_reg_mem unop move \
[format "%0x67" $regno] [format "%0xa7" $regno] \
"@OC@\\." "sreg-to-x" 067 0a7 \
"@OC@ (.*)" [format "@OC@ %s,\\1" $regname] $regname
}
# Replace registers in pushpop
proc push_pop { regname regno regtype input_avoid } {
test_template_insn_reg_mem pushpop pushpop-sreg \
00 [format "%0x00" $regno] \
"$input_avoid" "pushpop-$regtype-sreg" 00 000 \
"(\\.\[bwd\])? ((\[^, \]*,)?)r\[0-9\]+((,.*)?)" " \\2$regname\\4" $regname
}
#
# Iterate over spec reg names and spec reg numbers.
#
proc do_spec_regs { inner_function spec_reg_list } {
for { set i 0 } { $i < [llength $spec_reg_list] } { incr i } {
set regname [lindex [lindex $spec_reg_list $i] 0]
set regno [lindex [lindex $spec_reg_list $i] 1]
set regtype [lindex [lindex $spec_reg_list $i] 2]
set input_avoid [lindex [lindex $spec_reg_list $i] 3]
# verbose "$regname $regno $regtype $input_avoid"
$inner_function $regname $regno $regtype $input_avoid
}
}
if [istarget cris-*-*] then {
# Note that registers are missing, since the assembler will
# rightfully emit errors for registers that are not in current
# silicon. Those are currently p2 and p3.
# Note the special for dcr1, since it has different size for
# different silicon, which matters for assembling and displaying
# "immediate constants".
set spec_reg_list [list \
[list p0 0 "byte" "(@OC@|move)\\.\[wd\]" ] \
[list p1 1 "byte" "(@OC@|move)\\.\[wd\]" ] \
[list vr 1 "byte" "(@OC@|move)\\.\[wd\]" ] \
[list p4 4 "word" "(@OC@|move)\\.\[bd\]" ] \
[list p5 5 "word" "(@OC@|move)\\.\[bd\]" ] \
[list ccr 5 "word" "(@OC@|move)\\.\[bd\]" ] \
[list p6 6 "word" "(@OC@|move)\\.\[bd\]" ] \
[list dcr0 6 "word" "(@OC@|move)\\.\[bd\]" ] \
[list p7 7 "dword" "(@OC@|move)\\.\[bw\]" ] \
[list dcr1 7 "dcr1" "(@OC@|move)\\.\[bd\]" ] \
[list p8 8 "dword" "(@OC@|move)\\.\[bw\]" ] \
[list p9 9 "dword" "(@OC@|move)\\.\[bw\]" ] \
[list ibr 9 "dword" "(@OC@|move)\\.\[bw\]" ] \
[list p10 10 "dword" "(@OC@|move)\\.\[bw\]" ] \
[list irp 10 "dword" "(@OC@|move)\\.\[bw\]" ] \
[list p11 11 "dword" "(@OC@|move)\\.\[bw\]" ] \
[list srp 11 "dword" "(@OC@|move)\\.\[bw\]" ] \
[list p12 12 "dword" "(@OC@|move)\\.\[bw\]" ] \
[list bar 12 "dword" "(@OC@|move)\\.\[bw\]" ] \
[list dtp0 12 "dword" "(@OC@|move)\\.\[bw\]" ] \
[list p13 13 "dword" "(@OC@|move)\\.\[bw\]" ] \
[list dccr 13 "dword" "(@OC@|move)\\.\[bw\]" ] \
[list dtp1 13 "dword" "(@OC@|move)\\.\[bw\]" ] \
[list p14 14 "dword" "(@OC@|move)\\.\[bw\]" ] \
[list brp 14 "dword" "(@OC@|move)\\.\[bw\]" ] \
[list p15 15 "dword" "(@OC@|move)\\.\[bw\]" ]]
