""" Copyright 1999 -- 2011 Pearu Peterson all rights reserved. Copyright 2011 -- present NumPy Developers. Permission to use, modify, and distribute this software is given under the terms of the NumPy License. NO WARRANTY IS EXPRESSED OR IMPLIED. USE AT YOUR OWN RISK. """ from . import __version__ f2py_version = __version__.version import copy import re import os from .crackfortran import markoutercomma from . import cb_rules from ._isocbind import iso_c_binding_map, isoc_c2pycode_map, iso_c2py_map # The environment provided by auxfuncs.py is needed for some calls to eval. # As the needed functions cannot be determined by static inspection of the # code, it is safest to use import * pending a major refactoring of f2py. from .auxfuncs import * __all__ = [ 'getctype', 'getstrlength', 'getarrdims', 'getpydocsign', 'getarrdocsign', 'getinit', 'sign2map', 'routsign2map', 'modsign2map', 'cb_sign2map', 'cb_routsign2map', 'common_sign2map', 'process_f2cmap_dict' ] depargs = [] lcb_map = {} lcb2_map = {} # forced casting: mainly caused by the fact that Python or Numeric # C/APIs do not support the corresponding C types. c2py_map = {'double': 'float', 'float': 'float', # forced casting 'long_double': 'float', # forced casting 'char': 'int', # forced casting 'signed_char': 'int', # forced casting 'unsigned_char': 'int', # forced casting 'short': 'int', # forced casting 'unsigned_short': 'int', # forced casting 'int': 'int', # forced casting 'long': 'int', 'long_long': 'long', 'unsigned': 'int', # forced casting 'complex_float': 'complex', # forced casting 'complex_double': 'complex', 'complex_long_double': 'complex', # forced casting 'string': 'string', 'character': 'bytes', } c2capi_map = {'double': 'NPY_DOUBLE', 'float': 'NPY_FLOAT', 'long_double': 'NPY_LONGDOUBLE', 'char': 'NPY_BYTE', 'unsigned_char': 'NPY_UBYTE', 'signed_char': 'NPY_BYTE', 'short': 'NPY_SHORT', 'unsigned_short': 'NPY_USHORT', 'int': 'NPY_INT', 'unsigned': 'NPY_UINT', 'long': 'NPY_LONG', 'unsigned_long': 'NPY_ULONG', 'long_long': 'NPY_LONGLONG', 'unsigned_long_long': 'NPY_ULONGLONG', 'complex_float': 'NPY_CFLOAT', 'complex_double': 'NPY_CDOUBLE', 'complex_long_double': 'NPY_CDOUBLE', 'string': 'NPY_STRING', 'character': 'NPY_STRING'} c2pycode_map = {'double': 'd', 'float': 'f', 'long_double': 'g', 'char': 'b', 'unsigned_char': 'B', 'signed_char': 'b', 'short': 'h', 'unsigned_short': 'H', 'int': 'i', 'unsigned': 'I', 'long': 'l', 'unsigned_long': 'L', 'long_long': 'q', 'unsigned_long_long': 'Q', 'complex_float': 'F', 'complex_double': 'D', 'complex_long_double': 'G', 'string': 'S', 'character': 'c'} # https://docs.python.org/3/c-api/arg.html#building-values c2buildvalue_map = {'double': 'd', 'float': 'f', 'char': 'b', 'signed_char': 'b', 'short': 'h', 'int': 'i', 'long': 'l', 'long_long': 'L', 'complex_float': 'N', 'complex_double': 'N', 'complex_long_double': 'N', 'string': 'y', 'character': 'c'} f2cmap_all = {'real': {'': 'float', '4': 'float', '8': 'double', '12': 'long_double', '16': 'long_double'}, 'integer': {'': 'int', '1': 'signed_char', '2': 'short', '4': 'int', '8': 'long_long', '-1': 'unsigned_char', '-2': 'unsigned_short', '-4': 'unsigned', '-8': 'unsigned_long_long'}, 'complex': {'': 