# Copyright (C) 1993, 1994 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 2 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ # Please email any bugs, comments, and/or additions to this file to: # DejaGnu@cygnus.com # This file was written by Ken Raeburn (raeburn@cygnus.com). proc gas_version {} { global AS catch "exec $AS -version < /dev/null" tmp # Should find a way to discard constant parts, keep whatever's # left, so the version string could be almost anything at all... regexp "version (cygnus-|)\[-0-9.a-zA-Z-\]+" $tmp version set tmp $version clone_output "[which $AS] $version\n" unset tmp unset version } proc gas_run { prog as_opts redir } { global AS global ASFLAGS global comp_output global srcdir global subdir verbose "Executing $AS $ASFLAGS $as_opts $prog $redir" catch "exec $srcdir/lib/run $AS $ASFLAGS $as_opts $srcdir/$subdir/$prog $redir" comp_output } proc all_ones { args } { foreach x $args { if [expr $x!=1] { return 0 } } return 1 } proc gas_start { prog as_opts } { global AS global ASFLAGS global srcdir global subdir global spawn_id verbose "Starting $AS $ASFLAGS $as_opts $prog" 2 catch { spawn -noecho -nottycopy $srcdir/lib/run $AS $ASFLAGS $as_opts $srcdir/$subdir/$prog } foo if ![regexp {^[0-9]+} $foo] then { perror "Can't run $subdir/$prog: $foo" } } proc gas_finish { } { global spawn_id catch "close" catch "wait" } proc want_no_output { testname } { global comp_output if ![string match "" $comp_output] then { send_log "$comp_output\n" verbose "$comp_output" 3 } if [string match "" $comp_output] then { pass "$testname" return 1 } else { fail "$testname" return 0 } } proc gas_test_old { file as_opts testname } { gas_run $file $as_opts "" return [want_no_output $testname] } proc gas_test { file as_opts var_opts testname } { global comp_output set i 0 foreach word $var_opts { set ignore_stdout($i) [string match "*>" $word] set opt($i) [string trim $word {>}] incr i } set max [expr 1<<$i] for {set i 0} {[expr $i<$max]} {incr i} { set maybe_ignore_stdout "" set extra_opts "" for {set bit 0} {(1<<$bit)<$max} {incr bit} { set num [expr 1<<$bit] if [expr $i&$num] then { set extra_opts "$extra_opts $opt($bit)" if $ignore_stdout($bit) then { set maybe_ignore_stdout ">/dev/null" } } } set extra_opts [string trim $extra_opts] gas_run $file "$as_opts $extra_opts" $maybe_ignore_stdout # Should I be able to use a conditional expression here? if [string match "" $extra_opts] then { want_no_output $testname } else { want_no_output "$testname ($extra_opts)" } } if [info exists errorInfo] then { unset errorInfo } } proc gas_test_ignore_stdout { file as_opts testname } { global comp_output gas_run $file $as_opts ">/dev/null" want_no_output $testname } proc gas_test_error { file as_opts testname } { global comp_output gas_run $file $as_opts ">/dev/null" if ![string match "" $comp_output] then { send_log "$comp_output\n" verbose "$comp_output" 3 } if [string match "" $comp_output] then { fail "$testname" } else { pass "$testname" } } proc gas_exit {} {} proc gas_init {} { global target_cpu global target_cpu_family global target_family global target_vendor global target_os global stdoptlist case "$target_cpu" in { "m68???" { set target_cpu_family m68k } "i[34]86" { set target_cpu_family i386 } default { set target_cpu_family $target_cpu } } set target_family "$target_cpu_family-$target_vendor-$target_os" set stdoptlist "-a>" # Need to return an empty string. return } # This proc requires two input files -- the .s file containing the # assembly source, and a .d file containing the expected output from # objdump or nm or whatever, and leading comments indicating any options # to be passed to the assembler or dump program. proc run_dump_test { name } { global subdir srcdir global OBJDUMP NM AS OBJCOPY global OBJDUMPFLAGS NMFLAGS ASFLAGS OBJCOPYFLAGS if [string match "*/*" $name] { set file $name set name [file tail $name] } else { set file "$srcdir/$subdir/$name" } set opt_array [slurp_options "${file}.d"] if { $opt_array == -1 } { unresolved $subdir/$name return } set opts(as) {} set opts(objdump) {} set opts(nm) {} set opts(objcopy) {} set opts(name) {} set opts(PROG) {} set opts(source) {} foreach i $opt_array { set opt_name [lindex $i 0] set opt_val [lindex $i 1] if ![info exists opts($opt_name)] { perror "unknown option $opt_name in file $file.d" unresolved $subdir/$name return } if [string length $opts($opt_name)] { perror "option $opt_name multiply set in $file.d" unresolved $subdir/$name return } set opts($opt_name) $opt_val } if {$opts(PROG) != ""} { switch -- $opts(PROG) { objdump { set program objdump } nm { set program nm } objcopy { set program objcopy } default { perror "unrecognized program