# Copyright (C) 2000-2023 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/>.
# Various utilities for scanning assembler output, used by gcc-dg.exp and
# g++-dg.exp.
# Utility for scanning compiler result, invoked via dg-final.
# Transform newline and similar characters into their escaped form.
proc make_pattern_printable { pattern } {
return [string map {\t \\t \n \\n \r \\r \\ \\\\} $pattern]
}
# Append to ARGS to make it suitable for use by dg-scan to indicate
# that encoding ENC should be used when reading from the file.
proc append_encoding_arg { args enc } {
if { [llength $args] < 2 } {
# Add target selector.
lappend args { target "*-*-*" }
}
# Add encoding ENC.
lappend args $enc
return $args
}
# Scan the OUTPUT_FILE for a pattern. If it is present and POSITIVE
# is non-zero, or it is not present and POSITIVE is zero, the test
# passes. The ORIG_ARGS is the list of arguments provided by dg-final
# to scan-assembler. The first element in ORIG_ARGS is the regular
# expression to look for in the file. The second element, if present,
# is a DejaGNU target selector. The third element, if present, is the
# encoding to use when reading from the file.
proc dg-scan { name positive testcase output_file orig_args } {
if { [llength $orig_args] < 1 } {
error "$name: too few arguments"
return
}
if { [llength $orig_args] > 3 } {
error "$name: too many arguments"
return
}
if { [llength $orig_args] >= 2 } {
switch [dg-process-target [lindex $orig_args 1]] {
"S" { }
"N" { return }
"F" { setup_xfail "*-*-*" }
"P" { }
}
}
set pattern [lindex $orig_args 0]
set printable_pattern [make_pattern_printable $pattern]
set files [dg_glob_remote $output_file]
if { $files == "" } {
verbose -log "$testcase: output file does not exist"
unresolved "$testcase $name $printable_pattern"
return
}
set fd [open $output_file r]
if { [llength $orig_args] >= 3 } {
set file_encoding [lindex $orig_args 2]
fconfigure $fd -encoding $file_encoding
}
set text [read $fd]
close $fd
set match [regexp -- $pattern $text]
if { $match == $positive } {
pass "$testcase $name $printable_pattern"
} else {
fail "$testcase $name $printable_pattern"
}
}
proc dg_glob_remote { file_pattern } {
if { [is_remote host] } {
remote_upload host $file_pattern
}
return [glob -nocomplain $file_pattern]
}
# Look for a pattern in the .s file produced by the compiler. See
# dg-scan for details.
proc scan-assembler { args } {
set testcase [testname-for-summary]
# The name might include a list of options; extract the file name.
set filename [lindex $testcase 0]
set output_file "[file rootname [file tail $filename]].s"
dg-scan "scan-assembler" 1 $testcase $output_file $args
}
force_conventional_output_for scan-assembler
# Check that a pattern is not present in the .s file produced by the
# compiler. See dg-scan for details.
proc scan-assembler-not { args } {
set testcase [testname-for-summary]
# The name might include a list of options; extract the file name.
set filename [lindex $testcase 0]
set output_file "[file rootname [file tail $filename]].s"
dg-scan "scan-assembler-not" 0 $testcase $output_file $args
}
force_conventional_output_for scan-assembler-not
# Return the scan for the assembly for hidden visibility.
proc hidden-scan-for { symbol } {
set objformat [gcc_target_object_format]
switch $objformat {
coff { return "$symbol\[,\d\]*hidden" }
elf { return "hidden\[ \t_\]*$symbol" }
mach-o { return "private_extern\[ \t_\]*_?$symbol" }
default { return "" }
}
}
# Check that a symbol is defined as a hidden symbol in the .s file
# produced by the compiler.
proc scan-hidden { args } {
set testcase [testname-for-summary]
# The name might include a list of options; extract the file name.
set filename [lindex $testcase 0]
set output_file "[file rootname [file tail $filename]].s"
if { [llength $args] > 0 } {
set symbol [lindex $args 0]
set hidden_scan [hidden-scan-for $symbol]
set args [lreplace $args 0 0 "$hidden_scan"]
}
dg-scan "scan-hidden" 1 $testcase $output_file $args
}
# Check that a symbol is not defined as a hidden symbol in the .s file
# produced by the compiler.
proc scan-not-hidden { args } {
set testcase [testname-for-summary]
# The name might include a list of options; extract the file name.
set filename [lindex $testcase 0]
set output_file "[file rootname [file tail $filename]].s"
if { [llength $args] > 0 } {
set symbol [lindex $args 0]
set hidden_scan [hidden-scan-for $symbol]
set args [lreplace $args 0 0 "$hidden_scan"]
