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# Copyright (C) 2009-2022 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 GCC; see the file COPYING3. If not see
# <http://www.gnu.org/licenses/>.
# Contributed by Diego Novillo <dnovillo@google.com>
# A subroutine of lto_handle_diagnostics: check TEXT for the expected
# diagnostics for one specific source file, issuing PASS/FAIL results.
# Return TEXT, stripped of any diagnostics that were handled.
#
# NAME is the testcase name to use when reporting PASS/FAIL results.
# FILENAME is the name (with full path) of the file we're interested in.
# MESSAGES_FOR_FILE is a list of expected messages, akin to DejaGnu's
# "dg-messages" variable.
# TEXT is the textual output from the LTO link.
proc lto_handle_diagnostics_for_file { name filename messages_for_file text } {
global dg-linenum-format
set filename_without_path [file tail $filename]
# This loop is adapted from the related part of DejaGnu's dg-test,
# with changes as detailed below to cope with the LTO case.
foreach i ${messages_for_file} {
verbose "Scanning for message: $i" 4
# Remove all error messages for the line [lindex $i 0]
# in the source file. If we find any, success!
set line [lindex $i 0]
set pattern [lindex $i 2]
set comment [lindex $i 3]
verbose "line: $line" 4
verbose "pattern: $pattern" 4
verbose "comment: $comment" 4
#send_user "Before:\n$text\n"
# Unlike dg-test, we use $filename_without_path in this pattern.
# This is to ensure that we have the correct file/line combination.
# This imposes the restriction that the filename can't contain
# any regexp control characters. We have to strip the path, since
# e.g. the '+' in "g++.dg" wouldn't be valid.
set pat "(^|\n)(\[^\n\]+$filename_without_path$line\[^\n\]*($pattern)\[^\n\]*\n?)+"
if {[regsub -all $pat $text "\n" text]} {
set text [string trimleft $text]
set ok pass
set uhoh fail
} else {
set ok fail
set uhoh pass
}
#send_user "After:\n$text\n"
# $line will either be a formatted line number or a number all by
# itself. Delete the formatting.
scan $line ${dg-linenum-format} line
# Unlike dg-test, add the filename to the PASS/FAIL message (rather
# than just the line number) so that the user can identify the
# pertinent directive.
set describe_where "$filename_without_path line $line"
# Issue the PASS/FAIL, adding "LTO" to the messages (e.g. "LTO errors")
# to distinguish them from the non-LTO case (in case we ever need to
# support both).
switch [lindex $i 1] {
"ERROR" {
$ok "$name $comment (test for LTO errors, $describe_where)"
}
"XERROR" {
x$ok "$name $comment (test for LTO errors, $describe_where)"
}
"WARNING" {
$ok "$name $comment (test for LTO warnings, $describe_where)"
}
"XWARNING" {
x$ok "$name $comment (test for LTO warnings, $describe_where)"
}
"BOGUS" {
$uhoh "$name $comment (test for LTO bogus messages, $describe_where)"
}
"XBOGUS" {
x$uhoh "$name $comment (test for LTO bogus messages, $describe_where)"
}
"BUILD" {
$uhoh "$name $comment (test for LTO build failure, $describe_where)"
}
"XBUILD" {
x$uhoh "$name $comment (test for LTO build failure, $describe_where)"
