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Python __builtin__.sum方法代码示例

本文整理汇总了Python中__builtin__.sum方法的典型用法代码示例。如果您正苦于以下问题:Python __builtin__.sum方法的具体用法?Python __builtin__.sum怎么用?Python __builtin__.sum使用的例子?那么, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在__builtin__的用法示例。


在下文中一共展示了__builtin__.sum方法的15个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。

示例1: dot

# 需要导入模块: import __builtin__ [as 别名]
# 或者: from __builtin__ import sum [as 别名]
def dot(a1, a2):
 # internally: for matrix-matrix multiplies only; vectors are treated like special cases.
 a1 = as_garray(a1); a2 = as_garray(a2)
 if a1.ndim==0 or a2.ndim==0: return a1*a2
 if a1.ndim==a2.ndim==1:
  if a1 is a2: return sum(a1**2)
  else: return dot(a1.reshape(1, a1.size), a2.reshape(a2.size, 1)).item()
 if a1.ndim==2 and a2.ndim==1: return dot(a1, a2.reshape(a2.size, 1)).ravel() # treat a2 like a column vector
 if a1.ndim==1 and a2.ndim==2: return dot(a1._add_axes(2), a2)[0]   # treat a1 like a row vector
 if a1.shape[-1] != a2.shape[-2]: raise ValueError('arrays not aligned for dot product. a dot product was requested of arrays with shapes %s and %s' % (a1.shape, a2.shape))
 if a1.ndim==a2.ndim==2:
  retShape = (a1.shape[0], a2.shape[1])
  if a1.shape[1]==0: return zeros(retShape) # cudamat bug workaround
  ret = empty(retShape)
  if ret.size!=0: _cudamat.dot(a2._base_as_2d(), a1._base_as_2d(), ret._base_as_2d())
  return ret
 if a1.ndim >= 2 and a2.ndim >= 2:
  # this is not necessarily fast, because if a2.ndim>=3 then it involves a transpose
  a12 = ( a1.reshape_2d(-1) if a1.ndim!=2 else a1)
  a22 = ( a2.transpose((a2.ndim-2,) + tuple(xrange(a2.ndim-2)) + (a2.ndim-1,)).reshape_2d(1)
          if a2.ndim!=2 else
          a2)
  retShape = _deleteT2(a1.shape, -1) + _deleteT2(a2.shape, -2)
  return dot(a12, a22).reshape(retShape)
 raise NotImplementedError('dot with arguments of shapes %s and %s' % (a1.shape, a2.shape)) 
开发者ID:renmengye,项目名称:imageqa-public,代码行数:27,代码来源:gnumpy.py

示例2: concatenate

# 需要导入模块: import __builtin__ [as 别名]
# 或者: from __builtin__ import sum [as 别名]
def concatenate(arrays, axis=0):
 arrays = tuple(map(as_garray, arrays))
 if axis<0: axis += arrays[0].ndim
 if not _isSequence(arrays) or not type(axis) in _numberTypes: raise ValueError('wrong argument types to gnumpy.concatenate: expected <arrays> to be a sequence and <axis> to be a number, but got types %s and %s.' % (type(arrays), type(axis)))
 if axis not in range(arrays[0].ndim): raise ValueError('bad axis number (%d) specified (the first array has %d axes)' % (axis, arrays[0].ndim))
 if not _allTheSame( _deleteT2(a.shape, axis) for a in arrays): raise ValueError('array dimensions must agree except possibly for axis #%d. The given array shapes are: %s' % (axis, tuple( a.shape for a in arrays)))
 finalShape = _modifyT(arrays[0].shape, axis, __builtin__.sum( a.shape[axis] for a in arrays))
 if axis==0:
  ret = empty(finalShape)
  nextI = 0
  for a in arrays:
   _cm_row_slice_read(ret._base_shaped(ret.ndim), nextI, nextI+a.size).assign(a._base_shaped(a.ndim))
   nextI += a.size
  return ret
 else:
  return concatenate(tuple([ a.reshape_2d(axis).T for a in arrays]), 0).T.reshape(finalShape) 
开发者ID:renmengye,项目名称:imageqa-public,代码行数:18,代码来源:gnumpy.py

