# Copyright (C) 1997, 2007, 2008, 2009, 2010 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
# .
# A MIPS version of the GCC dg.exp driver.
#
# There are many MIPS features that we want to test, and many of those
# features are specific to certain architectures, certain ABIs and so on.
# There are therefore many cases in which we want to test something that
# is incompatible with the user's chosen test options.
#
# In most dg testsuites, the options added by dg-options have a lower
# priority than the options chosen by the user. For example, if a test
# specifies:
#
# { dg-options "-mips1" }
#
# and the user passes the following option to runtest:
#
# --target_board unix/-mips3
#
# the test would be compiled as MIPS III rather than MIPS I. If the
# test really wouldn't work with -mips3, normal practice would be to
# have something like:
#
# { dg-do compile { target can_force_mips1 } }
#
# so that the test is skipped when an option like -mips3 is passed.
#
# Sticking to the same approach here would cause us to skip many tests,
# even though the toolchain can generate the required code. For example,
# there are 6 MIPS ABIs, plus variants. Some configurations support
# more than one ABI, so it is natural to use something like:
#
# --target_board unix{-mabi=n32,-mabi=32,-mabi=64}
#
# when testing them. But these -mabi=* options would normally prevent any
# EABI and o64 tests from running.
#
# This testsuite therefore defines a local version of dg-options that
# overrides any user options that are incompatible with the test options.
# It tries to keep the other user options intact.
#
#
# Most of the tests in this testsuite are scan-assembler tests, but
# sometimes we need a link test instead. In these cases, we must not
# try to link code with options that are incompatible with the current
# multilib, because xgcc is passed -L and -B options that are specific
# to that multilib.
#
# Normal GCC practice would be to skip incompatible link tests as
# unsupported, but in this particular case, it seems better to downgrade
# them to an assemble test instead. At least that way we get some
# test-for-ICE and code-sanity coverage.
#
# The same problem applies to run tests. If a test requires runtime
# support for a particular feature, and if the current target does not
# provide that support, normal practice would be to skip the test.
# But in this case it seems better to downgrade it to a link test instead.
# (We might then have to downgrade it to an assembler test according to
# the constraints just mentioned.)
#
# The local dg-options therefore checks whether the new options are
# link-compatiable with the user's options. If not, it automatically
# downgrades link tests to assemble tests. It does the same for run
# tests, but in addition, it downgrades run tests to link tests if the
# target does not provide runtime support for a required feature or ASE.
#
#
# Another problem is that many of the options we want to test require
# certain other features. For example, -mips3d requires both 64-bit
# FPRs and a MIPS32 or MIPS64 target; -mfix-r10000 requires branch-
# likely instructions; and so on. We could handle this by specifying
# a set of options that are guaranteed to give us what we want, such as:
#
# dg-options "-mips3d -mpaired-single -mhard-float -mgp64 -mfp64 -mabi=n32 -march=mips64 -mips64"
#
# With the new dg-options semantics, this would override any troublesome
# user options like -mips3, -march=vr4100, -mfp32, -mgp32, -msoft-float,
# -mno-paired-single and so on. But there are three major problems with
# this:
#
# - It is easy to forget options.
#
# - If a new option is added, all tests that are incompatible with that
# option must be updated.
#
# - We want to be able to test MIPS-3D with things like -march=mips32,
# -march=mips64r2, -march=sb1, and so on.
#
# The local version of dg-options therefore works out the requirements
# of each test option. As with the test options themselves, the local
# dg-options overrides any user options that incompatible with these
# requirements, but it keeps the other user options the same.
#
# For example, if the user passes -mips3, a MIPS-3D test will choose
# a different architecture like -mips64 instead. But if the user
# passes -march=sb1, MIPS-3D tests will be run with that option.
#
#
# Sometimes it is useful to say "I want an environment that is compatible
# with option X, but I don't want to pass option X itself". The main example
# of this is -mips16: we want to be able to test __attribute__((mips16))
# without requiring the test itself to be compiled as -mips16. The local
# version of dg-options lets you do this by putting X in parentheses.