}
"EXEC" { }
"XEXEC" { }
}
}
return $text
}
# Support for checking for link-time diagnostics: check for
# the expected diagnostics within TEXT, issuing PASS/FAIL results.
# Return TEXT, stripped of any diagnostics that were handled.
#
# TEXT is the textual output from the LTO link.
proc lto_handle_diagnostics { text } {
global testcase
upvar dg-messages-by-file messages_by_file
verbose "lto_handle_diagnostics: entry: $text" 2
if { ![array exists messages_by_file] } {
error "lto_handle_diagnostics: messages_by_file not defined"
}
foreach src [lsort [array names messages_by_file]] {
set dg-messages $messages_by_file($src)
verbose " messages for $src: ${dg-messages}" 3
set text [lto_handle_diagnostics_for_file $testcase $src \
${dg-messages} $text]
}
verbose "lto_handle_diagnostics: exit: $text" 2
return $text
}
# Prune messages that aren't useful.
proc lto_prune_warns { text } {
verbose "lto_prune_warns: entry: $text" 2
# Many tests that use visibility will still pass on platforms that don't support it.
regsub -all "(^|\n)\[^\n\]*: warning: visibility attribute not supported in this configuration; ignored\[^\n\]*" $text "" text
# Allow mixed-language LTO tests to pass with make check-c++0x
regsub -all "(^|\n)\[^\n\]*: warning: command line option '-std=\[^\n\]*" $text "" text
# And any stray location lines.
regsub -all "(^|\n)\[^\n\]*: In function \[^\n\]*" $text "" text
regsub -all "(^|\n)In file included from \[^\n\]*" $text "" text
regsub -all "(^|\n)\[ \t\]*from \[^\n\]*" $text "" text
# Sun ld warns about common symbols with differing sizes. Unlike GNU ld
# --warn-common (off by default), they cannot be disabled.
regsub -all "(^|\n)ld: warning: symbol \[`'\]\[^\n\]*' has differing sizes:" $text "" text
regsub -all "(^|\n)\[ \t\]*\[\(\]file \[^\n\]* value=\[^\n\]*; file \[^\n\]* value=\[^\n\]*\[)\];" $text "" text
regsub -all "(^|\n)\[ \t\]*\[^\n\]* definition taken" $text "" text
# Ignore missing jobserver for tests that do more than 1 LTRANS unit
regsub -all "(^|\n)\[^\n\]*: warning: using serial compilation of \[^\n\]*" $text "" text
regsub -all "(^|\n)\[^\n\]*: note: see the \[^\n\]*'-flto' option documentation\[^\n\]* for more information" $text "" text
global prune_notes
if { $prune_notes } {
# Ignore informational notes.
regsub -all "(^|\n)\[^\n\]*: note: \[^\n\]*" $text "" text
}
verbose "lto_prune_warns: exit: $text" 2
return $text
}
# lto_init -- called at the start of each subdir of tests
proc lto_init { args } {
global LTO_OPTIONS
if {[info exists args] && $args == "no-mathlib"} {
global board_info
global saved_mathlib
set dest [target_info name]
if [board_info $dest exists mathlib] {
set saved_mathlib [board_info $dest mathlib]
}
set board_info($dest,mathlib) " "
}
# Each test is run with the compiler options from this list.
# The default option lists can be overridden by LTO_OPTIONS="[list
# {opts_1} {opts_2}... {opts_n}]" where opts_i are lists of options.
# You can put this in the environment before site.exp is written or
# add it to site.exp directly.
if ![info exists LTO_OPTIONS] {
if [check_linker_plugin_available] {
set LTO_OPTIONS [list \
{-O0 -flto -flto-partition=none -fuse-linker-plugin} \
{-O2 -flto -flto-partition=none -fuse-linker-plugin -fno-fat-lto-objects } \
{-O0 -flto -flto-partition=1to1 -fno-use-linker-plugin } \
{-O2 -flto -flto-partition=1to1 -fno-use-linker-plugin } \
{-O0 -flto -fuse-linker-plugin -fno-fat-lto-objects } \
{-O2 -flto -fuse-linker-plugin} \
]
} else {
set LTO_OPTIONS [list \
{-O0 -flto -flto-partition=none } \
{-O2 -flto -flto-partition=none } \
{-O0 -flto -flto-partition=1to1 } \
{-O2 -flto -flto-partition=1to1 } \
{-O0 -flto } \
{-O2 -flto} \
]