示例3: test_zeros

# 需要导入模块: import __builtin__ [as 别名]
# 或者: from __builtin__ import sum [as 别名]
def test_zeros(self):
        types = np.typecodes['AllInteger'] + np.typecodes['AllFloat']
        for dt in types:
            d = np.zeros((13,), dtype=dt)
            assert_equal(np.count_nonzero(d), 0)
            # true for ieee floats
            assert_equal(d.sum(), 0)
            assert_(not d.any())

            d = np.zeros(2, dtype='(2,4)i4')
            assert_equal(np.count_nonzero(d), 0)
            assert_equal(d.sum(), 0)
            assert_(not d.any())

            d = np.zeros(2, dtype='4i4')
            assert_equal(np.count_nonzero(d), 0)
            assert_equal(d.sum(), 0)
            assert_(not d.any())

            d = np.zeros(2, dtype='(2,4)i4, (2,4)i4')
            assert_equal(np.count_nonzero(d), 0) 
开发者ID:pfchai,项目名称:ImageFusion,代码行数:23,代码来源:test_multiarray.py

示例4: _new_alloc_handle

# 需要导入模块: import __builtin__ [as 别名]
# 或者: from __builtin__ import sum [as 别名]
def _new_alloc_handle(stype, shape, ctx, delay_alloc, dtype, aux_types, aux_shapes=None):
    """Return a new handle with specified storage type, shape, dtype and context.

    Empty handle is only used to hold results

    Returns
    -------
    handle
        A new empty ndarray handle
    """
    hdl = NDArrayHandle()
    for aux_t in aux_types:
        if np.dtype(aux_t) != np.dtype("int64"):
            raise NotImplementedError("only int64 is supported for aux types")
    aux_type_ids = [int(_DTYPE_NP_TO_MX[np.dtype(aux_t).type]) for aux_t in aux_types]
    aux_shapes = [(0,) for aux_t in aux_types] if aux_shapes is None else aux_shapes
    aux_shape_lens = [len(aux_shape) for aux_shape in aux_shapes]
    aux_shapes = py_sum(aux_shapes, ())
    num_aux = mx_uint(len(aux_types))
    check_call(_LIB.MXNDArrayCreateSparseEx(
        ctypes.c_int(int(_STORAGE_TYPE_STR_TO_ID[stype])),
        c_array_buf(mx_uint, native_array('I', shape)),
        mx_uint(len(shape)),
        ctypes.c_int(ctx.device_typeid),
        ctypes.c_int(ctx.device_id),
        ctypes.c_int(int(delay_alloc)),
        ctypes.c_int(int(_DTYPE_NP_TO_MX[np.dtype(dtype).type])),
        num_aux,
        c_array_buf(ctypes.c_int, native_array('i', aux_type_ids)),
        c_array_buf(mx_uint, native_array('I', aux_shape_lens)),
        c_array_buf(mx_uint, native_array('I', aux_shapes)),
        ctypes.byref(hdl)))
    return hdl 
开发者ID:awslabs,项目名称:dynamic-training-with-apache-mxnet-on-aws,代码行数:35,代码来源:sparse.py

示例5: _rand__base

# 需要导入模块: import __builtin__ [as 别名]
# 或者: from __builtin__ import sum [as 别名]
def _rand__base(shapeInfo, distribution, zero_d_means_scalar):
 if len(shapeInfo)==1 and _isSequence(shapeInfo[0]): zero_d_means_scalar = False; shapeInfo = shapeInfo[0]
 ret = empty(shapeInfo)
 {'uniform': _cmType.fill_with_rand, 'normal': _cmType.fill_with_randn}[distribution](ret._base)
 if ret.size!=0 and _doExpensiveCheck(): assert ret.sum() < 100 + 2*ret.size, 'numerical gpu error: rand() gave a result>100'
 if len(shapeInfo) == 0 and zero_d_means_scalar: return ret.item()
 else: return ret 
开发者ID:renmengye,项目名称:imageqa-public,代码行数:9,代码来源:gnumpy.py

示例6: sum

# 需要导入模块: import __builtin__ [as 别名]
# 或者: from __builtin__ import sum [as 别名]
def sum(x, axis=None):
 """ On numpy arrays this returns a numpy array; on garrays and other array-likes this returns a garray. """
 return _reductor__base(x, axis, garray.sum, numpy.sum) 
开发者ID:renmengye,项目名称:imageqa-public,代码行数:5,代码来源:gnumpy.py

