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748 lines
26 KiB
748 lines
26 KiB
"""
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C code printer
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The C89CodePrinter & C99CodePrinter converts single SymPy expressions into
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single C expressions, using the functions defined in math.h where possible.
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A complete code generator, which uses ccode extensively, can be found in
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sympy.utilities.codegen. The codegen module can be used to generate complete
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source code files that are compilable without further modifications.
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"""
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from __future__ import annotations
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from typing import Any
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from functools import wraps
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from itertools import chain
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from sympy.core import S
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from sympy.core.numbers import equal_valued
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from sympy.codegen.ast import (
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Assignment, Pointer, Variable, Declaration, Type,
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real, complex_, integer, bool_, float32, float64, float80,
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complex64, complex128, intc, value_const, pointer_const,
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int8, int16, int32, int64, uint8, uint16, uint32, uint64, untyped,
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none
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)
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from sympy.printing.codeprinter import CodePrinter, requires
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from sympy.printing.precedence import precedence, PRECEDENCE
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from sympy.sets.fancysets import Range
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# These are defined in the other file so we can avoid importing sympy.codegen
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# from the top-level 'import sympy'. Export them here as well.
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from sympy.printing.codeprinter import ccode, print_ccode # noqa:F401
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# dictionary mapping SymPy function to (argument_conditions, C_function).
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# Used in C89CodePrinter._print_Function(self)
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known_functions_C89 = {
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"Abs": [(lambda x: not x.is_integer, "fabs"), (lambda x: x.is_integer, "abs")],
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"sin": "sin",
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"cos": "cos",
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"tan": "tan",
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"asin": "asin",
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"acos": "acos",
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"atan": "atan",
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"atan2": "atan2",
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"exp": "exp",
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"log": "log",
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"sinh": "sinh",
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"cosh": "cosh",
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"tanh": "tanh",
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"floor": "floor",
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"ceiling": "ceil",
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"sqrt": "sqrt", # To enable automatic rewrites
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}
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known_functions_C99 = dict(known_functions_C89, **{
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'exp2': 'exp2',
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'expm1': 'expm1',
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'log10': 'log10',
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'log2': 'log2',
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'log1p': 'log1p',
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'Cbrt': 'cbrt',
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'hypot': 'hypot',
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'fma': 'fma',
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'loggamma': 'lgamma',
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'erfc': 'erfc',
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'Max': 'fmax',
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'Min': 'fmin',
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"asinh": "asinh",
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"acosh": "acosh",
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"atanh": "atanh",
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"erf": "erf",
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"gamma": "tgamma",
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})
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# These are the core reserved words in the C language. Taken from:
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# https://en.cppreference.com/w/c/keyword
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reserved_words = [
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'auto', 'break', 'case', 'char', 'const', 'continue', 'default', 'do',
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'double', 'else', 'enum', 'extern', 'float', 'for', 'goto', 'if', 'int',
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'long', 'register', 'return', 'short', 'signed', 'sizeof', 'static',
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'struct', 'entry', # never standardized, we'll leave it here anyway
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'switch', 'typedef', 'union', 'unsigned', 'void', 'volatile', 'while'
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]
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reserved_words_c99 = ['inline', 'restrict']
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def get_math_macros():
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""" Returns a dictionary with math-related macros from math.h/cmath
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Note that these macros are not strictly required by the C/C++-standard.
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For MSVC they are enabled by defining "_USE_MATH_DEFINES" (preferably
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via a compilation flag).
