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#!/usr/bin/env python3 """ crackfortran --- read fortran (77,90) code and extract declaration information. Copyright 1999-2004 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: 2005/09/27 07:13:49 $ Pearu Peterson Usage of crackfortran: ====================== Command line keys: -quiet,-verbose,-fix,-f77,-f90,-show,-h <pyffilename> -m <module name for f77 routines>,--ignore-contains Functions: crackfortran, crack2fortran The following Fortran statements/constructions are supported (or will be if needed): block data,byte,call,character,common,complex,contains,data, dimension,double complex,double precision,end,external,function, implicit,integer,intent,interface,intrinsic, logical,module,optional,parameter,private,public, program,real,(sequence?),subroutine,type,use,virtual, include,pythonmodule Note: 'virtual' is mapped to 'dimension'. Note: 'implicit integer (z) static (z)' is 'implicit static (z)' (this is minor bug). Note: code after 'contains' will be ignored until its scope ends. Note: 'common' statement is extended: dimensions are moved to variable definitions Note: f2py directive: <commentchar>f2py<line> is read as <line> Note: pythonmodule is introduced to represent Python module Usage: `postlist=crackfortran(files)` `postlist` contains declaration information read from the list of files `files`. `crack2fortran(postlist)` returns a fortran code to be saved to pyf-file `postlist` has the following structure: *** it is a list of dictionaries containing `blocks': B = {'block','body','vars','parent_block'[,'name','prefix','args','result', 'implicit','externals','interfaced','common','sortvars', 'commonvars','note']} B['block'] = 'interface' | 'function' | 'subroutine' | 'module' | 'program' | 'block data' | 'type' | 'pythonmodule' | 'abstract interface' B['body'] --- list containing `subblocks' with the same structure as `blocks' B['parent_block'] --- dictionary of a parent block: C['body'][<index>]['parent_block'] is C B['vars'] --- dictionary of variable definitions B['sortvars'] --- dictionary of variable definitions sorted by dependence (independent first) B['name'] --- name of the block (not if B['block']=='interface') B['prefix'] --- prefix string (only if B['block']=='function') B['args'] --- list of argument names if B['block']== 'function' | 'subroutine' B['result'] --- name of the return value (only if B['block']=='function') B['implicit'] --- dictionary {'a':<variable definition>,'b':...} | None B['externals'] --- list of variables being external B['interfaced'] --- list of variables being external and defined B['common'] --- dictionary of common blocks (list of objects) B['commonvars'] --- list of variables used in common blocks (dimensions are moved to variable definitions) B['from'] --- string showing the 'parents' of the current block B['use'] --- dictionary of modules used in current block: {<modulename>:{['only':<0|1>],['map':{<local_name1>:<use_name1>,...}]}} B['note'] --- list of LaTeX comments on the block B['f2pyenhancements'] --- optional dictionary {'threadsafe':'','fortranname':<name>, 'callstatement':<C-expr>|<multi-line block>, 'callprotoargument':<C-expr-list>, 'usercode':<multi-line block>|<list of multi-line blocks>, 'pymethoddef:<multi-line block>' } B['entry'] --- dictionary {entryname:argslist,..} B['varnames'] --- list of variable names given in the order of reading the Fortran code, useful for derived types. B['saved_interface'] --- a string of scanned routine signature, defines explicit interface *** Variable definition is a dictionary D = B['vars'][<variable name>] = {'typespec'[,'attrspec','kindselector','charselector','=','typename']} D['typespec'] = 'byte' | 'character' | 'complex' | 'double complex' | 'double precision' | 'integer' | 'logical' | 'real' | 'type' D['attrspec'] --- list of attributes (e.g. 'dimension(<arrayspec>)', 'external','intent(in|out|inout|hide|c|callback|cache|aligned4|aligned8|aligned16)', 'optional','required', etc) K = D['kindselector'] = {['*','kind']} (only if D['typespec'] = 'complex' | 'integer' | 'logical' | 'real' ) C = D['charselector'] = {['*','len','kind','f2py_len']} (only if D['typespec']=='character') D['='] --- initialization expression string D['typename'] --- name of the type if D['typespec']=='type' D['dimension'] --- list of dimension bounds D['intent'] --- list of intent specifications D['depend'] --- list of variable names on which current variable depends on D['check'] --- list of C-expressions; if C-expr returns zero, exception is raised D['note'] --- list of LaTeX comments on the variable *** Meaning of kind/char selectors (few examples): D['typespec>']*K['*'] D['typespec'](kind=K['kind']) character*C['*'] character(len=C['len'],kind=C['kind'], f2py_len=C['f2py_len']) (see also fortran type declaration statement formats below) Fortran 90 type declaration statement format (F77 is subset of F90) ==================================================================== (Main source: IBM XL Fortran 5.1 Language Reference Manual) type declaration = <typespec> [[<attrspec>]::] <entitydecl> <typespec> = byte | character[<charselector>] | complex[<kindselector>] | double complex | double precision | integer[<kindselector>] | logical[<kindselector>] | real[<kindselector>] | type(<typename>) <charselector> = * <charlen> | ([len=]<len>[,[kind=]<kind>]) | (kind=<kind>[,len=<len>]) <kindselector> = * <intlen> | ([kind=]<kind>) <attrspec> = comma separated list of attributes. Only the following attributes are used in building up the interface: external (parameter --- affects '=' key) optional intent Other attributes are ignored. <intentspec> = in | out | inout <arrayspec> = comma separated list of dimension bounds. <entitydecl> = <name> [[*<charlen>][(<arrayspec>)] | [(<arrayspec>)]*<charlen>] [/<init_expr>/ | =<init_expr>] [,<entitydecl>] In addition, the following attributes are used: check,depend,note TODO: * Apply 'parameter' attribute (e.g. 'integer parameter :: i=2' 'real x(i)' -> 'real x(2)') The above may be solved by creating appropriate preprocessor program, for example. """ import sys import string import fileinput import re import os import copy import platform import codecs from pathlib import Path try: import charset_normalizer except ImportError: charset_normalizer = None from . import __version__ # 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 * from . import symbolic f2py_version = __version__.version # Global flags: strictf77 = 1 # Ignore `!' comments unless line[0]=='!' sourcecodeform = 'fix' # 'fix','free' quiet = 0 # Be verbose if 0 (Obsolete: not used any more) verbose = 1 # Be quiet if 0, extra verbose if > 1. tabchar = 4 * ' ' pyffilename = '' f77modulename = '' skipemptyends = 0 # for old F77 programs without 'program' statement ignorecontains = 1 dolowercase = 1 debug = [] # Global variables beginpattern = '' currentfilename = '' expectbegin = 1 f90modulevars = {} filepositiontext = '' gotnextfile = 1 groupcache = None groupcounter = 0 grouplist = {groupcounter: []} groupname = '' include_paths = [] neededmodule = -1 onlyfuncs = [] previous_context = None skipblocksuntil = -1 skipfuncs = [] skipfunctions = [] usermodules = [] def reset_global_f2py_vars(): global groupcounter, grouplist, neededmodule, expectbegin global skipblocksuntil, usermodules, f90modulevars, gotnextfile global filepositiontext, currentfilename, skipfunctions, skipfuncs global onlyfuncs, include_paths, previous_context global strictf77, sourcecodeform, quiet, verbose, tabchar, pyffilename global f77modulename, skipemptyends, ignorecontains, dolowercase, debug # flags strictf77 = 1 sourcecodeform = 'fix' quiet = 0 verbose = 1 tabchar = 4 * ' ' pyffilename = '' f77modulename = '' skipemptyends = 0 ignorecontains = 1 dolowercase = 1 debug = [] # variables groupcounter = 0 grouplist = {groupcounter: []} neededmodule = -1 expectbegin = 1 skipblocksuntil = -1 usermodules = [] f90modulevars = {} gotnextfile = 1 filepositiontext = '' currentfilename = '' skipfunctions = [] skipfuncs = [] onlyfuncs = [] include_paths = [] previous_context = None def outmess(line, flag=1): global filepositiontext if not verbose: return if not quiet: if flag: sys.stdout.write(filepositiontext) sys.stdout.write(line) re._MAXCACHE = 50 defaultimplicitrules = {} for c in "abcdefghopqrstuvwxyz$_": defaultimplicitrules[c] = {'typespec': 'real'} for c in "ijklmn": defaultimplicitrules[c] = {'typespec': 'integer'} badnames = {} invbadnames = {} for n in ['int', 'double', 'float', 'char', 'short', 'long', 'void', 'case', 'while', 'return', 'signed', 'unsigned', 'if', 'for', 'typedef', 'sizeof', 'union', 'struct', 'static', 'register', 'new', 'break', 'do', 'goto', 'switch', 'continue', 'else', 'inline', 'extern', 'delete', 'const', 'auto', 'len', 'rank', 'shape', 'index', 'slen', 'size', '_i', 'max', 'min', 'flen', 'fshape', 'string', 'complex_double', 'float_double', 'stdin', 'stderr', 'stdout', 'type', 'default']: badnames[n] = n + '_bn' invbadnames[n + '_bn'] = n def rmbadname1(name): if name in badnames: errmess('rmbadname1: Replacing "%s" with "%s".\n' % (name, badnames[name])) return badnames[name] return name def rmbadname(names): return [rmbadname1(_m) for _m in names] def undo_rmbadname1(name): if name in invbadnames: errmess('undo_rmbadname1: Replacing "%s" with "%s".\n' % (name, invbadnames[name])) return invbadnames[name] return name def undo_rmbadname(names): return [undo_rmbadname1(_m) for _m in names] _has_f_header = re.compile(r'-\*-\s*fortran\s*-\*-', re.I).search _has_f90_header = re.compile(r'-\*-\s*f90\s*-\*-', re.I).search _has_fix_header = re.compile(r'-\*-\s*fix\s*-\*-', re.I).search _free_f90_start = re.compile(r'[^c*]\s*[^\s\d\t]', re.I).match # Extensions COMMON_FREE_EXTENSIONS = ['.f90', '.f95', '.f03', '.f08'] COMMON_FIXED_EXTENSIONS = ['.for', '.ftn', '.f77', '.f'] def openhook(filename, mode): """Ensures that filename is opened with correct encoding parameter. This function uses charset_normalizer package, when available, for determining the encoding of the file to be opened. When charset_normalizer is not available, the function detects only UTF encodings, otherwise, ASCII encoding is used as fallback. """ # Reads in the entire file. Robust detection of encoding. # Correctly handles comments or late stage unicode characters # gh-22871 if charset_normalizer is not None: encoding = charset_normalizer.from_path(filename).best().encoding else: # hint: install charset_normalizer for correct encoding handling # No need to read the whole file for trying with startswith nbytes = min(32, os.path.getsize(filename)) with open(filename, 'rb') as fhandle: raw = fhandle.read(nbytes) if raw.startswith(codecs.BOM_UTF8): encoding = 'UTF-8-SIG' elif raw.startswith((codecs.BOM_UTF32_LE, codecs.BOM_UTF32_BE)): encoding = 'UTF-32' elif raw.startswith((codecs.BOM_LE, codecs.BOM_BE)): encoding = 'UTF-16' else: # Fallback, without charset_normalizer encoding = 'ascii' return open(filename, mode, encoding=encoding) def is_free_format(fname): """Check if file is in free format Fortran.""" # f90 allows both fixed and free format, assuming fixed unless # signs of free format are detected. result = False if Path(fname).suffix.lower() in COMMON_FREE_EXTENSIONS: result = True with openhook(fname, 'r') as fhandle: line = fhandle.readline() n = 15 # the number of non-comment lines to scan for hints if _has_f_header(line): n = 0 elif _has_f90_header(line): n = 0 result = True while n > 0 and line: if line[0] != '!' and line.strip(): n -= 1 if (line[0] != '\t' and _free_f90_start(line[:5])) or line[-2:-1] == '&': result = True break line = fhandle.readline() return result # Read fortran (77,90) code def readfortrancode(ffile, dowithline=show, istop=1): """ Read fortran codes from files and 1) Get rid of comments, line continuations, and empty lines; lower cases. 2) Call dowithline(line) on every line. 3) Recursively call itself when statement \"include '<filename>'\" is met. """ global gotnextfile, filepositiontext, currentfilename, sourcecodeform, strictf77 global beginpattern, quiet, verbose, dolowercase, include_paths if not istop: saveglobals = gotnextfile, filepositiontext, currentfilename, sourcecodeform, strictf77,\ beginpattern, quiet, verbose, dolowercase if ffile == []: return localdolowercase = dolowercase # cont: set to True when the content of the last line read # indicates statement continuation cont = False finalline = '' ll = '' includeline = re.compile( r'\s*include\s*(\'|")(?P<name>[^\'"]*)(\'|")', re.I) cont1 = re.compile(r'(?P<line>.