/usr/share/pyshared/pyvtk/common.py is in python-pyvtk 0.4.74-3build1.
This file is owned by root:root, with mode 0o644.
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"""
Common functions/methods.
"""
"""
Copyright 2001 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 LGPL. See http://www.fsf.org
NO WARRANTY IS EXPRESSED OR IMPLIED. USE AT YOUR OWN RISK.
$Revision: 1.13 $
$Date: 2007-02-22 12:15:46 $
Pearu Peterson
"""
import types
import sys
import struct
def is_sequence(obj):
"""Check if obj is sequence."""
try:
len(obj)
return 1
except TypeError:
return 0
def is_sequence2(obj):
"""Check if obj is sequence of sequences."""
return is_sequence(obj) and len(obj) and is_sequence(obj[0])
def is_sequence3(obj):
"""Check if obj is sequence of sequences of sequences."""
return is_sequence(obj) and len(obj) and is_sequence2(obj[0])
def is_number(obj):
"""Check if obj is number."""
return isinstance(obj, (int, float))
def is_int(obj):
"""Check if obj is integer."""
return isinstance(obj, int)
def is_float(obj):
"""Check if obj is float."""
return isinstance(obj, float)
def is_string(obj):
"""Check if obj is string."""
return isinstance(obj, str)
def is_int255(obj):
if is_sequence(obj):
for v in obj:
r = is_int255(v)
if not r: return 0
return 1
return 0<=obj<256
def is_float01(obj):
if is_sequence(obj):
for v in obj:
r = is_float01(v)
if not r: return 0
return 1
return 0<=obj<=1
def is_datasetattr(obj):
return type(obj) is types.InstanceType and isinstance(obj,DataSetAttr.DataSetAttr)
def is_dataset(obj):
return type(obj) is types.InstanceType and isinstance(obj,DataSet.DataSet)
def is_pointdata(obj):
return type(obj) is types.InstanceType and isinstance(obj,Data.PointData)
def is_celldata(obj):
return type(obj) is types.InstanceType and isinstance(obj,Data.CellData)
def _getline(f):
l = ' '
while l:
l = f.readline()
if l.strip():
return l.strip()
return None
class Common:
"""Abstract class. Defines output, checker, and getter functions."""
struct_fmt_map = {'char':'c',
'long':'l','double':'d',
'int':'i','float':'f',
'unsigned char':'B'}
default_int = 'int'
default_float = 'float'
def _get_trace(self,m):
try:
frame = sys._getframe().f_back
except AttributeError: # Python 2.0 does not have sys._getframe
frame = None
n = ''
while frame:
i = frame.f_code.co_name
n = '%s.%s'%(i,n)
if i=='__init__':
break
frame = frame.f_back
print >>sys.stderr,'%s.%s:\n\t%s'%(self.__class__.__name__,n[:-1],m)
def warning(self,m=''):
self._get_trace(m)
def skipping(self,m=''):
self._get_trace(m)
def error(self,m=''):
self._get_trace(m)
def message(self,m=''):
self._get_trace(m)
def __str__(self):
return self.to_string()
def get_datatype(self,obj):
typecode = None
if hasattr(obj,'dtype'): # obj is numpy array
typecode = obj.dtype.char
elif hasattr(obj,'typecode'): # obj is Numeric array
typecode = obj.typecode()
if typecode is not None:
r = {'b':'unsigned_char', #'bit'??
'f':'float',
'd':'double',
'i':'int',
'l':'long',
'1':'char',
's':'short',
'w':'unsigned_short',
'u':'unsigned_int'
#'?':'unsigned_long'
}.get(typecode)
if r is not None:
return r
if is_int(obj): return self.default_int
if is_float(obj): return self.default_float
if not is_sequence(obj):
raise ValueError,'expected int|float|non-empty sequence but got %s'\
%(type(obj))
if not len(obj):
self.warning('no data, no datatype, using int')
r = 'int'
for o in obj:
r = self.get_datatype(o)
if r==self.default_float:
break
return r
def get_seq(self,obj,default=None):
"""Return sequence."""
if is_sequence(obj):
return obj
if is_number(obj): return [obj]
if obj is None and default is not None:
self.warning('using default value (%s)'%(default))
return self.get_seq(default)
raise ValueError,'expected sequence|number but got %s'%(type(obj))
def get_seq_seq(self,obj,default=None):
"""Return sequence of sequences."""
