Mercurial > hg > vamp-build-and-test
view DEPENDENCIES/mingw32/Python27/Lib/site-packages/numpy/f2py/capi_maps.py @ 128:3a8658f7e0b7
Add script to run build in Docker
| author | Chris Cannam |
|---|---|
| date | Thu, 07 Feb 2019 11:38:32 +0000 |
| parents | 2a2c65a20a8b |
| children |
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#!/usr/bin/env python """ Copyright 1999,2000 Pearu Peterson all rights reserved, Pearu Peterson <pearu@ioc.ee> 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. $Date: 2005/05/06 10:57:33 $ Pearu Peterson """ from __future__ import division, absolute_import, print_function __version__ = "$Revision: 1.60 $"[10:-1] from . import __version__ f2py_version = __version__.version import copy import re import os import sys from .auxfuncs import * from .crackfortran import markoutercomma from . import cb_rules # Numarray and Numeric users should set this False using_newcore = True 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', } c2capi_map={'double':'NPY_DOUBLE', 'float':'NPY_FLOAT', 'long_double':'NPY_DOUBLE', # forced casting 'char':'NPY_CHAR', 'unsigned_char':'NPY_UBYTE', 'signed_char':'NPY_BYTE', 'short':'NPY_SHORT', 'unsigned_short':'NPY_USHORT', 'int':'NPY_INT', 'unsigned':'NPY_UINT', 'long':'NPY_LONG', 'long_long':'NPY_LONG', # forced casting 'complex_float':'NPY_CFLOAT', 'complex_double':'NPY_CDOUBLE', 'complex_long_double':'NPY_CDOUBLE', # forced casting 'string':'NPY_CHAR'} #These new maps aren't used anyhere yet, but should be by default # unless building numeric or numarray extensions. if using_newcore: 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_CHAR', # f2py 2e is not ready for NPY_STRING (must set itemisize etc) #'string':'NPY_STRING' } c2pycode_map={'double':'d', 'float':'f', 'long_double':'d', # forced casting 'char':'1', 'signed_char':'1', 'unsigned_char':'b', 'short':'s', 'unsigned_short':'w', 'int':'i', 'unsigned':'u', 'long':'l', 'long_long':'L', 'complex_float':'F', 'complex_double':'D', 'complex_long_double':'D', # forced casting 'string':'c' } if using_newcore: 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'} 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':'z'} if sys.version_info[0] >= 3: # Bytes, not Unicode strings c2buildvalue_map['string'] = 'y' if using_newcore: #c2buildvalue_map=??? pass 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'}, 'character':{'':'string'} } if os.path.isfile('.f2py_f2cmap'): # User defined additions to f2cmap_all. # .f2py_f2cmap 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 PARAMETERSs # in type specifications. try: outmess('Reading .f2py_f2cmap ...\n') f = open('.f2py_f2cmap', 'r') d = eval(f.read(), {}, {}) f.close() for k, d1 in d.items(): for k1 in d1.keys(): d1[k1.lower()] = d1[k1] d[k.lower()] = d[k] for k in d.keys(): if k not in f2cmap_all: f2cmap_all[k]={} for k1 in d[k].keys(): if d[k][k1] in c2py_map: if k1 in f2cmap_all[k]: outmess("\tWarning: redefinition of {'%s':{'%s':'%s'->'%s'}}\n"%(k, k1, f2cmap_all[k][k1], d[k][k1])) f2cmap_all[k][k1] = d[k][k1] outmess('\tMapping "%s(kind=%s)" to "%s"\n' % (k, k1, d[k][k1])) else: errmess("\tIgnoring map {'%s':{'%s':'%s'}}: '%s' must be in %s\n"%(k, k1, d[k][k1], d[k][k1], list(c2py_map.keys()))) outmess('Succesfully applied user defined changes from .f2py_f2cmap\n') except Exception as msg: errmess('Failed to apply user defined changes from .f2py_f2cmap: %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', } ############### 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 '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="<C typespec>")) 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 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=a['len'] if re.match(r'\(\s*([*]|[:])\s*\)', len) or re.match(r'([*]|[:])', len): #if len in ['(*)','*','(:)',':']: 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): global depargs ret={} if isstring(var) and not isarray(var): ret['dims']=getstrlength(var) ret['size']=ret['dims'] ret['rank']='1' elif isscalar(var): ret['size']='1' ret['rank']='0' ret['dims']='' elif isarray(var): # if not isintent_c(var): # var['dimension'].reverse() dim=copy.copy(var['dimension']) ret['size']='*'.join(dim) try: ret['size']=repr(eval(ret['size'])) except: 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 dependecies 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: 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 sign2map(a, var): """ varname,ctype,atype init,init.r,init.i,pytype vardebuginfo,vardebugshowvalue,varshowvalue varrfromat intent """ global lcb_map, cb_map 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} ret['ctype']=getctype(var) intent_flags = [] for f, s in isintent_dict.items(): if f(var): intent_flags.append('F2PY_%s'%s) if intent_flags: #XXX: 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']] # 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', #ismutable,'mutable',l_not(ismutable),'immutable', ] 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): # if not isintent_c(var): # var['dimension'].reverse() ddim=','.join(map(lambda x, y:'%s|%s'%(x, y), var['dimension'], dim)) rl.append('dims(%s)'%ddim) # if not isintent_c(var): # var['dimension'].reverse() 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] #else: # errmess('routsign2map: cb_map does not contain module "%s" used in "use" statement.\n'%(u)) 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'] #m['note']=['See elsewhere.'] 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} if index is None or 1: # disable 7712 patch ret['varname_i'] = ret['varname'] else: ret['varname_i'] = ret['varname'] + '_' + str(index) ret['ctype']=getctype(var) if ret['ctype'] in c2capi_map: ret['atype']=c2capi_map[ret['ctype']] 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} ret['ctype']=getctype(var) if isstringarray(var): ret['ctype']='char' if ret['ctype'] in c2capi_map: ret['atype']=c2capi_map[ret['ctype']] 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.'] ret['arrdocstr']=getarrdocsign(a, var) # for strings this returns 0-rank but actually is 1-rank return ret