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Add more thorough generated tgmath.h test.
This patch adds a more thorough test of tgmath.h macros, verifying both the return type and the function called for all the cases of valid argument types. (Cases with current problems - I've just filed four bugs - are disabled or omitted pending fixing those problems.) The test uses a Python generator (works with both Python 2 and 3) to generate a C file which is then built and run as a test in the usual way (and that C file includes its own dummy definitions of libm functions similar to existing tgmath.h tests). The motivation is to make it easier to add tests of tgmath.h for _Float128 when adding tgmath.h support for that type; the _FloatN / _FloatNx support is present in the script, but disabled until the tgmath.h support is written. Tested for x86_64, and for arm to check things in the long double = double case. (In that case, it's OK to call either double or long double functions when the selected type is double or long double, as long as the return type of the macro is exactly correct.) * math/gen-tgmath-tests.py: New file. * math/Makefile [PYTHON] (tests): Add test-tgmath3. [PYTHON] (generated): Add test-tgmath3.c. [PYTHON] (CFLAGS-test-tgmath3.c): New variable. [PYTHON] ($(objpfx)test-tgmath3.c): New rule.
This commit is contained in:
parent
073e8fa773
commit
2dd0aec531
@ -1,5 +1,11 @@
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2017-06-28 Joseph Myers <joseph@codesourcery.com>
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* math/gen-tgmath-tests.py: New file.
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* math/Makefile [PYTHON] (tests): Add test-tgmath3.
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[PYTHON] (generated): Add test-tgmath3.c.
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[PYTHON] (CFLAGS-test-tgmath3.c): New variable.
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[PYTHON] ($(objpfx)test-tgmath3.c): New rule.
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* configure.ac (AS): Require binutils 2.25 or later.
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(LD): Likewise.
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* configure: Regenerated.
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@ -290,6 +290,15 @@ $(libm-test-c-auto-obj): $(objpfx)libm-test%.c: libm-test%.inc \
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libm-test-incs = $(foreach f,$(libm-test-funcs-all),libm-test-$(f).inc)
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endif
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ifdef PYTHON
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tests += test-tgmath3
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generated += test-tgmath3.c
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CFLAGS-test-tgmath3.c = -fno-builtin
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$(objpfx)test-tgmath3.c: gen-tgmath-tests.py
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$(PYTHON) $< > $@
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endif
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libm-test-fast-math-cflags = -fno-builtin -D__FAST_MATH__ -DTEST_FAST_MATH
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libm-test-vec-cflags = $(libm-test-fast-math-cflags) -fno-inline \
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-ffloat-store -D_OPENMP=201307 -Wno-unknown-pragmas
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608
math/gen-tgmath-tests.py
Executable file
608
math/gen-tgmath-tests.py
Executable file
@ -0,0 +1,608 @@
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#!/usr/bin/python
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# Generate tests for <tgmath.h> macros.
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# Copyright (C) 2017 Free Software Foundation, Inc.
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# This file is part of the GNU C Library.
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#
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# The GNU C Library is free software; you can redistribute it and/or
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# modify it under the terms of the GNU Lesser General Public
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# License as published by the Free Software Foundation; either
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# version 2.1 of the License, or (at your option) any later version.
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#
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# The GNU C Library is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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# Lesser General Public License for more details.
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#
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# You should have received a copy of the GNU Lesser General Public
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# License along with the GNU C Library; if not, see
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# <http://www.gnu.org/licenses/>.
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# As glibc does not support decimal floating point, the types to
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# consider for generic parameters are standard and binary
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# floating-point types, and integer types which are treated as double.
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# The corresponding complex types may also be used (including complex
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# integer types, which are a GNU extension, but are currently disabled
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# here because they do not work properly with tgmath.h).
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# The proposed resolution to TS 18661-1 DR#9
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# <http://www.open-std.org/jtc1/sc22/wg14/www/docs/n2149.htm#dr_9>
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# makes the <tgmath.h> rules for selecting a function to call
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# correspond to the usual arithmetic conversions (applied successively
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# to the arguments for generic parameters in order), which choose the
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# type whose set of values contains that of the other type (undefined
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# behavior if neither type's set of values is a superset of the
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# other), with interchange types being preferred to standard types
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# (long double, double, float), being preferred to extended types
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# (_Float128x, _Float64x, _Float32x).