*)&\s*\Z') cont2 = re.compile(r'(\s*&|)(?P<line>.*)') mline_mark = re.compile(r".*?'''") if istop: dowithline('', -1) ll, l1 = '', '' spacedigits = [' '] + [str(_m) for _m in range(10)] filepositiontext = '' fin = fileinput.FileInput(ffile, openhook=openhook) while True: try: l = fin.readline() except UnicodeDecodeError as msg: raise Exception( f'readfortrancode: reading {fin.filename()}#{fin.lineno()}' f' failed with\n{msg}.\nIt is likely that installing charset_normalizer' ' package will help f2py determine the input file encoding' ' correctly.') if not l: break if fin.isfirstline(): filepositiontext = '' currentfilename = fin.filename() gotnextfile = 1 l1 = l strictf77 = 0 sourcecodeform = 'fix' ext = os.path.splitext(currentfilename)[1] if Path(currentfilename).suffix.lower() in COMMON_FIXED_EXTENSIONS and \ not (_has_f90_header(l) or _has_fix_header(l)): strictf77 = 1 elif is_free_format(currentfilename) and not _has_fix_header(l): sourcecodeform = 'free' if strictf77: beginpattern = beginpattern77 else: beginpattern = beginpattern90 outmess('\tReading file %s (format:%s%s)\n' % (repr(currentfilename), sourcecodeform, strictf77 and ',strict' or '')) l = l.expandtabs().replace('\xa0', ' ') # Get rid of newline characters while not l == '': if l[-1] not in "\n\r\f": break l = l[:-1] if not strictf77: (l, rl) = split_by_unquoted(l, '!') l += ' ' if rl[:5].lower() == '!f2py': # f2py directive l, _ = split_by_unquoted(l + 4 * ' ' + rl[5:], '!') if l.strip() == '': # Skip empty line if sourcecodeform == 'free': # In free form, a statement continues in the next line # that is not a comment line [3.3.2.4^1], lines with # blanks are comment lines [3.3.2.3^1]. Hence, the # line continuation flag must retain its state. pass else: # In fixed form, statement continuation is determined # by a non-blank character at the 6-th position. Empty # line indicates a start of a new statement # [3.3.3.3^1]. Hence, the line continuation flag must # be reset. cont = False continue if sourcecodeform == 'fix': if l[0] in ['*', 'c', '!', 'C', '#']: if l[1:5].lower() == 'f2py': # f2py directive l = ' ' + l[5:] else: # Skip comment line cont = False continue elif strictf77: if len(l) > 72: l = l[:72] if not (l[0] in spacedigits): raise Exception('readfortrancode: Found non-(space,digit) char ' 'in the first column.\n\tAre you sure that ' 'this code is in fix form?\n\tline=%s' % repr(l)) if (not cont or strictf77) and (len(l) > 5 and not l[5] == ' '): # Continuation of a previous line ll = ll + l[6:] finalline = '' origfinalline = '' else: if not strictf77: # F90 continuation r = cont1.match(l) if r: l = r.group('line') # Continuation follows .. if cont: ll = ll + cont2.match(l).group('line') finalline = '' origfinalline = '' else: # clean up line beginning from possible digits. l = ' ' + l[5:] if localdolowercase: finalline = ll.lower() else: finalline = ll origfinalline = ll ll = l cont = (r is not None) else: # clean up line beginning from possible digits. l = ' ' + l[5:] if localdolowercase: finalline = ll.lower() else: finalline = ll origfinalline = ll ll = l elif sourcecodeform == 'free': if not cont and ext == '.pyf' and mline_mark.match(l): l = l + '\n' while True: lc = fin.readline() if not lc: errmess( 'Unexpected end of file when reading multiline\n') break l = l + lc if mline_mark.match(lc): break l = l.rstrip() r = cont1.match(l) if r: l = r.group('line') # Continuation follows .. if cont: ll = ll + cont2.match(l).group('line') finalline = '' origfinalline = '' else: if localdolowercase: finalline = ll.lower() else: finalline = ll origfinalline = ll ll = l cont = (r is not None) else: raise ValueError( "Flag sourcecodeform must be either 'fix' or 'free': %s" % repr(sourcecodeform)) filepositiontext = 'Line #%d in %s:"%s"\n\t' % ( fin.filelineno() - 1, currentfilename, l1) m = includeline.match(origfinalline) if m: fn = m.group('name') if os.path.isfile(fn): readfortrancode(fn, dowithline=dowithline, istop=0) else: include_dirs = [ os.path.dirname(currentfilename)] + include_paths foundfile = 0 for inc_dir in include_dirs: fn1 = os.path.join(inc_dir, fn) if os.path.isfile(fn1): foundfile = 1 readfortrancode(fn1, dowithline=dowithline, istop=0) break if not foundfile: outmess('readfortrancode: could not find include file %s in %s. Ignoring.\n' % ( repr(fn), os.pathsep.join(include_dirs))) else: dowithline(finalline) l1 = ll if localdolowercase: finalline = ll.lower() else: finalline = ll origfinalline = ll filepositiontext = 'Line #%d in %s:"%s"\n\t' % ( fin.filelineno() - 1, currentfilename, l1) m = includeline.match(origfinalline) if m: fn = m.group('name') if os.path.isfile(fn): readfortrancode(fn, dowithline=dowithline, istop=0) else: include_dirs = [os.path.dirname(currentfilename)] + include_paths foundfile = 0 for inc_dir in include_dirs: fn1 = os.path.join(inc_dir, fn) if os.path.isfile(fn1): foundfile = 1 readfortrancode(fn1, dowithline=dowithline, istop=0) break if not foundfile: outmess('readfortrancode: could not find include file %s in %s. Ignoring.\n' % ( repr(fn), os.pathsep.join(include_dirs))) else: dowithline(finalline) filepositiontext = '' fin.close() if istop: dowithline('', 1) else: gotnextfile, filepositiontext, currentfilename, sourcecodeform, strictf77,\ beginpattern, quiet, verbose, dolowercase = saveglobals # Crack line beforethisafter = r'\s*(?P<before>%s(?=\s*(\b(%s)\b)))' + \ r'\s*(?P<this>(\b(%s)\b))' + \ r'\s*(?P<after>%s)\s*\Z' ## fortrantypes = r'character|logical|integer|real|complex|double\s*(precision\s*(complex|)|complex)|type(?=\s*\([\w\s,=(*)]*\))|byte' typespattern = re.compile( beforethisafter % ('', fortrantypes, fortrantypes, '.*'), re.I), 'type' typespattern4implicit = re.compile(beforethisafter % ( '', fortrantypes + '|static|automatic|undefined', fortrantypes + '|static|automatic|undefined', '.*'), re.I) # functionpattern = re.compile(beforethisafter % ( r'([a-z]+[\w\s(=*+-/)]*?|)', 'function', 'function', '.*'), re.I), 'begin' subroutinepattern = re.compile(beforethisafter % ( r'[a-z\s]*?', 'subroutine', 'subroutine', '.*'), re.I), 'begin' # modulepattern=re.compile(beforethisafter%('[a-z\s]*?','module','module','.*'),re.I),'begin' # groupbegins77 = r'program|block\s*data' beginpattern77 = re.compile( beforethisafter % ('', groupbegins77, groupbegins77, '.*'), re.I), 'begin' groupbegins90 = groupbegins77 + \ r'|module(?!\s*procedure)|python\s*module|(abstract|)\s*interface|' + \ r'type(?!\s*\()' beginpattern90 = re.compile( beforethisafter % ('', groupbegins90, groupbegins90, '.*'), re.I), 'begin' groupends = (r'end|endprogram|endblockdata|endmodule|endpythonmodule|' r'endinterface|endsubroutine|endfunction') endpattern = re.compile( beforethisafter % ('', groupends, groupends, '.*'), re.I), 'end' endifs = r'end\s*(if|do|where|select|while|forall|associate|block|' + \ r'critical|enum|team)' endifpattern = re.compile( beforethisafter % (r'[\w]*?', endifs, endifs, '.*'), re.I), 'endif' # moduleprocedures = r'module\s*procedure' moduleprocedurepattern = re.compile( beforethisafter % ('', moduleprocedures, moduleprocedures, '.*'), re.I), \ 'moduleprocedure' implicitpattern = re.compile( beforethisafter % ('', 'implicit', 'implicit', '.*'), re.I), 'implicit' dimensionpattern = re.compile(beforethisafter % ( '', 'dimension|virtual', 'dimension|virtual', '.*'), re.I), 'dimension' externalpattern = re.compile( beforethisafter % ('', 'external', 'external', '.*'), re.I), 'external' optionalpattern = re.compile( beforethisafter % ('', 'optional', 'optional', '.*'), re.I), 'optional' requiredpattern = re.compile( beforethisafter % ('', 'required', 'required', '.*'), re.I), 'required' publicpattern = re.compile( beforethisafter % ('', 'public', 'public', '.*'), re.I), 'public' privatepattern = re.compile( beforethisafter % ('', 'private', 'private', '.*'), re.I), 'private' intrinsicpattern = re.compile( beforethisafter % ('', 'intrinsic', 'intrinsic', '.*'), re.I), 'intrinsic' intentpattern = re.compile(beforethisafter % ( '', 'intent|depend|note|check', 'intent|depend|note|check', r'\s*\(.*?\).*'), re.I), 'intent' parameterpattern = re.compile( beforethisafter % ('', 'parameter', 'parameter', r'\s*\(.*'), re.I), 'parameter' datapattern = re.compile( beforethisafter % ('', 'data', 'data', '.*'), re.I), 'data' callpattern = re.compile( beforethisafter % ('', 'call', 'call', '.*'), re.I), 'call' entrypattern = re.compile( beforethisafter % ('', 'entry', 'entry', '.*'), re.I), 'entry' callfunpattern = re.compile( beforethisafter % ('', 'callfun', 'callfun', '.*'), re.I), 'callfun' commonpattern = re.compile( beforethisafter % ('', 'common', 'common', '.*'), re.I), 'common' usepattern = re.compile( beforethisafter % ('', 'use', 'use', '.*'), re.I), 'use' containspattern = re.compile( beforethisafter % ('', 'contains', 'contains', ''), re.I), 'contains' formatpattern = re.compile( beforethisafter % ('', 'format', 'format', '.*'), re.I), 'format' # Non-fortran and f2py-specific statements f2pyenhancementspattern = re.compile(beforethisafter % ('', 'threadsafe|fortranname|callstatement|callprotoargument|usercode|pymethoddef', 'threadsafe|fortranname|callstatement|callprotoargument|usercode|pymethoddef', '.*'), re.I | re.S), 'f2pyenhancements' multilinepattern = re.compile( r"\s*(?P<before>''')(?P<this>.*?)(?P<after>''')\s*\Z", re.S), 'multiline' ## def split_by_unquoted(line, characters): """ Splits the line into (line[:i], line[i:]), where i is the index of first occurrence of one of the characters not within quotes, or len(line) if no such index exists """ assert not (set('"\'') & set(characters)), "cannot split by unquoted quotes" r = re.compile( r"\A(?P<before>({single_quoted}|{double_quoted}|{not_quoted})*)" r"(?P<after>{char}.*)\Z".format( not_quoted="[^\"'{}]".format(re.escape(characters)), char="[{}]".format(re.escape(characters)), single_quoted=r"('([^'\\]|(\\.))*')", double_quoted=r'("([^"\\]|(\\.))*")')) m = r.match(line) if m: d = m.groupdict() return (d["before"], d["after"]) return (line, "") def _simplifyargs(argsline): a = [] for n in markoutercomma(argsline).split('@,@'): for r in '(),': n = n.replace(r, '_') a.append(n) return ','.join(a) crackline_re_1 = re.compile(r'\s*(?P<result>\b[a-z]+\w*\b)\s*=.*', re.I) def crackline(line, reset=0): """ reset=-1 --- initialize reset=0 --- crack the line reset=1 --- final check if mismatch of blocks occurred Cracked data is saved in grouplist[0]. """ global beginpattern, groupcounter, groupname, groupcache, grouplist global filepositiontext, currentfilename, neededmodule, expectbegin global skipblocksuntil, skipemptyends, previous_context, gotnextfile _, has_semicolon = split_by_unquoted(line, ";") if has_semicolon and not (f2pyenhancementspattern[0].match(line) or multilinepattern[0].match(line)): # XXX: non-zero reset values need testing assert reset == 0, repr(reset) # split line on unquoted semicolons line, semicolon_line = split_by_unquoted(line, ";") while semicolon_line: crackline(line, reset) line, semicolon_line = split_by_unquoted(semicolon_line[1:], ";") crackline(line, reset) return if reset < 0: groupcounter = 0 groupname = {groupcounter: ''} groupcache = {groupcounter: {}} grouplist = {groupcounter: []} groupcache[groupcounter]['body'] = [] groupcache[groupcounter]['vars'] = {} groupcache[groupcounter]['block'] = '' groupcache[groupcounter]['name'] = '' neededmodule = -1 skipblocksuntil = -1 return if reset > 0: fl = 0 if f77modulename and neededmodule == groupcounter: fl = 2 while groupcounter > fl: outmess('crackline: groupcounter=%s groupname=%s\n' % (repr(groupcounter), repr(groupname))) outmess( 'crackline: Mismatch of blocks encountered. Trying to fix it by assuming "end" statement.\n') grouplist[groupcounter - 1].append(groupcache[groupcounter]) grouplist[groupcounter - 1][-1]['body'] = grouplist[groupcounter] del grouplist[groupcounter] groupcounter = groupcounter - 1 if f77modulename and neededmodule == groupcounter: grouplist[groupcounter - 1].append(groupcache[groupcounter]) grouplist[groupcounter - 1][-1]['body'] = grouplist[groupcounter] del grouplist[groupcounter] groupcounter = groupcounter - 1 # end interface grouplist[groupcounter - 1].append(groupcache[groupcounter]) grouplist[groupcounter - 1][-1]['body'] = grouplist[groupcounter] del grouplist[groupcounter] groupcounter = groupcounter - 1 # end module neededmodule = -1 return if line == '': return flag = 0 for pat in [dimensionpattern, externalpattern, intentpattern, optionalpattern, requiredpattern, parameterpattern, datapattern, publicpattern, privatepattern, intrinsicpattern, endifpattern, endpattern, formatpattern, beginpattern, functionpattern, subroutinepattern, implicitpattern, typespattern, commonpattern, callpattern, usepattern, containspattern, entrypattern, f2pyenhancementspattern, multilinepattern, moduleprocedurepattern ]: m = pat[0].match(line) if m: break flag = flag + 1 if not m: re_1 = crackline_re_1 if 0 <= skipblocksuntil <= groupcounter: return if 'externals' in groupcache[groupcounter]: for name in groupcache[groupcounter]['externals']: if name in invbadnames: name = invbadnames[name] if 'interfaced' in groupcache[groupcounter] and name in groupcache[groupcounter]['interfaced']: continue m1 = re.match( r'(?P<before>[^"]*)\b%s\b\s*@\(@(?P<args>[^@]*)@\)@.