# For example:
#
# { dg-options "(-mips16)" }
#
# selects a MIPS16-compatible target without passing -mips16 itself.
#
# It is also useful to say "any architecture within this ISA range is fine".
# This can be done using special pseudo-options of the form:
#
# PROP=VALUE PROP<=VALUE PROP>=VALUE
#
# where PROP can be:
#
# isa:
# the value of the __mips macro.
#
# isa_rev:
# the value of the __mips_isa_rev macro, or 0 if it isn't defined.
#
# For example, "isa_rev>=1" selects a MIPS32 or MIPS64 processor,
# "isa=4" selects a MIPS IV processor, and so on.
#
# There are also the following special pseudo-options:
#
# isa=loongson
# select a Loongson processor
#
# addressing=absolute
# force absolute addresses to be used
#
# forbid_cpu=REGEXP
# forbid processors that match the given regexp; choose a
# generic ISA instead.
#
#
# In summary:
#
# (1) Try to avoid { target ... } requirements wherever possible.
# Specify the requirements as dg-options instead.
#
# (2) Don't worry about the consequences of (1) for link and run tests.
# If the test uses { dg-do link } or { dg-do run }, and its
# dg-options are incompatible with the current target, the
# testsuite will downgrade them where necessary.
#
# (3) Try to use the bare minimum of options and leave dg-options
# to work out the dependencies. For example, if you want
# a MIPS-3D test, you should generally just specify -mips3d.
# Don't specify an architecture option like -mips64 unless
# the test really doesn't work with -mips32r2, -mips64r2,
# -march=sb1, etc.
#
# (4) If you want something compatible with a particular option,
# but don't want to pass the option itself, wrap that option
# in parentheses. In particular, pass '(-mips16)' if you
# want to use "mips16" attributes.
#
# (5) When testing a feature of a generic ISA (as opposed to a
# processor-specific extension), try to use the "isa" and
# "isa_rev" pseudo-options instead of specific architecture
# options. For example, if the feature is present on revision 2
# processors and above, try to use "isa_rev>=2" instead of
# "-mips32r2" or "-mips64r2".
#
# (6) If you need to disable processor-specific extensions use
# forbid_cpu=REGEXP instead of forcing a generic ISA.
#
#
# Terminology
#
# Option group or just group:
# See comment before mips_option_groups.
#
# Test options:
# The options specified in dg-options.
#
# Explicit options:
# The options that were either passed to runtest as "multilib" options
# (e.g. -mips4 in --target_board=mips-sim-idt/-mips4) or specified as
# test options. Note that options in parenthesis (i.e. (-mips16)) are
# not explicit and can be omitted depending on the base options.
#
# Base options:
# Options that are on by default without being specified in dg-options,
# e.g. -march=mips64r2 for mipsisa64r2-elf or because they've been
# passed to runtest as "multilib" options.
#
# Option array:
# Many functions in this file work with option arrays. These are
# two-dimensional Tcl arrays where the first dimension can have three
# values: option, explicit_p or test_option_p. The second dimension is
# the name of the option group. "option" contains the name of the
# option that is in effect from this group. If no option is active it
# contains the empty string. The flags "explicit_p" and "test_option_p"
# are set for explicit and test options.
# Exit immediately if this isn't a MIPS target.
if ![istarget mips*-*-*] {
return
}
# Load support procs.
load_lib gcc-dg.exp
# A list of GROUP REGEXP pairs. Each GROUP represents a logical group of
# options from which only one option should be chosen. REGEXP matches all
# the options in that group; it is implicitly wrapped in "^(...)$".
set mips_option_groups {
abi "-mabi=.*"
addressing "addressing=.*"
arch "-mips([1-5]|32.*|64.*)|-march=.*|isa(|_rev)(=|<=|>=).*"
dump_pattern "-dp"
endianness "-E(L|B)|-me(l|b)"
float "-m(hard|soft)-float"
forbid_cpu "forbid_cpu=.*"
fp "-mfp(32|64)"
gp "-mgp(32|64)"
long "-mlong(32|64)"
mips16 "-mips16|-mno-mips16|-mflip-mips16"
mips3d "-mips3d|-mno-mips3d"
optimization "-O(|[0-3s])"
pic "-f(no-|)(pic|PIC)"
profiling "-pg"
small-data "-G[0-9]+"
warnings "-w"
}
# Add -mfoo/-mno-foo options to mips_option_groups.
foreach option {
abicalls
branch-likely
dsp
dspr2
explicit-relocs
extern-sdata
fix-r4000
fix-r10000
fix-vr4130
gpopt
local-sdata
long-calls
paired-single
plt
shared
smartmips
sym32
synci
relax-pic-calls
mcount-ra-address
} {
lappend mips_option_groups $option "-m(no-|)$option"