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# For the standard and binary floating-point types supported by GCC 7
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# on any platform, this means the resulting type is the last of the
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# given types in one of the following orders, or undefined behavior if
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# types with both ibm128 and binary128 representation are specified.
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# If double = long double: _Float16, float, _Float32, _Float32x,
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# double, long double, _Float64, _Float64x, _Float128.
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# Otherwise: _Float16, float, _Float32, _Float32x, double, _Float64,
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# _Float64x, long double, _Float128.
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# We generate tests to verify the return type is exactly as expected.
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# We also verify that the function called is real or complex as
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# expected, and that it is called for the right floating-point format
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# (but it is OK to call a double function instead of a long double one
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# if they have the same format, for example). For all the formats
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# supported on any given configuration of glibc, the MANT_DIG value
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# uniquely determines the format.
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import string
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class Type(object):
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"""A type that may be used as an argument for generic parameters."""
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# All possible argument or result types.
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all_types_list = []
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# All argument types.
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argument_types_list = []
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# All real argument types.
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real_argument_types_list = []
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# Real argument types that correspond to a standard floating type
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# (float, double or long double; not _FloatN or _FloatNx).
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standard_real_argument_types_list = []
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# The real floating types by their order properties (which are
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# tuples giving the positions in both the possible orders above).
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real_types_order = {}
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# The type double.
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double_type = None
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# The type _Complex double.
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complex_double_type = None
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# The type _Float64.
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float64_type = None
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# The type _Float64x.
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float64x_type = None
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def __init__(self, name, suffix=None, mant_dig=None, condition='1',
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order=None, integer=False, complex=False, real_type=None):
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"""Initialize a Type object, creating any corresponding complex type
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in the process."""
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self.name = name
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self.suffix = suffix
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self.mant_dig = mant_dig
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self.condition = condition
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self.order = order
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self.integer = integer
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self.complex = complex
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if complex:
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self.complex_type = self
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self.real_type = real_type
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else:
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# complex_type filled in by the caller once created.
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self.complex_type = None
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self.real_type = self
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def register_type(self, internal):
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"""Record a type in the lists of all types."""
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Type.all_types_list.append(self)
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if not internal:
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Type.argument_types_list.append(self)
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if not self.complex:
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Type.real_argument_types_list.append(self)
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if not self.name.startswith('_Float'):
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Type.standard_real_argument_types_list.append(self)
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if self.order is not None:
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Type.real_types_order[self.order] = self
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if self.name == 'double':
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Type.double_type = self
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if self.name == '_Complex double':
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Type.complex_double_type = self
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if self.name == '_Float64':
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Type.float64_type = self
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if self.name == '_Float64x':
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Type.float64x_type = self
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@staticmethod
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def create_type(name, suffix=None, mant_dig=None, condition='1', order=None,
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integer=False, complex_name=None, complex_ok=True,
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internal=False):
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"""Create and register a Type object for a real type, creating any
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corresponding complex type in the process."""
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real_type = Type(name, suffix=suffix, mant_dig=mant_dig,
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condition=condition, order=order, integer=integer,
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complex=False)
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# Complex integer types currently disabled because of problems
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# in tgmath.h.
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if complex_ok and not integer:
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if complex_name is None:
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complex_name = '_Complex %s' % name
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complex_type = Type(complex_name, condition=condition,
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integer=integer, complex=True,
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real_type=real_type)
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else:
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complex_type = None
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real_type.complex_type = complex_type
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real_type.register_type(internal)
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if complex_type is not None:
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complex_type.register_type(internal)
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def floating_type(self):
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"""Return the corresponding floating type."""
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if self.integer:
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return (Type.complex_double_type
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if self.complex
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else Type.double_type)
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else:
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return self
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def real_floating_type(self):
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"""Return the corresponding real floating type."""
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return self.real_type.floating_type()
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def __str__(self):
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"""Return string representation of a type."""
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return self.name
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@staticmethod
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def init_types():
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"""Initialize all the known types."""