}
dg-scan "scan-not-hidden" 0 $testcase $output_file $args
}
# Check that symbols are emitted in the desired section.
# Like scan-symbol-section, but using the assembly output generated by
# the compiler.
#
# Example:
#
# // All numbered functions (func1, func2, etc.) must be in the .text section or
# // in a .text sub-section (like .text._func1).
# { dg-final { scan-assembler-symbol-section {^_func[1-5]$} {^\.text($|\.)} } }
proc scan-assembler-symbol-section { args } {
set testcase [testname-for-summary]
set filename [lindex $testcase 0]
set output_file "[file rootname [file tail $filename]].s"
dg-scan-symbol-section \
"scan-assembler-symbol-section" $testcase $output_file $args
}
# Check that symbols are emitted in the desired section.
#
# Symbols and sections are interpreted as regexp patterns.
#
# If no matching symbol is found, scan-symbol-section reports a FAILure.
#
# Usage:
#
# { dg-final { scan-symbol-section FILENAME SYMBOL SECTION } }
#
# Examples:
#
# // The my_var C symbol must be in the .data section (or in a .data._my_var section
# // if -ffunction-sections is in use).
# { dg-final { scan-symbol-section "my-test.s" {^_my_var$} {^\.data(\._my_var)?$} } }
#
# // All numbered functions (func1, func2, etc.) must be in the .text section
# // (and not in any other section like .text._func1).
# { dg-final { scan-symbol-section "my-test.s" {^_func[1-5]$} {^\.text$} } }
#
# Caveats:
#
# * Only ELF and Mach-O targets are supported. Other
# targets, like PE/COFF, might appear to work.
# * For Mach-O targets, the section name matched by scan-symbol-section has one
# of two forms:
# * The Mach-O segment name followed by a comma (',') followed by the Mach-O
# section name. For example, "__TEXT,__text". (There is no whitespace
# between the Mach-O segment name and the Mach-O section name.)
# * ".const", ".data", or ".text". For example, the .text assembler directive
# causes the section name to be ".text" (not "__TEXT,__text"). (However, a
# directive such as .section __TEXT,__text will cause the section name to be
# "__TEXT,__text".)
# * Because scan-symbol-section parses assembly code, scan-symbol-section is
# unaware of section rewriting performed by the linker. For example, the
# sections .text._f1 and .text._f2 would normally be merged by binutils'
# linker into one section called .text, but scan-symbol-section reports the
# sections as .text._f1 and .text._f2 (and not .text).
# * The symbol pattern matches any assembly label, including local labels which
# begin with `.L`.
proc scan-symbol-section { args } {
set testcase [testname-for-summary]
set output_file [lindex $args 0]