# Test basic instructions. Note that this will actually
# test both the assembler and the disassembler functionality.
#untested ".weak reduction"
#untested "Old regressions"
#untested "LX"
#untested "case recognition (disassembler)"
#untested "disassembling special regs"
#untested "disassembling unimplemented special regs"
# *PLEASE* make new "simple" run_dump_test-tests match "rd-*.d", so
# they will be picked up automatically through this construct. This
# so you don't need to change cris.exp. (As perhaps should have been
# originally done for cases below, but which is not worth fixing now.)
set rd_test_list [lsort [glob -nocomplain $srcdir/$subdir/rd-*.d]]
for { set i 0 } { $i < [llength $rd_test_list] } { incr i } {
# We need to strip the ".d", but can leave the dirname.
verbose [file rootname [lindex $rd_test_list $i]]
run_dump_test [file rootname [lindex $rd_test_list $i]]
}
# Broken word handling got erroneously triggers for this and
# got out-of-bounds errors.
# FIXME: Check closer that this gets the expected results and fix
# the general use of difference-expressions in binop.s and elsewhere.
gas_test "binop-segref.s" "" "" "False broken words"
# Really orthogonal instructions.
test_template_insn_reg_mem binop add 60 a0 "@OC@\[^\\.\]" "" 60 a0
test_template_insn_reg_mem binop sub 68 a8 "@OC@\[^\\.\]" "" 60 a0
test_template_insn_reg_mem binop bound 5c 9c "@OC@\[^\\.\]" "" 60 a0
test_template_insn_reg_mem binop and 70 b0 "@OC@\[^\\.\]" "" 60 a0
test_template_insn_reg_mem binop or 74 b4 "@OC@\[^\\.\]" "" 60 a0
# Unary (two-operand) insns, otherwise as above.
test_template_insn_reg_mem binop cmp 6c ac \
",r\[0-9\]+,r\[0-9\]|@OC@\[^\\.\]" "binop-cmpmove" 64 a4
# This is of course only the move-to-register one.
test_template_insn_reg_mem binop move 64 a4 \
",r\[0-9\]+,r\[0-9\]|@OC@\[^\\.\]" "binop-cmpmove" 64 a4
# No dword size - operations with sign- or zero-extend on
# the mem or reg operand.
test_template_insn_reg_mem binop addu 40 80 \
"@\\.d|@OC@\[^\\.\]" "binop-extx" 40 80
test_template_insn_reg_mem binop adds 42 82 \
"@\\.d|@OC@\[^\\.\]" "binop-extx" 40 80
test_template_insn_reg_mem binop subu 48 88 \
"@\\.d|@OC@\[^\\.\]" "binop-extx" 40 80
test_template_insn_reg_mem binop subs 4a 8a \
"@\\.d|@OC@\[^\\.\]" "binop-extx" 40 80
# The two constraints above combined, and no reg-to-reg -
# cmps, cmpu, movs, movu. We have to test reg-to-reg
# separately for movs and movu.
test_template_insn_mem binop movs 86 \
"r\[0-9\]+,r\[0-9\]+|@\\.d|@OC@\[^\\.\]" "binop-cmpmovx" 84
test_template_insn_mem binop movu 84 \
"r\[0-9\]+,r\[0-9\]+|@\\.d|@OC@\[^\\.\]" "binop-cmpmovx" 84
test_template_insn_mem binop cmps 8e \
"r\[0-9\]+,r\[0-9\]+|@\\.d|@OC@\[^\\.\]" "binop-cmpmovx" 84
test_template_insn_mem binop cmpu 8c \
"r\[0-9\]+,r\[0-9\]+|@\\.d|@OC@\[^\\.\]" "binop-cmpmovx" 84
# Reg-to-memory. FIXME: Perhaps we should use unop.s for
# everything, and insert registers (including special
# registers) for all reg-to-mem and mem-to-reg insn tests.
test_template_insn_mem binop move.b bc "@OC@\\." "reg-to-mem" bc
test_template_insn_mem binop move.w bd "@OC@\\." "reg-to-mem" bc
test_template_insn_mem binop move.d be "@OC@\\." "reg-to-mem" bc
test_template_insn_mem binop movem bf "@OC@\\." "reg-to-mem" bc
# Use the replace-regex functionality to reverse the
# operands for movem.
test_template_insn_mem binop movem 00 "@OC@\\." "movem-to-reg" 00 \
"@OC@ r(\[0-9\]+),\\\[(.*)\\\]" "@OC@ \[\\2\],r\\1"
# The unary operations are too irregular to make a pattern
# of the output.
test_template_insn_single unop test "@OC@\[^\\.\]" "test"
test_template_insn_single unop clear "@OC@\[^\\.\]" "clear"