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Type.create_type('_Float16', 'f16', 'FLT16_MANT_DIG',
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complex_name='__CFLOAT16',
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condition='0', order=(0, 0))
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Type.create_type('float', 'f', 'FLT_MANT_DIG', order=(1, 1))
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Type.create_type('_Float32', 'f32', 'FLT32_MANT_DIG',
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complex_name='__CFLOAT32',
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condition='0', order=(2, 2))
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Type.create_type('_Float32x', 'f32x', 'FLT32X_MANT_DIG',
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complex_name='__CFLOAT32X',
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condition='0', order=(3, 3))
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Type.create_type('double', '', 'DBL_MANT_DIG', order=(4, 4))
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Type.create_type('long double', 'l', 'LDBL_MANT_DIG', order=(5, 7))
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Type.create_type('_Float64', 'f64', 'FLT64_MANT_DIG',
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complex_name='__CFLOAT64',
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condition='0', order=(6, 5))
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Type.create_type('_Float64x', 'f64x', 'FLT64X_MANT_DIG',
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complex_name='__CFLOAT64X',
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condition='0', order=(7, 6))
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Type.create_type('_Float128', 'f128', 'FLT128_MANT_DIG',
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complex_name='__CFLOAT128',
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condition='0', order=(8, 8))
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Type.create_type('char', integer=True)
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Type.create_type('signed char', integer=True)
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Type.create_type('unsigned char', integer=True)
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Type.create_type('short int', integer=True)
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Type.create_type('unsigned short int', integer=True)
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Type.create_type('int', integer=True)
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Type.create_type('unsigned int', integer=True)
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Type.create_type('long int', integer=True)
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Type.create_type('unsigned long int', integer=True)
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Type.create_type('long long int', integer=True)
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Type.create_type('unsigned long long int', integer=True)
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Type.create_type('enum e', integer=True, complex_ok=False)
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Type.create_type('_Bool', integer=True, complex_ok=False)
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# Internal types represent the combination of long double with
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# _Float64 or _Float64x, for which the ordering depends on
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# whether long double has the same format as double.
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Type.create_type('long_double_Float64', 'LDBL_MANT_DIG',
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complex_name='complex_long_double_Float64',
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condition='0', order=(6, 7), internal=True)
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Type.create_type('long_double_Float64x', 'FLT64X_MANT_DIG',
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complex_name='complex_long_double_Float64x',
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condition='0', order=(7, 7), internal=True)
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@staticmethod
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def can_combine_types(types):
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"""Return a C preprocessor conditional for whether the given list of
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types can be used together as type-generic macro arguments."""
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have_long_double = False
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have_float128 = False
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for t in types:
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t = t.real_floating_type()
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if t.name == 'long double':
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have_long_double = True
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if t.name == '_Float128' or t.name == '_Float64x':
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have_float128 = True
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if have_long_double and have_float128:
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# If ibm128 format is in use for long double, both
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# _Float64x and _Float128 are binary128 and the types
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# cannot be combined.
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return '(LDBL_MANT_DIG != 106)'
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return '1'
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@staticmethod
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def combine_types(types):
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"""Return the result of combining a set of types."""
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have_complex = False
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combined = None
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for t in types:
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if t.complex:
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have_complex = True
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t = t.real_floating_type()
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if combined is None:
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combined = t
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else:
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order = (max(combined.order[0], t.order[0]),
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max(combined.order[1], t.order[1]))
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combined = Type.real_types_order[order]
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return combined.complex_type if have_complex else combined
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def list_product_initial(initial, lists):
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"""Return a list of lists, with an initial sequence from the first
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argument (a list of lists) followed by each sequence of one
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element from each successive element of the second argument."""
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if not lists:
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return initial
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return list_product_initial([a + [b] for a in initial for b in lists[0]],
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lists[1:])
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def list_product(lists):
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"""Return a list of lists, with each sequence of one element from each
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successive element of the argument."""
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return list_product_initial([[]], lists)
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try:
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trans_id = str.maketrans(' *', '_p')
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except AttributeError:
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trans_id = string.maketrans(' *', '_p')
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def var_for_type(name):
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"""Return the name of a variable with a given type (name)."""
