LCPQ/irpf90
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Version:1.1.10

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This commit is contained in:
Anthony Scemama 2009-09-09 16:59:43 +02:00
parent 63a49efe15
commit 98e97dbe22
7 changed files with 285 additions and 174 deletions
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21
src/module.py
View File

@ -10,7 +10,7 @@ class Fmodule(object):
def __init__(self,text,filename):
self.text = put_info(text,filename)
self.name = "%s_mod"%(filename[:-6].lower())
self.name = "%s_mod"%(filename[:-6])
def is_main(self):
if '_is_main' not in self.__dict__:
@ -69,8 +69,6 @@ class Fmodule(object):
var = variables[var]
result += var.provider
result += var.builder
if var.is_freed:
result += var.free
if var.is_touched:
result += var.toucher
if var.is_read:
@ -84,6 +82,7 @@ class Fmodule(object):
def residual_text(self):
if '_residual_text' not in self.__dict__:
from variables import build_use
from parsed_text import move_to_top
def remove_providers(text):
result = []
inside = False
@ -128,21 +127,29 @@ class Fmodule(object):
inside = False
return use, dec, result
def provide_variables(text):
result = []
for vars,line in text:
result.append( ([],line) )
result += map(lambda x: ([],Simple_line(line.i," call provide_%s"%(x),line.filename)), vars)
return result
result = remove_providers(self.text)
result = modify_functions(result)
use,dec,result = extract_use_dec_text(result)
self._use = make_single(map(lambda x: " "+x[1].text, use))
self._dec = make_single(map(lambda x: " "+x[1].text, dec))
result = provide_variables(result)
result = move_to_top(result,Declaration)
result = move_to_top(result,Implicit)
result = move_to_top(result,Use)
result = map(lambda x: x[1], result)
result = preprocessed_text.move_to_top(result,Declaration)
result = preprocessed_text.move_to_top(result,Implicit)
result = preprocessed_text.move_to_top(result,Use)
result = map(lambda x: x.text, result)
if self.is_main:
result = [ \
"program irp_program",
" call %s"%(self.prog_name),
"end irp_program",
"end program",
] + result
self._residual_text = result
return self._residual_text