}
# Add -mfoo= options to mips_option_groups.
foreach option {
branch-cost
code-readable
r10k-cache-barrier
tune
} {
lappend mips_option_groups $option "-m$option=.*"
}
# Add -ffoo/-fno-foo options to mips_option_groups.
foreach option {
delayed-branch
fast-math
finite-math-only
fixed-hi
fixed-lo
lax-vector-conversions
split-wide-types
tree-vectorize
} {
lappend mips_option_groups $option "-f(no-|)$option"
}
# A list of option groups that have an impact on the ABI.
set mips_abi_groups {
abi
abicalls
arch
endianness
float
fp
gp
gpopt
long
pic
small-data
}
# mips_option_tests(OPTION) is some assembly code that will run to completion
# on a target that supports OPTION.
set mips_option_tests(-mips16) {
move $2,$31
bal 1f
.set mips16
jr $31
.set nomips16
.align 2
1:
ori $3,$31,1
jalr $3
move $31,$2
}
set mips_option_tests(-mpaired-single) {
.set mips64
lui $2,0x3f80
mtc1 $2,$f0
cvt.ps.s $f2,$f0,$f0
}
set mips_option_tests(-mips3d) {
.set mips64
.set mips3d
lui $2,0x3f80
mtc1 $2,$f0
cvt.ps.s $f2,$f0,$f0
mulr.ps $f2,$f2,$f2
rsqrt1.s $f2,$f0
mul.s $f4,$f2,$f0
rsqrt2.s $f4,$f4,$f2
madd.s $f4,$f2,$f2,$f4
}
set mips_option_tests(-mdsp) {
.set mips64r2
.set dsp
addsc $2,$2,$2
}
set mips_option_tests(-mdspr2) {
.set mips64r2
.set dspr2
prepend $2,$3,11
}
# Canonicalize command-line option OPTION.
proc mips_canonicalize_option { option } {
regsub {^-mips([1-5]|32*|64*)$} $option {-march=mips\1} option
regsub {^-mel$} $option {-EL} option
regsub {^-meb$} $option {-EB} option
regsub {^-O$} $option {-O1} option
# MIPS doesn't use -fpic and -fPIC to distinguish between code models.
regsub {^-f(no-|)PIC} $option {-f\1pic} option
return $option
}
# Return true if OPTION1 and OPTION2 represent the same command-line option.
proc mips_same_option_p { option1 option2 } {
return [string equal \
[mips_canonicalize_option $option1] \
[mips_canonicalize_option $option2]]
}
# Preprocess CODE using target_compile options OPTIONS. Return the
# compiler output.
proc mips_preprocess { options code } {
global tool
set src dummy[pid].c
set f [open $src "w"]
puts $f $code
close $f
set output [${tool}_target_compile $src "" preprocess $options]
file delete $src
return $output
}
# Set the target board's command-line options to NEW_OPTIONS, storing the
# old values in UPVAR.
proc mips_push_test_options { upvar new_options } {
upvar $upvar var
global board_info
array unset var
set var(name) board_info([target_info name],multilib_flags)
if { [info exists $var(name)] } {
set var(old_options) [set $var(name)]
set $var(name) [join $new_options " "]
}
}
# Undo the effects of [mips_push_test_options UPVAR ...]
proc mips_pop_test_options { upvar } {
upvar $upvar var
global board_info
if { [info exists var(old_options)] } {
set $var(name) $var(old_options)
}
}
# Return property PROP for architecture option ARCH (which belongs to
# the "arch" group in mips_option_groups). See the comment at the
# top of the file for the valid property names.
#
# Cache the results in mips_arch_info (which can be reused between test
# variants).
proc mips_arch_info { arch prop } {
global mips_arch_info
global board_info
set arch [mips_canonicalize_option $arch]
if { ![info exists mips_arch_info($arch,$prop)] } {
mips_push_test_options saved_options {}
set output [mips_preprocess [list "additional_flags=$arch -mabi=32"] {
int isa = __mips;
#ifdef __mips_isa_rev
int isa_rev = __mips_isa_rev;
#else
int isa_rev = 0;
#endif
}]
foreach lhs { isa isa_rev } {
regsub ".*$lhs = (\[^;\]*).*" $output {\1} rhs
verbose -log "Architecture $arch has $lhs $rhs"
set mips_arch_info($arch,$lhs) $rhs
}
mips_pop_test_options saved_options
}
return $mips_arch_info($arch,$prop)