option $opts(PROG) in $file.d" unresolved $subdir/$name return } } } elseif {$opts(objdump) == "" && $opts(nm) != ""} { set program nm } elseif {$opts(objdump) != "" && $opts(nm) == ""} { set program objdump } elseif {$opts(objcopy) != ""} { set program objcopy } else { perror "dump program unspecified in $file.d" unresolved $subdir/$name return } set progopts1 $opts($program) eval set progopts \$[string toupper $program]FLAGS eval set binary \$[string toupper $program] if { $opts(name) == "" } { set testname "$subdir/$name" } else { set testname $opts(name) } if { $opts(source) == "" } { set sourcefile ${file}.s } else { set sourcefile $srcdir/$subdir/$opts(source) } send_log "$AS $ASFLAGS $opts(as) -o dump.o $sourcefile\n" catch "exec $srcdir/lib/run $AS $ASFLAGS $opts(as) -o dump.o $sourcefile" comp_output if ![string match "" $comp_output] then { send_log "$comp_output\n" verbose "$comp_output" 3 fail $testname return } if { [which $binary] == 0 } { untested $testname return } if { $progopts1 == "" } { set $progopts1 "-r" } verbose "running $binary $progopts $progopts1" 3 if { $program == "objcopy" } { send_log "$binary $progopts $progopts1 dump.o dump.out\n" if [catch "exec $binary $progopts $progopts1 dump.o dump.out" comp_output] { send_log "$comp_output\n" fail $testname return } } else { send_log "$binary $progopts $progopts1 dump.o > dump.out\n" if [catch "exec $binary $progopts $progopts1 dump.o > dump.out" comp_output] { send_log "$comp_output\n" fail $testname return } } verbose_eval {[file_contents "dump.out"]} 3 if { [regexp_diff "dump.out" "${file}.d"] } then { fail $testname return } pass $testname } proc slurp_options { file } { if [catch { set f [open $file r] } x] { #perror "couldn't open `$file': $x" perror "$x" return -1 } set opt_array {} # whitespace expression set ws {[ ]*} set nws {[^ ]*} # whitespace is ignored anywhere except within the options list; # option names are alphabetic only set pat "^#${ws}(\[a-zA-Z\]*)$ws:${ws}(.*)$ws\$" while { [gets $f line] != -1 } { set line [string trim $line] # Whitespace here is space-tab. if [regexp $pat $line xxx opt_name opt_val] { # match! lappend opt_array [list $opt_name $opt_val] } else { break } } close $f return $opt_array } proc objdump { opts } { global OBJDUMP global comp_output catch "exec $OBJDUMP $opts" comp_output verbose "objdump output=$comp_output\n" 3 } proc objdump_start_no_subdir { prog opts } { global OBJDUMP global srcdir global spawn_id verbose "Starting $OBJDUMP $opts $prog" 2 catch { spawn -noecho -nottyinit $srcdir/lib/run $OBJDUMP $opts $prog } foo if ![regexp {^[0-9]+} $foo] then { perror "Can't run $prog: $foo" } } proc objdump_finish { } { global spawn_id catch "close" catch "wait" } # Default timeout is 10 seconds, loses on a slow machine. But some # configurations of dejagnu may override it. if {$timeout<120} then { set timeout 120 } expect_after -i { timeout { perror "timeout" } "virtual memory exhausted" { perror "virtual memory exhausted" } buffer_full { perror "buffer full" } eof { perror "eof" } } # regexp_diff, based on simple_diff taken from ld test suite # compares two files line-by-line # file1 contains strings, file2 contains regexps and #-comments # blank lines are ignored in either file # returns non-zero if differences exist # proc regexp_diff { file_1 file_2 } { set eof -1 set end 0 set differences 0 set diff_pass 0 if [file exists $file_1] then { set file_a [open $file_1 r] } else { warning "$file_1 doesn't exist" return 1 } if [file exists $file_2] then { set file_b [open $file_2 r] } else { fail "$file_2 doesn't exist" close $file_a return 1 } verbose " Regexp-diff'ing: $file_1 $file_2" 2 while { $differences == 0 && $end == 0 } { set line_a "" set line_b "" while { [string length $line_a] == 0 } { if { [gets $file_a line_a] == $eof } { set end 1 break } } while { [string length $line_b] == 0 || [string match "#*" $line_b] } { if [ string match "#pass" $line_b ] { set end 1 set diff_pass 1 break } if { [gets $file_b line_b] == $eof } { set end 1 break } } if { $end } { break } verbose "regexp \"^$line_b$\"\nline \"$line_a\"" 3 if ![regexp "^$line_b$" "$line_a"] { send_log "regexp_diff match failure\n" send_log "regexp \"^$line_b$\"\nline \"$line_a\"\n" set differences 1 } } if { $differences == 0 && !$diff_pass && [eof $file_a] != [eof $file_b] } { send_log "different lengths\n" verbose "different lengths" 3 set differences 1 } close $file_a close $file_b return $differences } proc file_contents { filename } { set file [open $filename r] set contents [read $file] close $file return $contents } proc verbose_eval { expr { level 1 } } { global verbose if $verbose>$level then { eval verbose "$expr" $level } }