'complex_float', '8': 'complex_float', '16': 'complex_double', '24': 'complex_long_double', '32': 'complex_long_double'}, 'complexkind': {'': 'complex_float', '4': 'complex_float', '8': 'complex_double', '12': 'complex_long_double', '16': 'complex_long_double'}, 'logical': {'': 'int', '1': 'char', '2': 'short', '4': 'int', '8': 'long_long'}, 'double complex': {'': 'complex_double'}, 'double precision': {'': 'double'}, 'byte': {'': 'char'}, } # Add ISO_C handling c2pycode_map.update(isoc_c2pycode_map) c2py_map.update(iso_c2py_map) f2cmap_all, _ = process_f2cmap_dict(f2cmap_all, iso_c_binding_map, c2py_map) # End ISO_C handling f2cmap_default = copy.deepcopy(f2cmap_all) f2cmap_mapped = [] def load_f2cmap_file(f2cmap_file): global f2cmap_all, f2cmap_mapped f2cmap_all = copy.deepcopy(f2cmap_default) if f2cmap_file is None: # Default value f2cmap_file = '.f2py_f2cmap' if not os.path.isfile(f2cmap_file): return # User defined additions to f2cmap_all. # f2cmap_file must contain a dictionary of dictionaries, only. For # example, {'real':{'low':'float'}} means that Fortran 'real(low)' is # interpreted as C 'float'. This feature is useful for F90/95 users if # they use PARAMETERS in type specifications. try: outmess('Reading f2cmap from {!r} ...\n'.format(f2cmap_file)) with open(f2cmap_file) as f: d = eval(f.read().lower(), {}, {}) f2cmap_all, f2cmap_mapped = process_f2cmap_dict(f2cmap_all, d, c2py_map, True) outmess('Successfully applied user defined f2cmap changes\n') except Exception as msg: errmess('Failed to apply user defined f2cmap changes: %s. Skipping.\n' % (msg)) cformat_map = {'double': '%g', 'float': '%g', 'long_double': '%Lg', 'char': '%d', 'signed_char': '%d', 'unsigned_char': '%hhu', 'short': '%hd', 'unsigned_short': '%hu', 'int': '%d', 'unsigned': '%u', 'long': '%ld', 'unsigned_long': '%lu', 'long_long': '%ld', 'complex_float': '(%g,%g)', 'complex_double': '(%g,%g)', 'complex_long_double': '(%Lg,%Lg)', 'string': '\\"%s\\"', 'character': "'%c'", } # Auxiliary functions def getctype(var): """ Determines C type """ ctype = 'void' if isfunction(var): if 'result' in var: a = var['result'] else: a = var['name'] if a in var['vars']: return getctype(var['vars'][a]) else: errmess('getctype: function %s has no return value?!\n' % a) elif issubroutine(var): return ctype elif ischaracter_or_characterarray(var): return 'character' elif isstring_or_stringarray(var): return 'string' elif 'typespec' in var and var['typespec'].lower() in f2cmap_all: typespec = var['typespec'].lower() f2cmap = f2cmap_all[typespec] ctype = f2cmap[''] # default type if 'kindselector' in var: if '*' in var['kindselector']: try: ctype = f2cmap[var['kindselector']['*']] except KeyError: errmess('getctype: "%s %s %s" not supported.\n' % (var['typespec'], '*', var['kindselector']['*'])) elif 'kind' in var['kindselector']: if typespec + 'kind' in f2cmap_all: f2cmap = f2cmap_all[typespec + 'kind'] try: ctype = f2cmap[var['kindselector']['kind']] except KeyError: if typespec in f2cmap_all: f2cmap = f2cmap_all[typespec] try: ctype = f2cmap[str(var['kindselector']['kind'])] except KeyError: errmess('getctype: "%s(kind=%s)" is mapped to C "%s" (to override define dict(%s = dict(%s="")) in %s/.f2py_f2cmap file).