}
# Return the option group associated with OPTION, or "" if none.
proc mips_option_maybe_group { option } {
global mips_option_groups
foreach { group regexp } $mips_option_groups {
if { [regexp -- "^($regexp)\$" $option] } {
return $group
}
}
return ""
}
# Return the option group associated with OPTION. Raise an error if
# there is none.
proc mips_option_group { option } {
set group [mips_option_maybe_group $option]
if { [string equal $group ""] } {
error "Unrecognised option: $option"
}
return $group
}
# Return the option for option group GROUP, or "" if no option in that
# group has been chosen. UPSTATUS describes the option status.
proc mips_option { upstatus group } {
upvar $upstatus status
return $status(option,$group)
}
# If the base options for this test run include an option in group GROUP,
# return that option, otherwise return "".
proc mips_original_option { group } {
global mips_base_options
return [mips_option mips_base_options $group]
}
# Return true if the test described by UPSTATUS requires a specific
# option in group GROUP. UPSTATUS describes the option status.
proc mips_test_option_p { upstatus group } {
upvar $upstatus status
return $status(test_option_p,$group)
}
# If the test described by UPSTATUS requires a particular option in group
# GROUP, return that option, otherwise return "".
proc mips_test_option { upstatus group } {
upvar $upstatus status
if { [mips_test_option_p status $group] } {
return [mips_option status $group]
} else {
return ""
}
}
# Return true if the options described by UPSTATUS include OPTION.
proc mips_have_option_p { upstatus option } {
upvar $upstatus status
return [mips_same_option_p \
[mips_option status [mips_option_group $option]] \
$option]
}
# Return true if the options described by UPSTATUS require MIPS16 support.
proc mips_using_mips16_p { upstatus } {
upvar $upstatus status
return [expr { [mips_have_option_p status "-mips16"]
|| [mips_have_option_p status "-mflip-mips16"] }]
}
# Return true if the test described by UPSTATUS requires option OPTION.
proc mips_have_test_option_p { upstatus option } {
upvar $upstatus status
set group [mips_option_group $option]
return [mips_same_option_p [mips_test_option status $group] $option]
}
# If the test described by UPSTATUS does not specify an option in
# OPTION's group, act as though it had specified OPTION.
#
# The first optional argument indicates whether the option should be
# treated as though it were wrapped in parentheses; see the comment at
# the top of the file for details about this convention. The default is 0.
proc mips_make_test_option { upstatus option args } {
upvar $upstatus status
set group [mips_option_group $option]
if { ![mips_test_option_p status $group] } {
set status(option,$group) $option
set status(test_option_p,$group) 1
if { [llength $args] == 0 || ![lindex $args 0] } {
set status(explicit_p,$group) 1
}
}
}
# If the test described by UPSTATUS requires option FROM, assume that
# it implicitly requires option TO.
proc mips_option_dependency { upstatus from to } {
upvar $upstatus status
if { [mips_have_test_option_p status $from] } {
mips_make_test_option status $to
}
}
# Return true if the given arch-group option specifies a 32-bit ISA.
proc mips_32bit_arch_p { option } {
set isa [mips_arch_info $option isa]
return [expr { $isa < 3 || $isa == 32 }]
}
# Return true if the given arch-group option specifies a 64-bit ISA.
proc mips_64bit_arch_p { option } {
return [expr { ![mips_32bit_arch_p $option] }]
}
# Return true if the given abi-group option implicitly requires -mgp32.
proc mips_32bit_abi_p { option } {
switch -glob -- $option {
-mabi=32 {
return 1
}
}
return 0
}
# Return true if the given abi-group option implicitly requires -mgp64.
proc mips_64bit_abi_p { option } {
switch -glob -- $option {
-mabi=o64 -
-mabi=n32 -
-mabi=64 {
return 1
}
}
return 0
}
# Check whether the current target supports all the options that the
# current test requires. Return "" if so, otherwise return one of
# the incompatible options. UPSTATUS describes the option status.
proc mips_first_unsupported_option { upstatus } {
global mips_option_tests
upvar $upstatus status
foreach { option code } [array get mips_option_tests] {
if { [mips_have_test_option_p status $option] } {
regsub -all "\n" $code "\\n\\\n" asm
# Use check_runtime from target-supports.exp, which caches
# the result for us.
if { ![check_runtime mips_option_$option [subst {
__attribute__((nomips16)) int
main (void)
{
asm (".set push\
$asm\
.set pop");
return 0;
}
}]] } {
return $option
}
}
}
return ""
