llvm-gcc-4.2/gcc/testsuite/lib/profopt.exp - llvm-archive - Git at Google

 #   Copyright (C) 2001, 2004, 2005 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
 #
 # This script was submitted by Janis Johnson <janis187@us.ibm.com>.

 # Test the functionality and optionally, performance improvement, of
 # programs compiled with profile-directed optimizations.  Compile and
 # run a test with profile options, compile it with options using the
 # profile feedback, and then run the test again.  Optionally compile
 # and run a third time without the profile-directed optimization and
 # compare timing results of the program with normal optimization and
 # with the profile-directed optimization. Each test is run using
 # multiple sets of optimization and/or code generation options in
 # addition to the profiling and feedback options.

 # If perf_ext is defined and the performance value for the
 # profile-directed test run is nonzero then the performance check will
 # be done.

 load_lib dg.exp
 load_lib gcc-dg.exp

 global PROFOPT_OPTIONS perf_delta

 # The including .exp file must define these.
 global tool profile_option feedback_option prof_ext
 if ![info exists tool] {
     error "Tools is not specified."
 }
 if ![info exists prof_ext] {
     error "No profile data file extensions specified."
 }

 # The maximum perforance degradation can be defined in the including file.
 if ![info exists perf_delta] {
     set perf_delta 4
 }

 # The default option list can be overridden by
 # PROFOPT_OPTIONS="{ { list1 } ... { list2 } }"

 if ![info exists PROFOPT_OPTIONS] {
     set PROFOPT_OPTIONS [list \
 	{ -g } \
 	{ -O0 } \
 	{ -O1 } \
 	{ -O2 } \
 	{ -O3 } \
 	{ -O3 -g } \
 	{ -Os } ]
 }

 set prof_option_list $PROFOPT_OPTIONS

 #
 # profopt-cleanup -- remove profiling or performance results files.
 #
 # TESTCASE is the name of the test
 # EXT is the extensions of files to remove
 #
 proc profopt-cleanup { testcase extlist } {
     set basename [file tail $testcase]
     set base [file rootname $basename]
     foreach ext $extlist {
 	set files [glob -nocomplain $base.$ext]
 	if { $files != "" } {
 	    eval "remote_file build delete $files"
 	}
     }
 }

 #
 # profopt-perf-value -- get performance value for a test
 #
 # TESTCASE is the name of the test
 # PERF_EXT is the extension of the performance result file
 # OPTSTR is the string of compiler options
 #
 proc profopt-perf-value { testcase perf_ext optstr } {
     set basename [file tail $testcase]
     set base [file rootname $basename]
     set files [glob -nocomplain $base.$perf_ext]
     # The file doesn't exist; let the caller decide if that's a problem.
     if { $files == "" } {
         return -2
     }
     remote_upload host $base.$perf_ext $base.$perf_ext
     set fd [open $base.$perf_ext r]
     gets $fd line
     set val -2
     if [regexp "TIME" $line] {
         if [regexp "TIME -1" $line] {
 	    fail "$testcase perf check: no consistent time available, $optstr"
 	    set val -1
 	} elseif ![regexp "(\[0-9\]+)" "$line" val] {
 	    set val -2
 	}
     }
     # Report problems with an existing file.
     if { $val == -2 } {
 	fail "$testcase perf check: file $base.$perf_ext has wrong format, $optstr"
     }
     close $fd
     profopt-cleanup $testcase $perf_ext
     return $val
 }

 #
 # dg-final-generate -- process code to run after the profile-generate step
 #
 # ARGS is the line number of the directive followed by the commands.
 #
 proc dg-final-generate { args } {
     global generate_final_code

     if { [llength $args] > 2 } {
 	error "[lindex $args 0]: too many arguments"
 	return
     }
     append generate_final_code "[lindex $args 1]\n"
 }

 #
 # dg-final-use -- process code to run after the profile-use step
 #
 # ARGS is the line number of the directive followed by the commands.
 #
 proc dg-final-use { args } {
     global use_final_code

     if { [llength $args] > 2 } {
 	error "[lindex $args 0]: too many arguments"
 	return
     }
     append use_final_code "[lindex $args 1]\n"
 }