*\Z' % name, markouterparen(line), re.I) if m1: m2 = re_1.match(m1.group('before')) a = _simplifyargs(m1.group('args')) if m2: line = 'callfun %s(%s) result (%s)' % ( name, a, m2.group('result')) else: line = 'callfun %s(%s)' % (name, a) m = callfunpattern[0].match(line) if not m: outmess( 'crackline: could not resolve function call for line=%s.\n' % repr(line)) return analyzeline(m, 'callfun', line) return if verbose > 1 or (verbose == 1 and currentfilename.lower().endswith('.pyf')): previous_context = None outmess('crackline:%d: No pattern for line\n' % (groupcounter)) return elif pat[1] == 'end': if 0 <= skipblocksuntil < groupcounter: groupcounter = groupcounter - 1 if skipblocksuntil <= groupcounter: return if groupcounter <= 0: raise Exception('crackline: groupcounter(=%s) is nonpositive. ' 'Check the blocks.' % (groupcounter)) m1 = beginpattern[0].match((line)) if (m1) and (not m1.group('this') == groupname[groupcounter]): raise Exception('crackline: End group %s does not match with ' 'previous Begin group %s\n\t%s' % (repr(m1.group('this')), repr(groupname[groupcounter]), filepositiontext) ) if skipblocksuntil == groupcounter: skipblocksuntil = -1 grouplist[groupcounter - 1].append(groupcache[groupcounter]) grouplist[groupcounter - 1][-1]['body'] = grouplist[groupcounter] del grouplist[groupcounter] groupcounter = groupcounter - 1 if not skipemptyends: expectbegin = 1 elif pat[1] == 'begin': if 0 <= skipblocksuntil <= groupcounter: groupcounter = groupcounter + 1 return gotnextfile = 0 analyzeline(m, pat[1], line) expectbegin = 0 elif pat[1] == 'endif': pass elif pat[1] == 'moduleprocedure': analyzeline(m, pat[1], line) elif pat[1] == 'contains': if ignorecontains: return if 0 <= skipblocksuntil <= groupcounter: return skipblocksuntil = groupcounter else: if 0 <= skipblocksuntil <= groupcounter: return analyzeline(m, pat[1], line) def markouterparen(line): l = '' f = 0 for c in line: if c == '(': f = f + 1 if f == 1: l = l + '@(@' continue elif c == ')': f = f - 1 if f == 0: l = l + '@)@' continue l = l + c return l def markoutercomma(line, comma=','): l = '' f = 0 before, after = split_by_unquoted(line, comma + '()') l += before while after: if (after[0] == comma) and (f == 0): l += '@' + comma + '@' else: l += after[0] if after[0] == '(': f += 1 elif after[0] == ')': f -= 1 before, after = split_by_unquoted(after[1:], comma + '()') l += before assert not f, repr((f, line, l)) return l def unmarkouterparen(line): r = line.replace('@(@', '(').replace('@)@', ')') return r def appenddecl(decl, decl2, force=1): if not decl: decl = {} if not decl2: return decl if decl is decl2: return decl for k in list(decl2.keys()): if k == 'typespec': if force or k not in decl: decl[k] = decl2[k] elif k == 'attrspec': for l in decl2[k]: decl = setattrspec(decl, l, force) elif k == 'kindselector': decl = setkindselector(decl, decl2[k], force) elif k == 'charselector': decl = setcharselector(decl, decl2[k], force) elif k in ['=', 'typename']: if force or k not in decl: decl[k] = decl2[k] elif k == 'note': pass elif k in ['intent', 'check', 'dimension', 'optional', 'required', 'depend']: errmess('appenddecl: "%s" not implemented.\n' % k) else: raise Exception('appenddecl: Unknown variable definition key: ' + str(k)) return decl selectpattern = re.compile( r'\s*(?P<this>(@\(@.*?@\)@|\*[\d*]+|\*\s*@\(@.*?@\)@|))(?P<after>.*)\Z', re.I) typedefpattern = re.compile( r'(?:,(?P<attributes>[\w(),]+))?(::)?(?P<name>\b[a-z$_][\w$]*\b)' r'(?:\((?P<params>[\w,]*)\))?\Z', re.I) nameargspattern = re.compile( r'\s*(?P<name>\b[\w$]+\b)\s*(@\(@\s*(?P<args>[\w\s,]*)\s*@\)@|)\s*((result(\s*@\(@\s*(?P<result>\b[\w$]+\b)\s*@\)@|))|(bind\s*@\(@\s*(?P<bind>(?:(?!@\)@).)*)\s*@\)@))*\s*\Z', re.I) operatorpattern = re.compile( r'\s*(?P<scheme>(operator|assignment))' r'@\(@\s*(?P<name>[^)]+)\s*@\)@\s*\Z', re.I) callnameargspattern = re.compile( r'\s*(?P<name>\b[\w$]+\b)\s*@\(@\s*(?P<args>.*)\s*@\)@\s*\Z', re.I) real16pattern = re.compile( r'([-+]?(?:\d+(?:\.\d*)?|\d*\.\d+))[dD]((?:[-+]?\d+)?)') real8pattern = re.compile( r'([-+]?((?:\d+(?:\.\d*)?|\d*\.\d+))[eE]((?:[-+]?\d+)?)|(\d+\.\d*))') _intentcallbackpattern = re.compile(r'intent\s*\(.*?\bcallback\b', re.I) def _is_intent_callback(vdecl): for a in vdecl.get('attrspec', []): if _intentcallbackpattern.match(a): return 1 return 0 def _resolvetypedefpattern(line): line = ''.join(line.split()) # removes whitespace m1 = typedefpattern.match(line) print(line, m1) if m1: attrs = m1.group('attributes') attrs = [a.lower() for a in attrs.split(',')] if attrs else [] return m1.group('name'), attrs, m1.group('params') return None, [], None def _resolvenameargspattern(line): line = markouterparen(line) m1 = nameargspattern.match(line) if m1: return m1.group('name'), m1.group('args'), m1.group('result'), m1.group('bind') m1 = operatorpattern.match(line) if m1: name = m1.group('scheme') + '(' + m1.group('name') + ')' return name, [], None, None m1 = callnameargspattern.match(line) if m1: return m1.group('name'), m1.group('args'), None, None return None, [], None, None def analyzeline(m, case, line): global groupcounter, groupname, groupcache, grouplist, filepositiontext global currentfilename, f77modulename, neededinterface, neededmodule global expectbegin, gotnextfile, previous_context block = m.group('this') if case != 'multiline': previous_context = None if expectbegin and case not in ['begin', 'call', 'callfun', 'type'] \ and not skipemptyends and groupcounter < 1: newname = os.path.basename(currentfilename).split('.')[0] outmess( 'analyzeline: no group yet. Creating program group with name "%s".\n' % newname) gotnextfile = 0 groupcounter = groupcounter + 1 groupname[groupcounter] = 'program' groupcache[groupcounter] = {} grouplist[groupcounter] = [] groupcache[groupcounter]['body'] = [] groupcache[groupcounter]['vars'] = {} groupcache[groupcounter]['block'] = 'program' groupcache[groupcounter]['name'] = newname groupcache[groupcounter]['from'] = 'fromsky' expectbegin = 0 if case in ['begin', 'call', 'callfun']: # Crack line => block,name,args,result block = block.lower() if re.match(r'block\s*data', block, re.I): block = 'block data' elif re.match(r'python\s*module', block, re.I): block = 'python module' elif re.match(r'abstract\s*interface', block, re.I): block = 'abstract interface' if block == 'type': name, attrs, _ = _resolvetypedefpattern(m.group('after')) groupcache[groupcounter]['vars'][name] = dict(attrspec = attrs) args = [] result = None else: name, args, result, _ = _resolvenameargspattern(m.group('after')) if name is None: if block == 'block data': name = '_BLOCK_DATA_' else: name = '' if block not in ['interface', 'block data', 'abstract interface']: outmess('analyzeline: No name/args pattern found for line.\n') previous_context = (block, name, groupcounter) if args: args = rmbadname([x.strip() for x in markoutercomma(args).split('@,@')]) else: args = [] if '' in args: while '' in args: args.remove('') outmess( 'analyzeline: argument list is malformed (missing argument).\n') # end of crack line => block,name,args,result needmodule = 0 needinterface = 0 if case in ['call', 'callfun']: needinterface = 1 if 'args' not in groupcache[groupcounter]: return if name not in groupcache[groupcounter]['args']: return for it in grouplist[groupcounter]: if it['name'] == name: return if name in groupcache[groupcounter]['interfaced']: return block = {'call': 'subroutine', 'callfun': 'function'}[case] if f77modulename and neededmodule == -1 and groupcounter <= 1: neededmodule = groupcounter + 2 needmodule = 1 if block not in ['interface', 'abstract interface']: needinterface = 1 # Create new block(s) groupcounter = groupcounter + 1 groupcache[groupcounter] = {} grouplist[groupcounter] = [] if needmodule: if verbose > 1: outmess('analyzeline: Creating module block %s\n' % repr(f77modulename), 0) groupname[groupcounter] = 'module' groupcache[groupcounter]['block'] = 'python module' groupcache[groupcounter]['name'] = f77modulename groupcache[groupcounter]['from'] = '' groupcache[groupcounter]['body'] = [] groupcache[groupcounter]['externals'] = [] groupcache[groupcounter]['interfaced'] = [] groupcache[groupcounter]['vars'] = {} groupcounter = groupcounter + 1 groupcache[groupcounter] = {} grouplist[groupcounter] = [] if needinterface: if verbose > 1: outmess('analyzeline: Creating additional interface block (groupcounter=%s).\n' % ( groupcounter), 0) groupname[groupcounter] = 'interface' groupcache[groupcounter]['block'] = 'interface' groupcache[groupcounter]['name'] = 'unknown_interface' groupcache[groupcounter]['from'] = '%s:%s' % ( groupcache[groupcounter - 1]['from'], groupcache[groupcounter - 1]['name']) groupcache[groupcounter]['body'] = [] groupcache[groupcounter]['externals'] = [] groupcache[groupcounter]['interfaced'] = [] groupcache[groupcounter]['vars'] = {} groupcounter = groupcounter + 1 groupcache[groupcounter] = {} grouplist[groupcounter] = [] groupname[groupcounter] = block groupcache[groupcounter]['block'] = block if not name: name = 'unknown_' + block.replace(' ', '_') groupcache[groupcounter]['prefix'] = m.group('before') groupcache[groupcounter]['name'] = rmbadname1(name) groupcache[groupcounter]['result'] = result if groupcounter == 1: groupcache[groupcounter]['from'] = currentfilename else: if f77modulename and groupcounter == 3: groupcache[groupcounter]['from'] = '%s:%s' % ( groupcache[groupcounter - 1]['from'], currentfilename) else: groupcache[groupcounter]['from'] = '%s:%s' % ( groupcache[groupcounter - 1]['from'], groupcache[groupcounter - 1]['name']) for k in list(groupcache[groupcounter].keys()): if not groupcache[groupcounter][k]: del groupcache[groupcounter][k] groupcache[groupcounter]['args'] = args groupcache[groupcounter]['body'] = [] groupcache[groupcounter]['externals'] = [] groupcache[groupcounter]['interfaced'] = [] groupcache[groupcounter]['vars'] = {} groupcache[groupcounter]['entry'] = {} # end of creation if block == 'type': groupcache[groupcounter]['varnames'] = [] if case in ['call', 'callfun']: # set parents variables if name not in groupcache[groupcounter - 2]['externals']: groupcache[groupcounter - 2]['externals'].append(name) groupcache[groupcounter]['vars'] = copy.deepcopy( groupcache[groupcounter - 2]['vars']) try: del groupcache[groupcounter]['vars'][name][ groupcache[groupcounter]['vars'][name]['attrspec'].index('external')] except Exception: pass if block in ['function', 'subroutine']: # set global attributes try: groupcache[groupcounter]['vars'][name] = appenddecl( groupcache[groupcounter]['vars'][name], groupcache[groupcounter - 2]['vars']['']) except Exception: pass if case == 'callfun': # return type if result and result in groupcache[groupcounter]['vars']: if not name == result: groupcache[groupcounter]['vars'][name] = appenddecl( groupcache[groupcounter]['vars'][name], groupcache[groupcounter]['vars'][result]) # if groupcounter>1: # name is interfaced try: groupcache[groupcounter - 2]['interfaced'].append(name) except Exception: pass if block == 'function': t = typespattern[0].match(m.group('before') + ' ' + name) if t: typespec, selector, attr, edecl = cracktypespec0( t.group('this'), t.group('after')) updatevars(typespec, selector, attr, edecl) if case in ['call', 'callfun']: grouplist[groupcounter - 1].append(groupcache[groupcounter]) grouplist[groupcounter - 1][-1]['body'] = grouplist[groupcounter] del grouplist[groupcounter] groupcounter = groupcounter - 1 # end routine grouplist[groupcounter - 1].append(groupcache[groupcounter]) grouplist[groupcounter - 1][-1]['body'] = grouplist[groupcounter] del grouplist[groupcounter] groupcounter = groupcounter - 1 # end interface elif case == 'entry': name, args, result, bind = _resolvenameargspattern(m.group('after')) if name is not None: if args: args = rmbadname([x.strip() for x in markoutercomma(args).split('@,@')]) else: args = [] assert result is None, repr(result) groupcache[groupcounter]['entry'][name] = args previous_context = ('entry', name, groupcounter) elif case == 'type': typespec, selector, attr, edecl = cracktypespec0( block, m.group('after')) last_name = updatevars(typespec, selector, attr, edecl) if last_name is not None: previous_context = ('variable', last_name, groupcounter) elif case in ['dimension', 'intent', 'optional', 'required', 'external', 'public', 'private', 'intrinsic']: edecl = groupcache[groupcounter]['vars'] ll = m.group('after').strip() i = ll.find('::') if i < 0 and case == 'intent': i = markouterparen(ll).find('@)@') - 2 ll = ll[:i + 1] + '::' + ll[i + 1:] i = ll.find('::') if ll[i:] == '::' and 'args' in groupcache[groupcounter]: outmess('All arguments will have attribute %s%s\n' % (m.group('this'), ll[:i])) ll = ll + ','.join(groupcache[groupcounter]['args']) if i < 0: i = 0 pl = '' else: pl = ll[:i].strip() ll = ll[i + 2:] ch = markoutercomma(pl).split('@,@') if len(ch) > 1: pl = ch[0] outmess('analyzeline: cannot handle multiple attributes without type specification. Ignoring %r.