\n' % (typespec, var['kindselector']['kind'], ctype, typespec, var['kindselector']['kind'], os.getcwd())) else: if not isexternal(var): errmess('getctype: No C-type found in "%s", assuming void.\n' % var) return ctype def f2cexpr(expr): """Rewrite Fortran expression as f2py supported C expression. Due to the lack of a proper expression parser in f2py, this function uses a heuristic approach that assumes that Fortran arithmetic expressions are valid C arithmetic expressions when mapping Fortran function calls to the corresponding C function/CPP macros calls. """ # TODO: support Fortran `len` function with optional kind parameter expr = re.sub(r'\blen\b', 'f2py_slen', expr) return expr def getstrlength(var): if isstringfunction(var): if 'result' in var: a = var['result'] else: a = var['name'] if a in var['vars']: return getstrlength(var['vars'][a]) else: errmess('getstrlength: function %s has no return value?!\n' % a) if not isstring(var): errmess( 'getstrlength: expected a signature of a string but got: %s\n' % (repr(var))) len = '1' if 'charselector' in var: a = var['charselector'] if '*' in a: len = a['*'] elif 'len' in a: len = f2cexpr(a['len']) if re.match(r'\(\s*(\*|:)\s*\)', len) or re.match(r'(\*|:)', len): if isintent_hide(var): errmess('getstrlength:intent(hide): expected a string with defined length but got: %s\n' % ( repr(var))) len = '-1' return len def getarrdims(a, var, verbose=0): ret = {} if isstring(var) and not isarray(var): ret['size'] = getstrlength(var) ret['rank'] = '0' ret['dims'] = '' elif isscalar(var): ret['size'] = '1' ret['rank'] = '0' ret['dims'] = '' elif isarray(var): dim = copy.copy(var['dimension']) ret['size'] = '*'.join(dim) try: ret['size'] = repr(eval(ret['size'])) except Exception: pass ret['dims'] = ','.join(dim) ret['rank'] = repr(len(dim)) ret['rank*[-1]'] = repr(len(dim) * [-1])[1:-1] for i in range(len(dim)): # solve dim for dependencies v = [] if dim[i] in depargs: v = [dim[i]] else: for va in depargs: if re.match(r'.*?\b%s\b.*' % va, dim[i]): v.append(va) for va in v: if depargs.index(va) > depargs.index(a): dim[i] = '*' break ret['setdims'], i = '', -1 for d in dim: i = i + 1 if d not in ['*', ':', '(*)', '(:)']: ret['setdims'] = '%s#varname#_Dims[%d]=%s,' % ( ret['setdims'], i, d) if ret['setdims']: ret['setdims'] = ret['setdims'][:-1] ret['cbsetdims'], i = '', -1 for d in var['dimension']: i = i + 1 if d not in ['*', ':', '(*)', '(:)']: ret['cbsetdims'] = '%s#varname#_Dims[%d]=%s,' % ( ret['cbsetdims'], i, d) elif isintent_in(var): outmess('getarrdims:warning: assumed shape array, using 0 instead of %r\n' % (d)) ret['cbsetdims'] = '%s#varname#_Dims[%d]=%s,' % ( ret['cbsetdims'], i, 0) elif verbose: errmess( 'getarrdims: If in call-back function: array argument %s must have bounded dimensions: got %s\n' % (repr(a), repr(d))) if ret['cbsetdims']: ret['cbsetdims'] = ret['cbsetdims'][:-1] # if not isintent_c(var): # var['dimension'].reverse() return ret def getpydocsign(a, var): global lcb_map if isfunction(var): if 'result' in var: af = var['result'] else: af = var['name'] if af in var['vars']: return getpydocsign(af, var['vars'][af]) else: errmess('getctype: function %s has no return value?!