66
src/parsed_text.py
View File

@ -14,8 +14,9 @@ def find_variables_in_line(line):
buffer = regexps.re_string.sub('',line.text)
for v in variables.keys():
var = variables[v]
if var.regexp.search(buffer) is not None:
result.append(var.name)
if var.name in buffer.lower():
if var.regexp.search(buffer) is not None:
result.append(var.same_as)
return result
def find_subroutine_in_line(line):
@ -72,6 +73,9 @@ def get_parsed_text():
elif isinstance(line,Provide):
l = line.text.lower().split()[1:]
l = filter(lambda x: x not in varlist, l)
for v in l:
if v not in variables.keys():
error.fail(line,"Variable %s is unknown"%(v))
result.append( (l,Simple_line(line.i,"!%s"%(line.text),line.filename)) )
elif isinstance(line,Call):
sub = find_subroutine_in_line(line)
@ -82,7 +86,9 @@ def get_parsed_text():
t = Simple_line
else:
t = Provide_all
result.append( ([],t(line.i,line.text,line.filename)) )
l = find_variables_in_line(line)
l = filter(lambda x: x not in varlist, l)
result.append( (l,t(line.i,line.text,line.filename)) )
elif isinstance(line,Free):
vars = line.text.split()
if len(vars) < 2:
@ -91,9 +97,12 @@ def get_parsed_text():
for v in vars:
variables[v].is_freed = True
result.append( ([],Simple_line(line.i,"!%s"%(line.text),line.filename)) )
use = map(lambda x: " use %s"%(variables[x].fmodule),vars)
for var in vars:
result.append( ([],Simple_line(line.i," call free_%s"%var,
line.filename)) )
result += map(lambda x: ([],Use(line.i,x,line.filename)),
make_single(use))
result += map(lambda x: ([],Simple_line(line.i,x,line.filename)),
variables[var].free)
elif isinstance(line,Irp_read):
variables[line.filename].is_read = True
result.append( ([],Simple_line(line.i,"!%s"%(line.text),line.filename)) )
@ -106,7 +115,7 @@ def get_parsed_text():
error.fail(line,"Syntax error")
vars = map(lower,vars[1:])
for v in vars:
variables[v].is_touched = True
variables[v]._is_touched = True
def fun(x):
if x not in variables:
error.fail(line,"Variable %s unknown"%(x,))
@ -121,7 +130,8 @@ def get_parsed_text():
if x not in variables:
error.fail(line,"Variable %s unknown"%(x,))
return [ ([],Simple_line(line.i," call touch_%s"%(x,),line.filename)),
([],Simple_line(line.i," %s_is_built = .True."%(x,),line.filename)) ]
([],Simple_line(line.i," %s_is_built = .True."%(x,),line.filename)),
([],Use(line.i," use %s"%(variables[x].fmodule), line.filename)) ]
result += flatten(map( fun, main_vars ))
def fun(x):
if x not in variables:
@ -137,7 +147,7 @@ def get_parsed_text():
v = buffer[1].lower()
varlist.append(v)
variable_list = find_variables_in_line(line)
variable_list.remove(v)
variable_list.remove(variables[v].same_as)
result.append( (variable_list,line) )
else:
l = find_variables_in_line(line)
@ -242,10 +252,33 @@ def move_variables():
parsed_text = move_variables()
######################################################################
def move_to_top(text,t):
assert isinstance(text,list)
assert t in [ Declaration, Implicit, Use, Cont_provider ]
inside = False
for i in range(len(text)):
vars, line = text[i]
if type(line) in [ Begin_provider, Subroutine, Function ]:
begin = i
inside = True
elif type(line) in [ End_provider, End ]:
inside = False
elif isinstance(line,t):
if inside:
text.pop(i)
begin += 1
text.insert(begin,(vars,line))
return text
######################################################################
def build_needs():
# Needs
for filename, text in parsed_text:
var = None
for vars,line in text:
if isinstance(line,Begin_provider):
buffer = map(strip,line.text.replace(']',',').split(','))
@ -273,8 +306,9 @@ def build_needs():
variables[v].needed_by = variables[main].needed_by
for v in variables.keys():
var = variables[v]
for x in var.needs:
variables[x].needed_by.append(var.same_as)
if var.is_main:
for x in var.needs:
variables[x].needed_by.append(var.same_as)
for v in variables.keys():
var = variables[v]
var.needed_by = make_single(var.needed_by)
@ -282,11 +316,21 @@ def build_needs():
build_needs()
result = []
for filename,text in parsed_text:
text = move_to_top(text,Declaration)
text = move_to_top(text,Implicit)
text = move_to_top(text,Use)
text = move_to_top(text,Cont_provider)
result.append ( (filename,text) )
parsed_text = result
######################################################################
if __name__ == '__main__':
for i in range(len(parsed_text)):
if parsed_text[i][0] == 'mpi.irp.f':
print '!-------- %s -----------'%(parsed_text[i][0])
for line in parsed_text[i][1]:
print line[1]
print line[0]
print line[0], line[1].filename