dg-scan-symbol-section \
"scan-symbol-section" $testcase $output_file $args
}
# Check that symbols are emitted in the desired section. The ORIG_ARGS is
# the list of arguments provided by dg-final to scan-symbol-section or
# scan-assembler-symbol-section. The first element in ORIG_ARGS is the
# regular expression to look for in the file. The second element, if
# present, is a DejaGNU target selector.
#
# Avoid calling this function directly. In tests, use scan-symbol-section,
# scan-assembler-symbol-section, or scan-lto-assembler-symbol-section instead.
proc dg-scan-symbol-section { name testcase output_file orig_args } {
if { [llength $orig_args] < 2 } {
error "$name: too few arguments"
return
}
if { [llength $orig_args] > 4 } {
error "$name: too many arguments"
return
}
switch $name {
"scan-symbol-section" { set arg_incr 1 }
default { set arg_incr 0 }
}
if { [llength $orig_args] >= 3 } {
switch [dg-process-target [lindex $orig_args [expr 2 + $arg_incr]]] {
"S" { }
"N" { return }
"F" { setup_xfail "*-*-*" }
"P" { }
}
}
set symbol_pattern [lindex $orig_args [expr 0 + $arg_incr]]
set expected_section_pattern [lindex $orig_args [expr 1 + $arg_incr]]
set printable_symbol_pattern [make_pattern_printable $symbol_pattern]
set printable_expected_section_pattern [make_pattern_printable $expected_section_pattern]
set files [dg_glob_remote $output_file]
if { $files == "" } {
verbose -log "$testcase: output file does not exist"
unresolved "$testcase $name symbol $printable_symbol_pattern has section $printable_expected_section_pattern"
return
}
parse_section_of_symbols $output_file section_by_symbol
set found_symbol 0
foreach symbol_name [lsort [array names section_by_symbol]] {
if { [regexp -- $symbol_pattern $symbol_name] } {
set section $section_by_symbol($symbol_name)
if { [istarget powerpc*-*-*] && $section == ".opd" } {
set section $section_by_symbol(.L.$symbol_name)
}
set description "$testcase $name symbol $printable_symbol_pattern (found $symbol_name) has section $printable_expected_section_pattern"
if { $section == "" } {
fail "$description (no section detected)"
} else {
set description "$description (found $section)"
if { [regexp -- $expected_section_pattern $section] } {
pass $description
} else {
fail $description
}
}
set found_symbol 1
}
}
if { ! $found_symbol } {
fail "$testcase $name symbol $printable_symbol_pattern (symbol not found) has section $printable_expected_section_pattern"
}
}
# Extract a symbol and section names from pre-processed assembly source code.
#
# This function adds entries in the RESULT array where the key is the symbol's
# name (including any leading underscores) and the value is the section's name
# (including any leading periods).
#
# For example, given the following assembly source code in file.s:
#
# .text
# .function _my_function
# _my_function:
# nop
# .data
# _my_data:
# .long 42
#
# Executing 'parse_section_of_symbols "file.s" symbols' would have the same
# effect as the following code:
#
# set $result(_my_function) .text
# set $result(_my_data) .data
proc parse_section_of_symbols { filename result } {
upvar $result up_result
set section_pattern {^\s*(?:(?:\.section|\.csect)\s+(.*)|(\.const|\.data|\.text)\s*)$}
set label_pattern {^(\S+):$}
set previous_pattern {^\s*\.previous\s*$}
set fd [open $filename r]
set current_section ""
set prev_section ""
while { [gets $fd line] >= 0 } {
if { [regexp -- $label_pattern $line dummy symbol_name] } {
set up_result($symbol_name) $current_section
} elseif { [regexp -- $section_pattern $line dummy section_directive_arguments full_section_directive] } {
set prev_section $current_section
if { $full_section_directive eq "" } {
# Example: .section .text,"ax",progbits
# Example: .section ".text",#alloc,#execinstr,#progbits
# Example: .section __TEXT,__text
set arguments [split $section_directive_arguments ","]
set current_section [string trim [lindex $arguments 0]]
set current_section [string trim $current_section {"}]
set arg_1 [string trim [lindex $arguments 1]]
if { [regexp {^_} $arg_1] } {
# The second argument looks like a Mach-O section name.
set current_section "$current_section,$arg_1"
}
} else {
# Example: .text
set current_section "$full_section_directive"
}
} elseif { [regexp -- $previous_pattern $line dummy] } {
set sect $prev_section
set prev_section $current_section
set current_section $sect
}
}
close $fd
}
# Look for a pattern in OUTPUT_FILE. See dg-scan for details.
proc scan-file { output_file args } {
set testcase [testname-for-summary]
dg-scan "scan-file" 1 $testcase $output_file $args
}
# Check that a pattern is not present in the OUTPUT_FILE. See dg-scan
# for details.
proc scan-file-not { output_file args } {
set testcase [testname-for-summary]
dg-scan "scan-file-not" 0 $testcase $output_file $args
}
# Look for a pattern in the .su file produced by the compiler. See
# dg-scan for details.
proc scan-stack-usage { args } {
set testcase [testname-for-summary]
# The name might include a list of options; extract the file name.
set filename [lindex $testcase 0]
set output_file "[file rootname [file tail $filename]].su"