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Returns
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=======
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Dictionary mapping SymPy expressions to strings (macro names)
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"""
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from sympy.codegen.cfunctions import log2, Sqrt
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from sympy.functions.elementary.exponential import log
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from sympy.functions.elementary.miscellaneous import sqrt
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return {
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S.Exp1: 'M_E',
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log2(S.Exp1): 'M_LOG2E',
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1/log(2): 'M_LOG2E',
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log(2): 'M_LN2',
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log(10): 'M_LN10',
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S.Pi: 'M_PI',
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S.Pi/2: 'M_PI_2',
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S.Pi/4: 'M_PI_4',
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1/S.Pi: 'M_1_PI',
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2/S.Pi: 'M_2_PI',
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2/sqrt(S.Pi): 'M_2_SQRTPI',
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2/Sqrt(S.Pi): 'M_2_SQRTPI',
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sqrt(2): 'M_SQRT2',
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Sqrt(2): 'M_SQRT2',
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1/sqrt(2): 'M_SQRT1_2',
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1/Sqrt(2): 'M_SQRT1_2'
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}
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def _as_macro_if_defined(meth):
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""" Decorator for printer methods
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When a Printer's method is decorated using this decorator the expressions printed
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will first be looked for in the attribute ``math_macros``, and if present it will
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print the macro name in ``math_macros`` followed by a type suffix for the type
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``real``. e.g. printing ``sympy.pi`` would print ``M_PIl`` if real is mapped to float80.
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"""
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@wraps(meth)
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def _meth_wrapper(self, expr, **kwargs):
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if expr in self.math_macros:
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return '%s%s' % (self.math_macros[expr], self._get_math_macro_suffix(real))
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else:
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return meth(self, expr, **kwargs)
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return _meth_wrapper
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class C89CodePrinter(CodePrinter):
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"""A printer to convert Python expressions to strings of C code"""
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printmethod = "_ccode"
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language = "C"
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standard = "C89"
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reserved_words = set(reserved_words)
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_default_settings: dict[str, Any] = {
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'order': None,
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'full_prec': 'auto',
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'precision': 17,
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'user_functions': {},
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'human': True,
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'allow_unknown_functions': False,
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'contract': True,
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'dereference': set(),
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'error_on_reserved': False,
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'reserved_word_suffix': '_',
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}
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type_aliases = {
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real: float64,
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complex_: complex128,
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integer: intc
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}
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type_mappings: dict[Type, Any] = {
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real: 'double',
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intc: 'int',
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float32: 'float',
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float64: 'double',
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integer: 'int',
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bool_: 'bool',
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int8: 'int8_t',
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int16: 'int16_t',
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int32: 'int32_t',
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int64: 'int64_t',
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uint8: 'int8_t',
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uint16: 'int16_t',
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uint32: 'int32_t',
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uint64: 'int64_t',
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}
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type_headers = {
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bool_: {'stdbool.h'},
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int8: {'stdint.h'},
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int16: {'stdint.h'},
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int32: {'stdint.h'},
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int64: {'stdint.h'},
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uint8: {'stdint.h'},
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uint16: {'stdint.h'},
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uint32: {'stdint.h'},
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uint64: {'stdint.h'},
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}
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# Macros needed to be defined when using a Type
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type_macros: dict[Type, tuple[str, ...]] = {}
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type_func_suffixes = {
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float32: 'f',
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float64: '',
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float80: 'l'
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}
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type_literal_suffixes = {
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float32: 'F',
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float64: '',
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float80: 'L'
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}
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type_math_macro_suffixes = {
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float80: 'l'
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}
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math_macros = None
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_ns = '' # namespace, C++ uses 'std::'
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# known_functions-dict to copy
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_kf: dict[str, Any] = known_functions_C89
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def __init__(self, settings=None):
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settings = settings or {}
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if self.math_macros is None:
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self.math_macros = settings.pop('math_macros', get_math_macros())
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self.type_aliases = dict(chain(self.type_aliases.items(),
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settings.pop('type_aliases', {}).items()))
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self.type_mappings = dict(chain(self.type_mappings.items(),
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settings.pop('type_mappings', {}).items()))
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self.type_headers = dict(chain(self.type_headers.items(),
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settings.pop('type_headers', {}).items()))
