Old engine for Continuous Time Bayesian Networks. Superseded by reCTBN. 🐍
https://github.com/madlabunimib/PyCTBN
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753 lines
24 KiB
753 lines
24 KiB
"""
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Code generator script to make the Cython BLAS and LAPACK wrappers
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from the files "cython_blas_signatures.txt" and
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"cython_lapack_signatures.txt" which contain the signatures for
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all the BLAS/LAPACK routines that should be included in the wrappers.
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"""
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from collections import defaultdict
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from operator import itemgetter
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import os
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BASE_DIR = os.path.abspath(os.path.dirname(__file__))
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fortran_types = {'int': 'integer',
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'c': 'complex',
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'd': 'double precision',
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's': 'real',
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'z': 'complex*16',
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'char': 'character',
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'bint': 'logical'}
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c_types = {'int': 'int',
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'c': 'npy_complex64',
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'd': 'double',
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's': 'float',
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'z': 'npy_complex128',
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'char': 'char',
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'bint': 'int',
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'cselect1': '_cselect1',
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'cselect2': '_cselect2',
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'dselect2': '_dselect2',
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'dselect3': '_dselect3',
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'sselect2': '_sselect2',
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'sselect3': '_sselect3',
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'zselect1': '_zselect1',
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'zselect2': '_zselect2'}
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def arg_names_and_types(args):
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return zip(*[arg.split(' *') for arg in args.split(', ')])
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pyx_func_template = """
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cdef extern from "{header_name}":
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void _fortran_{name} "F_FUNC({name}wrp, {upname}WRP)"({ret_type} *out, {fort_args}) nogil
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cdef {ret_type} {name}({args}) nogil:
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cdef {ret_type} out
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_fortran_{name}(&out, {argnames})
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return out
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"""
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npy_types = {'c': 'npy_complex64', 'z': 'npy_complex128',
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'cselect1': '_cselect1', 'cselect2': '_cselect2',
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'dselect2': '_dselect2', 'dselect3': '_dselect3',
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'sselect2': '_sselect2', 'sselect3': '_sselect3',
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'zselect1': '_zselect1', 'zselect2': '_zselect2'}
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def arg_casts(arg):
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if arg in ['npy_complex64', 'npy_complex128', '_cselect1', '_cselect2',
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'_dselect2', '_dselect3', '_sselect2', '_sselect3',
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'_zselect1', '_zselect2']:
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return '<{0}*>'.format(arg)
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return ''
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def pyx_decl_func(name, ret_type, args, header_name):
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argtypes, argnames = arg_names_and_types(args)
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# Fix the case where one of the arguments has the same name as the
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# abbreviation for the argument type.
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# Otherwise the variable passed as an argument is considered overwrites
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# the previous typedef and Cython compilation fails.
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if ret_type in argnames:
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argnames = [n if n != ret_type else ret_type + '_' for n in argnames]
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argnames = [n if n not in ['lambda', 'in'] else n + '_'
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for n in argnames]
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args = ', '.join([' *'.join([n, t])
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for n, t in zip(argtypes, argnames)])
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argtypes = [npy_types.get(t, t) for t in argtypes]
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fort_args = ', '.join([' *'.join([n, t])
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for n, t in zip(argtypes, argnames)])
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argnames = [arg_casts(t) + n for n, t in zip(argnames, argtypes)]
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argnames = ', '.join(argnames)
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c_ret_type = c_types[ret_type]
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args = args.replace('lambda', 'lambda_')
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return pyx_func_template.format(name=name, upname=name.upper(), args=args,
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fort_args=fort_args, ret_type=ret_type,
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c_ret_type=c_ret_type, argnames=argnames,
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header_name=header_name)
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pyx_sub_template = """cdef extern from "{header_name}":
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void _fortran_{name} "F_FUNC({name},{upname})"({fort_args}) nogil
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cdef void {name}({args}) nogil:
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_fortran_{name}({argnames})
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"""
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def pyx_decl_sub(name, args, header_name):
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argtypes, argnames = arg_names_and_types(args)
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argtypes = [npy_types.get(t, t) for t in argtypes]
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argnames = [n if n not in ['lambda', 'in'] else n + '_' for n in argnames]
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fort_args = ', '.join([' *'.join([n, t])
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for n, t in zip(argtypes, argnames)])
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argnames = [arg_casts(t) + n for n, t in zip(argnames, argtypes)]
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argnames = ', '.join(argnames)
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args = args.replace('*lambda,', '*lambda_,').replace('*in,', '*in_,')
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return pyx_sub_template.format(name=name, upname=name.upper(),
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args=args, fort_args=fort_args,
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argnames=argnames, header_name=header_name)
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blas_pyx_preamble = '''# cython: boundscheck = False
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# cython: wraparound = False
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# cython: cdivision = True
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"""
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BLAS Functions for Cython
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=========================
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Usable from Cython via::
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cimport scipy.linalg.cython_blas
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These wrappers do not check for alignment of arrays.