}
}
}
#
# lto_finish -- called at the end of each subdir of tests if mathlib is
# changed.
#
proc lto_finish { } {
global board_info
global saved_mathlib
set dest [target_info name]
if [info exists saved_mathlib] {
set board_info($dest,mathlib) $saved_mathlib
} elseif [board_info $dest exists mathlib] {
unset board_info($dest,mathlib)
}
}
# Subsets of tests can be selectively disabled by members of this list:
# - ATTRIBUTE: disable all tests using the __attribute__ extension,
# - COMPLEX: disable all tests using the complex types feature,
# - COMPLEX_INT: disable all tests using the complex integral types extension,
# - VA: disable all tests using the variable number of arguments feature,
# - VLA_IN_STRUCT: disable all tests using the variable-length arrays as
# structure members extension,
# - ZERO_ARRAY: disable all tests using the zero-sized arrays extension.
# The default skip lists can be overriden by
# LTO_SKIPS="[list {skip_1}...{skip_n}]"
# where skip_i are skip identifiers. You can put this in the environment
# before site.exp is written or add it to site.exp directly.
if ![info exists LTO_SKIPS] {
set LTO_SKIPS [list {}]
}
global lto_skip_list
set lto_skip_list $LTO_SKIPS
load_lib dg.exp
load_lib gcc-dg.exp
load_lib gcc.exp
# lto-obj -- compile to an object file
#
# SOURCE is the source file
# DEST is the object file
# OPTALL is the list of compiler options to use with all tests
# OPTFILE is the list of compiler options to use with this file
# OPTSTR is the options to print with test messages
# XFAILDATA is the xfail data to be passed to the compiler
proc lto-obj { source dest optall optfile optstr xfaildata } {
global testcase
global tool
global compiler_conditional_xfail_data
global lto_skip_list
# Add the skip specifiers.
foreach skip $lto_skip_list {
if { ![string match $skip ""] } {
lappend optall "-DSKIP_$skip"
}
}
# Set up the options for compiling this file.
set options ""
lappend options "additional_flags=$optall $optfile"
set compiler_conditional_xfail_data $xfaildata
# Allow C source files to mix freely with other languages
if [ string match "*.c" $source ] then {
set comp_output [gcc_target_compile "$source" "$dest" object $options]
} else {
set comp_output [${tool}_target_compile "$source" "$dest" object $options]
}
# Prune unimportant visibility warnings before checking output.
set comp_output [lto_prune_warns $comp_output]
${tool}_check_compile "$testcase $dest assemble" $optstr $dest $comp_output
}
# lto-link-and-maybe-run -- link the object files and run the executable
# if compile_type is set to "run"
#
# TESTNAME is the mixture of object files to link
# OBJLIST is the list of object files to link
# DEST is the name of the executable
# OPTALL is a list of compiler and linker options to use for all tests
# OPTFILE is a list of compiler and linker options to use for this test
# OPTSTR is the list of options to list in messages
proc lto-link-and-maybe-run { testname objlist dest optall optfile optstr } {
global testcase
global tool
global compile_type
global board_info
upvar dg-messages-by-file dg-messages-by-file
verbose "lto-link-and-maybe-run" 2
# Check that all of the objects were built successfully.
foreach obj [split $objlist] {
if ![file_on_host exists $obj] then {
unresolved "$testcase $testname link $optstr"
unresolved "$testcase $testname execute $optstr"
return
}
}
# Set up the options for linking this test.
set options ""
lappend options "additional_flags=$optall $optfile"
set target_board [target_info name]
set relocatable 0
# Some LTO tests do relocatable linking. Some target boards set
# a linker script which can't be used for relocatable linking.
# Use the default linker script instead.
if { [lsearch -exact [split "$optall $optfile"] "-r"] >= 0 } {
set relocatable 1
}
if { $relocatable } {
set saved_ldscript [board_info $target_board ldscript]
set board_info($target_board,ldscript) ""
}
# Link the objects into an executable.
set comp_output [${tool}_target_compile "$objlist" $dest executable \
"$options"]
if { $relocatable } {
set board_info($target_board,ldscript) $saved_ldscript
}
# Check for diagnostics specified by directives
set comp_output [lto_handle_diagnostics $comp_output]
# Prune unimportant visibility warnings before checking output.
set comp_output [lto_prune_warns $comp_output]
if ![${tool}_check_compile "$testcase $testname link" $optstr \
$dest $comp_output] then {
if { ![string compare "execute" $compile_type] } {
unresolved "$testcase $testname execute $optstr"