dg-scan "scan-stack-usage" 1 $testcase $output_file $args
}
# Check that a pattern is not present in the .su file produced by the
# compiler. See dg-scan for details.
proc scan-stack-usage-not { args } {
set testcase [testname-for-summary]
# The name might include a list of options; extract the file name.
set filename [lindex $testcase 0]
set output_file "[file rootname [file tail $filename]].su"
dg-scan "scan-stack-usage-not" 0 $testcase $output_file $args
}
# Return the filename of the Ada spec corresponding to the argument.
proc get_ada_spec_filename { testcase } {
# The name might include a list of options; extract the file name.
set filename [lindex $testcase 0]
set tailname [file tail $filename]
set extension [string trimleft [file extension $tailname] {.}]
regsub -all {\-} [file rootname $tailname] {_} rootname
return [string tolower "${rootname}_${extension}.ads"]
}
# Look for a pattern in the .ads file produced by the compiler. See
# dg-scan for details.
proc scan-ada-spec { args } {
set testcase [testname-for-summary]
set output_file "[get_ada_spec_filename $testcase]"
dg-scan "scan-ada-spec" 1 $testcase $output_file $args
}
# Check that a pattern is not present in the .ads file produced by the
# compiler. See dg-scan for details.
proc scan-ada-spec-not { args } {
set testcase [testname-for-summary]
set output_file "[get_ada_spec_filename $testcase]"
dg-scan "scan-ada-spec-not" 0 $testcase $output_file $args
}
# Call pass if pattern is present given number of times, otherwise fail.
proc scan-assembler-times { args } {
if { [llength $args] < 2 } {
error "scan-assembler-times: too few arguments"
return
}
if { [llength $args] > 3 } {
error "scan-assembler-times: too many arguments"
return
}
if { [llength $args] >= 3 } {
switch [dg-process-target [lindex $args 2]] {
"S" { }
"N" { return }
"F" { setup_xfail "*-*-*" }
"P" { }
}
}
set testcase [testname-for-summary]
# The name might include a list of options; extract the file name.
set filename [lindex $testcase 0]
set pattern [lindex $args 0]
set times [lindex $args 1]
set pp_pattern [make_pattern_printable $pattern]
# This must match the rule in gcc-dg.exp.
set output_file "[file rootname [file tail $filename]].s"
set files [glob -nocomplain $output_file]
if { $files == "" } {
verbose -log "$testcase: output file does not exist"
unresolved "$testcase scan-assembler-times $pp_pattern $times"
return
}
set fd [open $output_file r]
set text [read $fd]
close $fd
set result_count [llength [regexp -inline -all -- $pattern $text]]
if {$result_count == $times} {
pass "$testcase scan-assembler-times $pp_pattern $times"
} else {
verbose -log "$testcase: $pp_pattern found $result_count times"
fail "$testcase scan-assembler-times $pp_pattern $times"
}
}
force_conventional_output_for scan-assembler-times
# Utility for scanning demangled compiler result, invoked via dg-final.
# Call pass if pattern is present, otherwise fail.
proc scan-assembler-dem { args } {
global cxxfilt
global base_dir
if { [llength $args] < 1 } {
error "scan-assembler-dem: too few arguments"
return
}
if { [llength $args] > 2 } {
error "scan-assembler-dem: too many arguments"
return
}
if { [llength $args] >= 2 } {
switch [dg-process-target [lindex $args 1]] {
"S" { }
"N" { return }
"F" { setup_xfail "*-*-*" }
"P" { }
}
}
# Find c++filt like we find g++ in g++.exp.
if ![info exists cxxfilt] {
set cxxfilt [findfile $base_dir/../../../binutils/cxxfilt \
$base_dir/../../../binutils/cxxfilt \
[findfile $base_dir/../../c++filt $base_dir/../../c++filt \
[findfile $base_dir/c++filt $base_dir/c++filt \
[transform c++filt]]]]
verbose -log "c++filt is $cxxfilt"
}
set testcase [testname-for-summary]
# The name might include a list of options; extract the file name.
set filename [lindex $testcase 0]
set pattern [lindex $args 0]
set pp_pattern [make_pattern_printable $pattern]
set output_file "[file rootname [file tail $filename]].s"
set files [glob -nocomplain $output_file]
if { $files == "" } {
verbose -log "$testcase: output file does not exist"
unresolved "$testcase scan-assembler-dem $pp_pattern"
return
}
set output [remote_exec host "$cxxfilt" "" "$output_file"]
set text [lindex $output 1]
if [regexp -- $pattern $text] {
pass "$testcase scan-assembler-dem $pp_pattern"
} else {
fail "$testcase scan-assembler-dem $pp_pattern"