 #
 # profopt-final-code -- run final code
 #
 # WHICH is "generate" or "use".
 # FINAL_CODE is the TCL code to run.
 # TESTCASE is the name of the test, for error messages.
 #
 proc profopt-final-code { which final_code name } {
     # This is copied from dg-test in dg.exp of DejaGnu.
     regsub -all "\\\\(\[{}\])" $final_code "\\1" final_code
     proc profopt-final-proc { args } $final_code
     if [catch "profopt-final-proc $name" errmsg] {
 	perror "$name: error executing dg-final-${which}: $errmsg"
 	unresolved "$name: Error executing dg-final-${which}: $errmsg"
     }
 }

 #
 # profopt-get-options -- process test directives
 #
 # SRC is the full pathname of the testcase.
 #
 proc profopt-get-options { src } {
     # dg-options sets a variable called dg-extra-tool-flags.
     set dg-extra-tool-flags ""

     # dg-require-* sets dg-do-what.
     upvar dg-do-what dg-do-what

     set tmp [dg-get-options $src]
     foreach op $tmp {
 	set cmd [lindex $op 0]
 	if { ![string compare "dg-options" $cmd] \
 	     || ![string compare "dg-skip-if" $cmd] \
 	     || ![string compare "dg-final-generate" $cmd] \
 	     || ![string compare "dg-final-use" $cmd] \
 	     || [string match "dg-require-*" $cmd]  } {
 	    set status [catch "$op" errmsg]
 	    if { $status != 0 } {
 		perror "src: $errmsg for \"$op\"\n"
 		unresolved "$src: $errmsg for \"$op\""
 		return
 	    }
 	} else {
 	    # Ignore unrecognized dg- commands, but warn about them.
 	    warning "compat.exp does not support $cmd"
 	}
     }

     # Return flags to use for compiling the primary source file and for
     # linking.
     return ${dg-extra-tool-flags}
 }

 #
 # c-prof-execute -- compile for profiling and then feedback, then normal
 #
 # SRC is the full pathname of the testcase.
 #
 proc profopt-execute { src } {
     global srcdir tmpdir
     global prof_option_list
     global tool profile_option feedback_option prof_ext perf_ext perf_delta
     global generate_final_code use_final_code
     global verbose

     if ![info exists profile_option] {
         error "No profile option specified for first compile."
     }
     if ![info exists feedback_option] {
         error "No feedback option specified for second compile."
     }

     regsub "(?q)$srcdir/" $src "" testcase
     # If we couldn't rip $srcdir out of `src' then just do the best we can.
     # The point is to reduce the unnecessary noise in the logs.  Don't strip
     # out too much because different testcases with the same name can confuse
     # `test-tool'.
     if [string match "/*" $testcase] {
 	set testcase "[file tail [file dirname $src]]/[file tail $src]"
     }

     set executable $tmpdir/[file tail [file rootname $src].x]
     set basename [file tail $testcase]
     set base [file rootname $basename]

     set count 0
     foreach option $prof_option_list {
 	set execname1 "${executable}${count}1"
 	set execname2 "${executable}${count}2"
 	set execname3 "${executable}${count}3"
 	incr count

 	remote_file build delete $execname1
 	remote_file build delete $execname2
 	remote_file build delete $execname3
 	verbose "Testing $testcase, $option" 1

 	# Remove old profiling and performance data files.
 	foreach ext $prof_ext {
 	    remote_file target delete $tmpdir/$base.$ext
 	}
 	if [info exists perf_ext] {
 	    profopt-cleanup $testcase $perf_ext
 	}

 	# Process test directives.

 	set generate_final_code ""
 	set use_final_code ""
 	set dg-do-what [list "run" "" P]
 	set extra_flags [profopt-get-options $src]
 	if { [lindex ${dg-do-what} 1 ] == "N" } {
 	    unsupported "$src"
 	    verbose "$src not supported on this target, skipping it" 3
 	    return
 	}

 	# Compile for profiling.

 	set options ""
 	lappend options "additional_flags=$option $extra_flags $profile_option"
 	set optstr "$option $profile_option"
 	set comp_output [${tool}_target_compile "$src" "$execname1" executable $options]
 	if ![${tool}_check_compile "$testcase compilation" $optstr $execname1 $comp_output] {
  	    unresolved "$testcase execution,   $optstr"
  	    unresolved "$testcase compilation, $option $feedback_option"
  	    unresolved "$testcase execution,   $option $feedback_option"
 	    continue
 	}