}
# Initialize this testsuite for a new test variant.
proc mips-dg-init {} {
# Invariant information.
global mips_option_groups
# Internally-generated information about this run.
global mips_base_options
global mips_extra_options
# Override dg-options with our mips-dg-options routine.
rename dg-options mips-old-dg-options
rename mips-dg-options dg-options
# Start with a fresh option status.
array unset mips_base_options
foreach { group regexp } $mips_option_groups {
set mips_base_options(option,$group) ""
set mips_base_options(explicit_p,$group) 0
set mips_base_options(test_option_p,$group) 0
}
# Use preprocessor macros to work out as many implicit options as we can.
set output [mips_preprocess "" {
const char *options[] = {
#if !defined _MIPS_SIM
"-mabi=eabi",
#elif _MIPS_SIM==_ABIO32
"-mabi=32",
#elif _MIPS_SIM==_ABIO64
"-mabi=o64",
#elif _MIPS_SIM==_ABIN32
"-mabi=n32",
#else
"-mabi=64",
#endif
"-march=" _MIPS_ARCH,
#ifdef _MIPSEB
"-EB",
#else
"-EL",
#endif
#ifdef __mips_hard_float
"-mhard-float",
#else
"-msoft-float",
#endif
#if __mips_fpr == 64
"-mfp64",
#else
"-mfp32",
#endif
#ifdef __mips64
"-mgp64",
#else
"-mgp32",
#endif
#if _MIPS_SZLONG == 64
"-mlong64",
#else
"-mlong32",
#endif
#ifdef __mips16
"-mips16",
#else
"-mno-mips16",
#endif
#ifdef __mips3d
"-mips3d",
#else
"-mno-mips3d",
#endif
#ifdef __mips_paired_single_float
"-mpaired-single",
#else
"-mno-paired-single",
#endif
#if __mips_abicalls
"-mabicalls",
#else
"-mno-abicalls",
#endif
#if __mips_dsp_rev >= 2
"-mdspr2",
#else
"-mno-dspr2",
#endif
#if __mips_dsp_rev >= 1
"-mdsp",
#else
"-mno-dsp",
#endif
#ifndef __PIC__
"addressing=absolute",
#endif
#ifdef __mips_smartmips
"-msmartmips",
#else
"-mno-smartmips",
#endif
0
};
}]
foreach line [split $output "\r\n"] {
# Poor man's string concatenation.
regsub -all {" "} $line "" line
if { [regexp {"(.*)",} $line dummy option] } {
set group [mips_option_group $option]
set mips_base_options(option,$group) $option
}
}
# Process the target's multilib options, saving any unrecognized
# ones in mips_extra_options.
set mips_extra_options {}
foreach option [split [board_info target multilib_flags]] {
set group [mips_option_maybe_group $option]
