glibc/math/gen-libm-test.py
Paul Eggert 5a82c74822 Prefer https to http for gnu.org and fsf.org URLs
Also, change sources.redhat.com to sourceware.org.
This patch was automatically generated by running the following shell
script, which uses GNU sed, and which avoids modifying files imported
from upstream:

sed -ri '
  s,(http|ftp)(://(.*\.)?(gnu|fsf|sourceware)\.org($|[^.]|\.[^a-z])),https\2,g
  s,(http|ftp)(://(.*\.)?)sources\.redhat\.com($|[^.]|\.[^a-z]),https\2sourceware.org\4,g
' \
  $(find $(git ls-files) -prune -type f \
      ! -name '*.po' \
      ! -name 'ChangeLog*' \
      ! -path COPYING ! -path COPYING.LIB \
      ! -path manual/fdl-1.3.texi ! -path manual/lgpl-2.1.texi \
      ! -path manual/texinfo.tex ! -path scripts/config.guess \
      ! -path scripts/config.sub ! -path scripts/install-sh \
      ! -path scripts/mkinstalldirs ! -path scripts/move-if-change \
      ! -path INSTALL ! -path  locale/programs/charmap-kw.h \
      ! -path po/libc.pot ! -path sysdeps/gnu/errlist.c \
      ! '(' -name configure \
            -execdir test -f configure.ac -o -f configure.in ';' ')' \
      ! '(' -name preconfigure \
            -execdir test -f preconfigure.ac ';' ')' \
      -print)

and then by running 'make dist-prepare' to regenerate files built
from the altered files, and then executing the following to cleanup:

  chmod a+x sysdeps/unix/sysv/linux/riscv/configure
  # Omit irrelevant whitespace and comment-only changes,
  # perhaps from a slightly-different Autoconf version.
  git checkout -f \
    sysdeps/csky/configure \
    sysdeps/hppa/configure \
    sysdeps/riscv/configure \
    sysdeps/unix/sysv/linux/csky/configure
  # Omit changes that caused a pre-commit check to fail like this:
  # remote: *** error: sysdeps/powerpc/powerpc64/ppc-mcount.S: trailing lines
  git checkout -f \
    sysdeps/powerpc/powerpc64/ppc-mcount.S \
    sysdeps/unix/sysv/linux/s390/s390-64/syscall.S
  # Omit change that caused a pre-commit check to fail like this:
  # remote: *** error: sysdeps/sparc/sparc64/multiarch/memcpy-ultra3.S: last line does not end in newline
  git checkout -f sysdeps/sparc/sparc64/multiarch/memcpy-ultra3.S
2019-09-07 02:43:31 -07:00

699 lines
28 KiB
Python
Executable File

#!/usr/bin/python
# Generate tests for libm functions.
# Copyright (C) 2018-2019 Free Software Foundation, Inc.
# This file is part of the GNU C Library.
#
# The GNU C Library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
#
# The GNU C Library 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
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with the GNU C Library; if not, see
# <https://www.gnu.org/licenses/>.
import argparse
from collections import defaultdict
import os
import re
# Sorted list of all float types in ulps files.
ALL_FLOATS = ('double', 'float', 'float128', 'idouble',
'ifloat', 'ifloat128', 'ildouble', 'ldouble')
# Map float types in ulps files to C-like prefix for macros.
ALL_FLOATS_PFX = {'double': 'DBL',
'ldouble': 'LDBL',
'float': 'FLT',
'float128': 'FLT128'}
# Float types in the order used in the generated ulps tables in the
# manual.
ALL_FLOATS_MANUAL = ('float', 'double', 'ldouble', 'float128')