\n' % af) return '', '' sig, sigout = a, a opt = '' if isintent_in(var): opt = 'input' elif isintent_inout(var): opt = 'in/output' out_a = a if isintent_out(var): for k in var['intent']: if k[:4] == 'out=': out_a = k[4:] break init = '' ctype = getctype(var) if hasinitvalue(var): init, showinit = getinit(a, var) init = ', optional\\n Default: %s' % showinit if isscalar(var): if isintent_inout(var): sig = '%s : %s rank-0 array(%s,\'%s\')%s' % (a, opt, c2py_map[ctype], c2pycode_map[ctype], init) else: sig = '%s : %s %s%s' % (a, opt, c2py_map[ctype], init) sigout = '%s : %s' % (out_a, c2py_map[ctype]) elif isstring(var): if isintent_inout(var): sig = '%s : %s rank-0 array(string(len=%s),\'c\')%s' % ( a, opt, getstrlength(var), init) else: sig = '%s : %s string(len=%s)%s' % ( a, opt, getstrlength(var), init) sigout = '%s : string(len=%s)' % (out_a, getstrlength(var)) elif isarray(var): dim = var['dimension'] rank = repr(len(dim)) sig = '%s : %s rank-%s array(\'%s\') with bounds (%s)%s' % (a, opt, rank, c2pycode_map[ ctype], ','.join(dim), init) if a == out_a: sigout = '%s : rank-%s array(\'%s\') with bounds (%s)'\ % (a, rank, c2pycode_map[ctype], ','.join(dim)) else: sigout = '%s : rank-%s array(\'%s\') with bounds (%s) and %s storage'\ % (out_a, rank, c2pycode_map[ctype], ','.join(dim), a) elif isexternal(var): ua = '' if a in lcb_map and lcb_map[a] in lcb2_map and 'argname' in lcb2_map[lcb_map[a]]: ua = lcb2_map[lcb_map[a]]['argname'] if not ua == a: ua = ' => %s' % ua else: ua = '' sig = '%s : call-back function%s' % (a, ua) sigout = sig else: errmess( 'getpydocsign: Could not resolve docsignature for "%s".\n' % a) return sig, sigout def getarrdocsign(a, var): ctype = getctype(var) if isstring(var) and (not isarray(var)): sig = '%s : rank-0 array(string(len=%s),\'c\')' % (a, getstrlength(var)) elif isscalar(var): sig = '%s : rank-0 array(%s,\'%s\')' % (a, c2py_map[ctype], c2pycode_map[ctype],) elif isarray(var): dim = var['dimension'] rank = repr(len(dim)) sig = '%s : rank-%s array(\'%s\') with bounds (%s)' % (a, rank, c2pycode_map[ ctype], ','.join(dim)) return sig def getinit(a, var): if isstring(var): init, showinit = '""', "''" else: init, showinit = '', '' if hasinitvalue(var): init = var['='] showinit = init if iscomplex(var) or iscomplexarray(var): ret = {} try: v = var["="] if ',' in v: ret['init.r'], ret['init.i'] = markoutercomma( v[1:-1]).split('@,@') else: v = eval(v, {}, {}) ret['init.r'], ret['init.i'] = str(v.real), str(v.imag) except Exception: raise ValueError( 'getinit: expected complex number `(r,i)\' but got `%s\' as initial value of %r.' % (init, a)) if isarray(var): init = '(capi_c.r=%s,capi_c.i=%s,capi_c)' % ( ret['init.r'], ret['init.i']) elif isstring(var): if not init: init, showinit = '""', "''" if init[0] == "'": init = '"%s"' % (init[1:-1].replace('"', '\\"')) if init[0] == '"': showinit = "'%s'" % (init[1:-1]) return init, showinit def get_elsize(var): if isstring(var) or isstringarray(var): elsize = getstrlength(var) # override with user-specified length when available: elsize = var['charselector'].get('f2py_len', elsize) return elsize if ischaracter(var) or ischaracterarray(var): return '1' # for numerical