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self.type_macros = dict(chain(self.type_macros.items(),
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settings.pop('type_macros', {}).items()))
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self.type_func_suffixes = dict(chain(self.type_func_suffixes.items(),
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settings.pop('type_func_suffixes', {}).items()))
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self.type_literal_suffixes = dict(chain(self.type_literal_suffixes.items(),
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settings.pop('type_literal_suffixes', {}).items()))
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self.type_math_macro_suffixes = dict(chain(self.type_math_macro_suffixes.items(),
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settings.pop('type_math_macro_suffixes', {}).items()))
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super().__init__(settings)
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self.known_functions = dict(self._kf, **settings.get('user_functions', {}))
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self._dereference = set(settings.get('dereference', []))
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self.headers = set()
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self.libraries = set()
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self.macros = set()
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def _rate_index_position(self, p):
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return p*5
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def _get_statement(self, codestring):
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""" Get code string as a statement - i.e. ending with a semicolon. """
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return codestring if codestring.endswith(';') else codestring + ';'
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def _get_comment(self, text):
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return "/* {} */".format(text)
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def _declare_number_const(self, name, value):
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type_ = self.type_aliases[real]
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var = Variable(name, type=type_, value=value.evalf(type_.decimal_dig), attrs={value_const})
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decl = Declaration(var)
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return self._get_statement(self._print(decl))
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def _format_code(self, lines):
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return self.indent_code(lines)
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def _traverse_matrix_indices(self, mat):
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rows, cols = mat.shape
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return ((i, j) for i in range(rows) for j in range(cols))
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@_as_macro_if_defined
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def _print_Mul(self, expr, **kwargs):
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return super()._print_Mul(expr, **kwargs)
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@_as_macro_if_defined
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def _print_Pow(self, expr):
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if "Pow" in self.known_functions:
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return self._print_Function(expr)
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PREC = precedence(expr)
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suffix = self._get_func_suffix(real)
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if equal_valued(expr.exp, -1):
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literal_suffix = self._get_literal_suffix(real)
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return '1.0%s/%s' % (literal_suffix, self.parenthesize(expr.base, PREC))
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elif equal_valued(expr.exp, 0.5):
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return '%ssqrt%s(%s)' % (self._ns, suffix, self._print(expr.base))
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elif expr.exp == S.One/3 and self.standard != 'C89':
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return '%scbrt%s(%s)' % (self._ns, suffix, self._print(expr.base))
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else:
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return '%spow%s(%s, %s)' % (self._ns, suffix, self._print(expr.base),
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self._print(expr.exp))
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def _print_Mod(self, expr):
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num, den = expr.args
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if num.is_integer and den.is_integer:
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PREC = precedence(expr)
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snum, sden = [self.parenthesize(arg, PREC) for arg in expr.args]
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# % is remainder (same sign as numerator), not modulo (same sign as
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# denominator), in C. Hence, % only works as modulo if both numbers
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# have the same sign
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if (num.is_nonnegative and den.is_nonnegative or
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num.is_nonpositive and den.is_nonpositive):
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return f"{snum} % {sden}"
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return f"(({snum} % {sden}) + {sden}) % {sden}"
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# Not guaranteed integer
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return self._print_math_func(expr, known='fmod')
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def _print_Rational(self, expr):
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p, q = int(expr.p), int(expr.q)
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suffix = self._get_literal_suffix(real)
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return '%d.0%s/%d.0%s' % (p, suffix, q, suffix)
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def _print_Indexed(self, expr):
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# calculate index for 1d array
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offset = getattr(expr.base, 'offset', S.Zero)
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strides = getattr(expr.base, 'strides', None)
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indices = expr.indices
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if strides is None or isinstance(strides, str):
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dims = expr.shape
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shift = S.One
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temp = ()
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if strides == 'C' or strides is None:
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traversal = reversed(range(expr.rank))
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indices = indices[::-1]
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elif strides == 'F':
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traversal = range(expr.rank)
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for i in traversal:
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temp += (shift,)
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shift *= dims[i]
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strides = temp
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flat_index = sum([x[0]*x[1] for x in zip(indices, strides)]) + offset
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return "%s[%s]" % (self._print(expr.base.label),
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self._print(flat_index))
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def _print_Idx(self, expr):
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return self._print(expr.label)
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@_as_macro_if_defined
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def _print_NumberSymbol(self, expr):
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return super()._print_NumberSymbol(expr)
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def _print_Infinity(self, expr):
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return 'HUGE_VAL'
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def _print_NegativeInfinity(self, expr):
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return '-HUGE_VAL'
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def _print_Piecewise(self, expr):
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if expr.args[-1].cond != True:
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# We need the last conditional to be a True, otherwise the resulting
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# function may not return a result.