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return 'var_%s' % name.translate(trans_id)
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def vol_var_for_type(name):
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"""Return the name of a variable with a given volatile type (name)."""
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return 'vol_var_%s' % name.translate(trans_id)
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def define_vars_for_type(name):
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"""Return the definitions of variables with a given type (name)."""
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return ('%s %s __attribute__ ((unused));\n'
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'%s volatile %s __attribute__ ((unused));\n'
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% (name, var_for_type(name), name, vol_var_for_type(name)))
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def if_cond_text(conds, text):
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"""Return the result of making some text conditional under #if. The
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text ends with a newline, as does the return value if not empty."""
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if '0' in conds:
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return ''
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conds = [c for c in conds if c != '1']
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conds = sorted(set(conds))
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if not conds:
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return text
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return '#if %s\n%s#endif\n' % (' && '.join(conds), text)
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class Tests(object):
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"""The state associated with testcase generation."""
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def __init__(self):
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"""Initialize a Tests object."""
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self.header_list = ['#include <float.h>\n'
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'#include <stdbool.h>\n'
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'#include <stdint.h>\n'
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'#include <stdio.h>\n'
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'#include <string.h>\n'
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'#include <tgmath.h>\n'
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'\n'
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'struct test\n'
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' {\n'
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' void (*func) (void);\n'
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' const char *func_name;\n'
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' const char *test_name;\n'
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' int mant_dig;\n'
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' };\n'
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'int num_pass, num_fail;\n'
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'volatile int called_mant_dig;\n'
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'const char *volatile called_func_name;\n'
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'enum e { E, F };\n']
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float64_text = ('# if LDBL_MANT_DIG == DBL_MANT_DIG\n'
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'typedef _Float64 long_double_Float64;\n'
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'typedef __CFLOAT64 complex_long_double_Float64;\n'
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'# else\n'
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'typedef long double long_double_Float64;\n'
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'typedef _Complex long double '
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'complex_long_double_Float64;\n'
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'# endif\n')
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float64_text = if_cond_text([Type.float64_type.condition],
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float64_text)
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float64x_text = ('# if LDBL_MANT_DIG == DBL_MANT_DIG\n'
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'typedef _Float64x long_double_Float64x;\n'
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'typedef __CFLOAT64X complex_long_double_Float64x;\n'
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'# else\n'
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'typedef long double long_double_Float64x;\n'
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'typedef _Complex long double '
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'complex_long_double_Float64x;\n'
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'# endif\n')
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float64x_text = if_cond_text([Type.float64x_type.condition],
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float64x_text)
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self.header_list.append(float64_text)
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self.header_list.append(float64x_text)
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self.types_seen = set()
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for t in Type.all_types_list:
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self.add_type_var(t.name, t.condition)
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self.test_text_list = []
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self.test_array_list = []
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def add_type_var(self, name, cond):
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"""Add declarations of variables for a type."""
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if name in self.types_seen:
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return
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t_vars = define_vars_for_type(name)
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self.header_list.append(if_cond_text([cond], t_vars))
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self.types_seen.add(name)
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def add_tests(self, macro, ret, args, complex_func=None):
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"""Add tests for a given tgmath.h macro."""
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# 'c' means the function argument or return type is
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# type-generic and complex only (a complex function argument
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# may still have a real macro argument). 'g' means it is
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# type-generic and may be real or complex; 'r' means it is
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# type-generic and may only be real; 's' means the same as
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# 'r', but restricted to float, double and long double.
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have_complex = False
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func = macro
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if ret == 'c' or 'c' in args:
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# Complex-only.
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have_complex = True
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complex_func = func
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func = None
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elif ret == 'g' or 'g' in args:
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# Real and complex.