 	# Run the profiled test.

 	set result [${tool}_load $execname1 "" ""]
 	set status [lindex $result 0]
 	set missing_file 0
 	# Make sure the profile data was generated, and fail if not.
 	if { $status == "pass" } {
 	    foreach ext $prof_ext {
 		remote_upload target $tmpdir/$base.$ext
 		set files [glob -nocomplain $base.$ext]
 		if { $files == "" } {
 		    set status "fail"
 		    set missing_file 1
 		    fail "$testcase execution: file $base.$ext does not exist, $option $profile_option"
 		}
 	    }
 	}
         if { $missing_file == 0 } {
 	    $status "$testcase execution,   $optstr"
 	}

 	# If there is dg-final code to execute for the generate step, do it
 	# even if it failed; it might clean up temporary files.
 	if ![string match $generate_final_code ""] {
 	    profopt-final-code "generate" $generate_final_code $testcase
 	}

 	remote_file build delete $execname1

 	# Quit for this round if it failed
 	if { $status != "pass" } {
  	    unresolved "$testcase compilation, $option $feedback_option"
  	    unresolved "$testcase execution,   $option $feedback_option"
 	    continue
 	}

 	# Compile with feedback-directed optimizations.

 	set options ""
 	lappend options "additional_flags=$option $extra_flags $feedback_option"
 	set optstr "$option $feedback_option"
 	set comp_output [${tool}_target_compile "$src" "$execname2" "executable" $options]
 	if ![${tool}_check_compile "$testcase compilation" $optstr $execname2 $comp_output] {
  	    unresolved "$testcase execution,   $optstr"
 	    continue
 	}

 	# Run the profile-directed optimized test.

 	set result [${tool}_load "$execname2" "" ""]
 	set status [lindex $result 0]
 	$status "$testcase execution,   $optstr"

 	# If there is dg-final code to execute for the use step, do it.
 	if ![string match $use_final_code ""] {
 	    profopt-final-code "use" $use_final_code $testcase
 	}

 	# Remove the profiling data files.
 	foreach ext $prof_ext {
 	    remote_file target delete $tmpdir/$base.$ext
 	}

 	if { $status != "pass" } {
 	    continue
 	}

 	# If the test is not expected to produce performance data then
 	# we're done now.
 	if ![info exists perf_ext] {
 	    remote_file build delete $execname2
 	    continue
 	}

 	# Get the performance data from the test built with
 	# profile-directed optimization.  If the file doesn't exist or if
 	# the value is zero, skip the performance comparison.
 	set val2 [profopt-perf-value $testcase $perf_ext $optstr]
 	if { $val2 <= 0 } {
 	    remote_file build delete $execname2
 	    continue
 	}

 	# Compile with normal optimizations.

 	set options ""
 	lappend options "additional_flags=$option"
 	set optstr "$option"
 	set comp_output [${tool}_target_compile "$src" "$execname3" "executable" $options]
 	if ![${tool}_check_compile "$testcase compilation" $optstr $execname3 $comp_output] {
  	    unresolved "$testcase execution,   $optstr"
 	    unresolved "$testcase perf check,  $optstr"
 	    continue
 	}

 	# Run the test with normal optimizations.

 	set result [${tool}_load "$execname3" "" ""]
 	set status [lindex $result 0]
 	$status "$testcase execution,   $optstr"
 	if { $status != "pass" } {
 	    unresolved "$testcase perf check, $optstr"
 	    continue
 	}

 	# Get the performance data from the test built with normal
 	# optimization.
 	set val1 [profopt-perf-value $testcase $perf_ext $optstr]
 	if { $val1 < 0 } {
 	    if { $val1 == -2 } {
 		# The data file existed with the profile-directed
 		# optimization so this one should, too.
 		fail "$testcase perf check: file $base.$perf_ext does not exist, $optstr"
 	    }
 	    continue
 	}

 	# Compare results of the two runs and fail if the time with the
 	# profile-directed optimization is significantly more than the time
 	# without it.
 	set status "pass"
 	if { $val2 > $val1 } {
 	    # Check for a performance degration outside of allowable limits.
 	    if { [expr $val2 - $val1] > [expr [expr $val1 * $perf_delta] / 100] } {
 		set status "fail"
 	    }
 	}
 	if { $status == "fail" } {
 	    fail "$testcase perf check: orig: $val1  new: $val2, $optstr"
 	} else {
 	    $status "$testcase perf check,  $optstr"
 	    verbose "$testcase orig: $val1  new: $val2, $optstr" 2
 	    remote_file build delete $execname2
 	    remote_file build delete $execname3
 	}
     }
 }
	# Copyright (C) 2001, 2004, 2005 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
	#
	# This script was submitted by Janis Johnson <janis187@us.ibm.com>.