types, PyArray_New* functions ignore specified # elsize, so we just return 1 and let elsize be determined at # runtime, see fortranobject.c return '1' def sign2map(a, var): """ varname,ctype,atype init,init.r,init.i,pytype vardebuginfo,vardebugshowvalue,varshowvalue varrformat intent """ out_a = a if isintent_out(var): for k in var['intent']: if k[:4] == 'out=': out_a = k[4:] break ret = {'varname': a, 'outvarname': out_a, 'ctype': getctype(var)} intent_flags = [] for f, s in isintent_dict.items(): if f(var): intent_flags.append('F2PY_%s' % s) if intent_flags: # TODO: Evaluate intent_flags here. ret['intent'] = '|'.join(intent_flags) else: ret['intent'] = 'F2PY_INTENT_IN' if isarray(var): ret['varrformat'] = 'N' elif ret['ctype'] in c2buildvalue_map: ret['varrformat'] = c2buildvalue_map[ret['ctype']] else: ret['varrformat'] = 'O' ret['init'], ret['showinit'] = getinit(a, var) if hasinitvalue(var) and iscomplex(var) and not isarray(var): ret['init.r'], ret['init.i'] = markoutercomma( ret['init'][1:-1]).split('@,@') if isexternal(var): ret['cbnamekey'] = a if a in lcb_map: ret['cbname'] = lcb_map[a] ret['maxnofargs'] = lcb2_map[lcb_map[a]]['maxnofargs'] ret['nofoptargs'] = lcb2_map[lcb_map[a]]['nofoptargs'] ret['cbdocstr'] = lcb2_map[lcb_map[a]]['docstr'] ret['cblatexdocstr'] = lcb2_map[lcb_map[a]]['latexdocstr'] else: ret['cbname'] = a errmess('sign2map: Confused: external %s is not in lcb_map%s.\n' % ( a, list(lcb_map.keys()))) if isstring(var): ret['length'] = getstrlength(var) if isarray(var): ret = dictappend(ret, getarrdims(a, var)) dim = copy.copy(var['dimension']) if ret['ctype'] in c2capi_map: ret['atype'] = c2capi_map[ret['ctype']] ret['elsize'] = get_elsize(var) # Debug info if debugcapi(var): il = [isintent_in, 'input', isintent_out, 'output', isintent_inout, 'inoutput', isrequired, 'required', isoptional, 'optional', isintent_hide, 'hidden', iscomplex, 'complex scalar', l_and(isscalar, l_not(iscomplex)), 'scalar', isstring, 'string', isarray, 'array', iscomplexarray, 'complex array', isstringarray, 'string array', iscomplexfunction, 'complex function', l_and(isfunction, l_not(iscomplexfunction)), 'function', isexternal, 'callback', isintent_callback, 'callback', isintent_aux, 'auxiliary', ] rl = [] for i in range(0, len(il), 2): if il[i](var): rl.append(il[i + 1]) if isstring(var): rl.append('slen(%s)=%s' % (a, ret['length'])) if isarray(var): ddim = ','.join( map(lambda x, y: '%s|%s' % (x, y), var['dimension'], dim)) rl.append('dims(%s)' % ddim) if isexternal(var): ret['vardebuginfo'] = 'debug-capi:%s=>%s:%s' % ( a, ret['cbname'], ','.join(rl)) else: ret['vardebuginfo'] = 'debug-capi:%s %s=%s:%s' % ( ret['ctype'], a, ret['showinit'], ','.join(rl)) if isscalar(var): if ret['ctype'] in cformat_map: ret['vardebugshowvalue'] = 'debug-capi:%s=%s' % ( a, cformat_map[ret['ctype']]) if isstring(var): ret['vardebugshowvalue'] = 'debug-capi:slen(%s)=%%d %s=\\"%%s\\"' % ( a, a) if isexternal(var): ret['vardebugshowvalue'] = 'debug-capi:%s=%%p' % (a) if ret['ctype'] in cformat_map: ret['varshowvalue'] = '#name#:%s=%s' % (a, cformat_map[ret['ctype']]) ret['showvalueformat'] = '%s' % (cformat_map[ret['ctype']]) if isstring(var): ret['varshowvalue'] = '#name#:slen(%s)=%%d %s=\\"%%s\\"' % (a, a) ret['pydocsign'], ret['pydocsignout'] = getpydocsign(a, var) if hasnote(var): ret['note'] = var['note'] return ret def routsign2map(rout): """ name,NAME,begintitle,endtitle rname,ctype,rformat routdebugshowvalue """ global lcb_map name = rout['name'] fname = getfortranname(rout) ret = {'name': name, 'texname': name.replace('_', '\\_'), 'name_lower': name.lower(), 'NAME': name.upper(), 'begintitle': gentitle(name), 'endtitle': gentitle('end of %s' % name), 'fortranname': fname, 'FORTRANNAME': fname.upper(), 'callstatement': getcallstatement(rout) or '', 'usercode': getusercode(rout) or '', 'usercode1': getusercode1(rout) or '', } if '_' in fname: ret['F_FUNC'] = 'F_FUNC_US' else: ret['F_FUNC'] = 'F_FUNC' if '_' in name: ret['F_WRAPPEDFUNC'] = 'F_WRAPPEDFUNC_US' else: ret['F_WRAPPEDFUNC'] = 'F_WRAPPEDFUNC' lcb_map = {} if 'use' in rout: for u in rout['use'].keys(): if u in cb_rules.cb_map: for un in cb_rules.cb_map[u]: ln = un[0] if 'map' in rout['use'][u]: for k in rout['use'][u]['map'].keys(): if rout['use'][u]['map'][k] == un[0]: ln = k break lcb_map[ln] = un[1] elif 'externals' in rout and rout['externals']: errmess('routsign2map: Confused: function %s has externals %s but no "use" statement.\n' % ( ret['name'], repr(rout['externals']))) ret['callprotoargument'] = getcallprotoargument(rout, lcb_map) or '' if isfunction(rout): if 'result' in rout: a = rout['result'] else: a = rout['name'] ret['rname'] = a ret['pydocsign'], ret['pydocsignout'] = getpydocsign(a, rout) ret['ctype'] = getctype(rout['vars'][a]) if hasresultnote(rout): ret['resultnote'] = rout['vars'][a]['note'] rout['vars'][a]['note'] = ['See elsewhere.'] if ret['ctype'] in c2buildvalue_map: ret['rformat'] = c2buildvalue_map[ret['ctype']] else: ret['rformat'] = 'O' errmess('routsign2map: no c2buildvalue key for type %s\n' % (repr(ret['ctype']))) if debugcapi(rout): if ret['ctype'] in cformat_map: ret['routdebugshowvalue'] = 'debug-capi:%s=%s' % ( a, cformat_map[ret['ctype']]) if isstringfunction(rout): ret['routdebugshowvalue'] = 'debug-capi:slen(%s)=%%d %s=\\"%%s\\"' % ( a, a) if isstringfunction(rout): ret['rlength'] = getstrlength(rout['vars'][a]) if ret['rlength'] == '-1': errmess('routsign2map: expected explicit specification of the length of the string returned by the fortran function %s; taking 10.\n' % ( repr(rout['name']))) ret['rlength'] = '10' if hasnote(rout): ret['note'] = rout['note'] rout['note'] = ['See elsewhere.'] return ret def modsign2map(m): """ modulename """ if ismodule(m): ret = {'f90modulename': m['name'], 'F90MODULENAME': m['name'].upper(), 'texf90modulename': m['name'].replace('_', '\\_')} else: ret = {'modulename': m['name'], 'MODULENAME': m['name'].upper(), 'texmodulename': m['name'].replace('_', '\\_')} ret['restdoc'] = getrestdoc(m) or [] if hasnote(m): ret['note'] = m['note'] ret['usercode'] = getusercode(m) or '' ret['usercode1'] = getusercode1(m) or '' if m['body']: ret['interface_usercode'] = getusercode(m['body'][0]) or '' else: ret['interface_usercode'] = '' ret['pymethoddef'] = getpymethoddef(m) or '' if 'coutput' in m: ret['coutput'] = m['coutput'] if 'f2py_wrapper_output' in m: ret['f2py_wrapper_output'] = m['f2py_wrapper_output'] return