47
src/preprocessed_text.py
View File

@ -111,7 +111,7 @@ def get_type (i, filename, line, is_doc):
if firstword[0] == '#':
result = [ Simple_line(i,line,filename) ]
error.warn ( result ,
error.warn ( result[0] ,
"""irpf90 may not work with preprocessor directives. You can use
Irp_if ... Irp_else ... Irp_endif
instead of
@ -361,7 +361,7 @@ def irp_simple_statements(text):
def process_assert(line):
assert isinstance(line,Assert)
if command_line.do_assert:
condition = line.text.split(None,1)[1]
condition = "(%s"%(line.text.split('(',1)[1])
if condition == "":
error.fail(line,"Error in Assert statement")
condition_str = condition.replace("'","''")
@ -411,14 +411,26 @@ def irp_simple_statements(text):
length = len(varname)
i = line.i
f = line.filename
result = [ line,
Declaration(i," character*(%d), parameter :: irp_here = '%s'"%(length,varname), f) ]
result = [ Begin_provider(i,line.text, (f,varname)),
Declaration(i," character*(%d), parameter :: irp_here = '%s'"%(length,varname), filename) ]
if command_line.do_assert or command_line.do_debug:
result += [
Simple_line(i," call irp_enter(irp_here)", f),
]
return result
def process_cont_provider(line):
assert isinstance(line,Cont_provider)
buffer = line.text.replace('['," ")
buffer = buffer.replace(']',"")
buffer = buffer.split(',')
if len(buffer) < 2:
error.fail(line,"Error in Cont_provider statement")
varname = buffer[1].strip().lower()
i = line.i
f = line.filename
return [ Cont_provider(i,line.text,(f,varname)) ]
def process_subroutine(line):
assert isinstance(line,Subroutine)
subname = find_subname(line)
@ -462,11 +474,11 @@ def irp_simple_statements(text):
Assert : process_assert,
End : process_end,
Begin_provider : process_begin_provider,
Cont_provider : process_cont_provider,
End_provider : process_end,
Subroutine : process_subroutine,
Function : process_function,
Program : process_program,
Provide : process_provide,
}
result = []
@ -661,27 +673,6 @@ def remove_ifdefs(text):
result.append(line)
return result
######################################################################
def move_to_top(text,t):
assert isinstance(text,list)
assert t in [ Declaration, Implicit, Use, Cont_provider ]
inside = False
for i in range(len(text)):
line = text[i]
if type(line) in [ Begin_provider, Subroutine, Function ]:
begin = i
inside = True
elif type(line) in [ End_provider, End ]:
inside = False
elif isinstance(line,t):
if inside:
text.pop(i)
begin += 1
text.insert(begin,line)
return text
######################################################################
def create_preprocessed_text(filename):
file = open(filename,"r")
@ -697,10 +688,6 @@ def create_preprocessed_text(filename):
result = change_single_line_ifs(result)
result = process_old_style_do(result)
result = irp_simple_statements(result)
result = move_to_top(result,Declaration)
result = move_to_top(result,Implicit)
result = move_to_top(result,Use)
result = move_to_top(result,Cont_provider)
return result
######################################################################

7
src/regexps.py
View File

@ -24,14 +24,7 @@ re_decl = re.compile( "".join( [ r"^\ *",
r")[^=(]"
] ) )
re_left = re.compile(r"\[")
re_right = re.compile(r"\]")
re_test = re.compile(r"\( *(.*)(\.[a-zA-Z]*\.|[<>]=?|[=/]=)([^=]*)\)")
re_space = re.compile("\s")
re_string = re.compile(r"'.*'")
re_assert = re.compile(r"assert *",re.I)
re_check = re.compile(r".*[() ].*")

2
src/subroutine.py
View File

@ -58,7 +58,7 @@ class Sub(object):
if '_regexp' not in self.__dict__:
import re
self._regexp = re.compile( \
r"^.*[^a-z0-9'\"_]+%s([^a-z0-9_]|$)"%(self.name),re.I)
r"([^a-z0-9'\"_]|^)%s([^a-z0-9_]|$)"%(self.name),re.I)
return self._regexp
regexp = property(regexp)