	# Test the functionality and optionally, performance improvement, of
	# programs compiled with profile-directed optimizations. Compile and
	# run a test with profile options, compile it with options using the
	# profile feedback, and then run the test again. Optionally compile
	# and run a third time without the profile-directed optimization and
	# compare timing results of the program with normal optimization and
	# with the profile-directed optimization. Each test is run using
	# multiple sets of optimization and/or code generation options in
	# addition to the profiling and feedback options.

	# If perf_ext is defined and the performance value for the
	# profile-directed test run is nonzero then the performance check will
	# be done.

	load_lib dg.exp
	load_lib gcc-dg.exp

	global PROFOPT_OPTIONS perf_delta

	# The including .exp file must define these.
	global tool profile_option feedback_option prof_ext
	if ![info exists tool] {
	error "Tools is not specified."
	}
	if ![info exists prof_ext] {
	error "No profile data file extensions specified."
	}

	# The maximum perforance degradation can be defined in the including file.
	if ![info exists perf_delta] {
	set perf_delta 4
	}

	# The default option list can be overridden by
	# PROFOPT_OPTIONS="{ { list1 } ... { list2 } }"

	if ![info exists PROFOPT_OPTIONS] {
	set PROFOPT_OPTIONS [list \
	{ -g } \
	{ -O0 } \
	{ -O1 } \
	{ -O2 } \
	{ -O3 } \
	{ -O3 -g } \
	{ -Os } ]
	}

	set prof_option_list $PROFOPT_OPTIONS

	#
	# profopt-cleanup -- remove profiling or performance results files.
	#
	# TESTCASE is the name of the test
	# EXT is the extensions of files to remove
	#
	proc profopt-cleanup { testcase extlist } {
	set basename [file tail $testcase]
	set base [file rootname $basename]
	foreach ext $extlist {
	set files [glob -nocomplain $base.$ext]
	if { $files != "" } {
	eval "remote_file build delete $files"
	}
	}
	}

	#
	# profopt-perf-value -- get performance value for a test
	#
	# TESTCASE is the name of the test
	# PERF_EXT is the extension of the performance result file
	# OPTSTR is the string of compiler options
	#
	proc profopt-perf-value { testcase perf_ext optstr } {
	set basename [file tail $testcase]
	set base [file rootname $basename]
	set files [glob -nocomplain $base.$perf_ext]
	# The file doesn't exist; let the caller decide if that's a problem.
	if { $files == "" } {
	return -2
	}
	remote_upload host $base.$perf_ext $base.$perf_ext
	set fd [open $base.$perf_ext r]
	gets $fd line
	set val -2
	if [regexp "TIME" $line] {
	if [regexp "TIME -1" $line] {
	fail "$testcase perf check: no consistent time available, $optstr"
	set val -1
	} elseif ![regexp "(\[0-9\]+)" "$line" val] {
	set val -2
	}
	}
	# Report problems with an existing file.
	if { $val == -2 } {
	fail "$testcase perf check: file $base.$perf_ext has wrong format, $optstr"
	}
	close $fd
	profopt-cleanup $testcase $perf_ext
	return $val
	}

	#
	# dg-final-generate -- process code to run after the profile-generate step
	#
	# ARGS is the line number of the directive followed by the commands.
	#
	proc dg-final-generate { args } {
	global generate_final_code

	if { [llength $args] > 2 } {
	error "[lindex $args 0]: too many arguments"
	return
	}
	append generate_final_code "[lindex $args 1]\n"
	}

	#
	# dg-final-use -- process code to run after the profile-use step
	#
	# ARGS is the line number of the directive followed by the commands.
	#
	proc dg-final-use { args } {
	global use_final_code

	if { [llength $args] > 2 } {
	error "[lindex $args 0]: too many arguments"
	return
	}
	append use_final_code "[lindex $args 1]\n"
	}