\n' % ( ','.join(ch[1:]))) last_name = None for e in [x.strip() for x in markoutercomma(ll).split('@,@')]: m1 = namepattern.match(e) if not m1: if case in ['public', 'private']: k = '' else: print(m.groupdict()) outmess('analyzeline: no name pattern found in %s statement for %s. Skipping.\n' % ( case, repr(e))) continue else: k = rmbadname1(m1.group('name')) if case in ['public', 'private'] and \ (k == 'operator' or k == 'assignment'): k += m1.group('after') if k not in edecl: edecl[k] = {} if case == 'dimension': ap = case + m1.group('after') if case == 'intent': ap = m.group('this') + pl if _intentcallbackpattern.match(ap): if k not in groupcache[groupcounter]['args']: if groupcounter > 1: if '__user__' not in groupcache[groupcounter - 2]['name']: outmess( 'analyzeline: missing __user__ module (could be nothing)\n') # fixes ticket 1693 if k != groupcache[groupcounter]['name']: outmess('analyzeline: appending intent(callback) %s' ' to %s arguments\n' % (k, groupcache[groupcounter]['name'])) groupcache[groupcounter]['args'].append(k) else: errmess( 'analyzeline: intent(callback) %s is ignored\n' % (k)) else: errmess('analyzeline: intent(callback) %s is already' ' in argument list\n' % (k)) if case in ['optional', 'required', 'public', 'external', 'private', 'intrinsic']: ap = case if 'attrspec' in edecl[k]: edecl[k]['attrspec'].append(ap) else: edecl[k]['attrspec'] = [ap] if case == 'external': if groupcache[groupcounter]['block'] == 'program': outmess('analyzeline: ignoring program arguments\n') continue if k not in groupcache[groupcounter]['args']: continue if 'externals' not in groupcache[groupcounter]: groupcache[groupcounter]['externals'] = [] groupcache[groupcounter]['externals'].append(k) last_name = k groupcache[groupcounter]['vars'] = edecl if last_name is not None: previous_context = ('variable', last_name, groupcounter) elif case == 'moduleprocedure': groupcache[groupcounter]['implementedby'] = \ [x.strip() for x in m.group('after').split(',')] elif case == 'parameter': edecl = groupcache[groupcounter]['vars'] ll = m.group('after').strip()[1:-1] last_name = None for e in markoutercomma(ll).split('@,@'): try: k, initexpr = [x.strip() for x in e.split('=')] except Exception: outmess( 'analyzeline: could not extract name,expr in parameter statement "%s" of "%s"\n' % (e, ll)) continue params = get_parameters(edecl) k = rmbadname1(k) if k not in edecl: edecl[k] = {} if '=' in edecl[k] and (not edecl[k]['='] == initexpr): outmess('analyzeline: Overwriting the value of parameter "%s" ("%s") with "%s".\n' % ( k, edecl[k]['='], initexpr)) t = determineexprtype(initexpr, params) if t: if t.get('typespec') == 'real': tt = list(initexpr) for m in real16pattern.finditer(initexpr): tt[m.start():m.end()] = list( initexpr[m.start():m.end()].lower().replace('d', 'e')) initexpr = ''.join(tt) elif t.get('typespec') == 'complex': initexpr = initexpr[1:].lower().replace('d', 'e').\ replace(',', '+1j*(') try: v = eval(initexpr, {}, params) except (SyntaxError, NameError, TypeError) as msg: errmess('analyzeline: Failed to evaluate %r. Ignoring: %s\n' % (initexpr, msg)) continue edecl[k]['='] = repr(v) if 'attrspec' in edecl[k]: edecl[k]['attrspec'].append('parameter') else: edecl[k]['attrspec'] = ['parameter'] last_name = k groupcache[groupcounter]['vars'] = edecl if last_name is not None: previous_context = ('variable', last_name, groupcounter) elif case == 'implicit': if m.group('after').strip().lower() == 'none': groupcache[groupcounter]['implicit'] = None elif m.group('after'): if 'implicit' in groupcache[groupcounter]: impl = groupcache[groupcounter]['implicit'] else: impl = {} if impl is None: outmess( 'analyzeline: Overwriting earlier "implicit none" statement.\n') impl = {} for e in markoutercomma(m.group('after')).split('@,@'): decl = {} m1 = re.match( r'\s*(?P<this>.*?)\s*(\(\s*(?P<after>[a-z-, ]+)\s*\)\s*|)\Z', e, re.I) if not m1: outmess( 'analyzeline: could not extract info of implicit statement part "%s"\n' % (e)) continue m2 = typespattern4implicit.match(m1.group('this')) if not m2: outmess( 'analyzeline: could not extract types pattern of implicit statement part "%s"\n' % (e)) continue typespec, selector, attr, edecl = cracktypespec0( m2.group('this'), m2.group('after')) kindselect, charselect, typename = cracktypespec( typespec, selector) decl['typespec'] = typespec decl['kindselector'] = kindselect decl['charselector'] = charselect decl['typename'] = typename for k in list(decl.keys()): if not decl[k]: del decl[k] for r in markoutercomma(m1.group('after')).split('@,@'): if '-' in r: try: begc, endc = [x.strip() for x in r.split('-')] except Exception: outmess( 'analyzeline: expected "<char>-<char>" instead of "%s" in range list of implicit statement\n' % r) continue else: begc = endc = r.strip() if not len(begc) == len(endc) == 1: outmess( 'analyzeline: expected "<char>-<char>" instead of "%s" in range list of implicit statement (2)\n' % r) continue for o in range(ord(begc), ord(endc) + 1): impl[chr(o)] = decl groupcache[groupcounter]['implicit'] = impl elif case == 'data': ll = [] dl = '' il = '' f = 0 fc = 1 inp = 0 for c in m.group('after'): if not inp: if c == "'": fc = not fc if c == '/' and fc: f = f + 1 continue if c == '(': inp = inp + 1 elif c == ')': inp = inp - 1 if f == 0: dl = dl + c elif f == 1: il = il + c elif f == 2: dl = dl.strip() if dl.startswith(','): dl = dl[1:].strip() ll.append([dl, il]) dl = c il = '' f = 0 if f == 2: dl = dl.strip() if dl.startswith(','): dl = dl[1:].strip() ll.append([dl, il]) vars = {} if 'vars' in groupcache[groupcounter]: vars = groupcache[groupcounter]['vars'] last_name = None for l in ll: l = [x.strip() for x in l] if l[0][0] == ',': l[0] = l[0][1:] if l[0][0] == '(': outmess( 'analyzeline: implied-DO list "%s" is not supported. Skipping.\n' % l[0]) continue i = 0 j = 0 llen = len(l[1]) for v in rmbadname([x.strip() for x in markoutercomma(l[0]).split('@,@')]): if v[0] == '(': outmess( 'analyzeline: implied-DO list "%s" is not supported. Skipping.\n' % v) # XXX: subsequent init expressions may get wrong values. # Ignoring since data statements are irrelevant for # wrapping. continue fc = 0 while (i < llen) and (fc or not l[1][i] == ','): if l[1][i] == "'": fc = not fc i = i + 1 i = i + 1 if v not in vars: vars[v] = {} if '=' in vars[v] and not vars[v]['='] == l[1][j:i - 1]: outmess('analyzeline: changing init expression of "%s" ("%s") to "%s"\n' % ( v, vars[v]['='], l[1][j:i - 1])) vars[v]['='] = l[1][j:i - 1] j = i last_name = v groupcache[groupcounter]['vars'] = vars if last_name is not None: previous_context = ('variable', last_name, groupcounter) elif case == 'common': line = m.group('after').strip() if not line[0] == '/': line = '//' + line cl = [] f = 0 bn = '' ol = '' for c in line: if c == '/': f = f + 1 continue if f >= 3: bn = bn.strip() if not bn: bn = '_BLNK_' cl.append([bn, ol]) f = f - 2 bn = '' ol = '' if f % 2: bn = bn + c else: ol = ol + c bn = bn.strip() if not bn: bn = '_BLNK_' cl.append([bn, ol]) commonkey = {} if 'common' in groupcache[groupcounter]: commonkey = groupcache[groupcounter]['common'] for c in cl: if c[0] not in commonkey: commonkey[c[0]] = [] for i in [x.strip() for x in markoutercomma(c[1]).split('@,@')]: if i: commonkey[c[0]].append(i) groupcache[groupcounter]['common'] = commonkey previous_context = ('common', bn, groupcounter) elif case == 'use': m1 = re.match( r'\A\s*(?P<name>\b\w+\b)\s*((,(\s*\bonly\b\s*:|(?P<notonly>))\s*(?P<list>.*))|)\s*\Z', m.group('after'), re.I) if m1: mm = m1.groupdict() if 'use' not in groupcache[groupcounter]: groupcache[groupcounter]['use'] = {} name = m1.group('name') groupcache[groupcounter]['use'][name] = {} isonly = 0 if 'list' in mm and mm['list'] is not None: if 'notonly' in mm and mm['notonly'] is None: isonly = 1 groupcache[groupcounter]['use'][name]['only'] = isonly ll = [x.strip() for x in mm['list'].split(',')] rl = {} for l in ll: if '=' in l: m2 = re.match( r'\A\s*(?P<local>\b\w+\b)\s*=\s*>\s*(?P<use>\b\w+\b)\s*\Z', l, re.I) if m2: rl[m2.group('local').strip()] = m2.group( 'use').strip() else: outmess( 'analyzeline: Not local=>use pattern found in %s\n' % repr(l)) else: rl[l] = l groupcache[groupcounter]['use'][name]['map'] = rl else: pass else: print(m.groupdict()) outmess('analyzeline: Could not crack the use statement.\n') elif case in ['f2pyenhancements']: if 'f2pyenhancements' not in groupcache[groupcounter]: groupcache[groupcounter]['f2pyenhancements'] = {} d = groupcache[groupcounter]['f2pyenhancements'] if m.group('this') == 'usercode' and 'usercode' in d: if isinstance(d['usercode'], str): d['usercode'] = [d['usercode']] d['usercode'].append(m.group('after')) else: d[m.group('this')] = m.group('after') elif case == 'multiline': if previous_context is None: if verbose: outmess('analyzeline: No context for multiline block.\n') return gc = groupcounter appendmultiline(groupcache[gc], previous_context[:2], m.group('this')) else: if verbose > 1: print(m.groupdict()) outmess('analyzeline: No code implemented for line.\n') def appendmultiline(group, context_name, ml): if 'f2pymultilines' not in group: group['f2pymultilines'] = {} d = group['f2pymultilines'] if context_name not in d: d[context_name] = [] d[context_name].append(ml) return def cracktypespec0(typespec, ll): selector = None attr = None if re.match(r'double\s*complex', typespec, re.I): typespec = 'double complex' elif re.match(r'double\s*precision', typespec, re.I): typespec = 'double precision' else: typespec = typespec.strip().lower() m1 = selectpattern.match(markouterparen(ll)) if not m1: outmess( 'cracktypespec0: no kind/char_selector pattern found for line.\n') return d = m1.groupdict() for k in list(d.keys()): d[k] = unmarkouterparen(d[k]) if typespec in ['complex', 'integer', 'logical', 'real', 'character', 'type']: selector = d['this'] ll = d['after'] i = ll.find('::') if i >= 0: attr = ll[:i].strip() ll = ll[i + 2:] return typespec, selector, attr, ll ##### namepattern = re.compile(r'\s*(?P<name>\b\w+\b)\s*(?P<after>.*)\s*\Z', re.I) kindselector = re.compile( r'\s*(\(\s*(kind\s*=)?\s*(?P<kind>.*)\s*\)|\*\s*(?P<kind2>.*?))\s*\Z', re.I) charselector = re.compile( r'\s*(\((?P<lenkind>.*)\)|\*\s*(?P<charlen>.*))\s*\Z', re.I) lenkindpattern = re.compile( r'\s*(kind\s*=\s*(?P<kind>.*?)\s*(@,@\s*len\s*=\s*(?P<len>.*)|)' r'|(len\s*=\s*|)(?P<len2>.*?)\s*(@,@\s*(kind\s*=\s*|)(?P<kind2>.*)' r'|(f2py_len\s*=\s*(?P<f2py_len>.*))|))\s*\Z', re.I) lenarraypattern = re.compile( r'\s*(@\(@\s*(?!/)\s*(?P<array>.*?)\s*@\)@\s*\*\s*(?P<len>.*?)|(\*\s*(?P<len2>.*?)|)\s*(@\(@\s*(?!/)\s*(?P<array2>.*?)\s*@\)@|))\s*(=\s*(?P<init>.*?)|(@\(@|)/\s*(?P<init2>.*?)