# Map float types in ulps files to C function suffix.
ALL_FLOATS_SUFFIX = {'double': '',
'ldouble': 'l',
'float': 'f',
'float128': 'f128'}
# Number of arguments in structure (as opposed to arguments that are
# pointers to return values) for an argument descriptor.
DESCR_NUM_ARGS = {'f': 1, 'a': 1, 'j': 1, 'i': 1, 'u': 1, 'l': 1, 'L': 1,
'p': 0, 'F': 0, 'I': 0,
'c': 2}
# Number of results in structure for a result descriptor.
DESCR_NUM_RES = {'f': 1, 'i': 1, 'l': 1, 'L': 1, 'M': 1, 'U': 1, 'b': 1,
'1': 1,
'c': 2}
# Rounding modes, in the form in which they appear in
# auto-libm-test-out-* and the order in which expected results appear
# in structures and TEST_* calls.
ROUNDING_MODES = ('downward', 'tonearest', 'towardzero', 'upward')
# Map from special text in TEST_* calls for rounding-mode-specific
# results and flags, to those results for each mode.
ROUNDING_MAP = {
'plus_oflow': ('max_value', 'plus_infty', 'max_value', 'plus_infty'),
'minus_oflow': ('minus_infty', 'minus_infty', '-max_value', '-max_value'),
'plus_uflow': ('plus_zero', 'plus_zero', 'plus_zero', 'min_subnorm_value'),
'minus_uflow': ('-min_subnorm_value', 'minus_zero', 'minus_zero',
'minus_zero'),
'ERRNO_PLUS_OFLOW': ('0', 'ERRNO_ERANGE', '0', 'ERRNO_ERANGE'),
'ERRNO_MINUS_OFLOW': ('ERRNO_ERANGE', 'ERRNO_ERANGE', '0', '0'),
'ERRNO_PLUS_UFLOW': ('ERRNO_ERANGE', 'ERRNO_ERANGE', 'ERRNO_ERANGE', '0'),
'ERRNO_MINUS_UFLOW': ('0', 'ERRNO_ERANGE', 'ERRNO_ERANGE', 'ERRNO_ERANGE'),
'XFAIL_ROUNDING_IBM128_LIBGCC': ('XFAIL_IBM128_LIBGCC', '0',
'XFAIL_IBM128_LIBGCC',
'XFAIL_IBM128_LIBGCC')
}
# Map from raw test arguments to a nicer form to use when displaying
# test results.
BEAUTIFY_MAP = {'minus_zero': '-0',
'plus_zero': '+0',
'-0x0p+0f': '-0',
'-0x0p+0': '-0',
'-0x0p+0L': '-0',
'0x0p+0f': '+0',
'0x0p+0': '+0',
'0x0p+0L': '+0',
'minus_infty': '-inf',
'plus_infty': 'inf',
'qnan_value': 'qNaN',
'snan_value': 'sNaN',
'snan_value_ld': 'sNaN'}
# Flags in auto-libm-test-out that map directly to C flags.
FLAGS_SIMPLE = {'ignore-zero-inf-sign': 'IGNORE_ZERO_INF_SIGN',
'no-test-inline': 'NO_TEST_INLINE',
'xfail': 'XFAIL_TEST'}
# Exceptions in auto-libm-test-out, and their corresponding C flags
# for being required, OK or required to be absent.
EXC_EXPECTED = {'divbyzero': 'DIVBYZERO_EXCEPTION',
'inexact': 'INEXACT_EXCEPTION',
'invalid': 'INVALID_EXCEPTION',
'overflow': 'OVERFLOW_EXCEPTION',
'underflow': 'UNDERFLOW_EXCEPTION'}
EXC_OK = {'divbyzero': 'DIVBYZERO_EXCEPTION_OK',
'inexact': '0',
'invalid': 'INVALID_EXCEPTION_OK',
'overflow': 'OVERFLOW_EXCEPTION_OK',
'underflow': 'UNDERFLOW_EXCEPTION_OK'}
EXC_NO = {'divbyzero': '0',
'inexact': 'NO_INEXACT_EXCEPTION',
'invalid': '0',
'overflow': '0',
'underflow': '0'}
class Ulps(object):
"""Maximum expected errors of libm functions."""
def __init__(self):
"""Initialize an Ulps object."""