if is_sequence2(obj):
return [self.get_seq(o,default) for o in obj]
else:
return [self.get_seq(obj,default)]
def get_n_seq_seq(self,obj,default):
seq = self.get_seq_seq(obj,default)
if is_sequence(default):
n = len(default)
else:
n = max(map(len,seq))
default = [default]*n
ret = []
flag = 0
for v in seq:
if len(v)!=n:
ret.append(list(v)+default[len(v):])
flag = 1
else:
ret.append(list(v))
if flag:
self.warning('Some items were filled with default value (%s) to obtain size=%s'%(default[0],n))
return ret
def get_3_tuple(self,obj,default=None):
"""Return 3-tuple from
number -> (obj,default[1],default[2])
0-sequence|None -> default
1-sequence -> (obj[0],default[1],default[2])
2-sequence -> (obj[0],obj[1],default[2])
(3 or more)-sequence -> (obj[0],obj[1],obj[2])
"""
if not (default is not None \
and type(default) is types.TupleType \
and len(default)==3):
raise ValueError,'argument default must be 3-tuple|None but got %s'%(default)
if is_sequence(obj):
n = len(obj)
if n>3:
self.warning('expected 3-sequence but got %s-%s'%(n,type(obj)))
if n>=3:
return tuple(obj)
self.warning('filling with default value (%s) to obtain size=3'%(default[0]))
if default is not None:
if n==0:
return default
elif n==1:
return (obj[0],default[1],default[2])
elif n==2:
return (obj[0],obj[1],default[2])
elif is_number(obj) and default is not None:
self.warning('filling with default value (%s) to obtain size=3'%(default[0]))
return (obj,default[1],default[2])
elif obj is None and default is not None:
self.warning('filling with default value (%s) to obtain size=3'%(default[0]))
return default
raise ValueError,'failed to construct 3-tuple from %s-%s'%(n,type(obj))
def get_3_tuple_list(self,obj,default=None):
"""Return list of 3-tuples from
sequence of a sequence,
sequence - it is mapped to sequence of 3-sequences if possible
number
"""
if is_sequence2(obj):
return [self.get_3_tuple(o,default) for o in obj]
elif is_sequence(obj):
return [self.get_3_tuple(obj[i:i+3],default) for i in range(0,len(obj),3)]
else:
return [self.get_3_tuple(obj,default)]
def get_3_3_tuple(self,obj,default=None):
"""Return tuple of 3-tuples
"""
if is_sequence2(obj):
ret = []
for i in range(3):
if i<len(obj):
ret.append(self.get_3_tuple(obj[i],default))
else:
ret.append(self.get_3_tuple(default,default))
return tuple(ret)
if is_sequence(obj):
if len(obj)>9:
self.warning('ignoring elements obj[i], i>=9')
r = obj[:9]
r = [self.get_3_tuple(r[j:j+3],default) for j in range(0,len(r),3)]
if len(r)<3:
self.warning('filling with default value (%s) to obtain size=3'%(default[0]))
while len(r)<3:
r.append(self.get_3_tuple(default,default))
return tuple(r)
self.warning('filling with default value (%s) to obtain size=3'%(default[0]))
r1 = self.get_3_tuple(obj,default)
r2 = self.get_3_tuple(default,default)
r3 = self.get_3_tuple(default,default)
return (r1,r2,r3)
def get_3_3_tuple_list(self,obj,default=None):
"""Return list of 3x3-tuples.
"""
if is_sequence3(obj):
return [self.get_3_3_tuple(o,default) for o in obj]
return [self.get_3_3_tuple(obj,default)]
def _get_nof_objs(self,seq):
if is_sequence2(seq):
return reduce(lambda x,y:x+y,map(self._get_nof_objs,seq),0)
#return reduce(lambda x,y:x+y,[self._get_nof_objs(s) for s in seq],0)
return len(seq)
def seq_to_string(self,seq,format,datatype):
assert is_sequence(seq),'expected sequence but got %s'%(type(seq))
if format == 'ascii':
if is_sequence2(seq):
sep = '\n'
if is_sequence3(seq):
sep = '\n\n'
return sep.join([self.seq_to_string(v,format,datatype) for v in seq])
else:
return ' '.join(map(str,seq))
elif format == 'binary':
if is_sequence2(seq):
r = ''.join([self.seq_to_string(v,format,datatype) for v in seq])
return r
else:
try:
fmt = self.struct_fmt_map[datatype]
except KeyError:
fmt = None
if fmt:
r = struct.pack('!'+fmt*len(seq),*seq)
return r
raise NotImplementedError,'format=%s, datatype=%s'%(format,datatype)
def float01_to_int255(self,seq):
assert is_float01(seq)
if is_sequence(seq):
return map(self.float01_to_int255,seq)
#return [self.float01_to_int255(l) for l in seq]
else:
return int(seq*255)
def int255_to_float01(self,seq):
assert is_int255(seq)
if is_sequence(seq):
return map(self.int255_to_float01,seq)
#return [self.int255_to_float01(l) for l in seq]
else:
return round(seq/255.0,6)
import Data
import DataSet
import DataSetAttr
|