\s*/(@\)@|)|)\s*\Z', re.I) def removespaces(expr): expr = expr.strip() if len(expr) <= 1: return expr expr2 = expr[0] for i in range(1, len(expr) - 1): if (expr[i] == ' ' and ((expr[i + 1] in "()[]{}=+-/* ") or (expr[i - 1] in "()[]{}=+-/* "))): continue expr2 = expr2 + expr[i] expr2 = expr2 + expr[-1] return expr2 def markinnerspaces(line): """ The function replace all spaces in the input variable line which are surrounded with quotation marks, with the triplet "@_@". For instance, for the input "a 'b c'" the function returns "a 'b@_@c'" Parameters ---------- line : str Returns ------- str """ fragment = '' inside = False current_quote = None escaped = '' for c in line: if escaped == '\\' and c in ['\\', '\'', '"']: fragment += c escaped = c continue if not inside and c in ['\'', '"']: current_quote = c if c == current_quote: inside = not inside elif c == ' ' and inside: fragment += '@_@' continue fragment += c escaped = c # reset to non-backslash return fragment def updatevars(typespec, selector, attrspec, entitydecl): global groupcache, groupcounter last_name = None kindselect, charselect, typename = cracktypespec(typespec, selector) if attrspec: attrspec = [x.strip() for x in markoutercomma(attrspec).split('@,@')] l = [] c = re.compile(r'(?P<start>[a-zA-Z]+)') for a in attrspec: if not a: continue m = c.match(a) if m: s = m.group('start').lower() a = s + a[len(s):] l.append(a) attrspec = l el = [x.strip() for x in markoutercomma(entitydecl).split('@,@')] el1 = [] for e in el: for e1 in [x.strip() for x in markoutercomma(removespaces(markinnerspaces(e)), comma=' ').split('@ @')]: if e1: el1.append(e1.replace('@_@', ' ')) for e in el1: m = namepattern.match(e) if not m: outmess( 'updatevars: no name pattern found for entity=%s. Skipping.\n' % (repr(e))) continue ename = rmbadname1(m.group('name')) edecl = {} if ename in groupcache[groupcounter]['vars']: edecl = groupcache[groupcounter]['vars'][ename].copy() not_has_typespec = 'typespec' not in edecl if not_has_typespec: edecl['typespec'] = typespec elif typespec and (not typespec == edecl['typespec']): outmess('updatevars: attempt to change the type of "%s" ("%s") to "%s". Ignoring.\n' % ( ename, edecl['typespec'], typespec)) if 'kindselector' not in edecl: edecl['kindselector'] = copy.copy(kindselect) elif kindselect: for k in list(kindselect.keys()): if k in edecl['kindselector'] and (not kindselect[k] == edecl['kindselector'][k]): outmess('updatevars: attempt to change the kindselector "%s" of "%s" ("%s") to "%s". Ignoring.\n' % ( k, ename, edecl['kindselector'][k], kindselect[k])) else: edecl['kindselector'][k] = copy.copy(kindselect[k]) if 'charselector' not in edecl and charselect: if not_has_typespec: edecl['charselector'] = charselect else: errmess('updatevars:%s: attempt to change empty charselector to %r. Ignoring.\n' % (ename, charselect)) elif charselect: for k in list(charselect.keys()): if k in edecl['charselector'] and (not charselect[k] == edecl['charselector'][k]): outmess('updatevars: attempt to change the charselector "%s" of "%s" ("%s") to "%s". Ignoring.\n' % ( k, ename, edecl['charselector'][k], charselect[k])) else: edecl['charselector'][k] = copy.copy(charselect[k]) if 'typename' not in edecl: edecl['typename'] = typename elif typename and (not edecl['typename'] == typename): outmess('updatevars: attempt to change the typename of "%s" ("%s") to "%s". Ignoring.\n' % ( ename, edecl['typename'], typename)) if 'attrspec' not in edecl: edecl['attrspec'] = copy.copy(attrspec) elif attrspec: for a in attrspec: if a not in edecl['attrspec']: edecl['attrspec'].append(a) else: edecl['typespec'] = copy.copy(typespec) edecl['kindselector'] = copy.copy(kindselect) edecl['charselector'] = copy.copy(charselect) edecl['typename'] = typename edecl['attrspec'] = copy.copy(attrspec) if 'external' in (edecl.get('attrspec') or []) and e in groupcache[groupcounter]['args']: if 'externals' not in groupcache[groupcounter]: groupcache[groupcounter]['externals'] = [] groupcache[groupcounter]['externals'].append(e) if m.group('after'): m1 = lenarraypattern.match(markouterparen(m.group('after'))) if m1: d1 = m1.groupdict() for lk in ['len', 'array', 'init']: if d1[lk + '2'] is not None: d1[lk] = d1[lk + '2'] del d1[lk + '2'] for k in list(d1.keys()): if d1[k] is not None: d1[k] = unmarkouterparen(d1[k]) else: del d1[k] if 'len' in d1: if typespec in ['complex', 'integer', 'logical', 'real']: if ('kindselector' not in edecl) or (not edecl['kindselector']): edecl['kindselector'] = {} edecl['kindselector']['*'] = d1['len'] del d1['len'] elif typespec == 'character': if ('charselector' not in edecl) or (not edecl['charselector']): edecl['charselector'] = {} if 'len' in edecl['charselector']: del edecl['charselector']['len'] edecl['charselector']['*'] = d1['len'] del d1['len'] if 'init' in d1: if '=' in edecl and (not edecl['='] == d1['init']): outmess('updatevars: attempt to change the init expression of "%s" ("%s") to "%s". Ignoring.\n' % ( ename, edecl['='], d1['init'])) else: edecl['='] = d1['init'] if 'len' in d1 and 'array' in d1: if d1['len'] == '': d1['len'] = d1['array'] del d1['array'] else: d1['array'] = d1['array'] + ',' + d1['len'] del d1['len'] errmess('updatevars: "%s %s" is mapped to "%s %s(%s)"\n' % ( typespec, e, typespec, ename, d1['array'])) if 'array' in d1: dm = 'dimension(%s)' % d1['array'] if 'attrspec' not in edecl or (not edecl['attrspec']): edecl['attrspec'] = [dm] else: edecl['attrspec'].append(dm) for dm1 in edecl['attrspec']: if dm1[:9] == 'dimension' and dm1 != dm: del edecl['attrspec'][-1] errmess('updatevars:%s: attempt to change %r to %r. Ignoring.\n' % (ename, dm1, dm)) break else: outmess('updatevars: could not crack entity declaration "%s". Ignoring.\n' % ( ename + m.group('after'))) for k in list(edecl.keys()): if not edecl[k]: del edecl[k] groupcache[groupcounter]['vars'][ename] = edecl if 'varnames' in groupcache[groupcounter]: groupcache[groupcounter]['varnames'].append(ename) last_name = ename return last_name def cracktypespec(typespec, selector): kindselect = None charselect = None typename = None if selector: if typespec in ['complex', 'integer', 'logical', 'real']: kindselect = kindselector.match(selector) if not kindselect: outmess( 'cracktypespec: no kindselector pattern found for %s\n' % (repr(selector))) return kindselect = kindselect.groupdict() kindselect['*'] = kindselect['kind2'] del kindselect['kind2'] for k in list(kindselect.keys()): if not kindselect[k]: del kindselect[k] for k, i in list(kindselect.items()): kindselect[k] = rmbadname1(i) elif typespec == 'character': charselect = charselector.match(selector) if not charselect: outmess( 'cracktypespec: no charselector pattern found for %s\n' % (repr(selector))) return charselect = charselect.groupdict() charselect['*'] = charselect['charlen'] del charselect['charlen'] if charselect['lenkind']: lenkind = lenkindpattern.match( markoutercomma(charselect['lenkind'])) lenkind = lenkind.groupdict() for lk in ['len', 'kind']: if lenkind[lk + '2']: lenkind[lk] = lenkind[lk + '2'] charselect[lk] = lenkind[lk] del lenkind[lk + '2'] if lenkind['f2py_len'] is not None: # used to specify the length of assumed length strings charselect['f2py_len'] = lenkind['f2py_len'] del charselect['lenkind'] for k in list(charselect.keys()): if not charselect[k]: del charselect[k] for k, i in list(charselect.items()): charselect[k] = rmbadname1(i) elif typespec == 'type': typename = re.match(r'\s*\(\s*(?P<name>\w+)\s*\)', selector, re.I) if typename: typename = typename.group('name') else: outmess('cracktypespec: no typename found in %s\n' % (repr(typespec + selector))) else: outmess('cracktypespec: no selector used for %s\n' % (repr(selector))) return kindselect, charselect, typename ###### def setattrspec(decl, attr, force=0): if not decl: decl = {} if not attr: return decl if 'attrspec' not in decl: decl['attrspec'] = [attr] return decl if force: decl['attrspec'].append(attr) if attr in decl['attrspec']: return decl if attr == 'static' and 'automatic' not in decl['attrspec']: decl['attrspec'].append(attr) elif attr == 'automatic' and 'static' not in decl['attrspec']: decl['attrspec'].append(attr) elif attr == 'public': if 'private' not in decl['attrspec']: decl['attrspec'].append(attr) elif attr == 'private': if 'public' not in decl['attrspec']: decl['attrspec'].append(attr) else: decl['attrspec'].append(attr) return decl def setkindselector(decl, sel, force=0): if not decl: decl = {} if not sel: return decl if 'kindselector' not in decl: decl['kindselector'] = sel return decl for k in list(sel.keys()): if force or k not in decl['kindselector']: decl['kindselector'][k] = sel[k] return decl def setcharselector(decl, sel, force=0): if not decl: decl = {} if not sel: return decl if 'charselector' not in decl: decl['charselector'] = sel return decl for k in list(sel.keys()): if force or k not in decl['charselector']: decl['charselector'][k] = sel[k] return decl def getblockname(block, unknown='unknown'): if 'name' in block: return block['name'] return unknown # post processing def setmesstext(block): global filepositiontext try: filepositiontext = 'In: %s:%s\n' % (block['from'], block['name']) except Exception: pass def get_usedict(block): usedict = {} if 'parent_block' in block: usedict = get_usedict(block['parent_block']) if 'use' in block: usedict.update(block['use']) return usedict def get_useparameters(block, param_map=None): global f90modulevars if param_map is None: param_map = {} usedict = get_usedict(block) if not usedict: return param_map for usename, mapping in list(usedict.items()): usename = usename.lower() if usename not in f90modulevars: outmess('get_useparameters: no module %s info used by %s\n' % (usename, block.get('name'))) continue mvars = f90modulevars[usename] params = get_parameters(mvars) if not params: continue # XXX: apply mapping if mapping: errmess('get_useparameters: mapping for %s not impl.\n' % (mapping)) for k, v in list(params.items()): if k in param_map: outmess('get_useparameters: overriding parameter %s with' ' value from module %s\n' % (repr(k), repr(usename))) param_map[k] = v return param_map def postcrack2(block, tab='', param_map=None): global f90modulevars if not f90modulevars: return block if isinstance(block, list): ret = [postcrack2(g, tab=tab + '\t', param_map=param_map) for g in block] return ret setmesstext(block) outmess('%sBlock: %s\n' % (tab, block['name']), 0) if param_map is None: param_map = get_useparameters(block) if param_map is not None and 'vars' in block: vars = block['vars'] for n in list(vars.keys()): var = vars[n] if 'kindselector' in var: kind = var['kindselector'] if 'kind' in kind: val = kind['kind'] if val in param_map: kind['kind'] = param_map[val] new_body = [postcrack2(b, tab=tab + '\t', param_map=param_map) for b in block['body']] block['body'] = new_body return block def postcrack(block, args=None, tab=''): """ TODO: function return values determine expression types if in argument list """ global usermodules, onlyfunctions if isinstance(block, list): gret = [] uret = [] for g in block: setmesstext(g) g = postcrack(g, tab=tab + '\t') # sort user routines to appear first if 'name' in g and '__user__' in g['name']: uret.append(g) else: gret.append(g) return uret + gret setmesstext(block) if not isinstance(block, dict) and 'block' not in block: raise Exception('postcrack: Expected block dictionary instead of ' + str(block)) if 'name' in block and not block['name'] == 'unknown_interface': outmess('%sBlock: %s\n' % (tab, block['name']), 0) block = analyzeargs(block) block = analyzecommon(block) block['vars'] = analyzevars(block) block['sortvars'] = sortvarnames(block['vars']) if 'args' in block and block['args']: args = block['args'] block['body'] = analyzebody(block, args, tab=tab) userisdefined = [] if 'use' in block: useblock = block['use'] for k in list(useblock.keys()): if '__user__' in k: userisdefined.append(k) else: useblock = {} name = '' if 'name' in block: name = block['name'] # and not userisdefined: # Build a __user__ module if 'externals' in block and block['externals']: interfaced = [] if 'interfaced' in block: interfaced = block['interfaced'] mvars = copy.copy(block['vars']) if name: mname = name + '__user__routines' else: mname = 'unknown__user__routines' if mname in userisdefined: i = 1 while '%s_%i' % (mname, i) in userisdefined: i = i + 1 mname = '%s_%i' % (mname, i) interface = {'block': 'interface', 'body': [], 'vars': {}, 'name': name + '_user_interface'} for e in block['externals']: if e in interfaced: edef = [] j = -1 for b in block['body']: j = j + 1 if b['block'] == 'interface': i = -1 for bb in b['body']: i = i + 1 if 'name' in bb and bb['name'] == e: edef = copy.copy(bb) del b['body'][i] break if edef: if not b['body']: del block['body'][j] del interfaced[interfaced.index(e)] break interface['body'].append(edef) else: if e in mvars and not isexternal(mvars[e]): interface['vars'][e] = mvars[e] if interface['vars'] or interface['body']: block['interfaced'] = interfaced mblock = {'block': 'python module', 'body': [ interface], 'vars': {}, 'name': mname, 'interfaced': block['externals']} useblock[mname] = {} usermodules.append(mblock) if useblock: block['use'] = useblock return block def sortvarnames(vars): indep = [] dep = [] for v in list(vars.keys()): if 'depend' in vars[v] and vars[v]['depend']: dep.append(v) else: indep.append(v) n = len(dep) i = 0 while dep: # XXX: How to catch dependence cycles correctly? v = dep[0] fl = 0 for w in dep[1:]: if w in vars[v]['depend']: fl = 1 break if fl: dep = dep[1:] + [v] i = i + 1 if i > n: errmess('sortvarnames: failed to compute dependencies because' ' of cyclic dependencies between ' + ', '.join(dep) + '\n') indep = indep + dep break else: indep.append(v) dep = dep[1:] n = len(dep) i = 0 return indep def analyzecommon(block): if not hascommon(block): return block commonvars = [] for k in list(block['common'].keys()): comvars = [] for e in block['common'][k]: m = re.match( r'\A\s*\b(?P<name>.