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Alignment should be checked before these wrappers are used.
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Raw function pointers (Fortran-style pointer arguments):
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- {}
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"""
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# Within SciPy, these wrappers can be used via relative or absolute cimport.
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# Examples:
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# from ..linalg cimport cython_blas
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# from scipy.linalg cimport cython_blas
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# cimport scipy.linalg.cython_blas as cython_blas
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# cimport ..linalg.cython_blas as cython_blas
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# Within SciPy, if BLAS functions are needed in C/C++/Fortran,
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# these wrappers should not be used.
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# The original libraries should be linked directly.
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cdef extern from "fortran_defs.h":
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pass
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from numpy cimport npy_complex64, npy_complex128
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'''
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def make_blas_pyx_preamble(all_sigs):
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names = [sig[0] for sig in all_sigs]
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return blas_pyx_preamble.format("\n- ".join(names))
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lapack_pyx_preamble = '''"""
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LAPACK functions for Cython
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===========================
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Usable from Cython via::
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cimport scipy.linalg.cython_lapack
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This module provides Cython-level wrappers for all primary routines included
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in LAPACK 3.4.0 except for ``zcgesv`` since its interface is not consistent
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from LAPACK 3.4.0 to 3.6.0. It also provides some of the
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fixed-api auxiliary routines.
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These wrappers do not check for alignment of arrays.
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Alignment should be checked before these wrappers are used.
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Raw function pointers (Fortran-style pointer arguments):
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- {}
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"""
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# Within SciPy, these wrappers can be used via relative or absolute cimport.
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# Examples:
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# from ..linalg cimport cython_lapack
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# from scipy.linalg cimport cython_lapack
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# cimport scipy.linalg.cython_lapack as cython_lapack
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# cimport ..linalg.cython_lapack as cython_lapack
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# Within SciPy, if LAPACK functions are needed in C/C++/Fortran,
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# these wrappers should not be used.
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# The original libraries should be linked directly.
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cdef extern from "fortran_defs.h":
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pass
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from numpy cimport npy_complex64, npy_complex128
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cdef extern from "_lapack_subroutines.h":
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# Function pointer type declarations for
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# gees and gges families of functions.