# normal[function][float_type] is the ulps value, and likewise
# for real and imag.
self.normal = defaultdict(lambda: defaultdict(lambda: 0))
self.real = defaultdict(lambda: defaultdict(lambda: 0))
self.imag = defaultdict(lambda: defaultdict(lambda: 0))
# List of ulps kinds, in the order in which they appear in
# sorted ulps files.
self.ulps_kinds = (('Real part of ', self.real),
('Imaginary part of ', self.imag),
('', self.normal))
self
def read(self, ulps_file):
"""Read ulps from a file into an Ulps object."""
self.ulps_file = ulps_file
with open(ulps_file, 'r') as f:
ulps_dict = None
ulps_fn = None
for line in f:
# Ignore comments.
if line.startswith('#'):
continue
line = line.rstrip()
# Ignore empty lines.
if line == '':
continue
m = re.match(r'([^:]*): (.*)\Z', line)
if not m:
raise ValueError('bad ulps line: %s' % line)
line_first = m.group(1)
line_second = m.group(2)
if line_first == 'Function':
fn = None
ulps_dict = None
for k_prefix, k_dict in self.ulps_kinds:
if line_second.startswith(k_prefix):
ulps_dict = k_dict
fn = line_second[len(k_prefix):]
break
if not fn.startswith('"') or not fn.endswith('":'):
raise ValueError('bad ulps line: %s' % line)
ulps_fn = fn[1:-2]
else:
if line_first not in ALL_FLOATS:
raise ValueError('bad ulps line: %s' % line)
ulps_val = int(line_second)
if ulps_val > 0:
ulps_dict[ulps_fn][line_first] = max(
ulps_dict[ulps_fn][line_first],
ulps_val)
def all_functions(self):
"""Return the set of functions with ulps and whether they are
complex."""
funcs = set()
complex = {}
for k_prefix, k_dict in self.ulps_kinds:
for f in k_dict:
funcs.add(f)
complex[f] = True if k_prefix else False
return funcs, complex
def write(self, ulps_file):
"""Write ulps back out as a sorted ulps file."""
# Output is sorted first by function name, then by (real,
# imag, normal), then by float type.
out_data = {}
for order, (prefix, d) in enumerate(self.ulps_kinds):
for fn in d.keys():
fn_data = ['%s: %d' % (f, d[fn][f])
for f in sorted(d[fn].keys())]
fn_text = 'Function: %s"%s":\n%s' % (prefix, fn,
'\n'.join(fn_data))
out_data[(fn, order)] = fn_text
out_list = [out_data[fn_order] for fn_order in sorted(out_data.keys())]
out_text = ('# Begin of automatic generation\n\n'
'# Maximal error of functions:\n'
'%s\n\n'
'# end of automatic generation\n'
% '\n\n'.join(out_list))
with open(ulps_file, 'w') as f:
f.write(out_text)
@staticmethod
def ulps_table(name, ulps_dict):
"""Return text of a C table of ulps."""
ulps_list = []
for fn in sorted(ulps_dict.keys()):
fn_ulps = [str(ulps_dict[fn][f]) for f in ALL_FLOATS]
ulps_list.append(' { "%s", {%s} },' % (fn, ', '.join(fn_ulps)))
ulps_text = ('static const struct ulp_data %s[] =\n'
' {\n'
'%s\n'
' };'
% (name, '\n'.join(ulps_list)))
return ulps_text
def write_header(self, ulps_header):
"""Write header file with ulps data."""
header_text_1 = ('/* This file is automatically generated\n'
' from %s with gen-libm-test.py.\n'
' Don\'t change it - change instead the master '
'files. */\n\n'
'struct ulp_data\n'
'{\n'
' const char *name;\n'
' FLOAT max_ulp[%d];\n'
'};'
% (self.ulps_file, len(ALL_FLOATS)))
macro_list = []
for i, f in enumerate(ALL_FLOATS):
if f.startswith('i'):
itxt = 'I_'
f = f[1:]
else:
itxt = ''
macro_list.append('#define ULP_%s%s %d'
% (itxt, ALL_FLOATS_PFX[f], i))
header_text = ('%s\n\n'
'%s\n\n'
'/* Maximal error of functions. */\n'
'%s\n'
'%s\n'
'%s\n'
% (header_text_1, '\n'.join(macro_list),
self.ulps_table('func_ulps', self.normal),
self.ulps_table('func_real_ulps', self.real),
self.ulps_table('func_imag_ulps', self.imag)))
with open(ulps_header, 'w') as f:
f.write(header_text)
def read_all_ulps(srcdir):
"""Read all platforms' libm-test-ulps files."""