	#
	# profopt-final-code -- run final code
	#
	# WHICH is "generate" or "use".
	# FINAL_CODE is the TCL code to run.
	# TESTCASE is the name of the test, for error messages.
	#
	proc profopt-final-code { which final_code name } {
	# This is copied from dg-test in dg.exp of DejaGnu.
	regsub -all "\\\\(\[{}\])" $final_code "\\1" final_code
	proc profopt-final-proc { args } $final_code
	if [catch "profopt-final-proc $name" errmsg] {
	perror "$name: error executing dg-final-${which}: $errmsg"
	unresolved "$name: Error executing dg-final-${which}: $errmsg"
	}
	}

	#
	# profopt-get-options -- process test directives
	#
	# SRC is the full pathname of the testcase.
	#
	proc profopt-get-options { src } {
	# dg-options sets a variable called dg-extra-tool-flags.
	set dg-extra-tool-flags ""

	# dg-require-* sets dg-do-what.
	upvar dg-do-what dg-do-what

	set tmp [dg-get-options $src]
	foreach op $tmp {
	set cmd [lindex $op 0]
	if { ![string compare "dg-options" $cmd] \
	\|\| ![string compare "dg-skip-if" $cmd] \
	\|\| ![string compare "dg-final-generate" $cmd] \
	\|\| ![string compare "dg-final-use" $cmd] \
	\|\| [string match "dg-require-*" $cmd] } {
	set status [catch "$op" errmsg]
	if { $status != 0 } {
	perror "src: $errmsg for \"$op\"\n"
	unresolved "$src: $errmsg for \"$op\""
	return
	}
	} else {
	# Ignore unrecognized dg- commands, but warn about them.
	warning "compat.exp does not support $cmd"
	}
	}

	# Return flags to use for compiling the primary source file and for
	# linking.
	return ${dg-extra-tool-flags}
	}

	#
	# c-prof-execute -- compile for profiling and then feedback, then normal
	#
	# SRC is the full pathname of the testcase.
	#
	proc profopt-execute { src } {
	global srcdir tmpdir
	global prof_option_list
	global tool profile_option feedback_option prof_ext perf_ext perf_delta
	global generate_final_code use_final_code
	global verbose

	if ![info exists profile_option] {
	error "No profile option specified for first compile."
	}
	if ![info exists feedback_option] {
	error "No feedback option specified for second compile."
	}

	regsub "(?q)$srcdir/" $src "" testcase
	# If we couldn't rip $srcdir out of `src' then just do the best we can.
	# The point is to reduce the unnecessary noise in the logs. Don't strip
	# out too much because different testcases with the same name can confuse
	# `test-tool'.
	if [string match "/*" $testcase] {
	set testcase "[file tail [file dirname $src]]/[file tail $src]"
	}

	set executable $tmpdir/[file tail [file rootname $src].x]
	set basename [file tail $testcase]
	set base [file rootname $basename]

	set count 0
	foreach option $prof_option_list {
	set execname1 "${executable}${count}1"
	set execname2 "${executable}${count}2"
	set execname3 "${executable}${count}3"
	incr count

	remote_file build delete $execname1
	remote_file build delete $execname2
	remote_file build delete $execname3
	verbose "Testing $testcase, $option" 1

	# Remove old profiling and performance data files.
	foreach ext $prof_ext {
	remote_file target delete $tmpdir/$base.$ext
	}
	if [info exists perf_ext] {
	profopt-cleanup $testcase $perf_ext
	}

	# Process test directives.

	set generate_final_code ""
	set use_final_code ""
	set dg-do-what [list "run" "" P]
	set extra_flags [profopt-get-options $src]
	if { [lindex ${dg-do-what} 1 ] == "N" } {
	unsupported "$src"
	verbose "$src not supported on this target, skipping it" 3
	return
	}

	# Compile for profiling.

	set options ""
	lappend options "additional_flags=$option $extra_flags $profile_option"
	set optstr "$option $profile_option"
	set comp_output [${tool}_target_compile "$src" "$execname1" executable $options]
	if ![${tool}_check_compile "$testcase compilation" $optstr $execname1 $comp_output] {
	unresolved "$testcase execution, $optstr"
	unresolved "$testcase compilation, $option $feedback_option"
	unresolved "$testcase execution, $option $feedback_option"
	continue
	}