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have_complex = True
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if complex_func == None:
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complex_func = 'c%s' % func
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types = [ret] + args
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for t in types:
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if t != 'c' and t != 'g' and t != 'r' and t != 's':
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self.add_type_var(t, '1')
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for t in Type.argument_types_list:
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||||
if t.integer:
|
||||
continue
|
||||
if t.complex and not have_complex:
|
||||
continue
|
||||
if func == None and not t.complex:
|
||||
continue
|
||||
if ret == 's' and t.name.startswith('_Float'):
|
||||
continue
|
||||
if ret == 'c':
|
||||
ret_name = t.complex_type.name
|
||||
elif ret == 'g':
|
||||
ret_name = t.name
|
||||
elif ret == 'r' or ret == 's':
|
||||
ret_name = t.real_type.name
|
||||
else:
|
||||
ret_name = ret
|
||||
dummy_func_name = complex_func if t.complex else func
|
||||
arg_list = []
|
||||
arg_num = 0
|
||||
for a in args:
|
||||
if a == 'c':
|
||||
arg_name = t.complex_type.name
|
||||
elif a == 'g':
|
||||
arg_name = t.name
|
||||
elif a == 'r' or a == 's':
|
||||
arg_name = t.real_type.name
|
||||
else:
|
||||
arg_name = a
|
||||
arg_list.append('%s arg%d __attribute__ ((unused))'
|
||||
% (arg_name, arg_num))
|
||||
arg_num += 1
|
||||
dummy_func = ('%s\n'
|
||||
'(%s%s) (%s)\n'
|
||||
'{\n'
|
||||
' called_mant_dig = %s;\n'
|
||||
' called_func_name = "%s";\n'
|
||||
' return 0;\n'
|
||||
'}\n' % (ret_name, dummy_func_name,
|
||||
t.real_type.suffix, ', '.join(arg_list),
|
||||
t.real_type.mant_dig, dummy_func_name))
|
||||
dummy_func = if_cond_text([t.condition], dummy_func)
|
||||
self.test_text_list.append(dummy_func)
|
||||
arg_types = []
|
||||
for t in args:
|
||||
if t == 'g' or t == 'c':
|
||||
arg_types.append(Type.argument_types_list)
|
||||
elif t == 'r':
|
||||
arg_types.append(Type.real_argument_types_list)
|
||||
elif t == 's':
|
||||
arg_types.append(Type.standard_real_argument_types_list)
|
||||
arg_types_product = list_product(arg_types)
|
||||
test_num = 0
|
||||
for this_args in arg_types_product:
|
||||
comb_type = Type.combine_types(this_args)
|
||||
can_comb = Type.can_combine_types(this_args)
|
||||
all_conds = [t.condition for t in this_args]
|
||||
all_conds.append(can_comb)
|
||||
any_complex = func == None
|
||||
for t in this_args:
|
||||
if t.complex:
|
||||
any_complex = True
|
||||
func_name = complex_func if any_complex else func
|
||||
test_name = '%s (%s)' % (macro,
|
||||
', '.join([t.name for t in this_args]))
|
||||
test_func_name = 'test_%s_%d' % (macro, test_num)
|
||||
test_num += 1
|
||||
mant_dig = comb_type.real_type.mant_dig
|
||||
test_text = '%s, "%s", "%s", %s' % (test_func_name, func_name,
|
||||
test_name, mant_dig)
|
||||
test_text = ' { %s },\n' % test_text
|
||||
test_text = if_cond_text(all_conds, test_text)
|
||||
self.test_array_list.append(test_text)
|
||||
call_args = []
|
||||
call_arg_pos = 0
|
||||
for t in args:
|
||||
if t == 'g' or t == 'c' or t == 'r' or t == 's':
|
||||
type = this_args[call_arg_pos].name
|
||||
call_arg_pos += 1
|
||||
else:
|
||||
type = t
|
||||
call_args.append(vol_var_for_type(type))
|
||||
call_args_text = ', '.join(call_args)
|
||||
if ret == 'g':
|
||||
ret_type = comb_type.name
|
||||
elif ret == 'r' or ret == 's':
|
||||
ret_type = comb_type.real_type.name
|
||||
elif ret == 'c':
|
||||
ret_type = comb_type.complex_type.name
|
||||
else:
|
||||
ret_type = ret
|
||||
call_text = '%s (%s)' % (macro, call_args_text)
|
||||
test_func_text = ('static void\n'
|
||||
'%s (void)\n'
|
||||
'{\n'
|
||||
' extern typeof (%s) %s '
|
||||
'__attribute__ ((unused));\n'
|
||||
' %s = %s;\n'
|
||||
'}\n' % (test_func_name, call_text,
|
||||
var_for_type(ret_type),
|
||||
vol_var_for_type(ret_type), call_text))
|
||||
test_func_text = if_cond_text(all_conds, test_func_text)
|
||||
self.test_text_list.append(test_func_text)
|
||||
|
||||
def add_all_tests(self):
|
||||
"""Add tests for all tgmath.h macros."""