}
}
# Call pass if demangled pattern is not present, otherwise fail.
proc scan-assembler-dem-not { args } {
global cxxfilt
global base_dir
if { [llength $args] < 1 } {
error "scan-assembler-dem-not: too few arguments"
return
}
if { [llength $args] > 2 } {
error "scan-assembler-dem-not: too many arguments"
return
}
if { [llength $args] >= 2 } {
switch [dg-process-target [lindex $args 1]] {
"S" { }
"N" { return }
"F" { setup_xfail "*-*-*" }
"P" { }
}
}
# Find c++filt like we find g++ in g++.exp.
if ![info exists cxxfilt] {
set cxxfilt [findfile $base_dir/../../../binutils/cxxfilt \
$base_dir/../../../binutils/cxxfilt \
[findfile $base_dir/../../c++filt $base_dir/../../c++filt \
[findfile $base_dir/c++filt $base_dir/c++filt \
[transform c++filt]]]]
verbose -log "c++filt is $cxxfilt"
}
set testcase [testname-for-summary]
# The name might include a list of options; extract the file name.
set filename [lindex $testcase 0]
set pattern [lindex $args 0]
set pp_pattern [make_pattern_printable $pattern]
set output_file "[file rootname [file tail $filename]].s"
set files [glob -nocomplain $output_file]
if { $files == "" } {
verbose -log "$testcase: output file does not exist"
unresolved "$testcase scan-assembler-dem-not $pp_pattern"
return
}
set output [remote_exec host "$cxxfilt" "" "$output_file"]
set text [lindex $output 1]
if ![regexp -- $pattern $text] {
pass "$testcase scan-assembler-dem-not $pp_pattern"
} else {
fail "$testcase scan-assembler-dem-not $pp_pattern"
}
}
# Call pass if object size is ok, otherwise fail.
# example: /* { dg-final { object-size text <= 54 } } */
proc object-size { args } {
global size
global base_dir
if { [llength $args] < 3 } {
error "object-size: too few arguments"
return
}
if { [llength $args] > 4 } {
error "object-size: too many arguments"
return
}
if { [llength $args] >= 4 } {
switch [dg-process-target [lindex $args 3]] {
"S" { }
"N" { return }
"F" { setup_xfail "*-*-*" }
"P" { }
}
}
# Find size like we find g++ in g++.exp.
if ![info exists size] {
set size [findfile $base_dir/../../../binutils/size \
$base_dir/../../../binutils/size \
[findfile $base_dir/../../size $base_dir/../../size \
[findfile $base_dir/size $base_dir/size \
[transform size]]]]
verbose -log "size is $size"
}
set testcase [testname-for-summary]
# The name might include a list of options; extract the file name.
set filename [lindex $testcase 0]
set what [lindex $args 0]
set where [lsearch { text data bss total } $what]
if { $where == -1 } {
error "object-size: illegal argument: $what"
return
}
set cmp [lindex $args 1]
if { [lsearch { < > <= >= == != } $cmp] == -1 } {
error "object-size: illegal argument: $cmp"
return
}
set with [lindex $args 2]
if ![string is integer $with ] {
error "object-size: illegal argument: $with"
return
}
set output_file "[file rootname [file tail $filename]].o"
if ![file_on_host exists $output_file] {
verbose -log "$testcase: $output_file does not exist"
unresolved "$testcase object-size $what $cmp $with"
return
}
set output [remote_exec host "$size" "$output_file"]
set status [lindex $output 0]
if { $status != 0 } {
verbose -log "$testcase object-size: $size failed"
unresolved "$testcase object-size $what $cmp $with"
return
}
set text [lindex $output 1]
set lines [split $text "\n"]
set l0match {^\s*text\s+data\s+bss\s+dec\s+hex\s+filename\s*$}
set l1match {^\s*\d+\s+\d+\s+\d+\s+\d+\s+[\da-fA-F]+\s+}
if { [istarget *-*-darwin*] } {
set l0match {^\s*__TEXT\s+__DATA\s+__OBJC\s+others\s+dec\s+hex\s*$}
set l1match {^\s*\d+\s+\d+\s+\d+\s+\d+\s+\d+\s+[\da-fA-F]+\s+}
}
set line0 [lindex $lines 0]
if ![regexp $l0match $line0] {
verbose -log "$testcase object-size: $size did not produce expected first line: $line0"
unresolved "$testcase object-size $what $cmp $with"
return
}
set line1 [lindex $lines 1]
if ![regexp $l1match $line1] {
verbose -log "$testcase object-size: $size did not produce expected second line: $line1"
unresolved "$testcase object-size $what $cmp $with"
return
}
set actual [lindex $line1 $where]
verbose -log "$what size is $actual"
if [expr $actual $cmp $with] {
pass "$testcase object-size $what $cmp $with"
} else {
fail "$testcase object-size $what $cmp $with"