	# Run the profiled test.

	set result [${tool}_load $execname1 "" ""]
	set status [lindex $result 0]
	set missing_file 0
	# Make sure the profile data was generated, and fail if not.
	if { $status == "pass" } {
	foreach ext $prof_ext {
	remote_upload target $tmpdir/$base.$ext
	set files [glob -nocomplain $base.$ext]
	if { $files == "" } {
	set status "fail"
	set missing_file 1
	fail "$testcase execution: file $base.$ext does not exist, $option $profile_option"
	}
	}
	}
	if { $missing_file == 0 } {
	$status "$testcase execution, $optstr"
	}

	# If there is dg-final code to execute for the generate step, do it
	# even if it failed; it might clean up temporary files.
	if ![string match $generate_final_code ""] {
	profopt-final-code "generate" $generate_final_code $testcase
	}

	remote_file build delete $execname1

	# Quit for this round if it failed
	if { $status != "pass" } {
	unresolved "$testcase compilation, $option $feedback_option"
	unresolved "$testcase execution, $option $feedback_option"
	continue
	}

	# Compile with feedback-directed optimizations.

	set options ""
	lappend options "additional_flags=$option $extra_flags $feedback_option"
	set optstr "$option $feedback_option"
	set comp_output [${tool}_target_compile "$src" "$execname2" "executable" $options]
	if ![${tool}_check_compile "$testcase compilation" $optstr $execname2 $comp_output] {
	unresolved "$testcase execution, $optstr"
	continue
	}

	# Run the profile-directed optimized test.

	set result [${tool}_load "$execname2" "" ""]
	set status [lindex $result 0]
	$status "$testcase execution, $optstr"

	# If there is dg-final code to execute for the use step, do it.
	if ![string match $use_final_code ""] {
	profopt-final-code "use" $use_final_code $testcase
	}

	# Remove the profiling data files.
	foreach ext $prof_ext {
	remote_file target delete $tmpdir/$base.$ext
	}

	if { $status != "pass" } {
	continue
	}

	# If the test is not expected to produce performance data then
	# we're done now.
	if ![info exists perf_ext] {
	remote_file build delete $execname2
	continue
	}

	# Get the performance data from the test built with
	# profile-directed optimization. If the file doesn't exist or if
	# the value is zero, skip the performance comparison.
	set val2 [profopt-perf-value $testcase $perf_ext $optstr]
	if { $val2 <= 0 } {
	remote_file build delete $execname2
	continue
	}

	# Compile with normal optimizations.

	set options ""
	lappend options "additional_flags=$option"
	set optstr "$option"
	set comp_output [${tool}_target_compile "$src" "$execname3" "executable" $options]
	if ![${tool}_check_compile "$testcase compilation" $optstr $execname3 $comp_output] {
	unresolved "$testcase execution, $optstr"
	unresolved "$testcase perf check, $optstr"
	continue
	}

	# Run the test with normal optimizations.

	set result [${tool}_load "$execname3" "" ""]
	set status [lindex $result 0]
	$status "$testcase execution, $optstr"
	if { $status != "pass" } {
	unresolved "$testcase perf check, $optstr"
	continue
	}

	# Get the performance data from the test built with normal
	# optimization.
	set val1 [profopt-perf-value $testcase $perf_ext $optstr]
	if { $val1 < 0 } {
	if { $val1 == -2 } {
	# The data file existed with the profile-directed
	# optimization so this one should, too.
	fail "$testcase perf check: file $base.$perf_ext does not exist, $optstr"
	}
	continue
	}

	# Compare results of the two runs and fail if the time with the
	# profile-directed optimization is significantly more than the time
	# without it.
	set status "pass"
	if { $val2 > $val1 } {
	# Check for a performance degration outside of allowable limits.
	if { [expr $val2 - $val1] > [expr [expr $val1 * $perf_delta] / 100] } {
	set status "fail"
	}
	}
	if { $status == "fail" } {
	fail "$testcase perf check: orig: $val1 new: $val2, $optstr"
	} else {
	$status "$testcase perf check, $optstr"
	verbose "$testcase orig: $val1 new: $val2, $optstr" 2
	remote_file build delete $execname2
	remote_file build delete $execname3
	}
	}
	}