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ctypedef bint _cselect1(npy_complex64*)
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ctypedef bint _cselect2(npy_complex64*, npy_complex64*)
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ctypedef bint _dselect2(d*, d*)
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ctypedef bint _dselect3(d*, d*, d*)
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ctypedef bint _sselect2(s*, s*)
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ctypedef bint _sselect3(s*, s*, s*)
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ctypedef bint _zselect1(npy_complex128*)
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ctypedef bint _zselect2(npy_complex128*, npy_complex128*)
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'''
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def make_lapack_pyx_preamble(all_sigs):
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names = [sig[0] for sig in all_sigs]
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return lapack_pyx_preamble.format("\n- ".join(names))
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blas_py_wrappers = """
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# Python-accessible wrappers for testing:
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cdef inline bint _is_contiguous(double[:,:] a, int axis) nogil:
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return (a.strides[axis] == sizeof(a[0,0]) or a.shape[axis] == 1)
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cpdef float complex _test_cdotc(float complex[:] cx, float complex[:] cy) nogil:
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cdef:
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int n = cx.shape[0]
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int incx = cx.strides[0] // sizeof(cx[0])
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int incy = cy.strides[0] // sizeof(cy[0])
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return cdotc(&n, &cx[0], &incx, &cy[0], &incy)
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cpdef float complex _test_cdotu(float complex[:] cx, float complex[:] cy) nogil:
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cdef:
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int n = cx.shape[0]
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int incx = cx.strides[0] // sizeof(cx[0])
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int incy = cy.strides[0] // sizeof(cy[0])
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return cdotu(&n, &cx[0], &incx, &cy[0], &incy)
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cpdef double _test_dasum(double[:] dx) nogil:
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cdef:
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int n = dx.shape[0]
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int incx = dx.strides[0] // sizeof(dx[0])
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return dasum(&n, &dx[0], &incx)
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cpdef double _test_ddot(double[:] dx, double[:] dy) nogil:
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cdef:
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int n = dx.shape[0]
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int incx = dx.strides[0] // sizeof(dx[0])
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int incy = dy.strides[0] // sizeof(dy[0])
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return ddot(&n, &dx[0], &incx, &dy[0], &incy)
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cpdef int _test_dgemm(double alpha, double[:,:] a, double[:,:] b, double beta,
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double[:,:] c) nogil except -1:
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cdef:
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char *transa
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char *transb
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int m, n, k, lda, ldb, ldc
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double *a0=&a[0,0]
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double *b0=&b[0,0]
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double *c0=&c[0,0]
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# In the case that c is C contiguous, swap a and b and
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# swap whether or not each of them is transposed.
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# This can be done because a.dot(b) = b.T.dot(a.T).T.
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if _is_contiguous(c, 1):
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if _is_contiguous(a, 1):
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transb = 'n'
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ldb = (&a[1,0]) - a0 if a.shape[0] > 1 else 1
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elif _is_contiguous(a, 0):
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transb = 't'
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ldb = (&a[0,1]) - a0 if a.shape[1] > 1 else 1
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else:
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with gil:
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raise ValueError("Input 'a' is neither C nor Fortran contiguous.")
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if _is_contiguous(b, 1):
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transa = 'n'
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lda = (&b[1,0]) - b0 if b.shape[0] > 1 else 1
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elif _is_contiguous(b, 0):
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transa = 't'
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lda = (&b[0,1]) - b0 if b.shape[1] > 1 else 1
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else:
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with gil:
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raise ValueError("Input 'b' is neither C nor Fortran contiguous.")
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k = b.shape[0]
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if k != a.shape[1]:
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with gil:
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raise ValueError("Shape mismatch in input arrays.")
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m = b.shape[1]
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n = a.shape[0]
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if n != c.shape[0] or m != c.shape[1]:
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with gil:
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raise ValueError("Output array does not have the correct shape.")
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ldc = (&c[1,0]) - c0 if c.shape[0] > 1 else 1
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dgemm(transa, transb, &m, &n, &k, &alpha, b0, &lda, a0,
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&ldb, &beta, c0, &ldc)
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elif _is_contiguous(c, 0):
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if _is_contiguous(a, 1):
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transa = 't'
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lda = (&a[1,0]) - a0 if a.shape[0] > 1 else 1
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elif _is_contiguous(a, 0):
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transa = 'n'
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lda = (&a[0,1]) - a0 if a.shape[1] > 1 else 1
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else:
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with gil:
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raise ValueError("Input 'a' is neither C nor Fortran contiguous.")