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raise ValueError("All Piecewise expressions must contain an "
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"(expr, True) statement to be used as a default "
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"condition. Without one, the generated "
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"expression may not evaluate to anything under "
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"some condition.")
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lines = []
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if expr.has(Assignment):
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for i, (e, c) in enumerate(expr.args):
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if i == 0:
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lines.append("if (%s) {" % self._print(c))
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elif i == len(expr.args) - 1 and c == True:
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lines.append("else {")
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else:
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lines.append("else if (%s) {" % self._print(c))
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code0 = self._print(e)
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lines.append(code0)
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lines.append("}")
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return "\n".join(lines)
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else:
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# The piecewise was used in an expression, need to do inline
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# operators. This has the downside that inline operators will
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# not work for statements that span multiple lines (Matrix or
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# Indexed expressions).
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ecpairs = ["((%s) ? (\n%s\n)\n" % (self._print(c),
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self._print(e))
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for e, c in expr.args[:-1]]
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last_line = ": (\n%s\n)" % self._print(expr.args[-1].expr)
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return ": ".join(ecpairs) + last_line + " ".join([")"*len(ecpairs)])
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def _print_ITE(self, expr):
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from sympy.functions import Piecewise
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return self._print(expr.rewrite(Piecewise, deep=False))
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def _print_MatrixElement(self, expr):
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return "{}[{}]".format(self.parenthesize(expr.parent, PRECEDENCE["Atom"],
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strict=True), expr.j + expr.i*expr.parent.shape[1])
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def _print_Symbol(self, expr):
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name = super()._print_Symbol(expr)
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if expr in self._settings['dereference']:
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return '(*{})'.format(name)
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else:
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return name
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|
def _print_Relational(self, expr):
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lhs_code = self._print(expr.lhs)
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rhs_code = self._print(expr.rhs)
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op = expr.rel_op
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return "{} {} {}".format(lhs_code, op, rhs_code)
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|
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def _print_For(self, expr):
|
|
target = self._print(expr.target)
|
|
if isinstance(expr.iterable, Range):
|
|
start, stop, step = expr.iterable.args
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|
else:
|
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raise NotImplementedError("Only iterable currently supported is Range")
|
|
body = self._print(expr.body)
|
|
return ('for ({target} = {start}; {target} < {stop}; {target} += '
|
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'{step}) {{\n{body}\n}}').format(target=target, start=start,
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stop=stop, step=step, body=body)
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|
|
def _print_sign(self, func):
|
|
return '((({0}) > 0) - (({0}) < 0))'.format(self._print(func.args[0]))
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|
|
|
def _print_Max(self, expr):
|
|
if "Max" in self.known_functions:
|
|
return self._print_Function(expr)
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def inner_print_max(args): # The more natural abstraction of creating
|
|
if len(args) == 1: # and printing smaller Max objects is slow
|
|
return self._print(args[0]) # when there are many arguments.
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|
half = len(args) // 2
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return "((%(a)s > %(b)s) ? %(a)s : %(b)s)" % {
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'a': inner_print_max(args[:half]),
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'b': inner_print_max(args[half:])
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|
}
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|
return inner_print_max(expr.args)
|
|
|
|
def _print_Min(self, expr):
|
|
if "Min" in self.known_functions:
|
|
return self._print_Function(expr)
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|
def inner_print_min(args): # The more natural abstraction of creating
|
|
if len(args) == 1: # and printing smaller Min objects is slow
|
|
return self._print(args[0]) # when there are many arguments.