*?)\b\s*(\((?P<dims>.*?)\)|)\s*\Z', e, re.I) if m: dims = [] if m.group('dims'): dims = [x.strip() for x in markoutercomma(m.group('dims')).split('@,@')] n = rmbadname1(m.group('name').strip()) if n in block['vars']: if 'attrspec' in block['vars'][n]: block['vars'][n]['attrspec'].append( 'dimension(%s)' % (','.join(dims))) else: block['vars'][n]['attrspec'] = [ 'dimension(%s)' % (','.join(dims))] else: if dims: block['vars'][n] = { 'attrspec': ['dimension(%s)' % (','.join(dims))]} else: block['vars'][n] = {} if n not in commonvars: commonvars.append(n) else: n = e errmess( 'analyzecommon: failed to extract "<name>[(<dims>)]" from "%s" in common /%s/.\n' % (e, k)) comvars.append(n) block['common'][k] = comvars if 'commonvars' not in block: block['commonvars'] = commonvars else: block['commonvars'] = block['commonvars'] + commonvars return block def analyzebody(block, args, tab=''): global usermodules, skipfuncs, onlyfuncs, f90modulevars setmesstext(block) maybe_private = { key: value for key, value in block['vars'].items() if 'attrspec' not in value or 'public' not in value['attrspec'] } body = [] for b in block['body']: b['parent_block'] = block if b['block'] in ['function', 'subroutine']: if args is not None and b['name'] not in args: continue else: as_ = b['args'] # Add private members to skipfuncs for gh-23879 if b['name'] in maybe_private.keys(): skipfuncs.append(b['name']) if b['name'] in skipfuncs: continue if onlyfuncs and b['name'] not in onlyfuncs: continue b['saved_interface'] = crack2fortrangen( b, '\n' + ' ' * 6, as_interface=True) else: as_ = args b = postcrack(b, as_, tab=tab + '\t') if b['block'] in ['interface', 'abstract interface'] and \ not b['body'] and not b.get('implementedby'): if 'f2pyenhancements' not in b: continue if b['block'].replace(' ', '') == 'pythonmodule': usermodules.append(b) else: if b['block'] == 'module': f90modulevars[b['name']] = b['vars'] body.append(b) return body def buildimplicitrules(block): setmesstext(block) implicitrules = defaultimplicitrules attrrules = {} if 'implicit' in block: if block['implicit'] is None: implicitrules = None if verbose > 1: outmess( 'buildimplicitrules: no implicit rules for routine %s.\n' % repr(block['name'])) else: for k in list(block['implicit'].keys()): if block['implicit'][k].get('typespec') not in ['static', 'automatic']: implicitrules[k] = block['implicit'][k] else: attrrules[k] = block['implicit'][k]['typespec'] return implicitrules, attrrules def myeval(e, g=None, l=None): """ Like `eval` but returns only integers and floats """ r = eval(e, g, l) if type(r) in [int, float]: return r raise ValueError('r=%r' % (r)) getlincoef_re_1 = re.compile(r'\A\b\w+\b\Z', re.I) def getlincoef(e, xset): # e = a*x+b ; x in xset """ Obtain ``a`` and ``b`` when ``e == "a*x+b"``, where ``x`` is a symbol in xset. >>> getlincoef('2*x + 1', {'x'}) (2, 1, 'x') >>> getlincoef('3*x + x*2 + 2 + 1', {'x'}) (5, 3, 'x') >>> getlincoef('0', {'x'}) (0, 0, None) >>> getlincoef('0*x', {'x'}) (0, 0, 'x') >>> getlincoef('x*x', {'x'}) (None, None, None) This can be tricked by sufficiently complex expressions >>> getlincoef('(x - 0.5)*(x - 1.5)*(x - 1)*x + 2*x + 3', {'x'}) (2.0, 3.0, 'x') """ try: c = int(myeval(e, {}, {})) return 0, c, None except Exception: pass if getlincoef_re_1.match(e): return 1, 0, e len_e = len(e) for x in xset: if len(x) > len_e: continue if re.search(r'\w\s*\([^)]*\b' + x + r'\b', e): # skip function calls having x as an argument, e.g max(1, x) continue re_1 = re.compile(r'(?P<before>.*?)\b' + x + r'\b(?P<after>.*)', re.I) m = re_1.match(e) if m: try: m1 = re_1.match(e) while m1: ee = '%s(%s)%s' % ( m1.group('before'), 0, m1.group('after')) m1 = re_1.match(ee) b = myeval(ee, {}, {}) m1 = re_1.match(e) while m1: ee = '%s(%s)%s' % ( m1.group('before'), 1, m1.group('after')) m1 = re_1.match(ee) a = myeval(ee, {}, {}) - b m1 = re_1.match(e) while m1: ee = '%s(%s)%s' % ( m1.group('before'), 0.5, m1.group('after')) m1 = re_1.match(ee) c = myeval(ee, {}, {}) # computing another point to be sure that expression is linear m1 = re_1.match(e) while m1: ee = '%s(%s)%s' % ( m1.group('before'), 1.5, m1.group('after')) m1 = re_1.match(ee) c2 = myeval(ee, {}, {}) if (a * 0.5 + b == c and a * 1.5 + b == c2): return a, b, x except Exception: pass break return None, None, None word_pattern = re.compile(r'\b[a-z][\w$]*\b', re.I) def _get_depend_dict(name, vars, deps): if name in vars: words = vars[name].get('depend', []) if '=' in vars[name] and not isstring(vars[name]): for word in word_pattern.findall(vars[name]['=']): # The word_pattern may return values that are not # only variables, they can be string content for instance if word not in words and word in vars and word != name: words.append(word) for word in words[:]: for w in deps.get(word, []) \ or _get_depend_dict(word, vars, deps): if w not in words: words.append(w) else: outmess('_get_depend_dict: no dependence info for %s\n' % (repr(name))) words = [] deps[name] = words return words def _calc_depend_dict(vars): names = list(vars.keys()) depend_dict = {} for n in names: _get_depend_dict(n, vars, depend_dict) return depend_dict def get_sorted_names(vars): """ """ depend_dict = _calc_depend_dict(vars) names = [] for name in list(depend_dict.keys()): if not depend_dict[name]: names.append(name) del depend_dict[name] while depend_dict: for name, lst in list(depend_dict.items()): new_lst = [n for n in lst if n in depend_dict] if not new_lst: names.append(name) del depend_dict[name] else: depend_dict[name] = new_lst return [name for name in names if name in vars] def _kind_func(string): # XXX: return something sensible. if string[0] in "'\"": string = string[1:-1] if real16pattern.match(string): return 8 elif real8pattern.match(string): return 4 return 'kind(' + string + ')' def _selected_int_kind_func(r): # XXX: This should be processor dependent m = 10 ** r if m <= 2 ** 8: return 1 if m <= 2 ** 16: return 2 if m <= 2 ** 32: return 4 if m <= 2 ** 63: return 8 if m <= 2 ** 128: return 16 return -1 def _selected_real_kind_func(p, r=0, radix=0): # XXX: This should be processor dependent # This is only verified for 0 <= p <= 20, possibly good for p <= 33 and above if p < 7: return 4 if p < 16: return 8 machine = platform.machine().lower() if machine.startswith(('aarch64', 'arm64', 'power', 'ppc', 'riscv', 's390x', 'sparc')): if p <= 33: return 16 else: if p < 19: return 10 elif p <= 33: return 16 return -1 def get_parameters(vars, global_params={}): params = copy.copy(global_params) g_params = copy.copy(global_params) for name, func in [('kind', _kind_func), ('selected_int_kind', _selected_int_kind_func), ('selected_real_kind', _selected_real_kind_func), ]: if name not in g_params: g_params[name] = func param_names = [] for n in get_sorted_names(vars): if 'attrspec' in vars[n] and 'parameter' in vars[n]['attrspec']: param_names.append(n) kind_re = re.compile(r'\bkind\s*\(\s*(?P<value>.*)\s*\)', re.I) selected_int_kind_re = re.compile( r'\bselected_int_kind\s*\(\s*(?P<value>.*)\s*\)', re.I) selected_kind_re = re.compile( r'\bselected_(int|real)_kind\s*\(\s*(?P<value>.*)\s*\)', re.I) for n in param_names: if '=' in vars[n]: v = vars[n]['='] if islogical(vars[n]): v = v.lower() for repl in [ ('.false.', 'False'), ('.true.', 'True'), # TODO: test .eq., .neq., etc replacements. ]: v = v.replace(*repl) v = kind_re.sub(r'kind("\1")', v) v = selected_int_kind_re.sub(r'selected_int_kind(\1)', v) # We need to act according to the data. # The easy case is if the data has a kind-specifier, # then we may easily remove those specifiers. # However, it may be that the user uses other specifiers...(!) is_replaced = False if 'kindselector' in vars[n]: if 'kind' in vars[n]['kindselector']: orig_v_len = len(v) v = v.replace('_' + vars[n]['kindselector']['kind'], '') # Again, this will be true if even a single specifier # has been replaced, see comment above. is_replaced = len(v) < orig_v_len if not is_replaced: if not selected_kind_re.match(v): v_ = v.split('_') # In case there are additive parameters if len(v_) > 1: v = ''.join(v_[:-1]).lower().replace(v_[-1].lower(), '') # Currently this will not work for complex numbers. # There is missing code for extracting a complex number, # which may be defined in either of these: # a) (Re, Im) # b) cmplx(Re, Im) # c) dcmplx(Re, Im) # d) cmplx(Re, Im, <prec>) if isdouble(vars[n]): tt = list(v) for m in real16pattern.finditer(v): tt[m.start():m.end()] = list( v[m.start():m.end()].lower().replace('d', 'e')) v = ''.join(tt) elif iscomplex(vars[n]): outmess(f'get_parameters[TODO]: ' f'implement evaluation of complex expression {v}\n') # Handle _dp for gh-6624 # Also fixes gh-20460 if real16pattern.search(v): v = 8 elif real8pattern.search(v): v = 4 try: params[n] = eval(v, g_params, params) except Exception as msg: params[n] = v outmess('get_parameters: got "%s" on %s\n' % (msg, repr(v))) if isstring(vars[n]) and isinstance(params[n], int): params[n] = chr(params[n]) nl = n.lower() if nl != n: params[nl] = params[n] else: print(vars[n]) outmess( 'get_parameters:parameter %s does not have value?!\n' % (repr(n))) return params def _eval_length(length, params): if length in ['(:)', '(*)', '*']: return '(*)' return _eval_scalar(length, params) _is_kind_number = re.compile(r'\d+_').match def _eval_scalar(value, params): if _is_kind_number(value): value = value.split('_')[0] try: # TODO: use symbolic from PR #19805 value = eval(value, {}, params) value = (repr if isinstance(value, str) else str)(value) except (NameError, SyntaxError, TypeError): return value except Exception as msg: errmess('"%s" in evaluating %r ' '(available names: %s)\n' % (msg, value, list(params.keys()))) return value def analyzevars(block): global f90modulevars setmesstext(block) implicitrules, attrrules = buildimplicitrules(block) vars = copy.copy(block['vars']) if block['block'] == 'function' and block['name'] not in vars: vars[block['name']] = {} if '' in block['vars']: del vars[''] if 'attrspec' in block['vars']['']: gen = block['vars']['']['attrspec'] for n in set(vars) | set(b['name'] for b in block['body']): for k in ['public', 'private']: if k in gen: vars[n] = setattrspec(vars.get(n, {}), k) svars = [] args = block['args'] for a in args: try: vars[a] svars.append(a) except KeyError: pass for n in list(vars.keys()): if n not in args: svars.append(n) params = get_parameters(vars, get_useparameters(block)) dep_matches = {} name_match = re.compile(r'[A-Za-z][\w$]*').match for v in list(vars.keys()): m = name_match(v) if m: n = v[m.start():m.end()] try: dep_matches[n] except KeyError: dep_matches[n] = re.compile(r'.*\b%s\b' % (v), re.I).match for n in svars: if n[0] in list(attrrules.keys()): vars[n] = setattrspec(vars[n], attrrules[n[0]]) if 'typespec' not in vars[n]: if not('attrspec' in vars[n] and 'external' in vars[n]['attrspec']): if implicitrules: ln0 = n[0].lower() for k in list(implicitrules[ln0].keys()): if k == 'typespec' and implicitrules[ln0][k] == 'undefined': continue if k not in vars[n]: vars[n][k] = implicitrules[ln0][k] elif k == 'attrspec': for l in implicitrules[ln0][k]: vars[n] = setattrspec(vars[n], l) elif n in block['args']: outmess('analyzevars: typespec of variable %s is not defined in routine %s.