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if _is_contiguous(b, 1):
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transb = 't'
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ldb = (&b[1,0]) - b0 if b.shape[0] > 1 else 1
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elif _is_contiguous(b, 0):
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transb = 'n'
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ldb = (&b[0,1]) - b0 if b.shape[1] > 1 else 1
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else:
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with gil:
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raise ValueError("Input 'b' is neither C nor Fortran contiguous.")
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m = a.shape[0]
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k = a.shape[1]
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if k != b.shape[0]:
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with gil:
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raise ValueError("Shape mismatch in input arrays.")
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n = b.shape[1]
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if m != c.shape[0] or n != c.shape[1]:
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with gil:
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raise ValueError("Output array does not have the correct shape.")
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ldc = (&c[0,1]) - c0 if c.shape[1] > 1 else 1
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dgemm(transa, transb, &m, &n, &k, &alpha, a0, &lda, b0,
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&ldb, &beta, c0, &ldc)
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else:
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with gil:
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raise ValueError("Input 'c' is neither C nor Fortran contiguous.")
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return 0
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cpdef double _test_dnrm2(double[:] x) nogil:
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cdef:
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int n = x.shape[0]
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int incx = x.strides[0] // sizeof(x[0])
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return dnrm2(&n, &x[0], &incx)
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cpdef double _test_dzasum(double complex[:] zx) nogil:
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cdef:
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int n = zx.shape[0]
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int incx = zx.strides[0] // sizeof(zx[0])
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return dzasum(&n, &zx[0], &incx)
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cpdef double _test_dznrm2(double complex[:] x) nogil:
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cdef:
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int n = x.shape[0]
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int incx = x.strides[0] // sizeof(x[0])
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return dznrm2(&n, &x[0], &incx)
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cpdef int _test_icamax(float complex[:] cx) nogil:
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cdef:
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int n = cx.shape[0]
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int incx = cx.strides[0] // sizeof(cx[0])
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return icamax(&n, &cx[0], &incx)
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cpdef int _test_idamax(double[:] dx) nogil:
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cdef:
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int n = dx.shape[0]
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int incx = dx.strides[0] // sizeof(dx[0])
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return idamax(&n, &dx[0], &incx)
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cpdef int _test_isamax(float[:] sx) nogil:
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cdef:
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int n = sx.shape[0]
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int incx = sx.strides[0] // sizeof(sx[0])
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return isamax(&n, &sx[0], &incx)
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cpdef int _test_izamax(double complex[:] zx) nogil:
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cdef:
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int n = zx.shape[0]
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int incx = zx.strides[0] // sizeof(zx[0])
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return izamax(&n, &zx[0], &incx)
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cpdef float _test_sasum(float[:] sx) nogil:
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cdef:
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int n = sx.shape[0]
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int incx = sx.shape[0] // sizeof(sx[0])
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return sasum(&n, &sx[0], &incx)
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cpdef float _test_scasum(float complex[:] cx) nogil:
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cdef:
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int n = cx.shape[0]
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int incx = cx.strides[0] // sizeof(cx[0])
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return scasum(&n, &cx[0], &incx)
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cpdef float _test_scnrm2(float complex[:] x) nogil:
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cdef:
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int n = x.shape[0]
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int incx = x.strides[0] // sizeof(x[0])
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return scnrm2(&n, &x[0], &incx)
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cpdef float _test_sdot(float[:] sx, float[:] sy) nogil:
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cdef:
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int n = sx.shape[0]
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int incx = sx.strides[0] // sizeof(sx[0])
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int incy = sy.strides[0] // sizeof(sy[0])
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return sdot(&n, &sx[0], &incx, &sy[0], &incy)
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cpdef float _test_snrm2(float[:] x) nogil:
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cdef:
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int n = x.shape[0]
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int incx = x.shape[0] // sizeof(x[0])
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return snrm2(&n, &x[0], &incx)
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cpdef double complex _test_zdotc(double complex[:] zx, double complex[:] zy) nogil:
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cdef:
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int n = zx.shape[0]
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int incx = zx.strides[0] // sizeof(zx[0])
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int incy = zy.strides[0] // sizeof(zy[0])
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return zdotc(&n, &zx[0], &incx, &zy[0], &incy)
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cpdef double complex _test_zdotu(double complex[:] zx, double complex[:] zy) nogil:
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cdef:
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int n = zx.shape[0]
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int incx = zx.strides[0] // sizeof(zx[0])
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int incy = zy.strides[0] // sizeof(zy[0])
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return zdotu(&n, &zx[0], &incx, &zy[0], &incy)
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"""
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def generate_blas_pyx(func_sigs, sub_sigs, all_sigs, header_name):
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funcs = "\n".join(pyx_decl_func(*(s+(header_name,))) for s in func_sigs)
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subs = "\n" + "\n".join(pyx_decl_sub(*(s[::2]+(header_name,)))
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for s in sub_sigs)
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return make_blas_pyx_preamble(all_sigs) + funcs + subs + blas_py_wrappers
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lapack_py_wrappers = """
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# Python accessible wrappers for testing:
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def _test_dlamch(cmach):
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# This conversion is necessary to handle Python 3 strings.
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cmach_bytes = bytes(cmach)
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# Now that it is a bytes representation, a non-temporary variable
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# must be passed as a part of the function call.
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cdef char* cmach_char = cmach_bytes
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return dlamch(cmach_char)
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def _test_slamch(cmach):
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# This conversion is necessary to handle Python 3 strings.
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cmach_bytes = bytes(cmach)
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# Now that it is a bytes representation, a non-temporary variable
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|
# must be passed as a part of the function call.
|
|
cdef char* cmach_char = cmach_bytes
|
|
return slamch(cmach_char)
|
|
"""
|
|
|
|
|
|
def generate_lapack_pyx(func_sigs, sub_sigs, all_sigs, header_name):
|
|
funcs = "\n".join(pyx_decl_func(*(s+(header_name,))) for s in func_sigs)
|
|
subs = "\n" + "\n".join(pyx_decl_sub(*(s[::2]+(header_name,)))
|
|
for s in sub_sigs)
|
|
preamble = make_lapack_pyx_preamble(all_sigs)
|
|
return preamble + funcs + subs + lapack_py_wrappers
|
|
|
|
|
|
pxd_template = """ctypedef {ret_type} {name}_t({args}) nogil
|
|
cdef {name}_t *{name}_f
|
|
"""
|
|
pxd_template = """cdef {ret_type} {name}({args}) nogil
|
|
"""
|
|
|
|
|
|
def pxd_decl(name, ret_type, args):
|
|
args = args.replace('lambda', 'lambda_').replace('*in,', '*in_,')
|
|
return pxd_template.format(name=name, ret_type=ret_type, args=args)
|
|
|
|
|
|
blas_pxd_preamble = """# Within scipy, these wrappers can be used via relative or absolute cimport.
|
|
# Examples:
|
|
# from ..linalg cimport cython_blas
|
|
# from scipy.linalg cimport cython_blas
|
|
# cimport scipy.linalg.cython_blas as cython_blas
|
|
# cimport ..linalg.cython_blas as cython_blas
|
|
|
|
# Within SciPy, if BLAS functions are needed in C/C++/Fortran,
|
|
# these wrappers should not be used.
|
|
# The original libraries should be linked directly.
|
|
|
|
ctypedef float s
|
|
ctypedef double d
|
|
ctypedef float complex c
|
|
ctypedef double complex z
|
|
|
|
"""
|
|
|
|
|
|
def generate_blas_pxd(all_sigs):
|
|
body = '\n'.join(pxd_decl(*sig) for sig in all_sigs)
|
|
return blas_pxd_preamble + body
|
|
|
|
|
|
lapack_pxd_preamble = """# Within SciPy, these wrappers can be used via relative or absolute cimport.