if { ![string equal $group ""] } {
set mips_base_options(option,$group) $option
set mips_base_options(explicit_p,$group) 1
} else {
lappend mips_extra_options $option
}
}
}
# Finish a test run started by mips-dg-init.
proc mips-dg-finish {} {
rename dg-options mips-dg-options
rename mips-old-dg-options dg-options
}
# Override dg-options so that we can do some MIPS-specific processing.
# All options used in this testsuite must appear in mips_option_groups.
#
# Test options override multilib options. Certain test options can
# also imply other test options, which also override multilib options.
# These dependencies are ordered as follows:
#
# START END
# | |
# -mips16/-mflip-mips16 -mno-mips16
# | |
# -mips3d -mno-mips3d
# | |
# -mpaired-single -mno-paired-single
# | |
# -mfp64 -mfp32
# | |
# -mhard-float -msoft-float
# | |
# -mno-sym32 -msym32
# | |
# -mrelax-pic-calls -mno-relax-pic-calls
# | |
# -fpic -fno-pic
# | |
# -mshared -mno-shared
# | |
# -mno-plt -mplt
# | |
# addressing=unknown addressing=absolute
# | |
# -mabicalls -mno-abicalls
# | |
# -G0
# | |
# -mr10k-cache-barrier=none
# | |
# -mfix-r10000 -mno-fix-r10000
# | |
# -mbranch-likely -mno-branch-likely
# | |
# -msmartmips -mno-smartmips
# | |
# -mno-gpopt -mgpopt
# | |
# -mexplicit-relocs -mno-explicit-relocs
# | |
# +-- gp, abi & arch ---------+
#
# For these purposes, the "gp", "abi" & "arch" option groups are treated
# as a single node.
proc mips-dg-options { args } {
# dg.exp variables.
upvar dg-extra-tool-flags extra_tool_flags
upvar dg-do-what do_what
# Invariant information.
global mips_option_groups
global mips_abi_groups
# Information about this run.
global mips_base_options
# Start out with the default option state.
array set options [array get mips_base_options]
# Record the options that this test explicitly needs.
foreach option [lindex $args 1] {
set all_but_p [regexp {^\((.*)\)$} $option dummy option]
set group [mips_option_group $option]
if { [mips_test_option_p options $group] } {
set old [mips_option options $group]
error "Inconsistent $group option: $old vs. $option"
} else {
mips_make_test_option options $option $all_but_p
}
}
# Handle dependencies between options on the left of the
# dependency diagram.
mips_option_dependency options "-mips3d" "-mpaired-single"
mips_option_dependency options "-mpaired-single" "-mfp64"
mips_option_dependency options "-mfp64" "-mhard-float"
mips_option_dependency options "-mrelax-pic-calls" "-mno-plt"
mips_option_dependency options "-mrelax-pic-calls" "-mabicalls"
mips_option_dependency options "-mrelax-pic-calls" "-mexplicit-relocs"
mips_option_dependency options "-fpic" "-mshared"
mips_option_dependency options "-mshared" "-mno-plt"
mips_option_dependency options "-mno-plt" "addressing=unknown"
mips_option_dependency options "-mabicalls" "-G0"
mips_option_dependency options "-mno-gpopt" "-mexplicit-relocs"
# Work out information about the current ABI.
set abi_test_option_p [mips_test_option_p options abi]
set abi [mips_option options abi]
set eabi_p [mips_same_option_p $abi "-mabi=eabi"]
# If the test forces a particular ABI, set the register size
# accordingly.
if { $abi_test_option_p } {
if { [mips_32bit_abi_p $abi] } {
mips_make_test_option options "-mgp32"
} elseif { [mips_64bit_abi_p $abi] } {
mips_make_test_option options "-mgp64"
}
}
# See whether forbid_cpu forces us to choose a new architecture.
set arch [mips_option mips_base_options arch]
set force_generic_isa_p [expr {
[regexp "forbid_cpu=(.*)" [mips_option options forbid_cpu] dummy spec]
&& [regexp -- "^-march=$spec\$" $arch]
}]
# Interpret the special "isa" and "isa_rev" options. If we have
# a choice of a 32-bit or a 64-bit architecture, prefer to keep
# the -mgp setting the same.
set spec [mips_option options arch]
if { [regexp {^[^-]} $spec] } {
if { [string equal $spec "isa=loongson"] } {
if { ![regexp {^-march=loongson} $arch] } {
set arch "-march=loongson2f"
}
} else {
if { ![regexp {^(isa(?:|_rev))(=|<=|>=)([0-9]*)$} \
$spec dummy prop relation value nocpus] } {
error "Unrecognized isa specification: $spec"
}
set current [mips_arch_info $arch $prop]
if { $force_generic_isa_p
|| ($current < $value && ![string equal $relation "<="])
|| ($current > $value && ![string equal $relation ">="])
|| ([mips_have_test_option_p options "-mgp64"]
&& [mips_32bit_arch_p $arch]) } {
# The current setting is out of range; it cannot
# possibly be used. Find a replacement that can.
if { [string equal $prop "isa"] } {
set arch "-mips$value"
} elseif { $value == 0 } {
set arch "-mips4"
} else {
if { [mips_have_option_p options "-mgp32"] } {
set arch "-mips32"
} else {
set arch "-mips64"
}
if { $value > 1 } {
append arch "r$value"
}
}
}
}
set options(option,arch) $arch
}
# Work out information about the current architecture.
set arch_test_option_p [mips_test_option_p options arch]
set arch [mips_option options arch]
set isa [mips_arch_info $arch isa]
set isa_rev [mips_arch_info $arch isa_rev]
# If the test forces a 32-bit architecture, force -mgp32.
# Force the current -mgp setting otherwise; if we don't,
# some configurations would make a 64-bit architecture
# imply -mgp64.
if { $arch_test_option_p } {
if { [mips_32bit_arch_p $arch] } {
mips_make_test_option options "-mgp32"
} else {
mips_make_test_option options [mips_option options gp]
}
}
# We've now fixed the GP register size. Make it easily available.
set gp_size [expr { [mips_have_option_p options "-mgp32"] ? 32 : 64 }]