314
src/variable.py
View File

@ -15,10 +15,30 @@ class Variable(object):
self.text = text
if name is not None:
self._name = name.lower()
self.is_freed = False
self.is_read = False
self.is_written = False
self.is_touched = False
############################################################
def is_touched(self):
'''Name is lowercase'''
if '_is_touched' not in self.__dict__:
from variables import variables
result = True # False
#for i in self.children:
# if variables[i].is_touched:
# result = True
# break
self._is_touched = result
return self._is_touched
is_touched = property(is_touched)
############################################################
def is_main(self):
'''Name is lowercase'''
if '_is_main' not in self.__dict__:
self._is_main = (self.name == self.same_as)
return self._is_main
is_main = property(is_main)
############################################################
def name(self):
@ -27,12 +47,8 @@ class Variable(object):
buffer = None
for line in self.text:
if isinstance(line,Begin_provider):
buffer = line.text.replace(']',',').split(',')
self._name = line.filename[1]
break
assert buffer is not None
if len(buffer) < 3:
error.fail(line, "Error in Begin_provider line")
self._name = buffer[1].strip().lower()
return self._name
name = property(name)
@ -61,11 +77,7 @@ class Variable(object):
f = lambda l: type(l) in [Begin_provider, Cont_provider]
lines = filter(f, self.text)
for line in lines:
buffer = line.text.replace(']',',').split(',')
if len(buffer) < 3:
error.fail(line,"Syntax Error")
buffer = buffer[1].strip().lower()
result.append(buffer)
result.append(line.filename[1])
result.remove(self.name)
self._others = result
return self._others
@ -77,10 +89,7 @@ class Variable(object):
if isinstance(self.line,Begin_provider):
result = self.name
else:
buffer = self.text[0].text.replace(']',',').split(',')
if len(buffer) < 3:
error.fail(line,"Syntax Error")
result = buffer[1].strip().lower()
result = self.text[0].filename[1]
self._same_as = result
return self._same_as
same_as = property(same_as)
@ -88,10 +97,13 @@ class Variable(object):
############################################################
def allocate(self):
if '_allocate' not in self.__dict__:
from variables import variables
def f(var):
return variables[var].dim != []
self._allocate = filter ( f, self.others + [self.name] )
if not self.is_main:
self._allocate = []
else:
from variables import variables
def f(var):
return variables[var].dim != []
self._allocate = filter ( f, self.others + [self.name] )
return self._allocate
allocate = property(allocate)
@ -114,7 +126,7 @@ class Variable(object):
line = self.line.text
buffer = line.split(',')[0]
buffer = buffer.split('[')[1].strip()
if self.dim != '':
if self.dim != []:
buffer = "%s, allocatable"%(buffer)
self._type = buffer
return self._type
@ -123,7 +135,7 @@ class Variable(object):
############################################################
def fmodule(self):
if '_fmodule' not in self.__dict__:
self._fmodule = self.line.filename.split('.irp.f')[0]+'_mod'
self._fmodule = self.line.filename[0].split('.irp.f')[0]+'_mod'
return self._fmodule
fmodule = property(fmodule)
@ -132,7 +144,8 @@ class Variable(object):
if '_regexp' not in self.__dict__:
import re
self._regexp = re.compile( \
r"^.*[^a-z0-9'\"_]+%s([^a-z0-9_]|$)"%(self.name),re.I)
#r"^.*[^a-z0-9'\"_]+%s([^a-z0-9_]|$)"%(self.name),re.I)
r"([^a-z0-9'\"_]|^)%s([^a-z0-9_]|$)"%(self.name),re.I)
return self._regexp
regexp = property(regexp)
@ -142,11 +155,8 @@ class Variable(object):
f = lambda l: type(l) in [Begin_provider, Cont_provider]
lines = filter(f, self.text)
for line in lines:
buffer = line.text.replace(']',',').split(',')
if len(buffer) < 3:
error.fail(line,"Syntax Error")
buffer = buffer[1].strip().lower()
if self.name == buffer:
buffer = line.filename[1]
if self._name == buffer:
self._line = line
break
assert '_line' in self.__dict__
@ -157,18 +167,23 @@ class Variable(object):
def header(self):
if '_header' not in self.__dict__:
name = self.name
self._header = [
" %s :: %s %s"%(self.type, name, build_dim(self.dim) ),
" logical :: %s_is_built = .False."%(name),
]
def build_dim(d):
if d == []:
return ""
else:
x = map(lambda x: ":", self.dim)
return "(%s)"%(','.join(x))
self._header = [ " %s :: %s %s"%(self.type, name, build_dim(self.dim) ) ]
if self.is_main:
self._header += [ " logical :: %s_is_built = .False."%(name) ]
return self._header
header = property(header)
############################################################