}
return
}
# Return if we only needed to link.
if { ![string compare "link" $compile_type] } {
return
}
# Run the self-checking executable.
if ![string match "*/*" $dest] then {
set dest "./$dest"
}
set result [${tool}_load $dest "" ""]
set status [lindex $result 0]
if { $status == "pass" } then {
file_on_host delete $dest
}
$status "$testcase $testname execute $optstr"
}
# Potentially handle the given dg- directive (a list)
# Return true is the directive was handled, false otherwise.
proc lto-can-handle-directive { op } {
set cmd [lindex $op 0]
# dg-warning and dg-message append to dg-messages.
upvar dg-messages dg-messages
# A list of directives to recognize, and a list of directives
# to remap them to.
# For example, "dg-lto-warning" is implemented by calling "dg-warning".
set directives { dg-lto-warning dg-lto-message dg-lto-note }
set remapped_directives { dg-warning dg-message dg-note }
set idx [lsearch -exact $directives $cmd]
if { $idx != -1 } {
verbose "remapping from: $op" 4
set remapped_cmd [lindex $remapped_directives $idx]
set op [lreplace $op 0 0 $remapped_cmd]
verbose "remapped to: $op" 4
set status [catch "$op" errmsg]
if { $status != 0 } {
if { 0 && [info exists errorInfo] } {
# This also prints a backtrace which will just confuse
# testcase writers, so it's disabled.
perror "$name: $errorInfo\n"
} else {
perror "$name: $errmsg for \"$op\"\n"
}
# ??? The call to unresolved here is necessary to clear `errcnt'.
# What we really need is a proc like perror that doesn't set errcnt.
# It should also set exit_status to 1.
unresolved "$name: $errmsg for \"$op\""
}
return true
}
return false
}
# lto-get-options-main -- get target requirements for a test and
# options for the primary source file and the test as a whole
#
# SRC is the full pathname of the primary source file.
proc lto-get-options-main { src } {
global compile_type
global dg-extra-ld-options
global dg-suppress-ld-options
set dg-extra-ld-options ""
set dg-suppress-ld-options ""
# dg-options sets a variable called dg-extra-tool-flags.
set dg-extra-tool-flags ""
# dg-options sets a variable called tool_flags.
set tool_flags ""
# dg-require-* sets dg-do-what.
upvar dg-do-what dg-do-what
upvar dg-final-code dg-final-code
set dg-final-code ""
# dg-warning and dg-message append to dg-messages.
upvar dg-messages-by-file dg-messages-by-file
set dg-messages ""
set tmp [dg-get-options $src]
verbose "getting options for $src: $tmp"
foreach op $tmp {
set cmd [lindex $op 0]
verbose "cmd is $cmd"
if { [string match "dg-skip-if" $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
}
} elseif { [string match "dg-lto-options" $cmd] } {
set op [lreplace $op 0 0 "dg-options"]
set status [catch "$op" errmsg]
if { $status != 0 } {
perror "src: $errmsg for \"$op\"\n"
unresolved "$src: $errmsg for \"$op\""
return
}
} elseif { ![string compare "dg-xfail-if" $cmd] \
|| ![string compare "dg-options" $cmd] } {
warning "lto.exp does not support $cmd in primary source file"
} elseif { ![string compare "dg-lto-do" $cmd] } {
if { [llength $op] > 3 } {
set kw [lindex [lindex $op 3] 0]
if [string match "target" $kw] {
perror "$src: dg-lto-do does not support \"target\""
} elseif [string match "xfail" $kw] {
perror "$src: dg-lto-do does not support \"xfail\""
} else {
perror "$src: dg-lto-do takes a single argument"
}
}
set dgdo [lindex $op 2]
verbose "dg-lto-do command for \"$op\" is $dgdo"
if { ![string compare "assemble" $dgdo] } {
set compile_type "assemble"
} elseif { ![string compare "run" $dgdo] } {
set compile_type "run"
} elseif { ![string compare "link" $dgdo] } {
set compile_type "link"
} else {
warning "lto.exp does not support dg-lto-do $dgdo"
}
} elseif { ![string compare "dg-extra-ld-options" $cmd] } {
if { [llength $op] > 4 } {
error "[lindex $op 0]: too many arguments"
} else {
if { [llength $op] == 3
|| ([llength $op] > 3
&& [dg-process-target [lindex $op 3]] == "S") } {
set dg-extra-ld-options [lindex $op 2]
verbose \
"dg-extra-ld-options for main is ${dg-extra-ld-options}"
}
}
} elseif { ![string compare "dg-suppress-ld-options" $cmd] } {
if { [llength $op] > 4 } {
error "[lindex $op 0]: too many arguments"
} else {
if { [llength $op] == 3
|| ([llength $op] > 3
&& [dg-process-target [lindex $op 3]] == "S") } {
set dg-suppress-ld-options [lindex $op 2]
verbose \
"dg-suppress-ld-options for main is ${dg-suppress-ld-options}"
}
}
} elseif { ![string compare "dg-final" $cmd] } {
if { [llength $op] > 3 } {
error "[lindex $op 0]: too many arguments"
} else {
append dg-final-code "[lindex $op 2]\n"