all_ulps = {}
for dirpath, dirnames, filenames in os.walk(srcdir):
if 'libm-test-ulps' in filenames:
with open(os.path.join(dirpath, 'libm-test-ulps-name')) as f:
name = f.read().rstrip()
all_ulps[name] = Ulps()
all_ulps[name].read(os.path.join(dirpath, 'libm-test-ulps'))
return all_ulps
def read_auto_tests(test_file):
"""Read tests from auto-libm-test-out-<function> (possibly None)."""
auto_tests = defaultdict(lambda: defaultdict(dict))
if test_file is None:
return auto_tests
with open(test_file, 'r') as f:
for line in f:
if not line.startswith('= '):
continue
line = line[len('= '):].rstrip()
# Function, rounding mode, condition and inputs, outputs
# and flags.
m = re.match(r'([^ ]+) ([^ ]+) ([^: ][^ ]* [^:]*) : (.*)\Z', line)
if not m:
raise ValueError('bad automatic test line: %s' % line)
auto_tests[m.group(1)][m.group(2)][m.group(3)] = m.group(4)
return auto_tests
def beautify(arg):
"""Return a nicer representation of a test argument."""
if arg in BEAUTIFY_MAP:
return BEAUTIFY_MAP[arg]
if arg.startswith('-') and arg[1:] in BEAUTIFY_MAP:
return '-' + BEAUTIFY_MAP[arg[1:]]
if re.match(r'-?0x[0-9a-f.]*p[-+][0-9]+f\Z', arg):
return arg[:-1]
if re.search(r'[0-9]L\Z', arg):
return arg[:-1]
return arg
def complex_beautify(arg_real, arg_imag):
"""Return a nicer representation of a complex test argument."""
res_real = beautify(arg_real)
res_imag = beautify(arg_imag)
if res_imag.startswith('-'):
return '%s - %s i' % (res_real, res_imag[1:])
else:
return '%s + %s i' % (res_real, res_imag)
def apply_lit_token(arg, macro):
"""Apply the LIT or ARG_LIT macro to a single token."""
# The macro must only be applied to a floating-point constant, not
# to an integer constant or lit_* value.
sign_re = r'[+-]?'
exp_re = r'([+-])?[0-9]+'
suffix_re = r'[lLfF]?'
dec_exp_re = r'[eE]' + exp_re
hex_exp_re = r'[pP]' + exp_re
dec_frac_re = r'(?:[0-9]*\.[0-9]+|[0-9]+\.)'
hex_frac_re = r'(?:[0-9a-fA-F]*\.[0-9a-fA-F]+|[0-9a-fA-F]+\.)'
dec_int_re = r'[0-9]+'
hex_int_re = r'[0-9a-fA-F]+'
dec_cst_re = r'(?:%s(?:%s)?|%s%s)' % (dec_frac_re, dec_exp_re,
dec_int_re, dec_exp_re)
hex_cst_re = r'0[xX](?:%s|%s)%s' % (hex_frac_re, hex_int_re, hex_exp_re)
fp_cst_re = r'(%s(?:%s|%s))%s\Z' % (sign_re, dec_cst_re, hex_cst_re,
suffix_re)
m = re.match(fp_cst_re, arg)
if m:
return '%s (%s)' % (macro, m.group(1))
else:
return arg
def apply_lit(arg, macro):
"""Apply the LIT or ARG_LIT macro to constants within an expression."""
# Assume expressions follow the GNU Coding Standards, with tokens
# separated by spaces.
return ' '.join([apply_lit_token(t, macro) for t in arg.split()])
def gen_test_args_res(descr_args, descr_res, args, res_rm):
"""Generate a test given the arguments and per-rounding-mode results."""
# Determine whether any arguments or results, for any rounding
# mode, are non-finite.
non_finite = False
test_snan = False
all_args_res = list(args)
for r in res_rm:
all_args_res.extend(r[:len(r)-1])
for a in all_args_res:
if 'snan_value' in a:
test_snan = True
non_finite = True
elif ('qnan_value' in a or 'plus_infty' in a or 'minus_infty' in a
or 'plus_oflow' in a or 'minus_oflow' in a):