|
|
# Examples:
|
|
# from ..linalg cimport cython_lapack
|
|
# from scipy.linalg cimport cython_lapack
|
|
# cimport scipy.linalg.cython_lapack as cython_lapack
|
|
# cimport ..linalg.cython_lapack as cython_lapack
|
|
|
|
# Within SciPy, if LAPACK functions are needed in C/C++/Fortran,
|
|
# these wrappers should not be used.
|
|
# The original libraries should be linked directly.
|
|
|
|
ctypedef float s
|
|
ctypedef double d
|
|
ctypedef float complex c
|
|
ctypedef double complex z
|
|
|
|
# Function pointer type declarations for
|
|
# gees and gges families of functions.
|
|
ctypedef bint cselect1(c*)
|
|
ctypedef bint cselect2(c*, c*)
|
|
ctypedef bint dselect2(d*, d*)
|
|
ctypedef bint dselect3(d*, d*, d*)
|
|
ctypedef bint sselect2(s*, s*)
|
|
ctypedef bint sselect3(s*, s*, s*)
|
|
ctypedef bint zselect1(z*)
|
|
ctypedef bint zselect2(z*, z*)
|
|
|
|
"""
|
|
|
|
|
|
def generate_lapack_pxd(all_sigs):
|
|
return lapack_pxd_preamble + '\n'.join(pxd_decl(*sig) for sig in all_sigs)
|
|
|
|
|
|
fortran_template = """ subroutine {name}wrp(
|
|
+ ret,
|
|
+ {argnames}
|
|
+ )
|
|
external {wrapper}
|
|
{ret_type} {wrapper}
|
|
{ret_type} ret
|
|
{argdecls}
|
|
ret = {wrapper}(
|
|
+ {argnames}
|
|
+ )
|
|
end
|
|
"""
|
|
|
|
dims = {'work': '(*)', 'ab': '(ldab,*)', 'a': '(lda,*)', 'dl': '(*)',
|
|
'd': '(*)', 'du': '(*)', 'ap': '(*)', 'e': '(*)', 'lld': '(*)'}
|
|
|
|
xy_specialized_dims = {'x': '', 'y': ''}
|
|
a_specialized_dims = {'a': '(*)'}
|
|
special_cases = defaultdict(dict,
|
|
ladiv = xy_specialized_dims,
|
|
lanhf = a_specialized_dims,
|
|
lansf = a_specialized_dims,
|
|
lapy2 = xy_specialized_dims,
|
|
lapy3 = xy_specialized_dims)
|
|
|
|
|
|
def process_fortran_name(name, funcname):
|
|
if 'inc' in name:
|
|
return name
|
|
special = special_cases[funcname[1:]]
|
|
if 'x' in name or 'y' in name:
|
|
suffix = special.get(name, '(n)')
|
|
else:
|
|
suffix = special.get(name, '')
|
|
return name + suffix
|
|
|
|
|
|
def called_name(name):
|
|
included = ['cdotc', 'cdotu', 'zdotc', 'zdotu', 'cladiv', 'zladiv']
|
|
if name in included:
|
|
return "w" + name
|
|
return name
|
|
|
|
|
|
def fort_subroutine_wrapper(name, ret_type, args):
|
|
wrapper = called_name(name)
|
|
types, names = arg_names_and_types(args)
|
|
argnames = ',\n + '.join(names)
|
|
|
|
names = [process_fortran_name(n, name) for n in names]
|
|
argdecls = '\n '.join('{0} {1}'.format(fortran_types[t], n)
|
|
for n, t in zip(names, types))
|
|
return fortran_template.format(name=name, wrapper=wrapper,
|
|
argnames=argnames, argdecls=argdecls,
|
|
ret_type=fortran_types[ret_type])
|
|
|
|
|
|
def generate_fortran(func_sigs):
|
|
return "\n".join(fort_subroutine_wrapper(*sig) for sig in func_sigs)
|
|
|
|
|
|