}
} elseif { ![lto-can-handle-directive $op] } {
# Ignore unrecognized dg- commands, but warn about them.
warning "lto.exp does not support $cmd"
}
}
verbose "dg-messages: ${dg-messages}" 3
set dg-messages-by-file($src) ${dg-messages}
# Return flags to use for compiling the primary source file and for
# linking.
verbose "dg-extra-tool-flags for main is ${dg-extra-tool-flags}"
return ${dg-extra-tool-flags}
}
# lto-get-options -- get special tool flags to use for a secondary
# source file
#
# SRC is the full pathname of the source file.
# The result is a list of options to use.
#
# This code is copied from proc dg-test in dg.exp from DejaGNU.
proc lto-get-options { src } {
# dg-options sets a variable called dg-extra-tool-flags.
set dg-extra-tool-flags ""
# dg-xfail-if sets compiler_conditional_xfail_data.
global compiler_conditional_xfail_data
set compiler_conditional_xfail_data ""
# dg-xfail-if needs access to dg-do-what.
upvar dg-do-what dg-do-what
# dg-warning appends to dg-messages.
upvar dg-messages-by-file dg-messages-by-file
set dg-messages ""
set tmp [dg-get-options $src]
foreach op $tmp {
set cmd [lindex $op 0]
if { ![string compare "dg-options" $cmd] \
|| ![string compare "dg-xfail-if" $cmd] } {
set status [catch "$op" errmsg]
if { $status != 0 } {
perror "src: $errmsg for \"$op\"\n"
unresolved "$src: $errmsg for \"$op\""
return
}
} elseif { [string match "dg-require-*" $cmd] } {
warning "lto.exp does not support $cmd in secondary source files"
} elseif { ![lto-can-handle-directive $op] } {
# Ignore unrecognized dg- commands, but warn about them.
warning "lto.exp does not support $cmd in secondary source files"
}
}
verbose "dg-messages: ${dg-messages}" 3
if { [info exists dg-messages-by-file($src)] } {
append dg-messages-by-file($src) ${dg-messages}
} else {
set dg-messages-by-file($src) ${dg-messages}
}
return ${dg-extra-tool-flags}
}
# lto-execute -- compile multi-file tests
#
# SRC1 is the full pathname of the main file of the testcase.
# SID identifies a test suite in the names of temporary files.
proc lto-execute-1 { src1 sid } {
global srcdir tmpdir
global lto_option_list
global tool
global verbose
global testcase
global gluefile
global compiler_conditional_xfail_data
global dg-do-what-default
global compile_type
global dg-extra-ld-options
global dg-suppress-ld-options
global LTO_OPTIONS
global dg-final-code
global testname_with_flags
# Get extra flags for this test from the primary source file, and
# process other dg-* options that this suite supports. Warn about
# unsupported flags.
verbose "lto-execute: $src1" 1
set compile_type "run"
set dg-do-what [list ${dg-do-what-default} "" P]
array set dg-messages-by-file [list]
set extra_flags(0) [lto-get-options-main $src1]
set compile_xfail(0) ""