non_finite = True
# Process the arguments.
args_disp = []
args_c = []
arg_pos = 0
for d in descr_args:
if DESCR_NUM_ARGS[d] == 0:
continue
if d == 'c':
args_disp.append(complex_beautify(args[arg_pos],
args[arg_pos + 1]))
args_c.append(apply_lit(args[arg_pos], 'LIT'))
args_c.append(apply_lit(args[arg_pos + 1], 'LIT'))
else:
args_disp.append(beautify(args[arg_pos]))
if d == 'f':
args_c.append(apply_lit(args[arg_pos], 'LIT'))
elif d == 'a':
args_c.append(apply_lit(args[arg_pos], 'ARG_LIT'))
else:
args_c.append(args[arg_pos])
arg_pos += DESCR_NUM_ARGS[d]
args_disp_text = ', '.join(args_disp).replace('"', '\\"')
# Process the results.
for rm in range(len(ROUNDING_MODES)):
res = res_rm[rm]
res_pos = 0
rm_args = []
ignore_result_any = False
ignore_result_all = True
special = []
for d in descr_res:
if d == '1':
special.append(res[res_pos])
elif DESCR_NUM_RES[d] == 1:
result = res[res_pos]
if result == 'IGNORE':
ignore_result_any = True
result = '0'
else:
ignore_result_all = False
if d == 'f':
result = apply_lit(result, 'LIT')
rm_args.append(result)
else:
# Complex result.
result1 = res[res_pos]
if result1 == 'IGNORE':
ignore_result_any = True
result1 = '0'
else:
ignore_result_all = False
result1 = apply_lit(result1, 'LIT')
rm_args.append(result1)
result2 = res[res_pos + 1]
if result2 == 'IGNORE':
ignore_result_any = True
result2 = '0'
else:
ignore_result_all = False
result2 = apply_lit(result2, 'LIT')
rm_args.append(result2)
res_pos += DESCR_NUM_RES[d]
if ignore_result_any and not ignore_result_all:
raise ValueError('some but not all function results ignored')
flags = []
if ignore_result_any:
flags.append('IGNORE_RESULT')
if non_finite:
flags.append('NON_FINITE')
if test_snan:
flags.append('TEST_SNAN')
flags.append(res[res_pos])
rm_args.append('|'.join(flags))
for sp in special:
if sp == 'IGNORE':
rm_args.extend(['0', '0'])
else:
rm_args.extend(['1', apply_lit(sp, 'LIT')])
for k in sorted(ROUNDING_MAP.keys()):
rm_args = [arg.replace(k, ROUNDING_MAP[k][rm]) for arg in rm_args]
args_c.append('{ %s }' % ', '.join(rm_args))
return ' { "%s", %s },\n' % (args_disp_text, ', '.join(args_c))
def convert_condition(cond):
"""Convert a condition from auto-libm-test-out to C form."""
conds = cond.split(':')
conds_c = []
for c in conds:
if not c.startswith('arg_fmt('):
c = c.replace('-', '_')
conds_c.append('TEST_COND_' + c)
return '(%s)' % ' && '.join(conds_c)
def cond_value(cond, if_val, else_val):
"""Return a C conditional expression between two values."""
if cond == '1':
return if_val
elif cond == '0':
return else_val
else:
return '(%s ? %s : %s)' % (cond, if_val, else_val)
def gen_auto_tests(auto_tests, descr_args, descr_res, fn):
"""Generate C code for the auto-libm-test-out-* tests for a function."""