# Handle dependencies between the pre-arch options and the arch option.
# This should mirror the arch and post-arch code below.
if { !$arch_test_option_p } {
# We need a revision 2 or better ISA for:
#
# - the combination of -mgp32 -mfp64
# - the DSP ASE
if { $isa_rev < 2
&& (($gp_size == 32 && [mips_have_test_option_p options "-mfp64"])
|| [mips_have_test_option_p options "-mdsp"]
|| [mips_have_test_option_p options "-mdspr2"]) } {
if { $gp_size == 32 } {
mips_make_test_option options "-mips32r2"
} else {
mips_make_test_option options "-mips64r2"
}
# We need a MIPS32 or MIPS64 ISA for:
#
# - paired-single instructions(*)
#
# (*) Note that we don't support MIPS V at the moment.
} elseif { $isa_rev < 1
&& [mips_have_test_option_p options "-mpaired-single"] } {
if { $gp_size == 32 } {
mips_make_test_option options "-mips32"
} else {
mips_make_test_option options "-mips64"
}
# We need MIPS III or higher for:
#
# - the "cache" instruction
} elseif { $isa < 3
&& ([mips_have_test_option_p options \
"-mr10k-cache-barrier=load-store"]
|| [mips_have_test_option_p options \
"-mr10k-cache-barrier=store"]) } {
mips_make_test_option options "-mips3"
# We need MIPS II or higher for:
#
# - branch-likely instructions(*)
#
# (*) needed by both -mbranch-likely and -mfix-r10000
} elseif { $isa < 2
&& ([mips_have_test_option_p options "-mbranch-likely"]
|| [mips_have_test_option_p options "-mfix-r10000"]) } {
mips_make_test_option options "-mips2"
# Check whether we need to switch from a 32-bit processor to the
# "nearest" 64-bit processor.
} elseif { $gp_size == 64 && [mips_32bit_arch_p $arch] } {
if { $isa_rev == 0 } {
mips_make_test_option options "-mips3"
} elseif { $isa_rev == 1 } {
mips_make_test_option options "-mips64"
} else {
mips_make_test_option options "-mips64r$isa_rev"
}
# Otherwise, if the current choice of architecture is unacceptable,
# choose the equivalent generic architecture.
} elseif { $force_generic_isa_p } {
set arch "-mips[mips_arch_info $arch isa]"
if { $isa_rev > 1 } {
append arch "r$isa_rev"
}
mips_make_test_option options $arch
}
unset arch
unset isa
unset isa_rev
}
# Set an appropriate ABI, handling dependencies between the pre-abi
# options and the abi options. This should mirror the abi and post-abi
# code below.
if { !$abi_test_option_p } {
if { ($eabi_p
&& ([mips_have_option_p options "-mabicalls"]
|| ($gp_size == 32
&& [mips_have_option_p options "-mfp64"]))) } {
# EABI doesn't support -mabicalls.
# EABI doesn't support the combination -mgp32 -mfp64.
set force_abi 1
} elseif { [mips_using_mips16_p options]
&& ![mips_same_option_p $abi "-mabi=32"]
&& ![mips_same_option_p $abi "-mabi=o64"]
&& (![mips_have_option_p options "addressing=absolute"]
|| [mips_have_option_p options "-mhard-float"]) } {
# -mips16 -mhard-float requires o32 or o64.
# -mips16 PIC requires o32 or o64.
set force_abi 1
} else {
set force_abi 0
}
if { $gp_size == 32 } {
if { $force_abi || [mips_64bit_abi_p $abi] } {
mips_make_test_option options "-mabi=32"
}
} else {
if { $force_abi || [mips_32bit_abi_p $abi] } {
# All configurations should have an assembler that
# supports o64, since it requires the same BFD target
# vector as o32. In contrast, many assembler
# configurations do not have n32 or n64 support.
mips_make_test_option options "-mabi=o64"