# If the main file defines dg-options, those flags are used to
# overwrite the default lto_option_list taken from LTO_OPTIONS.
if { [string length $extra_flags(0)] > 0 } {
set lto_option_list $extra_flags(0)
set extra_flags(0) ""
} else {
set lto_option_list $LTO_OPTIONS
}
# Set up the names of the other source files.
set dir [file dirname $src1]
set base [file rootname $src1]
set base [string range $base [string length $dir] end]
regsub "_0" $base "" base
regsub "/" $base "" base
set src_list $src1
set i 1
set done 0
while { !$done } {
set names [glob -nocomplain -types f -- "${dir}/${base}_${i}.*"]
if { [llength ${names}] > 1 } {
warning "lto-execute: more than one file matched ${dir}/${base}_${i}.*"
}
if { [llength ${names}] == 1 } {
lappend src_list [lindex ${names} 0]
incr i
} else {
set num_srcs ${i}
set done 1
}
}
# Use the dg-options mechanism to specify extra flags for each
# of the secondary files.
# The extra flags in each file are used to compile that file, and the
# extra flags in *_0.* are also used for linking.
verbose "\tsrc_list is: $src_list"
for {set i 1} {$i < $num_srcs} {incr i} {
set extra_flags($i) [lto-get-options [lindex $src_list $i]]
set compile_xfail($i) $compiler_conditional_xfail_data
}
# Define the names of the object files.
set obj_list ""
for {set i 0} {$i < $num_srcs} {incr i} {
lappend obj_list "${sid}_${base}_${i}.o"
}
# Get the base name of this test, for use in messages.
set testcase [lindex ${src_list} 0]
# Remove the $srcdir and $tmpdir prefixes from $src1. (It would
# be possible to use "regsub" here, if we were careful to escape
# all regular expression characters in $srcdir and $tmpdir, but
# that would be more complicated that this approach.)
if {[string first "$srcdir/" "${testcase}"] == 0} {
set testcase [string range "${testcase}" [string length "$srcdir/"] end]
}
if {[string first "$tmpdir/" "$testcase"] == 0} {
set testcase [string range "$testcase" [string length "$tmpdir/"] end]
set testcase "tmpdir-$testcase"
}
# If we couldn't rip $srcdir out of `src1' 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] then {
set testcase "[file tail [file dirname $src1]]/[file tail $src1]"
}
# Check whether this test is supported for this target.
if { [lindex ${dg-do-what} 1 ] == "N" } {
unsupported "$testcase"
verbose "$testcase not supported on this target, skipping it" 3
return
}
# Should be safe for non-fortran too but be paranoid..
if {$sid eq "f_lto"} {
list-module-names $src_list
}
regsub "_0.*" $testcase "" testcase
# Set up the base name of executable files so they'll be unique.
regsub -all "\[./\]" $testcase "-" execbase
# Loop through all of the option lists used for this test.
set count 0
foreach option $lto_option_list {
verbose "Testing $testcase, $option"
# There's a unique name for each executable we generate.
set execname "${execbase}-${count}1.exe"
# The LTO tests don't use dg-test, so testname_with_flags and
# output_file need to be defined explicitly for each file. scan-symbol
# directives rely on both of these to be defined to find the symbol to
# scan and for the text to print in the PASS/FAIL since they can also
# be called from dg-test. testname_with_flags is also used via
# testname-for-summary when calling into generic function below to
# clean temporary files.
set output_file $execname
set testname_with_flags $execname
incr count
file_on_host delete $execname
# Compile pieces with the compiler under test.
set i 0
foreach src $src_list obj $obj_list {
lto-obj $src $obj $option $extra_flags($i) $option \
$compile_xfail($i)
incr i
}
# Link (using the compiler under test), run, and clean up tests.
if { ![string compare "run" $compile_type] \
|| ![string compare "link" $compile_type] } {
# Filter out any link options we were asked to suppress.
set reduced {}
foreach x [split $option] {
if {[lsearch ${dg-suppress-ld-options} $x] == -1} {
lappend reduced $x
}
}
set filtered [join $reduced " "]