}
}
# Utility for testing that a function is defined on the current line.
# Call pass if so, otherwise fail. Invoked directly; the file must
# have been compiled with -g -dA.
#
# Argument 0 is the current line, passed implicitly by dejagnu
# Argument 1 is the function to check
# Argument 2 handles expected failures and the like
# Argument 3 is "." to match the current line, or an integer to match
# an explicit line.
proc dg-function-on-line { args } {
# Upvar from dg-final:
upvar dg-final-code final-code
set line [lindex $args 0]
set symbol [lindex $args 1]
set failures [lindex $args 2]
if { [llength $args] >= 4 } {
switch [lindex $args 3] {
"." { }
"default" { set line [lindex $args 3] }
}
}
if { [istarget hppa*-*-linux*] } {
set pattern [format {%s:\n\t.PROC\n\t.CALLINFO.*\n\t.ENTRY\n.L.*:\n(\t.file[^\t]*)*\t[^:]+:%d(:[0-9]+)?\n} \
$symbol $line]
} elseif { [istarget hppa*-*-*] } {
set pattern [format {\t;[^:]+:%d(:[0-9]+)?\n(\t[^\t]+\n)+%s:\n\t.PROC} \
$line $symbol]
} elseif { [istarget mips*-*-*] } {
set pattern [format {\t\.loc [0-9]+ %d [0-9]+( [^\n]*)?\n(\t.cfi_startproc[^\t]*\n)*\t\.set\t(no)?mips16\n\t(\.set\t(no)?micromips\n\t)?\.ent\t%s\n\t\.type\t%s, @function\n%s:\n} \
$line $symbol $symbol $symbol]
} elseif { [istarget microblaze*-*-*] } {
set pattern [format {:%d(:[0-9]+)?\n\$.*:\n\t\.ent\t%s\n\t\.type\t%s, @function\n%s:\n} \
$line $symbol $symbol $symbol]
} else {
set pattern [format {%s:[^\t]*(\t.(fnstart|frame|mask|file)[^\t]*)*\t[^:]+:%d(:[0-9]+)?\n} \
$symbol $line]
}
# The lack of spaces around $pattern is important, since they'd
# become part of the regex scan-assembler tries to match.
set cmd "scan-assembler {$pattern}"
if { [llength $args] >= 3 } {
set cmd "$cmd {$failures}"
}
append final-code "$cmd\n"
}
# Look for a pattern in the .exe.ltrans0.s file produced by the
# compiler. See dg-scan for details.
proc scan-lto-assembler { args } {
set testcase [testname-for-summary]
# The name might include a list of options; extract the file name.
set filename [lindex $testcase 0]
set output_file "[file rootname [file tail $filename]].ltrans0.ltrans.s"
verbose "output_file: $output_file"
dg-scan "scan-lto-assembler" 1 $testcase $output_file $args
}
# Read assembly file FILENAME and store a mapping from function names
# to function bodies in array RESULT. FILENAME has already been uploaded
# locally where necessary and is known to exist.
proc parse_function_bodies { filename result } {
upvar $result up_result
# Regexp for the start of a function definition (name in \1).
set label {^([a-zA-Z_]\S+):$}
# Regexp for the end of a function definition.
set terminator {^\s*\.size}
# Regexp for lines that aren't interesting.
set fluff {^\s*(?:\.|//|@)}
set fd [open $filename r]
set in_function 0
while { [gets $fd line] >= 0 } {
if { [regexp $label $line dummy function_name] } {
set in_function 1
set function_body ""
} elseif { $in_function } {
if { [regexp $terminator $line] } {
set up_result($function_name) $function_body
set in_function 0
} elseif { ![regexp $fluff $line] } {
append function_body $line "\n"