def toucher(self):
if '_toucher' not in self.__dict__:
if self.same_as != self.name:
self._toucher = ""
if not self.is_main:
self._toucher = []
else:
if '_needed_by' not in self.__dict__:
import parsed_text
@ -194,81 +209,93 @@ class Variable(object):
##########################################################
def reader(self):
if '_reader' not in self.__dict__:
if '_needs' not in self.__dict__:
import parsed_text
name = self.name
result = [ \
"subroutine reader_%s(irp_num)"%(name),
" use %s"%(self.fmodule),
" implicit none",
" character*(*), intent(in) :: irp_num",
" logical :: irp_is_open",
" integer :: irp_iunit" ]
if command_line.do_debug:
length = len("reader_%s"%(self.name))
result += [\
" character*(%d), parameter :: irp_here = 'reader_%s'"%(length,name),
" call irp_enter(irp_here)" ]
result += map(lambda x: " call reader_%s(irp_num)"%(x),self.needs)
result += [ \
" irp_is_open = .True.",
" irp_iunit = 9",
" do while (irp_is_open)",
" irp_iunit = irp_iunit+1",
" inquire(unit=irp_iunit,opened=irp_is_open)",
" enddo",
" open(unit=irp_iunit,file='irpf90_%s_'//trim(irp_num),form='FORMATTED',status='OLD',action='READ')"%(name),
" read(irp_iunit,*) %s%s"%(name,build_dim(self.dim)),
" close(irp_iunit)",
" call touch_%s"%(self.same_as),
" %s_is_built = .True."%(self.same_as) ]
if command_line.do_debug:
result.append(" call irp_leave(irp_here)")
result.append("end subroutine reader_%s"%(name))
result.append("")
self._reader = result
if not self.is_main:
self._reader = []
else:
if '_needs' not in self.__dict__:
import parsed_text
from variables import variables
name = self.name
result = [ \
"subroutine reader_%s(irp_num)"%(name),
" use %s"%(self.fmodule),
" implicit none",
" character*(*), intent(in) :: irp_num",
" logical :: irp_is_open",
" integer :: irp_iunit" ]
if command_line.do_debug:
length = len("reader_%s"%(self.name))
result += [\
" character*(%d), parameter :: irp_here = 'reader_%s'"%(length,name),
" call irp_enter(irp_here)" ]
result += map(lambda x: " call reader_%s(irp_num)"%(x),self.needs)
result += [ \
" irp_is_open = .True.",
" irp_iunit = 9",
" do while (irp_is_open)",
" irp_iunit = irp_iunit+1",
" inquire(unit=irp_iunit,opened=irp_is_open)",
" enddo"]
for n in [ name ]+self.others:
result += [\
" open(unit=irp_iunit,file='irpf90_%s_'//trim(irp_num),form='FORMATTED',status='OLD',action='READ')"%(n),
" read(irp_iunit,*) %s%s"%(n,build_dim(variables[n].dim)),
" close(irp_iunit)" ]
rsult += [ \
" call touch_%s"%(name),
" %s_is_built = .True."%(name) ]
if command_line.do_debug:
result.append(" call irp_leave(irp_here)")
result.append("end subroutine reader_%s"%(name))
result.append("")
self._reader = result
return self._reader
reader = property(reader)
##########################################################
def writer(self):
if '_writer' not in self.__dict__:
if '_needs' not in self.__dict__:
import parsed_text
name = self.name
result = [ \
"subroutine writer_%s(irp_num)"%(name),
" use %s"%(self.fmodule),
" implicit none",
" character*(*), intent(in) :: irp_num",
" logical :: irp_is_open",
" integer :: irp_iunit" ]
if command_line.do_debug:
length = len("writer_%s"%(self.name))
result += [\
" character*(%d), parameter :: irp_here = 'writer_%s'"%(length,name),
" call irp_enter(irp_here)" ]
result += [ \
" if (.not.%s_is_built) then"%(self.same_as),
" call provide_%s"%(self.same_as),
" endif" ]
result += map(lambda x: " call writer_%s(irp_num)"%(x),self.needs)
result += [ \
" irp_is_open = .True.",
" irp_iunit = 9",
" do while (irp_is_open)",
" irp_iunit = irp_iunit+1",
" inquire(unit=irp_iunit,opened=irp_is_open)",
" enddo",
" open(unit=irp_iunit,file='irpf90_%s_'//trim(irp_num),form='FORMATTED',status='UNKNOWN',action='WRITE')"%(name),
" write(irp_iunit,*) %s%s"%(name,build_dim(self.dim)),
" close(irp_iunit)" ]
result += map(lambda x: " call writer_%s(irp_num)"%(x),self.others)
if command_line.do_debug:
result.append(" call irp_leave(irp_here)")
result.append("end subroutine writer_%s"%(name))
result.append("")
self._writer = result
if not self.is_main:
self._writer = []
else:
from variables import variables
if '_needs' not in self.__dict__:
import parsed_text
name = self.name
result = [ \
"subroutine writer_%s(irp_num)"%(name),
" use %s"%(self.fmodule),
" implicit none",
" character*(*), intent(in) :: irp_num",
" logical :: irp_is_open",
" integer :: irp_iunit" ]
if command_line.do_debug:
length = len("writer_%s"%(self.name))
result += [\
" character*(%d), parameter :: irp_here = 'writer_%s'"%(length,name),