lto-link-and-maybe-run \
"[lindex $obj_list 0]-[lindex $obj_list end]" \
$obj_list $execname $filtered ${dg-extra-ld-options} \
$filtered
}
# Are there any further tests to perform?
# Note that if the program has special run-time requirements, running
# of the program can be delayed until here. Ditto for other situations.
# It would be a bit cumbersome though.
if ![string match ${dg-final-code} ""] {
regsub -all "\\\\(\[{}\])" ${dg-final-code} "\\1" dg-final-code
# Note that the use of `args' here makes this a varargs proc.
proc dg-final-proc { args } ${dg-final-code}
verbose "Running dg-final tests." 3
verbose "dg-final-proc:\n[info body dg-final-proc]" 4
if [catch "dg-final-proc $src1" errmsg] {
perror "$src1: error executing dg-final: $errmsg"
# ??? The call to unresolved here is necessary to clear
# `errcnt'. What we really need is a proc like perror that
# doesn't set errcnt. It should also set exit_status to 1.
unresolved "$src1: error executing dg-final: $errmsg"
}
}
# Clean up object files.
set files [glob -nocomplain ${sid}_*.o]
if { $files != "" } {
foreach objfile $files {
if { ![info exists gluefile] || $objfile != $gluefile } {
eval "file_on_host delete $objfile"
}
}
}
# Clean up after -save-temps.
eval "cleanup-saved-temps"
for {set i 0} {$i < $num_srcs} {incr i} {
set testname_with_flags "${base}_${i}"
eval "cleanup-saved-temps"
set testname_with_flags "${sid}_${base}_${i}"
eval "cleanup-saved-temps"
}
unset testname_with_flags
if { ![string compare "run" $compile_type] \
|| ![string compare "link" $compile_type] } {
file_on_host delete $execname
}
# Should be safe for non-fortran too but be paranoid..
if {$sid eq "f_lto"} {
cleanup-modules ""
}
}
}
proc lto-execute { src1 sid } {
lto-execute-1 $src1 $sid
# LTO testing doesn't use 'dg-runtest'/'dg-test', and thus doesn't call
# 'cleanup-after-saved-dg-test', so we have to clean up manually.
initialize_prune_notes
}
# Call pass if object readelf is ok, otherwise fail.
# example: /* { dg-final { object-readelf Tag_ABI_enum_size int} } */
proc object-readelf { args } {
global readelf
global base_dir
upvar 2 execname execname
if { [llength $args] < 2 } {
error "object-readelf: too few arguments"
return
}
if { [llength $args] > 3 } {
error "object-readelf: too many arguments"
return
}
if { [llength $args] >= 3 } {
switch [dg-process-target [lindex $args 2]] {
"S" { }
"N" { return }
"F" { setup_xfail "*-*-*" }
"P" { }
}
}
# Find size like we find g++ in g++.exp.
if ![info exists readelf] {
set readelf [findfile $base_dir/../../../binutils/readelf \
$base_dir/../../../binutils/readelf \
[findfile $base_dir/../../readelf $base_dir/../../readelf \
[findfile $base_dir/readelf $base_dir/readelf \
[transform readelf]]]]
verbose -log "readelf is $readelf"
}
set what [lindex $args 0]
set with [lindex $args 1]
if ![file_on_host exists $execname] {
verbose -log "$execname does not exist"
unresolved "object-readelf $what "
return
}
set output [remote_exec host "$readelf -A" "$execname"]
set status [lindex $output 0]
if { $status != 0 } {
verbose -log "object-readelf: $readelf failed"
unresolved "object-readelf $what $execname"
return
}
set text [lindex $output 1]
set lines [split $text "\n"]
set done 0
set i 0
while { !$done } {
set line_tex [lindex $lines $i]
if { [llength ${line_tex}] > 1} {
incr i
if [regexp -- $what $line_tex] {
set match [regexp -- $with $line_tex]
set done 1
}
} else {
set done 1
}
}
verbose -log "$what size is $with;"
if { $match == 1 } {
pass "object-readelf $what size is correct."
} else {
fail "object-readelf $what size is incorrect."
}
}