|
|
half = len(args) // 2
|
|
return "((%(a)s < %(b)s) ? %(a)s : %(b)s)" % {
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'a': inner_print_min(args[:half]),
|
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'b': inner_print_min(args[half:])
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}
|
|
return inner_print_min(expr.args)
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|
|
def indent_code(self, code):
|
|
"""Accepts a string of code or a list of code lines"""
|
|
|
|
if isinstance(code, str):
|
|
code_lines = self.indent_code(code.splitlines(True))
|
|
return ''.join(code_lines)
|
|
|
|
tab = " "
|
|
inc_token = ('{', '(', '{\n', '(\n')
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|
dec_token = ('}', ')')
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|
|
|
code = [line.lstrip(' \t') for line in code]
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|
|
|
increase = [int(any(map(line.endswith, inc_token))) for line in code]
|
|
decrease = [int(any(map(line.startswith, dec_token))) for line in code]
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|
|
|
pretty = []
|
|
level = 0
|
|
for n, line in enumerate(code):
|
|
if line in ('', '\n'):
|
|
pretty.append(line)
|
|
continue
|
|
level -= decrease[n]
|
|
pretty.append("%s%s" % (tab*level, line))
|
|
level += increase[n]
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|
return pretty
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|
|
def _get_func_suffix(self, type_):
|
|
return self.type_func_suffixes[self.type_aliases.get(type_, type_)]
|
|
|
|
def _get_literal_suffix(self, type_):
|
|
return self.type_literal_suffixes[self.type_aliases.get(type_, type_)]
|
|
|
|
def _get_math_macro_suffix(self, type_):
|
|
alias = self.type_aliases.get(type_, type_)
|
|
dflt = self.type_math_macro_suffixes.get(alias, '')
|
|
return self.type_math_macro_suffixes.get(type_, dflt)
|
|
|
|
def _print_Tuple(self, expr):
|
|
return '{'+', '.join(self._print(e) for e in expr)+'}'
|
|
|
|
_print_List = _print_Tuple
|
|
|
|
def _print_Type(self, type_):
|
|
self.headers.update(self.type_headers.get(type_, set()))
|
|
self.macros.update(self.type_macros.get(type_, set()))
|
|
return self._print(self.type_mappings.get(type_, type_.name))
|
|
|
|
def _print_Declaration(self, decl):
|
|
from sympy.codegen.cnodes import restrict
|
|
var = decl.variable
|
|
val = var.value
|
|
if var.type == untyped:
|
|
raise ValueError("C does not support untyped variables")
|
|
|
|
if isinstance(var, Pointer):
|
|
result = '{vc}{t} *{pc} {r}{s}'.format(
|
|
vc='const ' if value_const in var.attrs else '',
|
|
t=self._print(var.type),
|
|
pc=' const' if pointer_const in var.attrs else '',
|
|
r='restrict ' if restrict in var.attrs else '',
|
|
s=self._print(var.symbol)
|
|
)
|
|
elif isinstance(var, Variable):
|
|
result = '{vc}{t} {s}'.format(
|
|
vc='const ' if value_const in var.attrs else '',
|
|
t=self._print(var.type),
|
|
s=self._print(var.symbol)
|
|
)
|
|
else:
|
|
raise NotImplementedError("Unknown type of var: %s" % type(var))
|
|
if val != None: # Must be "!= None", cannot be "is not None"
|
|
result += ' = %s' % self._print(val)
|
|
return result
|
|
|
|
def _print_Float(self, flt):
|
|
type_ = self.type_aliases.get(real, real)
|
|
self.macros.update(self.type_macros.get(type_, set()))
|
|
suffix = self._get_literal_suffix(type_)
|
|
num = str(flt.evalf(type_.decimal_dig))
|
|
if 'e' not in num and '.' not in num:
|
|
num += '.0'
|
|