示例7: mean

# 需要导入模块: import __builtin__ [as 别名]
# 或者: from __builtin__ import sum [as 别名]
def mean(self, axis=None): return self.sum(axis) / ( self.size if axis==None else self.shape[axis]) 
开发者ID:renmengye,项目名称:imageqa-public,代码行数:3,代码来源:gnumpy.py

示例8: any2

# 需要导入模块: import __builtin__ [as 别名]
# 或者: from __builtin__ import sum [as 别名]
def any2(self, axis=None): return self.sum(axis) > 0  # optimized for when I'm sure that the content is boolean 
开发者ID:renmengye,项目名称:imageqa-public,代码行数:3,代码来源:gnumpy.py

示例9: _new_alloc_handle

# 需要导入模块: import __builtin__ [as 别名]
# 或者: from __builtin__ import sum [as 别名]
def _new_alloc_handle(stype, shape, ctx, delay_alloc, dtype, aux_types, aux_shapes=None):
    """Return a new handle with specified storage type, shape, dtype and context.

    Empty handle is only used to hold results

    Returns
    -------
    handle
        A new empty ndarray handle
    """
    hdl = NDArrayHandle()
    for aux_t in aux_types:
        if np.dtype(aux_t) != np.dtype("int64"):
            raise NotImplementedError("only int64 is supported for aux types")
    aux_type_ids = [int(_DTYPE_NP_TO_MX[np.dtype(aux_t).type]) for aux_t in aux_types]
    aux_shapes = [(0,) for aux_t in aux_types] if aux_shapes is None else aux_shapes
    aux_shape_lens = [len(aux_shape) for aux_shape in aux_shapes]
    aux_shapes = py_sum(aux_shapes, ())
    num_aux = mx_uint(len(aux_types))
    check_call(_LIB.MXNDArrayCreateSparseEx(
        ctypes.c_int(int(_STORAGE_TYPE_STR_TO_ID[stype])),
        c_array(mx_uint, shape),
        mx_uint(len(shape)),
        ctypes.c_int(ctx.device_typeid),
        ctypes.c_int(ctx.device_id),
        ctypes.c_int(int(delay_alloc)),
        ctypes.c_int(int(_DTYPE_NP_TO_MX[np.dtype(dtype).type])),
        num_aux,
        c_array(ctypes.c_int, aux_type_ids),
        c_array(mx_uint, aux_shape_lens),
        c_array(mx_uint, aux_shapes),
        ctypes.byref(hdl)))
    return hdl 
开发者ID:awslabs,项目名称:mxnet-lambda,代码行数:35,代码来源:sparse.py

示例10: test_sum

# 需要导入模块: import __builtin__ [as 别名]
# 或者: from __builtin__ import sum [as 别名]
def test_sum(self):
        d = np.ones(101, dtype=np.bool);
        assert_equal(d.sum(), d.size)
        assert_equal(d[::2].sum(), d[::2].size)
        assert_equal(d[::-2].sum(), d[::-2].size)

        d = np.frombuffer(b'\xff\xff' * 100, dtype=bool)
        assert_equal(d.sum(), d.size)
        assert_equal(d[::2].sum(), d[::2].size)
        assert_equal(d[::-2].sum(), d[::-2].size) 
开发者ID:pfchai,项目名称:ImageFusion,代码行数:12,代码来源:test_multiarray.py

示例11: check_count_nonzero

# 需要导入模块: import __builtin__ [as 别名]
# 或者: from __builtin__ import sum [as 别名]
def check_count_nonzero(self, power, length):
        powers = [2 ** i for i in range(length)]
        for i in range(2**power):
            l = [(i & x) != 0 for x in powers]
            a = np.array(l, dtype=np.bool)
            c = builtins.sum(l)
            self.assertEqual(np.count_nonzero(a), c)
            av = a.view(np.uint8)
            av *= 3
            self.assertEqual(np.count_nonzero(a), c)
            av *= 4
            self.assertEqual(np.count_nonzero(a), c)
            av[av != 0] = 0xFF
            self.assertEqual(np.count_nonzero(a), c) 
开发者ID:pfchai,项目名称:ImageFusion,代码行数:16,代码来源:test_multiarray.py