ret def cb_sign2map(a, var, index=None): ret = {'varname': a} ret['varname_i'] = ret['varname'] ret['ctype'] = getctype(var) if ret['ctype'] in c2capi_map: ret['atype'] = c2capi_map[ret['ctype']] ret['elsize'] = get_elsize(var) if ret['ctype'] in cformat_map: ret['showvalueformat'] = '%s' % (cformat_map[ret['ctype']]) if isarray(var): ret = dictappend(ret, getarrdims(a, var)) ret['pydocsign'], ret['pydocsignout'] = getpydocsign(a, var) if hasnote(var): ret['note'] = var['note'] var['note'] = ['See elsewhere.'] return ret def cb_routsign2map(rout, um): """ name,begintitle,endtitle,argname ctype,rctype,maxnofargs,nofoptargs,returncptr """ ret = {'name': 'cb_%s_in_%s' % (rout['name'], um), 'returncptr': ''} if isintent_callback(rout): if '_' in rout['name']: F_FUNC = 'F_FUNC_US' else: F_FUNC = 'F_FUNC' ret['callbackname'] = '%s(%s,%s)' \ % (F_FUNC, rout['name'].lower(), rout['name'].upper(), ) ret['static'] = 'extern' else: ret['callbackname'] = ret['name'] ret['static'] = 'static' ret['argname'] = rout['name'] ret['begintitle'] = gentitle(ret['name']) ret['endtitle'] = gentitle('end of %s' % ret['name']) ret['ctype'] = getctype(rout) ret['rctype'] = 'void' if ret['ctype'] == 'string': ret['rctype'] = 'void' else: ret['rctype'] = ret['ctype'] if ret['rctype'] != 'void': if iscomplexfunction(rout): ret['returncptr'] = """ #ifdef F2PY_CB_RETURNCOMPLEX return_value= #endif """ else: ret['returncptr'] = 'return_value=' if ret['ctype'] in cformat_map: ret['showvalueformat'] = '%s' % (cformat_map[ret['ctype']]) if isstringfunction(rout): ret['strlength'] = getstrlength(rout) if isfunction(rout): if 'result' in rout: a = rout['result'] else: a = rout['name'] if hasnote(rout['vars'][a]): ret['note'] = rout['vars'][a]['note'] rout['vars'][a]['note'] = ['See elsewhere.'] ret['rname'] = a ret['pydocsign'], ret['pydocsignout'] = getpydocsign(a, rout) if iscomplexfunction(rout): ret['rctype'] = """ #ifdef F2PY_CB_RETURNCOMPLEX #ctype# #else void #endif """ else: if hasnote(rout): ret['note'] = rout['note'] rout['note'] = ['See elsewhere.'] nofargs = 0 nofoptargs = 0 if 'args' in rout and 'vars' in rout: for a in rout['args']: var = rout['vars'][a] if l_or(isintent_in, isintent_inout)(var): nofargs = nofargs + 1 if isoptional(var): nofoptargs = nofoptargs + 1 ret['maxnofargs'] = repr(nofargs) ret['nofoptargs'] = repr(nofoptargs) if hasnote(rout) and isfunction(rout) and 'result' in rout: ret['routnote'] = rout['note'] rout['note'] = ['See elsewhere.'] return ret def common_sign2map(a, var): # obsolute ret = {'varname': a, 'ctype': getctype(var)} if isstringarray(var): ret['ctype'] = 'char' if ret['ctype'] in c2capi_map: ret['atype'] = c2capi_map[ret['ctype']] ret['elsize'] = get_elsize(var) if ret['ctype'] in cformat_map: ret['showvalueformat'] = '%s' % (cformat_map[ret['ctype']]) if isarray(var): ret = dictappend(ret, getarrdims(a, var)) elif isstring(var): ret['size'] = getstrlength(var) ret['rank'] = '1' ret['pydocsign'], ret['pydocsignout'] = getpydocsign(a, var) if hasnote(var): ret['note'] = var['note'] var['note'] = ['See elsewhere.'] # for strings this returns 0-rank but actually is 1-rank ret['arrdocstr'] = getarrdocsign(a, var) return ret