num_parts = num.split('e')
|
|
num_parts[0] = num_parts[0].rstrip('0')
|
|
if num_parts[0].endswith('.'):
|
|
num_parts[0] += '0'
|
|
return 'e'.join(num_parts) + suffix
|
|
|
|
@requires(headers={'stdbool.h'})
|
|
def _print_BooleanTrue(self, expr):
|
|
return 'true'
|
|
|
|
@requires(headers={'stdbool.h'})
|
|
def _print_BooleanFalse(self, expr):
|
|
return 'false'
|
|
|
|
def _print_Element(self, elem):
|
|
if elem.strides == None: # Must be "== None", cannot be "is None"
|
|
if elem.offset != None: # Must be "!= None", cannot be "is not None"
|
|
raise ValueError("Expected strides when offset is given")
|
|
idxs = ']['.join((self._print(arg) for arg in elem.indices))
|
|
else:
|
|
global_idx = sum([i*s for i, s in zip(elem.indices, elem.strides)])
|
|
if elem.offset != None: # Must be "!= None", cannot be "is not None"
|
|
global_idx += elem.offset
|
|
idxs = self._print(global_idx)
|
|
|
|
return "{symb}[{idxs}]".format(
|
|
symb=self._print(elem.symbol),
|
|
idxs=idxs
|
|
)
|
|
|
|
def _print_CodeBlock(self, expr):
|
|
""" Elements of code blocks printed as statements. """
|
|
return '\n'.join([self._get_statement(self._print(i)) for i in expr.args])
|
|
|
|
def _print_While(self, expr):
|
|
return 'while ({condition}) {{\n{body}\n}}'.format(**expr.kwargs(
|
|
apply=lambda arg: self._print(arg)))
|
|
|
|
def _print_Scope(self, expr):
|
|
return '{\n%s\n}' % self._print_CodeBlock(expr.body)
|
|
|
|
@requires(headers={'stdio.h'})
|
|
def _print_Print(self, expr):
|
|
return 'printf({fmt}, {pargs})'.format(
|
|
fmt=self._print(expr.format_string),
|
|
pargs=', '.join((self._print(arg) for arg in expr.print_args))
|
|
)
|
|
|
|
def _print_FunctionPrototype(self, expr):
|
|
pars = ', '.join((self._print(Declaration(arg)) for arg in expr.parameters))
|
|
return "%s %s(%s)" % (
|
|
tuple((self._print(arg) for arg in (expr.return_type, expr.name))) + (pars,)
|
|
)
|
|
|
|
def _print_FunctionDefinition(self, expr):
|
|
return "%s%s" % (self._print_FunctionPrototype(expr),
|
|
self._print_Scope(expr))
|
|
|
|
def _print_Return(self, expr):
|
|
arg, = expr.args
|
|
return 'return %s' % self._print(arg)
|
|
|
|
def _print_CommaOperator(self, expr):
|
|
return '(%s)' % ', '.join((self._print(arg) for arg in expr.args))
|
|
|
|
def _print_Label(self, expr):
|
|
if expr.body == none:
|
|
return '%s:' % str(expr.name)
|
|
if len(expr.body.args) == 1:
|
|
return '%s:\n%s' % (str(expr.name), self._print_CodeBlock(expr.body))
|
|
return '%s:\n{\n%s\n}' % (str(expr.name), self._print_CodeBlock(expr.body))
|
|
|
|
def _print_goto(self, expr):
|
|
return 'goto %s' % expr.label.name
|
|
|
|
def _print_PreIncrement(self, expr):
|
|
arg, = expr.args
|
|
return '++(%s)' % self._print(arg)
|
|
|
|
def _print_PostIncrement(self, expr):
|
|
arg, = expr.args
|
|
return '(%s)++' % self._print(arg)
|
|
|
|
def _print_PreDecrement(self, expr):
|
|
arg, = expr.args
|
|
return '--(%s)' % self._print(arg)
|
|
|
|
def _print_PostDecrement(self, expr):
|
|
arg, = expr.args
|
|
return '(%s)--' % self._print(arg)
|
|
|
|
def _print_struct(self, expr):
|
|
return "%(keyword)s %(name)s {\n%(lines)s}" % {
|
|
"keyword": expr.__class__.__name__, "name": expr.name, "lines": ';\n'.join(
|
|
[self._print(decl) for decl in expr.declarations] + [''])
|
|
}
|
|
|
|
def _print_BreakToken(self, _):
|
|
return 'break'
|
|
|
|
def _print_ContinueToken(self, _):
|
|
return 'continue'
|
|
|
|
_print_union = _print_struct
|
|
|
|
class C99CodePrinter(C89CodePrinter):
|