|
||||
# C99/C11 real-only functions.
|
||||
self.add_tests('atan2', 'r', ['r', 'r'])
|
||||
self.add_tests('cbrt', 'r', ['r'])
|
||||
self.add_tests('ceil', 'r', ['r'])
|
||||
self.add_tests('copysign', 'r', ['r', 'r'])
|
||||
self.add_tests('erf', 'r', ['r'])
|
||||
self.add_tests('erfc', 'r', ['r'])
|
||||
self.add_tests('exp2', 'r', ['r'])
|
||||
self.add_tests('expm1', 'r', ['r'])
|
||||
self.add_tests('fdim', 'r', ['r', 'r'])
|
||||
self.add_tests('floor', 'r', ['r'])
|
||||
self.add_tests('fma', 'r', ['r', 'r', 'r'])
|
||||
self.add_tests('fmax', 'r', ['r', 'r'])
|
||||
self.add_tests('fmin', 'r', ['r', 'r'])
|
||||
self.add_tests('fmod', 'r', ['r', 'r'])
|
||||
self.add_tests('frexp', 'r', ['r', 'int *'])
|
||||
self.add_tests('hypot', 'r', ['r', 'r'])
|
||||
self.add_tests('ilogb', 'int', ['r'])
|
||||
self.add_tests('ldexp', 'r', ['r', 'int'])
|
||||
self.add_tests('lgamma', 'r', ['r'])
|
||||
self.add_tests('llrint', 'long long int', ['r'])
|
||||
self.add_tests('llround', 'long long int', ['r'])
|
||||
self.add_tests('log10', 'r', ['r'])
|
||||
self.add_tests('log1p', 'r', ['r'])
|
||||
self.add_tests('log2', 'r', ['r'])
|
||||
self.add_tests('logb', 'r', ['r'])
|
||||
self.add_tests('lrint', 'long int', ['r'])
|
||||
self.add_tests('lround', 'long int', ['r'])
|
||||
self.add_tests('nearbyint', 'r', ['r'])
|
||||
self.add_tests('nextafter', 'r', ['r', 'r'])
|
||||
self.add_tests('nexttoward', 's', ['s', 'long double'])
|
||||
self.add_tests('remainder', 'r', ['r', 'r'])
|
||||
self.add_tests('remquo', 'r', ['r', 'r', 'int *'])
|
||||
self.add_tests('rint', 'r', ['r'])
|
||||
self.add_tests('round', 'r', ['r'])
|
||||
self.add_tests('scalbn', 'r', ['r', 'int'])
|
||||
self.add_tests('scalbln', 'r', ['r', 'long int'])
|
||||
self.add_tests('tgamma', 'r', ['r'])
|
||||
self.add_tests('trunc', 'r', ['r'])
|
||||
# C99/C11 real-and-complex functions.
|
||||
self.add_tests('acos', 'g', ['g'])
|
||||
self.add_tests('asin', 'g', ['g'])
|
||||
self.add_tests('atan', 'g', ['g'])
|
||||
self.add_tests('acosh', 'g', ['g'])
|
||||
self.add_tests('asinh', 'g', ['g'])
|
||||
self.add_tests('atanh', 'g', ['g'])
|
||||
self.add_tests('cos', 'g', ['g'])
|
||||
self.add_tests('sin', 'g', ['g'])
|
||||
self.add_tests('tan', 'g', ['g'])
|
||||
self.add_tests('cosh', 'g', ['g'])
|
||||
self.add_tests('sinh', 'g', ['g'])
|
||||
self.add_tests('tanh', 'g', ['g'])
|
||||
self.add_tests('exp', 'g', ['g'])
|
||||
self.add_tests('log', 'g', ['g'])
|
||||
self.add_tests('pow', 'g', ['g', 'g'])
|
||||
self.add_tests('sqrt', 'g', ['g'])
|
||||
self.add_tests('fabs', 'r', ['g'], 'cabs')