\n' % ( repr(n), block['name'])) if 'charselector' in vars[n]: if 'len' in vars[n]['charselector']: l = vars[n]['charselector']['len'] try: l = str(eval(l, {}, params)) except Exception: pass vars[n]['charselector']['len'] = l if 'kindselector' in vars[n]: if 'kind' in vars[n]['kindselector']: l = vars[n]['kindselector']['kind'] try: l = str(eval(l, {}, params)) except Exception: pass vars[n]['kindselector']['kind'] = l dimension_exprs = {} if 'attrspec' in vars[n]: attr = vars[n]['attrspec'] attr.reverse() vars[n]['attrspec'] = [] dim, intent, depend, check, note = None, None, None, None, None for a in attr: if a[:9] == 'dimension': dim = (a[9:].strip())[1:-1] elif a[:6] == 'intent': intent = (a[6:].strip())[1:-1] elif a[:6] == 'depend': depend = (a[6:].strip())[1:-1] elif a[:5] == 'check': check = (a[5:].strip())[1:-1] elif a[:4] == 'note': note = (a[4:].strip())[1:-1] else: vars[n] = setattrspec(vars[n], a) if intent: if 'intent' not in vars[n]: vars[n]['intent'] = [] for c in [x.strip() for x in markoutercomma(intent).split('@,@')]: # Remove spaces so that 'in out' becomes 'inout' tmp = c.replace(' ', '') if tmp not in vars[n]['intent']: vars[n]['intent'].append(tmp) intent = None if note: note = note.replace('\\n\\n', '\n\n') note = note.replace('\\n ', '\n') if 'note' not in vars[n]: vars[n]['note'] = [note] else: vars[n]['note'].append(note) note = None if depend is not None: if 'depend' not in vars[n]: vars[n]['depend'] = [] for c in rmbadname([x.strip() for x in markoutercomma(depend).split('@,@')]): if c not in vars[n]['depend']: vars[n]['depend'].append(c) depend = None if check is not None: if 'check' not in vars[n]: vars[n]['check'] = [] for c in [x.strip() for x in markoutercomma(check).split('@,@')]: if c not in vars[n]['check']: vars[n]['check'].append(c) check = None if dim and 'dimension' not in vars[n]: vars[n]['dimension'] = [] for d in rmbadname([x.strip() for x in markoutercomma(dim).split('@,@')]): star = ':' if d == ':' else '*' # Evaluate `d` with respect to params if d in params: d = str(params[d]) for p in params: re_1 = re.compile(r'(?P<before>.*?)\b' + p + r'\b(?P<after>.*)', re.I) m = re_1.match(d) while m: d = m.group('before') + \ str(params[p]) + m.group('after') m = re_1.match(d) if d == star: dl = [star] else: dl = markoutercomma(d, ':').split('@:@') if len(dl) == 2 and '*' in dl: # e.g. dimension(5:*) dl = ['*'] d = '*' if len(dl) == 1 and dl[0] != star: dl = ['1', dl[0]] if len(dl) == 2: d1, d2 = map(symbolic.Expr.parse, dl) dsize = d2 - d1 + 1 d = dsize.tostring(language=symbolic.Language.C) # find variables v that define d as a linear # function, `d == a * v + b`, and store # coefficients a and b for further analysis. solver_and_deps = {} for v in block['vars']: s = symbolic.as_symbol(v) if dsize.contains(s): try: a, b = dsize.linear_solve(s) def solve_v(s, a=a, b=b): return (s - b) / a all_symbols = set(a.symbols()) all_symbols.update(b.symbols()) except RuntimeError as msg: # d is not a linear function of v, # however, if v can be determined # from d using other means, # implement the corresponding # solve_v function here. solve_v = None all_symbols = set(dsize.symbols()) v_deps = set( s.data for s in all_symbols if s.data in vars) solver_and_deps[v] = solve_v, list(v_deps) # Note that dsize may contain symbols that are # not defined in block['vars']. Here we assume # these correspond to Fortran/C intrinsic # functions or that are defined by other # means. We'll let the compiler validate the # definiteness of such symbols. dimension_exprs[d] = solver_and_deps vars[n]['dimension'].append(d) if 'check' not in vars[n] and 'args' in block and n in block['args']: # n is an argument that has no checks defined. Here we # generate some consistency checks for n, and when n is an # array, generate checks for its dimensions and construct # initialization expressions. n_deps = vars[n].get('depend', []) n_checks = [] n_is_input = l_or(isintent_in, isintent_inout, isintent_inplace)(vars[n]) if isarray(vars[n]): # n is array for i, d in enumerate(vars[n]['dimension']): coeffs_and_deps = dimension_exprs.get(d) if coeffs_and_deps is None: # d is `:` or `*` or a constant expression pass elif n_is_input: # n is an input array argument and its shape # may define variables used in dimension # specifications. for v, (solver, deps) in coeffs_and_deps.items(): def compute_deps(v, deps): for v1 in coeffs_and_deps.get(v, [None, []])[1]: if v1 not in deps: deps.add(v1) compute_deps(v1, deps) all_deps = set() compute_deps(v, all_deps) if ((v in n_deps or '=' in vars[v] or 'depend' in vars[v])): # Skip a variable that # - n depends on # - has user-defined initialization expression # - has user-defined dependencies continue if solver is not None and v not in all_deps: # v can be solved from d, hence, we # make it an optional argument with # initialization expression: is_required = False init = solver(symbolic.as_symbol( f'shape({n}, {i})')) init = init.tostring( language=symbolic.Language.C) vars[v]['='] = init # n needs to be initialized before v. So, # making v dependent on n and on any # variables in solver or d. vars[v]['depend'] = [n] + deps if 'check' not in vars[v]: # add check only when no # user-specified checks exist vars[v]['check'] = [ f'shape({n}, {i}) == {d}'] else: # d is a non-linear function on v, # hence, v must be a required input # argument that n will depend on is_required = True if 'intent' not in vars[v]: vars[v]['intent'] = [] if 'in' not in vars[v]['intent']: vars[v]['intent'].append('in') # v needs to be initialized before n n_deps.append(v) n_checks.append( f'shape({n}, {i}) == {d}') v_attr = vars[v].get('attrspec', []) if not ('optional' in v_attr or 'required' in v_attr): v_attr.append( 'required' if is_required else 'optional') if v_attr: vars[v]['attrspec'] = v_attr if coeffs_and_deps is not None: # extend v dependencies with ones specified in attrspec for v, (solver, deps) in coeffs_and_deps.items(): v_deps = vars[v].get('depend', []) for aa in vars[v].get('attrspec', []): if aa.startswith('depend'): aa = ''.join(aa.split()) v_deps.extend(aa[7:-1].split(',')) if v_deps: vars[v]['depend'] = list(set(v_deps)) if n not in v_deps: n_deps.append(v) elif isstring(vars[n]): if 'charselector' in vars[n]: if '*' in vars[n]['charselector']: length = _eval_length(vars[n]['charselector']['*'], params) vars[n]['charselector']['*'] = length elif 'len' in vars[n]['charselector']: length = _eval_length(vars[n]['charselector']['len'], params) del vars[n]['charselector']['len'] vars[n]['charselector']['*'] = length if n_checks: vars[n]['check'] = n_checks if n_deps: vars[n]['depend'] = list(set(n_deps)) if '=' in vars[n]: if 'attrspec' not in vars[n]: vars[n]['attrspec'] = [] if ('optional' not in vars[n]['attrspec']) and \ ('required' not in vars[n]['attrspec']): vars[n]['attrspec'].append('optional') if 'depend' not in vars[n]: vars[n]['depend'] = [] for v, m in list(dep_matches.items()): if m(vars[n]['=']): vars[n]['depend'].append(v) if not vars[n]['depend']: del vars[n]['depend'] if isscalar(vars[n]): vars[n]['='] = _eval_scalar(vars[n]['='], params) for n in list(vars.keys()): if n == block['name']: # n is block name if 'note' in vars[n]: block['note'] = vars[n]['note'] if block['block'] == 'function': if 'result' in block and block['result'] in vars: vars[n] = appenddecl(vars[n], vars[block['result']]) if 'prefix' in block: pr = block['prefix'] pr1 = pr.replace('pure', '') ispure = (not pr == pr1) pr = pr1.replace('recursive', '') isrec = (not pr == pr1) m = typespattern[0].match(pr) if m: typespec, selector, attr, edecl = cracktypespec0( m.group('this'), m.group('after')) kindselect, charselect, typename = cracktypespec( typespec, selector) vars[n]['typespec'] = typespec try: if block['result']: vars[block['result']]['typespec'] = typespec except Exception: pass if kindselect: if 'kind' in kindselect: try: kindselect['kind'] = eval( kindselect['kind'], {}, params) except Exception: pass vars[n]['kindselector'] = kindselect if charselect: vars[n]['charselector'] = charselect if typename: vars[n]['typename'] = typename if ispure: vars[n] = setattrspec(vars[n], 'pure') if isrec: vars[n] = setattrspec(vars[n], 'recursive') else: outmess( 'analyzevars: prefix (%s) were not used\n' % repr(block['prefix'])) if not block['block'] in ['module', 'pythonmodule', 'python module', 'block data']: if 'commonvars' in block: neededvars = copy.copy(block['args'] + block['commonvars']) else: neededvars = copy.copy(block['args']) for n in list(vars.keys()): if l_or(isintent_callback, isintent_aux)(vars[n]): neededvars.append(n) if 'entry' in block: neededvars.extend(list(block['entry'].keys())) for k in list(block['entry'].keys()): for n in block['entry'][k]: if n not in neededvars: neededvars.append(n) if block['block'] == 'function': if 'result' in block: neededvars.append(block['result']) else: neededvars.append(block['name']) if block['block'] in ['subroutine', 'function']: name = block['name'] if name in vars and 'intent' in vars[name]: block['intent'] = vars[name]['intent'] if block['block'] == 'type': neededvars.extend(list(vars.keys())) for n in list(vars.keys()): if n not in neededvars: del vars[n] return vars analyzeargs_re_1 = re.compile(r'\A[a-z]+[\w$]*\Z', re.I) def expr2name(a, block, args=[]): orig_a = a a_is_expr = not analyzeargs_re_1.match(a) if a_is_expr: # `a` is an expression implicitrules, attrrules = buildimplicitrules(block) at = determineexprtype(a, block['vars'], implicitrules) na = 'e_' for c in a: c = c.lower() if c not in string.ascii_lowercase + string.digits: c = '_' na = na + c if na[-1] == '_': na = na + 'e' else: na = na + '_e' a = na while a in block['vars'] or a in block['args']: a = a + 'r' if a in args: k = 1 while a + str(k) in args: k = k + 1 a = a + str(k) if a_is_expr: block['vars'][a] = at else: if a not in block['vars']: if orig_a in block['vars']: block['vars'][a] = block['vars'][orig_a] else: block['vars'][a] = {} if 'externals' in block and orig_a in block['externals'] + block['interfaced']: block['vars'][a] = setattrspec(block['vars'][a], 'external') return a def analyzeargs(block): setmesstext(block) implicitrules, _ = buildimplicitrules(block) if 'args' not in block: block['args'] = [] args = [] for a in block['args']: a = expr2name(a, block, args) args.append(a) block['args'] = args if 'entry' in block: for k, args1 in list(block['entry'].items()): for a in args1: if a not in block['vars']: block['vars'][a] = {} for b in block['body']: if b['name'] in args: if 'externals' not in block: block['externals'] = [] if b['name'] not in block['externals']: block['externals'].append(b['name']) if 'result' in block and block['result'] not in block['vars']: block['vars'][block['result']] = {} return block determineexprtype_re_1 = re.compile(r'\A\(.+?,.+?\)\Z', re.I) determineexprtype_re_2 = re.compile(r'\A[+-]?\d+(_(?P<name>\w+)|)\Z', re.I) determineexprtype_re_3 = re.compile( r'\A[+-]?[\d.]+[-\d+de.]*(_(?P<name>\w+)|)\Z', re.I) determineexprtype_re_4 = re.compile(r'\A\(.*\)\Z', re.I) determineexprtype_re_5 = re.compile(r'\A(?P<name>\w+)\s*\(.*?\)\s*\Z', re.I) def _ensure_exprdict(r): if isinstance(r, int): return {'typespec': 'integer'} if isinstance(r, float): return {'typespec': 'real'} if isinstance(r, complex): return {'typespec': 'complex'} if isinstance(r, dict): return r raise AssertionError(repr(r)) def determineexprtype(expr, vars, rules={}): if expr in vars: return _ensure_exprdict(vars[expr]) expr = expr.strip() if determineexprtype_re_1.match(expr): return {'typespec': 'complex'} m = determineexprtype_re_2.match(expr) if m: if 'name' in m.groupdict() and m.group('name'): outmess( 'determineexprtype: selected kind types not supported (%s)\n' % repr(expr)) return {'typespec': 'integer'} m = determineexprtype_re_3.match(expr) if m: if 'name' in m.groupdict() and m.group('name'): outmess( 'determineexprtype: selected kind types not supported (%s)\n' % repr(expr)) return {'typespec': 'real'} for op in ['+', '-', '*', '/']: for e in [x.strip() for x in markoutercomma(expr, comma=op).split('@' + op + '@')]: if e in vars: return _ensure_exprdict(vars[e]) t = {} if determineexprtype_re_4.match(expr): # in parenthesis t = determineexprtype(expr[1:-1], vars, rules) else: m = determineexprtype_re_5.match(expr) if m: rn = m.group('name') t = determineexprtype(m.group('name'), vars, rules) if t and 'attrspec' in t: del t['attrspec'] if not t: if rn[0] in rules: return _ensure_exprdict(rules[rn[0]]) if expr[0] in '\'"': return {'typespec': 'character', 'charselector': {'*': '*'}} if not t: outmess( 'determineexprtype: could not determine expressions (%s) type.