for rm_idx, rm_name in enumerate(ROUNDING_MODES):
this_tests = sorted(auto_tests[fn][rm_name].keys())
if rm_idx == 0:
rm_tests = this_tests
if not rm_tests:
raise ValueError('no automatic tests for %s' % fn)
else:
if rm_tests != this_tests:
raise ValueError('inconsistent lists of tests of %s' % fn)
test_list = []
for test in rm_tests:
fmt_args = test.split()
fmt = fmt_args[0]
args = fmt_args[1:]
test_list.append('#if %s\n' % convert_condition(fmt))
res_rm = []
for rm in ROUNDING_MODES:
test_out = auto_tests[fn][rm][test]
out_str, flags_str = test_out.split(':', 1)
this_res = out_str.split()
flags = flags_str.split()
flag_cond = {}
for flag in flags:
m = re.match(r'([^:]*):(.*)\Z', flag)
if m:
f_name = m.group(1)
cond = convert_condition(m.group(2))
if f_name in flag_cond:
if flag_cond[f_name] != '1':
flag_cond[f_name] = ('%s || %s'
% (flag_cond[f_name], cond))
else:
flag_cond[f_name] = cond
else:
flag_cond[flag] = '1'
flags_c = []
for flag in sorted(FLAGS_SIMPLE.keys()):
if flag in flag_cond:
flags_c.append(cond_value(flag_cond[flag],
FLAGS_SIMPLE[flag], '0'))
for exc in sorted(EXC_EXPECTED.keys()):
exc_expected = EXC_EXPECTED[exc]
exc_ok = EXC_OK[exc]
no_exc = EXC_NO[exc]
exc_cond = flag_cond.get(exc, '0')
exc_ok_cond = flag_cond.get(exc + '-ok', '0')
flags_c.append(cond_value(exc_cond,
cond_value(exc_ok_cond, exc_ok,
exc_expected),
cond_value(exc_ok_cond, exc_ok,
no_exc)))
if 'errno-edom' in flag_cond and 'errno-erange' in flag_cond:
raise ValueError('multiple errno values expected')
if 'errno-edom' in flag_cond:
if flag_cond['errno-edom'] != '1':
raise ValueError('unexpected condition for errno-edom')
errno_expected = 'ERRNO_EDOM'
elif 'errno-erange' in flag_cond:
if flag_cond['errno-erange'] != '1':
raise ValueError('unexpected condition for errno-erange')
errno_expected = 'ERRNO_ERANGE'
else:
errno_expected = 'ERRNO_UNCHANGED'
if 'errno-edom-ok' in flag_cond:
if ('errno-erange-ok' in flag_cond
and (flag_cond['errno-erange-ok']
!= flag_cond['errno-edom-ok'])):
errno_unknown_cond = ('%s || %s'
% (flag_cond['errno-edom-ok'],
flag_cond['errno-erange-ok']))
else:
errno_unknown_cond = flag_cond['errno-edom-ok']
else:
errno_unknown_cond = flag_cond.get('errno-erange-ok', '0')
flags_c.append(cond_value(errno_unknown_cond, '0', errno_expected))
flags_c = [flag for flag in flags_c if flag != '0']
if not flags_c:
flags_c = ['NO_EXCEPTION']
this_res.append(' | '.join(flags_c))
res_rm.append(this_res)
test_list.append(gen_test_args_res(descr_args, descr_res, args,
res_rm))
test_list.append('#endif\n')
return ''.join(test_list)
def gen_test_line(descr_args, descr_res, args_str):
"""Generate C code for the tests for a single TEST_* line."""
test_args = args_str.split(',')
test_args = test_args[1:]
test_args = [a.strip() for a in test_args]
num_args = sum([DESCR_NUM_ARGS[c] for c in descr_args])
num_res = sum([DESCR_NUM_RES[c] for c in descr_res])
args = test_args[:num_args]
res = test_args[num_args:]
if len(res) == num_res:
# One set of results for all rounding modes, no flags.
res.append('0')
res_rm = [res, res, res, res]
elif len(res) == num_res + 1:
# One set of results for all rounding modes, with flags.
if not ('EXCEPTION' in res[-1]
or 'ERRNO' in res[-1]
or 'IGNORE_ZERO_INF_SIGN' in res[-1]
or 'TEST_NAN_SIGN' in res[-1]
or 'NO_TEST_INLINE' in res[-1]
or 'XFAIL' in res[-1]):
raise ValueError('wrong number of arguments: %s' % args_str)
res_rm = [res, res, res, res]
elif len(res) == (num_res + 1) * 4:
# One set of results per rounding mode, with flags.
nr_plus = num_res + 1
res_rm = [res[:nr_plus], res[nr_plus:2*nr_plus],
res[2*nr_plus:3*nr_plus], res[3*nr_plus:]]
return gen_test_args_res(descr_args, descr_res, args, res_rm)
def generate_testfile(inc_input, auto_tests, c_output):
"""Generate test .c file from .inc input."""