}
}
}
close $fd
}
# FUNCTIONS is an array that maps function names to function bodies.
# Return true if it contains a definition of function NAME and if
# that definition matches BODY_REGEXP.
proc check_function_body { functions name body_regexp } {
upvar $functions up_functions
if { ![info exists up_functions($name)] } {
return 0
}
set fn_res [regexp "^$body_regexp\$" $up_functions($name)]
if { !$fn_res } {
verbose -log "body: $body_regexp"
verbose -log "against: $up_functions($name)"
}
return $fn_res
}
# Check the implementations of functions against expected output. Used as:
#
# { dg-do { check-function-bodies PREFIX TERMINATOR[ OPTION[ SELECTOR]] } }
#
# See sourcebuild.texi for details.
proc check-function-bodies { args } {
if { [llength $args] < 2 } {
error "too few arguments to check-function-bodies"
}
if { [llength $args] > 4 } {
error "too many arguments to check-function-bodies"
}
if { [llength $args] >= 3 } {
set required_flags [lindex $args 2]
upvar 2 dg-extra-tool-flags extra_tool_flags
set flags $extra_tool_flags
global torture_current_flags
if { [info exists torture_current_flags] } {
append flags " " $torture_current_flags
}
foreach required_flag $required_flags {
switch -- $required_flag {
target -
xfail {
error "misplaced $required_flag in check-function-bodies"
}
}
}
foreach required_flag $required_flags {
if { ![regexp " $required_flag " $flags] } {
return
}
}
}
set xfail_all 0
if { [llength $args] >= 4 } {
switch [dg-process-target [lindex $args 3]] {
"S" { }
"N" { return }
"F" { set xfail_all 1 }
"P" { }
}
}
set testcase [testname-for-summary]
# The name might include a list of options; extract the file name.
set filename [lindex $testcase 0]
global srcdir
set input_filename "$srcdir/$filename"
set output_filename "[file rootname [file tail $filename]].s"
set prefix [lindex $args 0]
set prefix_len [string length $prefix]
set terminator [lindex $args 1]
if { [string equal $terminator ""] } {
set terminator "*/"
}
set terminator_len [string length $terminator]
set have_bodies 0
if { [is_remote host] } {
remote_upload host "$filename"
}
if { [file exists $output_filename] } {
parse_function_bodies $output_filename functions
set have_bodies 1
} else {
verbose -log "$testcase: output file does not exist"
}
set count 0
set function_regexp ""
set label {^(\S+):$}
set lineno 1
set fd [open $input_filename r]
set in_function 0
while { [gets $fd line] >= 0 } {
if { [string equal -length $prefix_len $line $prefix] } {
set line [string trim [string range $line $prefix_len end]]
if { !$in_function } {
if { [regexp "^(.*?\\S)\\s+{(.*)}\$" $line dummy \
line selector] } {
set selector [dg-process-target $selector]
} else {
set selector "P"
}
if { ![regexp $label $line dummy function_name] } {
close $fd
error "check-function-bodies: line $lineno does not have a function label"
}
set in_function 1
set function_regexp ""
} elseif { [string equal $line "("] } {
append function_regexp "(?:"
} elseif { [string equal $line "|"] } {
append function_regexp "|"
} elseif { [string equal $line ")"] } {
append function_regexp ")"
} elseif { [string equal $line "..."] } {
append function_regexp ".*"
} else {
append function_regexp "\t" $line "\n"
}
} elseif { [string equal -length $terminator_len $line $terminator] } {
if { ![string equal $selector "N"] } {
if { $xfail_all || [string equal $selector "F"] } {
setup_xfail "*-*-*"
}
set testname "$testcase check-function-bodies $function_name"
if { !$have_bodies } {
unresolved $testname
} elseif { [check_function_body functions $function_name \
$function_regexp] } {
pass $testname
} else {
fail $testname
}
}
set in_function 0
incr count
}
incr lineno
}
close $fd
if { $in_function } {
error "check-function-bodies: missing \"$terminator\""
}
if { $count == 0 } {
error "check-function-bodies: no matches found"
}
}