\n' % (repr(expr))) return t ###### def crack2fortrangen(block, tab='\n', as_interface=False): global skipfuncs, onlyfuncs setmesstext(block) ret = '' if isinstance(block, list): for g in block: if g and g['block'] in ['function', 'subroutine']: if g['name'] in skipfuncs: continue if onlyfuncs and g['name'] not in onlyfuncs: continue ret = ret + crack2fortrangen(g, tab, as_interface=as_interface) return ret prefix = '' name = '' args = '' blocktype = block['block'] if blocktype == 'program': return '' argsl = [] if 'name' in block: name = block['name'] if 'args' in block: vars = block['vars'] for a in block['args']: a = expr2name(a, block, argsl) if not isintent_callback(vars[a]): argsl.append(a) if block['block'] == 'function' or argsl: args = '(%s)' % ','.join(argsl) f2pyenhancements = '' if 'f2pyenhancements' in block: for k in list(block['f2pyenhancements'].keys()): f2pyenhancements = '%s%s%s %s' % ( f2pyenhancements, tab + tabchar, k, block['f2pyenhancements'][k]) intent_lst = block.get('intent', [])[:] if blocktype == 'function' and 'callback' in intent_lst: intent_lst.remove('callback') if intent_lst: f2pyenhancements = '%s%sintent(%s) %s' %\ (f2pyenhancements, tab + tabchar, ','.join(intent_lst), name) use = '' if 'use' in block: use = use2fortran(block['use'], tab + tabchar) common = '' if 'common' in block: common = common2fortran(block['common'], tab + tabchar) if name == 'unknown_interface': name = '' result = '' if 'result' in block: result = ' result (%s)' % block['result'] if block['result'] not in argsl: argsl.append(block['result']) body = crack2fortrangen(block['body'], tab + tabchar, as_interface=as_interface) vars = vars2fortran( block, block['vars'], argsl, tab + tabchar, as_interface=as_interface) mess = '' if 'from' in block and not as_interface: mess = '! in %s' % block['from'] if 'entry' in block: entry_stmts = '' for k, i in list(block['entry'].items()): entry_stmts = '%s%sentry %s(%s)' \ % (entry_stmts, tab + tabchar, k, ','.join(i)) body = body + entry_stmts if blocktype == 'block data' and name == '_BLOCK_DATA_': name = '' ret = '%s%s%s %s%s%s %s%s%s%s%s%s%send %s %s' % ( tab, prefix, blocktype, name, args, result, mess, f2pyenhancements, use, vars, common, body, tab, blocktype, name) return ret def common2fortran(common, tab=''): ret = '' for k in list(common.keys()): if k == '_BLNK_': ret = '%s%scommon %s' % (ret, tab, ','.join(common[k])) else: ret = '%s%scommon /%s/ %s' % (ret, tab, k, ','.join(common[k])) return ret def use2fortran(use, tab=''): ret = '' for m in list(use.keys()): ret = '%s%suse %s,' % (ret, tab, m) if use[m] == {}: if ret and ret[-1] == ',': ret = ret[:-1] continue if 'only' in use[m] and use[m]['only']: ret = '%s only:' % (ret) if 'map' in use[m] and use[m]['map']: c = ' ' for k in list(use[m]['map'].keys()): if k == use[m]['map'][k]: ret = '%s%s%s' % (ret, c, k) c = ',' else: ret = '%s%s%s=>%s' % (ret, c, k, use[m]['map'][k]) c = ',' if ret and ret[-1] == ',': ret = ret[:-1] return ret def true_intent_list(var): lst = var['intent'] ret = [] for intent in lst: try: f = globals()['isintent_%s' % intent] except KeyError: pass else: if f(var): ret.append(intent) return ret def vars2fortran(block, vars, args, tab='', as_interface=False): """ TODO: public sub ... """ setmesstext(block) ret = '' nout = [] for a in args: if a in block['vars']: nout.append(a) if 'commonvars' in block: for a in block['commonvars']: if a in vars: if a not in nout: nout.append(a) else: errmess( 'vars2fortran: Confused?!: "%s" is not defined in vars.\n' % a) if 'varnames' in block: nout.extend(block['varnames']) if not as_interface: for a in list(vars.keys()): if a not in nout: nout.append(a) for a in nout: if 'depend' in vars[a]: for d in vars[a]['depend']: if d in vars and 'depend' in vars[d] and a in vars[d]['depend']: errmess( 'vars2fortran: Warning: cross-dependence between variables "%s" and "%s"\n' % (a, d)) if 'externals' in block and a in block['externals']: if isintent_callback(vars[a]): ret = '%s%sintent(callback) %s' % (ret, tab, a) ret = '%s%sexternal %s' % (ret, tab, a) if isoptional(vars[a]): ret = '%s%soptional %s' % (ret, tab, a) if a in vars and 'typespec' not in vars[a]: continue cont = 1 for b in block['body']: if a == b['name'] and b['block'] == 'function': cont = 0 break if cont: continue if a not in vars: show(vars) outmess('vars2fortran: No definition for argument "%s".\n' % a) continue if a == block['name']: if block['block'] != 'function' or block.get('result'): # 1) skip declaring a variable that name matches with # subroutine name # 2) skip declaring function when its type is # declared via `result` construction continue if 'typespec' not in vars[a]: if 'attrspec' in vars[a] and 'external' in vars[a]['attrspec']: if a in args: ret = '%s%sexternal %s' % (ret, tab, a) continue show(vars[a]) outmess('vars2fortran: No typespec for argument "%s".\n' % a) continue vardef = vars[a]['typespec'] if vardef == 'type' and 'typename' in vars[a]: vardef = '%s(%s)' % (vardef, vars[a]['typename']) selector = {} if 'kindselector' in vars[a]: selector = vars[a]['kindselector'] elif 'charselector' in vars[a]: selector = vars[a]['charselector'] if '*' in selector: if selector['*'] in ['*', ':']: vardef = '%s*(%s)' % (vardef, selector['*']) else: vardef = '%s*%s' % (vardef, selector['*']) else: if 'len' in selector: vardef = '%s(len=%s' % (vardef, selector['len']) if 'kind' in selector: vardef = '%s,kind=%s)' % (vardef, selector['kind']) else: vardef = '%s)' % (vardef) elif 'kind' in selector: vardef = '%s(kind=%s)' % (vardef, selector['kind']) c = ' ' if 'attrspec' in vars[a]: attr = [l for l in vars[a]['attrspec'] if l not in ['external']] if as_interface and 'intent(in)' in attr and 'intent(out)' in attr: # In Fortran, intent(in, out) are conflicting while # intent(in, out) can be specified only via # `!f2py intent(out) ..`. # So, for the Fortran interface, we'll drop # intent(out) to resolve the conflict. attr.remove('intent(out)') if attr: vardef = '%s, %s' % (vardef, ','.join(attr)) c = ',' if 'dimension' in vars[a]: vardef = '%s%sdimension(%s)' % ( vardef, c, ','.join(vars[a]['dimension'])) c = ',' if 'intent' in vars[a]: lst = true_intent_list(vars[a]) if lst: vardef = '%s%sintent(%s)' % (vardef, c, ','.join(lst)) c = ',' if 'check' in vars[a]: vardef = '%s%scheck(%s)' % (vardef, c, ','.join(vars[a]['check'])) c = ',' if 'depend' in vars[a]: vardef = '%s%sdepend(%s)' % ( vardef, c, ','.join(vars[a]['depend'])) c = ',' if '=' in vars[a]: v = vars[a]['='] if vars[a]['typespec'] in ['complex', 'double complex']: try: v = eval(v) v = '(%s,%s)' % (v.real, v.imag) except Exception: pass vardef = '%s :: %s=%s' % (vardef, a, v) else: vardef = '%s :: %s' % (vardef, a) ret = '%s%s%s' % (ret, tab, vardef) return ret ###### # We expose post_processing_hooks as global variable so that # user-libraries could register their own hooks to f2py. post_processing_hooks = [] def crackfortran(files): global usermodules, post_processing_hooks outmess('Reading fortran codes...\n', 0) readfortrancode(files, crackline) outmess('Post-processing...\n', 0) usermodules = [] postlist = postcrack(grouplist[0]) outmess('Applying post-processing hooks...\n', 0) for hook in post_processing_hooks: outmess(f' {hook.__name__}\n', 0) postlist = traverse(postlist, hook) outmess('Post-processing (stage 2)...\n', 0) postlist = postcrack2(postlist) return usermodules + postlist def crack2fortran(block): global f2py_version pyf = crack2fortrangen(block) + '\n' header = """! -*- f90 -*- ! Note: the context of this file is case sensitive. """ footer = """ ! This file was auto-generated with f2py (version:%s). ! See: ! https://web.archive.org/web/20140822061353/http://cens.ioc.ee/projects/f2py2e """ % (f2py_version) return header + pyf + footer def _is_visit_pair(obj): return (isinstance(obj, tuple) and len(obj) == 2 and isinstance(obj[0], (int, str))) def traverse(obj, visit, parents=[], result=None, *args, **kwargs): '''Traverse f2py data structure with the following visit function: def visit(item, parents, result, *args, **kwargs): """ parents is a list of key-"f2py data structure" pairs from which items are taken from. result is a f2py data structure that is filled with the return value of the visit function. item is 2-tuple (index, value) if parents[-1][1] is a list item is 2-tuple (key, value) if parents[-1][1] is a dict The return value of visit must be None, or of the same kind as item, that is, if parents[-1] is a list, the return value must be 2-tuple (new_index, new_value), or if parents[-1] is a dict, the return value must be 2-tuple (new_key, new_value). If new_index or new_value is None, the return value of visit is ignored, that is, it will not be added to the result. If the return value is None, the content of obj will be traversed, otherwise not. """ ''' if _is_visit_pair(obj): if obj[0] == 'parent_block': # avoid infinite recursion return obj new_result = visit(obj, parents, result, *args, **kwargs) if new_result is not None: assert _is_visit_pair(new_result) return new_result parent = obj result_key, obj = obj else: parent = (None, obj) result_key = None if isinstance(obj, list): new_result = [] for index, value in enumerate(obj): new_index, new_item = traverse((index, value), visit, parents=parents + [parent], result=result, *args, **kwargs) if new_index is not None: new_result.append(new_item) elif isinstance(obj, dict): new_result = dict() for key, value in obj.items(): new_key, new_value = traverse((key, value), visit, parents=parents + [parent], result=result, *args, **kwargs) if new_key is not None: new_result[new_key] = new_value else: new_result = obj if result_key is None: return new_result return result_key, new_result def character_backward_compatibility_hook(item, parents, result, *args, **kwargs): """Previously, Fortran character was incorrectly treated as character*1. This hook fixes the usage of the corresponding variables in `check`, `dimension`, `=`, and `callstatement` expressions. The usage of `char*` in `callprotoargument` expression can be left unchanged because C `character` is C typedef of `char`, although, new implementations should use `character*` in the corresponding expressions. See https://github.com/numpy/numpy/pull/19388 for more information. """ parent_key, parent_value = parents[-1] key, value = item def fix_usage(varname, value): value = re.sub(r'[*]\s*\b' + varname + r'\b', varname, value) value = re.sub(r'\b' + varname + r'\b\s*[\[]\s*0\s*[\]]', varname, value) return value if parent_key in ['dimension', 'check']: assert parents[-3][0] == 'vars' vars_dict = parents[-3][1] elif key == '=': assert parents[-2][0] == 'vars' vars_dict = parents[-2][1] else: vars_dict = None new_value = None if vars_dict is not None: new_value = value for varname, vd in vars_dict.items(): if ischaracter(vd): new_value = fix_usage(varname, new_value) elif key == 'callstatement': vars_dict = parents[-2][1]['vars'] new_value = value for varname, vd in vars_dict.items(): if ischaracter(vd): # replace all occurrences of `<varname>` with # `&<varname>` in argument passing new_value = re.sub( r'(?<![&])\b' + varname + r'\b', '&' + varname, new_value) if new_value is not None: if new_value != value: # We report the replacements here so that downstream # software could update their source codes # accordingly. However, such updates are recommended only # when BC with numpy 1.21 or older is not required. outmess(f'character_bc_hook[{parent_key}.{key}]:' f' replaced `{value}` -> `{new_value}`\n', 1) return (key, new_value) post_processing_hooks.append(character_backward_compatibility_hook) if __name__ == "__main__": files = [] funcs = [] f = 1 f2 = 0 f3 = 0 showblocklist = 0 for l in sys.argv[1:]: if l == '': pass elif l[0] == ':': f = 0 elif l == '-quiet': quiet = 1 verbose = 0 elif l == '-verbose': verbose = 2 quiet = 0 elif l == '-fix': if strictf77: outmess( 'Use option -f90 before -fix if Fortran 90 code is in fix form.\n', 0) skipemptyends = 1 sourcecodeform = 'fix' elif l == '-skipemptyends': skipemptyends = 1 elif l == '--ignore-contains': ignorecontains = 1 elif l == '-f77': strictf77 = 1 sourcecodeform = 'fix' elif l == '-f90': strictf77 = 0 sourcecodeform = 'free' skipemptyends = 1 elif l == '-h': f2 = 1 elif l == '-show': showblocklist = 1 elif l == '-m': f3 = 1 elif l[0] == '-': errmess('Unknown option %s\n' % repr(l)) elif f2: f2 = 0 pyffilename = l elif f3: f3 = 0 f77modulename = l elif f: try: open(l).close() files.append(l) except OSError as detail: errmess(f'OSError: {detail!s}\n') else: funcs.append(l) if not strictf77 and f77modulename and not skipemptyends: outmess("""\ Warning: You have specified module name for non Fortran 77 code that should not need one (expect if you are scanning F90 code for non module blocks but then you should use flag -skipemptyends and also be sure that the files do not contain programs without program statement). """, 0) postlist = crackfortran(files) if pyffilename: outmess('Writing fortran code to file %s\n' % repr(pyffilename), 0) pyf = crack2fortran(postlist) with open(pyffilename, 'w') as f: f.write(pyf) if showblocklist: show(postlist)