test_list = []
with open(inc_input, 'r') as f:
for line in f:
line_strip = line.strip()
if line_strip.startswith('AUTO_TESTS_'):
m = re.match(r'AUTO_TESTS_([^_]*)_([^_ ]*) *\(([^)]*)\),\Z',
line_strip)
if not m:
raise ValueError('bad AUTO_TESTS line: %s' % line)
test_list.append(gen_auto_tests(auto_tests, m.group(1),
m.group(2), m.group(3)))
elif line_strip.startswith('TEST_'):
m = re.match(r'TEST_([^_]*)_([^_ ]*) *\((.*)\),\Z', line_strip)
if not m:
raise ValueError('bad TEST line: %s' % line)
test_list.append(gen_test_line(m.group(1), m.group(2),
m.group(3)))
else:
test_list.append(line)
with open(c_output, 'w') as f:
f.write(''.join(test_list))
def generate_err_table_sub(all_ulps, all_functions, fns_complex, platforms):
"""Generate a single table within the overall ulps table section."""
plat_width = [' {1000 + i 1000}' for p in platforms]
plat_header = [' @tab %s' % p for p in platforms]
table_list = ['@multitable {nexttowardf} %s\n' % ''.join(plat_width),
'@item Function %s\n' % ''.join(plat_header)]
for func in all_functions:
for flt in ALL_FLOATS_MANUAL:
func_ulps = []
for p in platforms:
p_ulps = all_ulps[p]
if fns_complex[func]:
ulp_real = p_ulps.real[func][flt]
ulp_imag = p_ulps.imag[func][flt]
ulp_str = '%d + i %d' % (ulp_real, ulp_imag)
ulp_str = ulp_str if ulp_real or ulp_imag else '-'
else:
ulp = p_ulps.normal[func][flt]
ulp_str = str(ulp) if ulp else '-'
func_ulps.append(ulp_str)
table_list.append('@item %s%s @tab %s\n'
% (func, ALL_FLOATS_SUFFIX[flt],
' @tab '.join(func_ulps)))
table_list.append('@end multitable\n')
return ''.join(table_list)
def generate_err_table(all_ulps, err_table):
"""Generate ulps table for manual."""
all_platforms = sorted(all_ulps.keys())
functions_set = set()
functions_complex = {}
for p in all_platforms:
p_functions, p_complex = all_ulps[p].all_functions()
functions_set.update(p_functions)
functions_complex.update(p_complex)
all_functions = sorted([f for f in functions_set
if ('_downward' not in f
and '_towardzero' not in f
and '_upward' not in f
and '_vlen' not in f)])
err_table_list = []
# Print five platforms at a time.
num_platforms = len(all_platforms)
for i in range((num_platforms + 4) // 5):
start = i * 5
end = i * 5 + 5 if num_platforms >= i * 5 + 5 else num_platforms
err_table_list.append(generate_err_table_sub(all_ulps, all_functions,
functions_complex,
all_platforms[start:end]))
with open(err_table, 'w') as f:
f.write(''.join(err_table_list))
def main():
"""The main entry point."""
parser = argparse.ArgumentParser(description='Generate libm tests.')
parser.add_argument('-a', dest='auto_input', metavar='FILE',
help='input file with automatically generated tests')
parser.add_argument('-c', dest='inc_input', metavar='FILE',
help='input file .inc file with tests')
parser.add_argument('-u', dest='ulps_file', metavar='FILE',
help='input file with ulps')
parser.add_argument('-s', dest='srcdir', metavar='DIR',
help='input source directory with all ulps')
parser.add_argument('-n', dest='ulps_output', metavar='FILE',
help='generate sorted ulps file FILE')
parser.add_argument('-C', dest='c_output', metavar='FILE',
help='generate output C file FILE from .inc file')
parser.add_argument('-H', dest='ulps_header', metavar='FILE',
help='generate output ulps header FILE')
parser.add_argument('-m', dest='err_table', metavar='FILE',
help='generate output ulps table for manual FILE')
args = parser.parse_args()
ulps = Ulps()
if args.ulps_file is not None:
ulps.read(args.ulps_file)
auto_tests = read_auto_tests(args.auto_input)
if args.srcdir is not None:
all_ulps = read_all_ulps(args.srcdir)
if args.ulps_output is not None:
ulps.write(args.ulps_output)
if args.ulps_header is not None:
ulps.write_header(args.ulps_header)
if args.c_output is not None:
generate_testfile(args.inc_input, auto_tests, args.c_output)
if args.err_table is not None:
generate_err_table(all_ulps, args.err_table)
if __name__ == '__main__':
main()