Python: module numpy.numarray.ma

numpy.numarray.ma

index
/usr/lib/python2.6/dist-packages/numpy/numarray/ma.py

Modules

numpy.core.fromnumeric
numpy.core.numeric
sys
types
numpy.core.umath
warnings

Data

__file__ = '/usr/lib/python2.6/dist-packages/numpy/numarray/ma.pyc'
__name__ = 'numpy.numarray.ma'
__package__ = 'numpy.numarray'
absolute = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e290>
add = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713e488>
arccos = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x7129f80>
arccosh = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e0e0>
arcsin = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x7129ef0>
arcsinh = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e050>
arctan = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x7129fc8>
arctan2 = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713e878>
arctanh = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e170>
around = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e368>
bitwise_and = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713eb90>
bitwise_or = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713ebd8>
bitwise_xor = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713ec20>
ceil = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e3f8>
conjugate = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x7129d40>
cos = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x7129dd0>
cosh = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e200>
default_character_fill_value = '-'
default_complex_fill_value = (1e+20+0j)
default_integer_fill_value = 999999
default_object_fill_value = '?'
default_real_fill_value = 1e+20
divide = <numpy.oldnumeric.ma.domained_binary_operation instance at 0x713e5a8>
divide_tolerance = 1e-35
equal = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713e8c0>
exp = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x7129cf8>
fabs = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e2d8>
floor = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e3b0>
floor_divide = <numpy.oldnumeric.ma.domained_binary_operation instance at 0x713e6c8>
fmod = <numpy.oldnumeric.ma.domained_binary_operation instance at 0x713e7e8>
greater = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713ea28>
greater_equal = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713e998>
hypot = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713e830>
less = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713e9e0>
less_equal = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713e950>
log = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x7129c20>
log10 = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x7129cb0>
logical_and = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713ea70>
logical_not = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e440>
logical_or = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713eb00>
logical_xor = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713eb48>
masked = array(data = 999999, mask = True, fill_value=999999)
masked_print_option = --
maximum = <numpy.oldnumeric.ma._maximum_operation instance at 0x713ed40>
minimum = <numpy.oldnumeric.ma._minimum_operation instance at 0x713ecf8>
multiply = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713e518>
negative = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e320>
nomask = False
not_equal = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713e908>
remainder = <numpy.oldnumeric.ma.domained_binary_operation instance at 0x713e758>
sin = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x7129d88>
sinh = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e1b8>
sqrt = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x7129b90>
subtract = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713e4d0>
tan = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x7129e60>
tanh = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e248>
true_divide = <numpy.oldnumeric.ma.domained_binary_operation instance at 0x713e638>
ufunc_domain = {<function round_ at 0x22bda28>: None, <ufunc 'cos'>: None, <ufunc 'add'>: None, <ufunc 'arcsinh'>: None, <ufunc 'bitwise_and'>: None, <ufunc 'arctanh'>: <numpy.oldnumeric.ma.domain_check_interval instance at 0x713e128>, <ufunc 'arctan'>: None, <ufunc 'arctan2'>: None, <ufunc 'conjugate'>: None, <ufunc 'bitwise_or'>: None, ...}
ufunc_fills = {<function round_ at 0x22bda28>: (0,), <ufunc 'cos'>: (0,), <ufunc 'add'>: (0, 0), <ufunc 'arcsinh'>: (0,), <ufunc 'bitwise_and'>: (0, 0), <ufunc 'arctanh'>: (0.0,), <ufunc 'arctan'>: (0,), <ufunc 'arctan2'>: (0.0, 1.0), <ufunc 'conjugate'>: (0,), <ufunc 'bitwise_or'>: (0, 0), ...}

Data
		__file__ = '/usr/lib/python2.6/dist-packages/numpy/numarray/ma.pyc' __name__ = 'numpy.numarray.ma' __package__ = 'numpy.numarray' absolute = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e290> add = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713e488> arccos = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x7129f80> arccosh = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e0e0> arcsin = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x7129ef0> arcsinh = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e050> arctan = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x7129fc8> arctan2 = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713e878> arctanh = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e170> around = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e368> bitwise_and = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713eb90> bitwise_or = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713ebd8> bitwise_xor = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713ec20> ceil = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e3f8> conjugate = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x7129d40> cos = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x7129dd0> cosh = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e200> default_character_fill_value = '-' default_complex_fill_value = (1e+20+0j) default_integer_fill_value = 999999 default_object_fill_value = '?' default_real_fill_value = 1e+20 divide = <numpy.oldnumeric.ma.domained_binary_operation instance at 0x713e5a8> divide_tolerance = 1e-35 equal = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713e8c0> exp = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x7129cf8> fabs = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e2d8> floor = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e3b0> floor_divide = <numpy.oldnumeric.ma.domained_binary_operation instance at 0x713e6c8> fmod = <numpy.oldnumeric.ma.domained_binary_operation instance at 0x713e7e8> greater = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713ea28> greater_equal = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713e998> hypot = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713e830> less = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713e9e0> less_equal = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713e950> log = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x7129c20> log10 = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x7129cb0> logical_and = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713ea70> logical_not = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e440> logical_or = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713eb00> logical_xor = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713eb48> masked = array(data = 999999, mask = True, fill_value=999999) masked_print_option = -- maximum = <numpy.oldnumeric.ma._maximum_operation instance at 0x713ed40> minimum = <numpy.oldnumeric.ma._minimum_operation instance at 0x713ecf8> multiply = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713e518> negative = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e320> nomask = False not_equal = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713e908> remainder = <numpy.oldnumeric.ma.domained_binary_operation instance at 0x713e758> sin = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x7129d88> sinh = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e1b8> sqrt = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x7129b90> subtract = <numpy.oldnumeric.ma.masked_binary_operation instance at 0x713e4d0> tan = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x7129e60> tanh = <numpy.oldnumeric.ma.masked_unary_operation instance at 0x713e248> true_divide = <numpy.oldnumeric.ma.domained_binary_operation instance at 0x713e638> ufunc_domain = {<function round_ at 0x22bda28>: None, <ufunc 'cos'>: None, <ufunc 'add'>: None, <ufunc 'arcsinh'>: None, <ufunc 'bitwise_and'>: None, <ufunc 'arctanh'>: <numpy.oldnumeric.ma.domain_check_interval instance at 0x713e128>, <ufunc 'arctan'>: None, <ufunc 'arctan2'>: None, <ufunc 'conjugate'>: None, <ufunc 'bitwise_or'>: None, ...} ufunc_fills = {<function round_ at 0x22bda28>: (0,), <ufunc 'cos'>: (0,), <ufunc 'add'>: (0, 0), <ufunc 'arcsinh'>: (0,), <ufunc 'bitwise_and'>: (0, 0), <ufunc 'arctanh'>: (0.0,), <ufunc 'arctan'>: (0,), <ufunc 'arctan2'>: (0.0, 1.0), <ufunc 'conjugate'>: (0,), <ufunc 'bitwise_or'>: (0, 0), ...}