|
||||
# C99/C11 complex-only functions.
|
||||
self.add_tests('carg', 'r', ['c'])
|
||||
self.add_tests('cimag', 'r', ['c'])
|
||||
self.add_tests('conj', 'c', ['c'])
|
||||
self.add_tests('cproj', 'c', ['c'])
|
||||
self.add_tests('creal', 'r', ['c'])
|
||||
# TS 18661-1 functions.
|
||||
self.add_tests('roundeven', 'r', ['r'])
|
||||
self.add_tests('nextup', 'r', ['r'])
|
||||
self.add_tests('nextdown', 'r', ['r'])
|
||||
self.add_tests('fminmag', 'r', ['r', 'r'])
|
||||
self.add_tests('fmaxmag', 'r', ['r', 'r'])
|
||||
self.add_tests('llogb', 'long int', ['r'])
|
||||
self.add_tests('fromfp', 'intmax_t', ['r', 'int', 'unsigned int'])
|
||||
self.add_tests('fromfpx', 'intmax_t', ['r', 'int', 'unsigned int'])
|
||||
self.add_tests('ufromfp', 'uintmax_t', ['r', 'int', 'unsigned int'])
|
||||
self.add_tests('ufromfpx', 'uintmax_t', ['r', 'int', 'unsigned int'])
|
||||
#self.add_tests('totalorder', 'int', ['r', 'r'])
|
||||
#self.add_tests('totalordermag', 'int', ['r', 'r'])
|
||||
# The functions that round their result to a narrower type,
|
||||
# and the associated type-generic macros, are not yet
|
||||
# supported by this script or by glibc.
|
||||
# Miscellaneous functions.
|
||||
self.add_tests('scalb', 's', ['s', 's'])
|
||||
|
||||
def tests_text(self):
|
||||
"""Return the text of the generated testcase."""
|
||||
test_list = [''.join(self.test_text_list),
|
||||
'static const struct test tests[] =\n'
|
||||
' {\n',
|
||||
''.join(self.test_array_list),
|
||||
' };\n']
|
||||
footer_list = ['static int\n'
|
||||
'do_test (void)\n'
|
||||
'{\n'
|
||||
' for (size_t i = 0;\n'
|
||||
' i < sizeof (tests) / sizeof (tests[0]);\n'
|
||||
' i++)\n'
|
||||
' {\n'
|
||||
' called_mant_dig = 0;\n'
|
||||
' called_func_name = "";\n'
|
||||
' tests[i].func ();\n'
|
||||
' if (called_mant_dig == tests[i].mant_dig\n'
|
||||
' && strcmp (called_func_name,\n'
|
||||
' tests[i].func_name) == 0)\n'
|
||||
' num_pass++;\n'
|
||||
' else\n'
|
||||
' {\n'
|
||||
' num_fail++;\n'
|
||||
' printf ("Test %zu (%s):\\n"\n'
|
||||
' " Expected: %s precision %d\\n"\n'
|
||||
' " Actual: %s precision %d\\n\\n",\n'
|
||||
' i, tests[i].test_name,\n'
|
||||
' tests[i].func_name,\n'
|
||||
' tests[i].mant_dig,\n'
|
||||
' called_func_name, called_mant_dig);\n'
|
||||
' }\n'
|
||||
' }\n'
|
||||
' printf ("%d pass, %d fail\\n", num_pass, num_fail);\n'
|
||||
' return num_fail != 0;\n'
|
||||
'}\n'
|
||||
'\n'
|
||||
'#include <support/test-driver.c>']
|
||||
return ''.join(self.header_list + test_list + footer_list)
|
||||
|
||||
def main():
|
||||
"""The main entry point."""
|
||||
Type.init_types()
|
||||
t = Tests()
|
||||
t.add_all_tests()
|
||||
print(t.tests_text())
|
||||
|
||||
if __name__ == '__main__':
|
||||
main()
|
Loading…
Reference in New Issue
Block a user