# Quick-operand tests.
#
# Unsigned 5-bits: btstq, asrq, lslq, lsrq.
test_template_insn_reg quick btstq 38 "s6|u6" "quick-u5" 38
test_template_insn_reg quick asrq 3a "s6|u6" "quick-u5" 38
test_template_insn_reg quick lslq 3c "s6|u6" "quick-u5" 38
test_template_insn_reg quick lsrq 3e "s6|u6" "quick-u5" 38
# Signed 6-bits: moveq, cmpq, andq, orq.
test_template_insn_reg quick moveq 24 "u6" "quick-s6" 24
test_template_insn_reg quick cmpq 2c "u6" "quick-s6" 24
test_template_insn_reg quick andq 30 "u6" "quick-s6" 24
test_template_insn_reg quick orq 34 "u6" "quick-s6" 24
# Unsigned 6-bits: addq, subq.
test_template_insn_reg quick addq 20 "s6" "quick-u6" 20
test_template_insn_reg quick subq 28 "s6" "quick-u6" 20
# Register-to-register instructions, for each size.
test_template_insn_reg regreg movu.b 44 "" "" 44
test_template_insn_reg regreg movu.w 45 "" "" 44
test_template_insn_reg regreg movs.b 46 "" "" 44
test_template_insn_reg regreg movs.w 47 "" "" 44
test_template_insn_reg regreg lsl.b 4c "" "" 44
test_template_insn_reg regreg lsl.w 4d "" "" 44
test_template_insn_reg regreg lsl.d 4e "" "" 44
test_template_insn_reg regreg neg.b 58 "" "" 44
test_template_insn_reg regreg neg.w 59 "" "" 44
test_template_insn_reg regreg neg.d 5a "" "" 44
test_template_insn_reg regreg asr.b 78 "" "" 44
test_template_insn_reg regreg asr.w 79 "" "" 44
test_template_insn_reg regreg asr.d 7a "" "" 44
test_template_insn_reg regreg lsr.b 7c "" "" 44
test_template_insn_reg regreg lsr.w 7d "" "" 44
test_template_insn_reg regreg lsr.d 7e "" "" 44
test_template_insn_reg regreg btst 4f "" "" 44
test_template_insn_reg regreg abs 6b "" "" 44
test_template_insn_reg regreg dstep 6f "" "" 44
test_template_insn_reg regreg xor 7b "" "" 44
test_template_insn_reg regreg mstep 7f "" "" 44
# The various incarnations of the swap(n) insn.
set nwbr_list [list [list "not" 877] \
[list "swapw" 477] \
[list "swapnw" c77] \
[list "swapb" 277] \
[list "swapnb" a77] \
[list "swapwb" 677] \
[list "swapnwb" e77] \
[list "swapr" 177] \
[list "swapnr" 977] \
[list "swapwr" 577] \
[list "swapnwr" d77] \
[list "swapbr" 377] \
[list "swapnbr" b77] \
[list "swapwbr" 777] \
[list "swapnwbr" f77]]
for { set i 0 } { $i < [llength $nwbr_list] } { incr i } {
set name [lindex [lindex $nwbr_list $i] 0]
set number [lindex [lindex $nwbr_list $i] 1]