}
}
unset abi
unset eabi_p
}
# Handle dependencies between the abi options and the post-abi options.
# This should mirror the abi and pre-abi code above.
if { $abi_test_option_p } {
if { $eabi_p } {
mips_make_test_option options "-mno-abicalls"
if { $gp_size == 32 } {
mips_make_test_option options "-mfp32"
}
}
if { [mips_using_mips16_p options]
&& ![mips_same_option_p $abi "-mabi=32"]
&& ![mips_same_option_p $abi "-mabi=o64"]
&& (![mips_have_option_p options "addressing=absolute"]
|| [mips_have_option_p options "-mhard-float"]) } {
if { [mips_test_option_p options mips16] } {
mips_make_test_option options "addressing=absolute"
mips_make_test_option options "-msoft-float"
} else {
mips_make_test_option options "-mno-mips16"
}
}
unset abi
unset eabi_p
}
# Handle dependencies between the arch option and the post-arch options.
# This should mirror the arch and pre-arch code above.
if { $arch_test_option_p } {
if { $isa < 2 } {
mips_make_test_option options "-mno-branch-likely"
mips_make_test_option options "-mno-fix-r10000"
}
if { $isa < 3 } {
mips_make_test_option options "-mr10k-cache-barrier=none"
}
if { $isa_rev < 1 } {
mips_make_test_option options "-mno-paired-single"
}
if { $isa_rev < 2 } {
if { $gp_size == 32 } {
mips_make_test_option options "-mfp32"
}
mips_make_test_option options "-mno-dsp"
mips_make_test_option options "-mno-dspr2"
}
unset arch
unset isa
unset isa_rev
}
# Handle dependencies between options on the right of the diagram.
mips_option_dependency options "-mno-explicit-relocs" "-mgpopt"
switch -- [mips_test_option options small-data] {
"" -
-G0 {}
default {
mips_make_test_option options "-mno-abicalls"
}
}
if { [mips_have_option_p options "-mabicalls"] } {
mips_option_dependency options "addressing=absolute" "-mplt"
}
mips_option_dependency options "-mplt" "-msym32"
mips_option_dependency options "-mplt" "-mno-shared"
mips_option_dependency options "-mno-shared" "-fno-pic"
mips_option_dependency options "-mfp32" "-mno-paired-single"
mips_option_dependency options "-msoft-float" "-mno-paired-single"
mips_option_dependency options "-mno-paired-single" "-mno-mips3d"
# If the test requires an unsupported option, change run tests
# to link tests.
switch -- [lindex $do_what 0] {
run {
set option [mips_first_unsupported_option options]
if { ![string equal $option ""] } {
set do_what [lreplace $do_what 0 0 link]
verbose -log "Downgraded to a 'link' test due to unsupported option '$option'"
}
}
}
# If the test has overridden a option that changes the ABI,
# downgrade a link or execution test to an assembler test.
foreach group $mips_abi_groups {
set old_option [mips_original_option $group]
set new_option [mips_option options $group]
if { ![mips_same_option_p $old_option $new_option] } {
switch -- [lindex $do_what 0] {
link -
run {
set do_what [lreplace $do_what 0 0 assemble]
verbose -log "Downgraded to an 'assemble' test due to incompatible $group option ($old_option changed to $new_option)"
}
}
break
}
}
# Add all options to the dg variable.
set options(explicit_p,addressing) 0
set options(explicit_p,forbid_cpu) 0
foreach { group regexp } $mips_option_groups {
if { $options(explicit_p,$group) } {
append extra_tool_flags " " $options(option,$group)
}
}
# If the test is MIPS16-compatible, provide a counterpart to the
# NOMIPS16 convenience macro.
if { [mips_have_test_option_p options "-mips16"] } {
append extra_tool_flags " -DMIPS16=__attribute__((mips16))"
}
# Use our version of gcc-dg-test for this test.
if { ![string equal [info procs "mips-gcc-dg-test"] ""] } {
rename gcc-dg-test mips-old-gcc-dg-test
rename mips-gcc-dg-test gcc-dg-test
}
}
# A version of gcc-dg-test that is used by dg-options tests.
proc mips-gcc-dg-test { prog do_what extra_tool_flags } {
global board_info
global mips_extra_options
# Override the user's chosen test options with the combined test/user
# version.
mips_push_test_options saved_options $mips_extra_options
set result [gcc-dg-test-1 gcc_target_compile $prog \
$do_what $extra_tool_flags]
mips_pop_test_options saved_options
# Restore the usual gcc-dg-test.
rename gcc-dg-test mips-gcc-dg-test
rename mips-old-gcc-dg-test gcc-dg-test
return $result
}
dg-init
mips-dg-init
# MIPS16 is defined by "-mips16" or "(-mips16)" in dg-options.
dg-runtest [lsort [glob -nocomplain $srcdir/$subdir/*.c]] "" \
"-DNOMIPS16=__attribute__((nomips16))"
mips-dg-finish
dg-finish