|
standard = 'C99'
|
|
reserved_words = set(reserved_words + reserved_words_c99)
|
|
type_mappings=dict(chain(C89CodePrinter.type_mappings.items(), {
|
|
complex64: 'float complex',
|
|
complex128: 'double complex',
|
|
}.items()))
|
|
type_headers = dict(chain(C89CodePrinter.type_headers.items(), {
|
|
complex64: {'complex.h'},
|
|
complex128: {'complex.h'}
|
|
}.items()))
|
|
|
|
# known_functions-dict to copy
|
|
_kf: dict[str, Any] = known_functions_C99
|
|
|
|
# functions with versions with 'f' and 'l' suffixes:
|
|
_prec_funcs = ('fabs fmod remainder remquo fma fmax fmin fdim nan exp exp2'
|
|
' expm1 log log10 log2 log1p pow sqrt cbrt hypot sin cos tan'
|
|
' asin acos atan atan2 sinh cosh tanh asinh acosh atanh erf'
|
|
' erfc tgamma lgamma ceil floor trunc round nearbyint rint'
|
|
' frexp ldexp modf scalbn ilogb logb nextafter copysign').split()
|
|
|
|
def _print_Infinity(self, expr):
|
|
return 'INFINITY'
|
|
|
|
def _print_NegativeInfinity(self, expr):
|
|
return '-INFINITY'
|
|
|
|
def _print_NaN(self, expr):
|
|
return 'NAN'
|
|
|
|
# tgamma was already covered by 'known_functions' dict
|
|
|
|
@requires(headers={'math.h'}, libraries={'m'})
|
|
@_as_macro_if_defined
|
|
def _print_math_func(self, expr, nest=False, known=None):
|
|
if known is None:
|
|
known = self.known_functions[expr.__class__.__name__]
|
|
if not isinstance(known, str):
|
|
for cb, name in known:
|
|
if cb(*expr.args):
|
|
known = name
|
|
break
|
|
else:
|
|
raise ValueError("No matching printer")
|
|
try:
|
|
return known(self, *expr.args)
|
|
except TypeError:
|
|
suffix = self._get_func_suffix(real) if self._ns + known in self._prec_funcs else ''
|
|
|
|
if nest:
|
|
args = self._print(expr.args[0])
|
|
if len(expr.args) > 1:
|
|
paren_pile = ''
|
|
for curr_arg in expr.args[1:-1]:
|
|
paren_pile += ')'
|
|
args += ', {ns}{name}{suffix}({next}'.format(
|
|
ns=self._ns,
|
|
name=known,
|
|
suffix=suffix,
|
|
next = self._print(curr_arg)
|
|
)
|
|
args += ', %s%s' % (
|
|
self._print(expr.func(expr.args[-1])),
|
|
paren_pile
|
|
)
|
|
else:
|
|
args = ', '.join((self._print(arg) for arg in expr.args))
|
|
return '{ns}{name}{suffix}({args})'.format(
|
|
ns=self._ns,
|
|
name=known,
|
|
suffix=suffix,
|
|
args=args
|
|
)
|
|
|
|
def _print_Max(self, expr):
|
|
return self._print_math_func(expr, nest=True)
|
|
|
|
def _print_Min(self, expr):
|
|
return self._print_math_func(expr, nest=True)
|
|
|
|
def _get_loop_opening_ending(self, indices):
|
|
open_lines = []
|
|
close_lines = []
|
|
loopstart = "for (int %(var)s=%(start)s; %(var)s<%(end)s; %(var)s++){" # C99
|
|
for i in indices:
|
|
# C arrays start at 0 and end at dimension-1
|
|
open_lines.append(loopstart % {
|
|
'var': self._print(i.label),
|
|
'start': self._print(i.lower),
|
|
'end': self._print(i.upper + 1)})
|
|
close_lines.append("}")
|
|
return open_lines, close_lines
|
|
|
|
|
|
for k in ('Abs Sqrt exp exp2 expm1 log log10 log2 log1p Cbrt hypot fma'
|
|
' loggamma sin cos tan asin acos atan atan2 sinh cosh tanh asinh acosh '
|
|
'atanh erf erfc loggamma gamma ceiling floor').split():
|
|
setattr(C99CodePrinter, '_print_%s' % k, C99CodePrinter._print_math_func)
|
|
|
|
|
|
class C11CodePrinter(C99CodePrinter):
|
|
|
|
@requires(headers={'stdalign.h'})
|
|
def _print_alignof(self, expr):
|
|
arg, = expr.args
|
|
return 'alignof(%s)' % self._print(arg)
|
|
|
|
|
|
c_code_printers = {
|
|
'c89': C89CodePrinter,
|
|
'c99': C99CodePrinter,
|
|
'c11': C11CodePrinter
|
|
}
|