" call irp_enter(irp_here)" ]
result += [ \
" if (.not.%s_is_built) then"%(self.same_as),
" call provide_%s"%(self.same_as),
" endif" ]
result += map(lambda x: " call writer_%s(irp_num)"%(x),self.needs)
result += [ \
" irp_is_open = .True.",
" irp_iunit = 9",
" do while (irp_is_open)",
" irp_iunit = irp_iunit+1",
" inquire(unit=irp_iunit,opened=irp_is_open)",
" enddo" ]
for n in [ name ] + self.others:
result += [\
" open(unit=irp_iunit,file='irpf90_%s_'//trim(irp_num),form='FORMATTED',status='UNKNOWN',action='WRITE')"%(n),
" write(irp_iunit,*) %s%s"%(n,build_dim(variables[n].dim)),
" close(irp_iunit)" ]
if command_line.do_debug:
result.append(" call irp_leave(irp_here)")
result.append("end subroutine writer_%s"%(name))
result.append("")
self._writer = result
return self._writer
writer = property(writer)
@ -276,24 +303,14 @@ class Variable(object):
def free(self):
if '_free' not in self.__dict__:
name = self.name
result = [ \
"subroutine free_%s"%(name),
" use %s"%(self.fmodule),
" implicit none" ]
if command_line.do_debug:
length = len("free_%s"%(self.name))
result += [\
" character*(%d), parameter :: irp_here = 'free_%s'"%(length,name),
result = [ "!","! >>> FREE %s"%(self.name),
" %s_is_built = .False."%(self.same_as) ]
if self.dim != []:
result += [ \
" if (allocated(%s)) then"%(name),
" deallocate (%s)"%(name),
" endif" ]
if command_line.do_debug:
result.append(" call irp_leave(irp_here)")
result.append("end subroutine free_%s"%(name))
result.append("")
result.append("! <<< END FREE")
self._free = result
return self._free
free = property(free)
@ -301,6 +318,9 @@ class Variable(object):
##########################################################
def provider(self):
if '_provider' not in self.__dict__:
if not self.is_main:
self._provider = []
else:
if '_to_provide' not in self.__dict__:
import parsed_text
from variables import variables, build_use, call_provides
@ -387,11 +407,28 @@ class Variable(object):
##########################################################
def builder(self):
if '_builder' not in self.__dict__:
if not self.is_main:
self._builder = []
if '_needs' not in self.__dict__:
import parsed_text
from variables import build_use
for filename,buffer in parsed_text.parsed_text:
if self.line.filename[0].startswith(filename):
break
text = []
same_as = self.same_as
inside = False
for vars,line in buffer:
if isinstance(line,Begin_provider):
if line.filename[1] == same_as:
inside = True
if inside:
text.append(line)
if isinstance(line,End_provider):
if inside:
break
name = self.name
for line in filter(lambda x: type(x) not in [ Begin_doc, End_doc, Doc], self.text):
for line in filter(lambda x: type(x) not in [ Begin_doc, End_doc, Doc], text):
if type(line) == Begin_provider:
result = [ "subroutine bld_%s"%(name) ]
result += build_use([name]+self.needs)
@ -406,11 +443,54 @@ class Variable(object):
return self._builder
builder = property(builder)
##########################################################
def children(self):
if '_children' not in self.__dict__:
if not self.is_main:
self._children = []
from variables import variables
if '_needs' not in self.__dict__:
import parsed_text
result = []
for x in self.needs:
result.append(x)
try:
result += variables[x].children
except RuntimeError:
pass # Exception will be checked after
self._children = make_single(result)
if self.name in result:
error.fail(self.line,"Cyclic dependencies:\n%s"%(str(self._children)))
return self._children
children = property(children)
##########################################################
def parents(self):
if '_parents' not in self.__dict__:
if not self._is_main:
self._parents = []
else:
from variables import variables
if '_needed_by' not in self.__dict__:
import parsed_text
result = []
for x in self.needed_by:
result.append(x)
try:
result += variables[x].parents
except RuntimeError:
pass # Exception will be checked after
self._parents = make_single(result)
if self.name in result:
error.fail(self.line,"Cyclic dependencies:\n%s"%(str(self._parents)))
return self._parents
parents = property(parents)
######################################################################
if __name__ == '__main__':
from preprocessed_text import preprocessed_text
from variables import variables
#for v in variables.keys():
# print v
for line in variables['grid_eplf_aa'].builder:
for line in variables['e_loc'].parents:
print line

2
src/version.py
View File

@ -1 +1 @@
version = "1.1.9"
version = "1.1.10"