示例12: test_count_nonzero_unaligned

# 需要导入模块: import __builtin__ [as 别名]
# 或者: from __builtin__ import sum [as 别名]
def test_count_nonzero_unaligned(self):
        # prevent mistakes as e.g. gh-4060
        for o in range(7):
            a = np.zeros((18,), dtype=np.bool)[o+1:]
            a[:o] = True
            self.assertEqual(np.count_nonzero(a), builtins.sum(a.tolist()))
            a = np.ones((18,), dtype=np.bool)[o+1:]
            a[:o] = False
            self.assertEqual(np.count_nonzero(a), builtins.sum(a.tolist())) 
开发者ID:pfchai,项目名称:ImageFusion,代码行数:11,代码来源:test_multiarray.py

示例13: test_export_record

# 需要导入模块: import __builtin__ [as 别名]
# 或者: from __builtin__ import sum [as 别名]
def test_export_record(self):
        dt = [('a', 'b'),
              ('b', 'h'),
              ('c', 'i'),
              ('d', 'l'),
              ('dx', 'q'),
              ('e', 'B'),
              ('f', 'H'),
              ('g', 'I'),
              ('h', 'L'),
              ('hx', 'Q'),
              ('i', np.single),
              ('j', np.double),
              ('k', np.longdouble),
              ('ix', np.csingle),
              ('jx', np.cdouble),
              ('kx', np.clongdouble),
              ('l', 'S4'),
              ('m', 'U4'),
              ('n', 'V3'),
              ('o', '?'),
              ('p', np.half),
             ]
        x = np.array(
                [(1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
                    asbytes('aaaa'), 'bbbb', asbytes('   '), True, 1.0)],
                dtype=dt)
        y = memoryview(x)
        assert_equal(y.shape, (1,))
        assert_equal(y.ndim, 1)
        assert_equal(y.suboffsets, EMPTY)

        sz = sum([dtype(b).itemsize for a, b in dt])
        if dtype('l').itemsize == 4:
            assert_equal(y.format, 'T{b:a:=h:b:i:c:l:d:q:dx:B:e:@H:f:=I:g:L:h:Q:hx:f:i:d:j:^g:k:=Zf:ix:Zd:jx:^Zg:kx:4s:l:=4w:m:3x:n:?:o:@e:p:}')
        else:
            assert_equal(y.format, 'T{b:a:=h:b:i:c:q:d:q:dx:B:e:@H:f:=I:g:Q:h:Q:hx:f:i:d:j:^g:k:=Zf:ix:Zd:jx:^Zg:kx:4s:l:=4w:m:3x:n:?:o:@e:p:}')
        # Cannot test if NPY_RELAXED_STRIDES_CHECKING changes the strides
        if not (np.ones(1).strides[0] == np.iinfo(np.intp).max):
            assert_equal(y.strides, (sz,))
        assert_equal(y.itemsize, sz) 
开发者ID:pfchai,项目名称:ImageFusion,代码行数:43,代码来源:test_multiarray.py