test_template_insn_reg regreg $name $number "" "oneop-type" 877 \
",r\[0-9]+" "" $name
}
# And one extra for the one that is canonicalized as "not".
test_template_insn_reg regreg swapn 877 "" "oneop-type" 877 \
",r\[0-9]+" "" not
# And take the opportunity to make sure that the assembler
# recognizes StUDlYCaPs.
test_template_insn_reg regreg SWAPN 877 "" "oneop-type" 877 \
",r\[0-9]+" "" not
test_template_insn_reg regreg Swapn 877 "" "oneop-type" 877 \
",r\[0-9]+" "" not
test_template_insn_reg regreg sWApN 877 "" "oneop-type" 877 \
",r\[0-9]+" "" not
# Fixed-size unary memory instructions.
test_template_insn_mem unop jsr b93 "@OC@\\." "jump-type" b93
test_template_insn_mem unop jump 093 "@OC@\\." "jump-type" b93
test_template_insn_mem unop jir a93 "@OC@\\." "jump-type" b93
# Non-templated tests.
run_dump_test "ccr"
run_dump_test "scc"
run_dump_test "pushpop"
run_dump_test "prefix"
run_dump_test "unimplemented"
run_dump_test "return"
run_dump_test "branch"
run_dump_test "separator"
run_dump_test "diffexp-ovwr"
run_dump_test "continue"
run_dump_test "nosep"
run_dump_test "labfloat"
run_dump_test "bork"
# This seems like a generic expression evaluation problem.
setup_xfail "cris-*-*"
run_dump_test "shexpr-1"
# The "@" will be erroneously interpreted as a line-separator in a
# macro here-label marker: "\@".
setup_xfail "cris-*-*"
run_dump_test "macroat"
# "\x20a" will be recognized as "\n" rather than " a"
setup_xfail "cris-*-*"
run_dump_test "string-1"
# Same as above, but removed the failing case to make sure the rest
# still works.
run_dump_test "string-2"
# Usable (non-redundant) and refreshed bits from the old, manual,
# test suite.
run_dump_test "brokw-1"
run_dump_test "brokw-2"
run_dump_test "brokw-3"
run_dump_test "fragtest"
# Addi is too irregular to bother applying templates to.
run_dump_test "addi"
# Test {mem (including constants), reg}-to/from-spec-reg.
do_spec_regs to_sreg $spec_reg_list
do_spec_regs sreg_to $spec_reg_list
do_spec_regs push_pop $spec_reg_list
# Additional insns for CRIS v3:
run_dump_test "break"
test_template_insn_reg regreg lz 73 "" "" 44
# Additional insns for CRIS v8 (also the swapxxx insns other than "not" above).
test_template_insn_mem unop jirc 293 "@OC@\\." "jump-type" b93
test_template_insn_mem unop jsrc 393 "@OC@\\." "jump-type" b93
test_template_insn_mem unop jbrc 693 "@OC@\\." "jump-type" b93
# Additional insns for CRIS v10:
test_template_insn_reg regreg mulu.b 90 "" "" 44
test_template_insn_reg regreg mulu.w 91 "" "" 44
test_template_insn_reg regreg mulu.d 92 "" "" 44
test_template_insn_reg regreg muls.b d0 "" "" 44
test_template_insn_reg regreg muls.w d1 "" "" 44
test_template_insn_reg regreg muls.d d2 "" "" 44
test_template_insn_mem unop sbfs 3b7 "@OC@\\.| r\[0-9\]+$" "unop-mem" 3b7
test_template_insn_mem unop rbf 3b3 "@OC@\\.| r\[0-9\]+$" "unop-mem" 3b7
test_template_insn_mem unop jmpu 893 "@OC@\\.| r\[0-9\]+$" "unop-mem" 3b7
# Some dg-tests, which seems the easiest way to test error
# cases. Keeping it here at the end avoids getting a
# "Tcl_RegisterChannel: duplicate channel names" error, and
# I don't see a cause to put this in a separate file. Hey,
# isn't dg-finish supposed to make things (like this case)
# fine?
load_lib gas-dg.exp
dg-init
dg-runtest [lsort [glob -nocomplain $srcdir/$subdir/*-err-*.s $srcdir/$subdir/*-warn-*.s]] "" ""
dg-finish
}
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