def make_c_args(args):
|
|
types, names = arg_names_and_types(args)
|
|
types = [c_types[arg] for arg in types]
|
|
return ', '.join('{0} *{1}'.format(t, n) for t, n in zip(types, names))
|
|
|
|
|
|
c_func_template = ("void F_FUNC({name}wrp, {upname}WRP)"
|
|
"({return_type} *ret, {args});\n")
|
|
|
|
|
|
def c_func_decl(name, return_type, args):
|
|
args = make_c_args(args)
|
|
return_type = c_types[return_type]
|
|
return c_func_template.format(name=name, upname=name.upper(),
|
|
return_type=return_type, args=args)
|
|
|
|
|
|
c_sub_template = "void F_FUNC({name},{upname})({args});\n"
|
|
|
|
|
|
def c_sub_decl(name, return_type, args):
|
|
args = make_c_args(args)
|
|
return c_sub_template.format(name=name, upname=name.upper(), args=args)
|
|
|
|
|
|
c_preamble = """#ifndef SCIPY_LINALG_{lib}_FORTRAN_WRAPPERS_H
|
|
#define SCIPY_LINALG_{lib}_FORTRAN_WRAPPERS_H
|
|
#include "fortran_defs.h"
|
|
#include "numpy/arrayobject.h"
|
|
"""
|
|
|
|
lapack_decls = """
|
|
typedef int (*_cselect1)(npy_complex64*);
|
|
typedef int (*_cselect2)(npy_complex64*, npy_complex64*);
|
|
typedef int (*_dselect2)(double*, double*);
|
|
typedef int (*_dselect3)(double*, double*, double*);
|
|
typedef int (*_sselect2)(float*, float*);
|
|
typedef int (*_sselect3)(float*, float*, float*);
|
|
typedef int (*_zselect1)(npy_complex128*);
|
|
typedef int (*_zselect2)(npy_complex128*, npy_complex128*);
|
|
"""
|
|
|
|
cpp_guard = """
|
|
#ifdef __cplusplus
|
|
extern "C" {
|
|
#endif
|
|
|
|
"""
|
|
|
|
c_end = """
|
|
#ifdef __cplusplus
|
|
}
|
|
#endif
|
|
#endif
|
|
"""
|
|
|
|
|
|
def generate_c_header(func_sigs, sub_sigs, all_sigs, lib_name):
|
|
funcs = "".join(c_func_decl(*sig) for sig in func_sigs)
|
|
subs = "\n" + "".join(c_sub_decl(*sig) for sig in sub_sigs)
|
|
if lib_name == 'LAPACK':
|
|
preamble = (c_preamble.format(lib=lib_name) + lapack_decls)
|
|
else:
|
|
preamble = c_preamble.format(lib=lib_name)
|
|
return "".join([preamble, cpp_guard, funcs, subs, c_end])
|
|
|
|
|
|
def split_signature(sig):
|
|
name_and_type, args = sig[:-1].split('(')
|
|
ret_type, name = name_and_type.split(' ')
|
|
return name, ret_type, args
|
|
|
|
|
|
def filter_lines(lines):
|
|
lines = [line for line in map(str.strip, lines)
|
|
if line and not line.startswith('#')]
|
|
func_sigs = [split_signature(line) for line in lines
|
|
if line.split(' ')[0] != 'void']
|
|
sub_sigs = [split_signature(line) for line in lines
|
|
if line.split(' ')[0] == 'void']
|
|
all_sigs = list(sorted(func_sigs + sub_sigs, key=itemgetter(0)))
|
|
return func_sigs, sub_sigs, all_sigs
|
|
|
|
|
|
def all_newer(src_files, dst_files):
|
|
from distutils.dep_util import newer
|
|
return all(os.path.exists(dst) and newer(dst, src)
|
|
for dst in dst_files for src in src_files)