示例14: _reduction__base

# 需要导入模块: import __builtin__ [as 别名]
# 或者: from __builtin__ import sum [as 别名]
def _reduction__base(self, operatorName, axis):
  if axis==None: return self.ravel()._reduction__base(operatorName, 0).item()
  if not type(axis) in _numberTypes: raise TypeError('the value %s is not appropriate for the "axis" parameter.' % str(axis))
  if axis < -self.ndim or axis>=self.ndim: raise ValueError('axis (%d) out of bounds for an array with %d axes.' % (axis, self.ndim))
  axis = int(axis) % self.ndim
  if self.size==0:
   retShape = _deleteT2(self.shape, axis)
   if operatorName=='sum': return zeros(retShape)
   elif operatorName=='max': return tile(-inf, retShape)
   else: assert False
  if operatorName=='max' and axis==0 and cudamatHas('maxAxis0'): # my own fast implementation
   ret = empty(self.shape[1:])
   _ctInt = _cudamat.ct.c_int
   nThreadsPerBlock = 32
   gridX, gridY = ((ret.size+nThreadsPerBlock-1)//nThreadsPerBlock), 1
   while gridX>65535: gridY*=2; gridX = (gridX+1)//2;
   _cudamat._cudamat.maxAxis0.restype = _ctypes.c_int
   assert 0==_cudamat._cudamat.maxAxis0(_ctInt(gridX), _ctInt(gridY), _ctInt(nThreadsPerBlock), self._base.p_mat, ret._base.p_mat, _ctInt(self.shape[0]), _ctInt(ret.size))
   return ret
  if axis==0 and operatorName=='max': # max over rows is not yet supported in cudamat
   return self.reshape_2d(1).T.max(1).reshape(self.shape[1:])
  if axis==0 and self.ndim==1 and self.size>5000 and operatorName=='sum': # optimization. apparently, cudamat is not maximally efficient.
   n = int(numpy.sqrt(self.size-1))
   return self[:n*n].reshape((n, n))._reduction__base(operatorName, 0)._reduction__base(operatorName, 0) + self[n*n:]._reduction__base(operatorName, 0)
  if operatorName=='sum':
   chunkSize = 1024*256 # sum over longer dimensions fails in cudamat
   nChunks = (self.shape[axis] + chunkSize-1) // chunkSize
   if nChunks>1:
    return reduceAdd( self[(slice(None),) * axis + (slice(chunkI*chunkSize, __builtin__.min(self.shape[axis], (chunkI+1)*chunkSize)),)]._reduction__base(operatorName, axis)
                      for chunkI in range(nChunks))
  if operatorName=='max' and self.isnan().any2(): # cudamat bug workaround
   return garray(self.asarray().max(axis))
  operatorInCm = {'sum': _cmType.sum, 'max': _cmType.max}[operatorName]
  if axis==0: return _check_number_types(garray(operatorInCm(self._base_shaped(1), 1, _new_cm(_prodT(self.shape[1:]))), self.shape[1:], None))
  if axis==self.ndim-1:
   if self.ndim!=2: return self.reshape_2d(-1)._reduction__base(operatorName, 1).reshape(self.shape[:-1])
   if self.ndim==2:
    chunkSize = 2**16-1
    nChunks = (len(self) + chunkSize-1) // chunkSize
    if nChunks>1: # cudamat chokes on big arrays, so break it in pieces for cudamat
     chunks = tuple([ self[chunkI*chunkSize : __builtin__.min((chunkI+1)*chunkSize, len(self))]
                      for chunkI in range(nChunks)])
     return concatenate([ chunk._reduction__base(operatorName, 1) for chunk in chunks])
    else: # small array
     return _check_number_types(garray(operatorInCm(self._base_shaped(1), 0, _new_cm((len(self), 1))), (len(self),), None))
  return self.transpose_simple(axis)._reduction__base(operatorName, 0).transpose_simple(-axis)
 

 
 # ------------------------------------------------------------------------------- external misc non-numerical 
开发者ID:renmengye,项目名称:imageqa-public,代码行数:52,代码来源:gnumpy.py