|
|
|
|
|
|
def make_all(blas_signature_file="cython_blas_signatures.txt",
|
|
lapack_signature_file="cython_lapack_signatures.txt",
|
|
blas_name="cython_blas",
|
|
lapack_name="cython_lapack",
|
|
blas_fortran_name="_blas_subroutine_wrappers.f",
|
|
lapack_fortran_name="_lapack_subroutine_wrappers.f",
|
|
blas_header_name="_blas_subroutines.h",
|
|
lapack_header_name="_lapack_subroutines.h"):
|
|
|
|
src_files = (os.path.abspath(__file__),
|
|
blas_signature_file,
|
|
lapack_signature_file)
|
|
dst_files = (blas_name + '.pyx',
|
|
blas_name + '.pxd',
|
|
blas_fortran_name,
|
|
blas_header_name,
|
|
lapack_name + '.pyx',
|
|
lapack_name + '.pxd',
|
|
lapack_fortran_name,
|
|
lapack_header_name)
|
|
|
|
os.chdir(BASE_DIR)
|
|
|
|
if all_newer(src_files, dst_files):
|
|
print("scipy/linalg/_generate_pyx.py: all files up-to-date")
|
|
return
|
|
|
|
comments = ["This file was generated by _generate_pyx.py.\n",
|
|
"Do not edit this file directly.\n"]
|
|
ccomment = ''.join(['/* ' + line.rstrip() + ' */\n'
|
|
for line in comments]) + '\n'
|
|
pyxcomment = ''.join(['# ' + line for line in comments]) + '\n'
|
|
fcomment = ''.join(['c ' + line for line in comments]) + '\n'
|
|
with open(blas_signature_file, 'r') as f:
|
|
blas_sigs = f.readlines()
|
|
blas_sigs = filter_lines(blas_sigs)
|
|
blas_pyx = generate_blas_pyx(*(blas_sigs + (blas_header_name,)))
|
|
with open(blas_name + '.pyx', 'w') as f:
|
|
f.write(pyxcomment)
|
|
f.write(blas_pyx)
|
|
blas_pxd = generate_blas_pxd(blas_sigs[2])
|
|
with open(blas_name + '.pxd', 'w') as f:
|
|
f.write(pyxcomment)
|
|
f.write(blas_pxd)
|
|
blas_fortran = generate_fortran(blas_sigs[0])
|
|
with open(blas_fortran_name, 'w') as f:
|
|
f.write(fcomment)
|
|
f.write(blas_fortran)
|
|
blas_c_header = generate_c_header(*(blas_sigs + ('BLAS',)))
|
|
with open(blas_header_name, 'w') as f:
|
|
f.write(ccomment)
|
|
f.write(blas_c_header)
|
|
with open(lapack_signature_file, 'r') as f:
|
|
lapack_sigs = f.readlines()
|
|
lapack_sigs = filter_lines(lapack_sigs)
|
|
lapack_pyx = generate_lapack_pyx(*(lapack_sigs + (lapack_header_name,)))
|
|
with open(lapack_name + '.pyx', 'w') as f:
|
|
f.write(pyxcomment)
|
|
f.write(lapack_pyx)
|
|
lapack_pxd = generate_lapack_pxd(lapack_sigs[2])
|
|
with open(lapack_name + '.pxd', 'w') as f:
|
|
f.write(pyxcomment)
|
|
f.write(lapack_pxd)
|
|
lapack_fortran = generate_fortran(lapack_sigs[0])
|
|
with open(lapack_fortran_name, 'w') as f:
|
|
f.write(fcomment)
|
|
f.write(lapack_fortran)
|
|
lapack_c_header = generate_c_header(*(lapack_sigs + ('LAPACK',)))
|
|
with open(lapack_header_name, 'w') as f:
|
|
f.write(ccomment)
|
|
f.write(lapack_c_header)
|
|
|
|
|
|
if __name__ == '__main__':
|
|
make_all()
|
|
|