示例15: __getitem__

# 需要导入模块: import __builtin__ [as 别名]
# 或者: from __builtin__ import sum [as 别名]
def __getitem__(self, selectors):
  selectors = _nonSeqAsS(selectors)
  for i,sel in enumerate(selectors): # deal with newaxis and ellipsis
   if sel is Ellipsis: return self[selectors[:i] + (slice(None),)* (self.ndim - (__builtin__.sum( x != None for x in selectors)-1)) + selectors[i+1:]] # sel==Ellipsis is bad when sel is an array
   if sel is newaxis: return self.reshape(_insertT(self.shape, i, (1,)))[_modifyT(selectors, i, slice(None))]
  if len(selectors) > self.ndim: raise IndexError('more indices than axes')
  if _all2_(selectors, _isFullSlice): return self
  if reduce(operator.and_, ( _isSequence(sel) or is_array(sel) for sel in selectors), True) and len(selectors)>=2:
   selectors = tuple(map(as_garray, selectors))
   if reduce(operator.or_, ( (sel < 0).sum() > 0 for sel in selectors), False): raise NotImplementedError('negative indices in index arrays, combined with having multiple indices arrays')
   # ravel the first two dimensions into one, and translate the corresponding indices arrays into one accordingly
   return self.reshape((self.shape[0]*self.shape[1],) + self.shape[2:])[(selectors[0]*self.shape[1]+selectors[1],) + selectors[2:]]
  if __builtin__.sum( _isSequence(sel) or is_array(sel) for sel in selectors)>1:
   raise NotImplementedError('slicing with more than one sequence/array among the indices, with also other kinds of values among the indices')
  # handle the operations on different axes one by one; earlier axes are handled earlier
  axisI = ( i for i, x in enumerate(selectors) if not _isFullSlice(x)).next()
  axisLen = self.shape[axisI]
  axisSelector = selectors[axisI]
  if not _all2_(selectors[axisI+1:], _isFullSlice): return self[selectors[:axisI+1]][(slice(None),)*(axisI+(not type(axisSelector) in _numberTypes)) + selectors[axisI+1:]] # first select on axisI only; then do the further axes.
  # from here, axisI is the only axis on which we don't take a full slice
  if type(axisSelector) == types.SliceType and axisSelector.step not in (1, None): axisSelector = numpy.arange(axisLen)[axisSelector]
  if type(axisSelector) in _numberTypes: # selecting a single location on axisI, and thus reducing the dimensionality by 1
   ret = self[selectors[:axisI] + (_short_slice(_read_single_index(axisSelector, axisLen)),)]  .reshape(_deleteT2(self.shape, axisI))
   return ( ret.item() if ret.shape==_t0 else ret) # exception, to have the same behavior as numpy
  if _isSequence(axisSelector) or type(axisSelector) == numpy.ndarray: axisSelector = garray(axisSelector)
  if isinstance(axisSelector, garray):
   # a 1d index means re-arranging this axis. I.e. a number of length 1 selections on this axis, concatenated on this axis.
   # other dimensionality means using the raveled version, and then reshaping to reflect the selector dimensionality
   if hasattr(_cmType, 'select_columns'):
    if axisI==0:
     if _doExpensiveCheck() and (axisSelector> len(self)-.01).sum() !=0: raise IndexError('index %d (found in an indices array) is too large, for an axis of length %d' % (max(axisSelector), len(self)))
     if _doExpensiveCheck() and (axisSelector<-len(self)-.5).sum() !=0: raise IndexError('index %d (found in an indices array) is too small, for an axis of length %d' % (min(axisSelector), len(self)))
     return garray(self._base_shaped(1).select_columns(axisSelector._base_shaped(axisSelector.ndim), _new_cm((axisSelector.size, self.size/self.shape[0]))), axisSelector.shape + self.shape[1:], None)
    else: return self.transpose_simple(axisI)[axisSelector].transpose_simple(-axisI)
   else: return (concatenate(tuple( self[_modifyT(selectors, axisI, slice(choiceOnThisAxis, choiceOnThisAxis+1))] for choiceOnThisAxis in axisSelector.ravel()), axisI)
                 .reshape(self.shape[:axisI] + axisSelector.shape + self.shape[axisI+1:]))
  if not type(axisSelector) == types.SliceType: raise ValueError('index not understood: %s' % axisSelector)
  # from here, selector is a simple slice
  sFrom, sTo, sLen = _read_simple_slice(axisSelector, axisLen)
  retShape = _modifyT(self.shape, axisI, sLen)
  if _prodT(retShape)==0: return zeros(retShape)
  if axisI==0: return garray(_cm_row_slice_read(self._base_shaped(1), sFrom, sTo), retShape, self) # slice on axis 0 is free, using _cm_row_slice_read
  if axisI!=1: return self.reshape((_prodT(self.shape[:axisI]),) + self.shape[axisI:])[:, sFrom:sTo].reshape(retShape) # redirect: collapse earlier axes into one
  if self.ndim != 2: return self.reshape_2d(1)[:, sFrom * _prodT(self.shape[axisI+1:]) : sTo * _prodT(self.shape[axisI+1:])].reshape(retShape) # redirect: use long elements
  chunkSize = int(2e6)
  nChunks = (len(self) + chunkSize - 1) // chunkSize
  if nChunks>1: return concatenate( tuple(self[chunkI*chunkSize : (chunkI+1)*chunkSize, sFrom:sTo] for chunkI in range(nChunks)), 0) # redirect in batches, bc cudamat chokes on big jobs, i.e. jobs with many rows
  if self.shape[0]==1: # then redo as row slice. This also avoids a cudamat limitation (on slicing many columns), sometimes.
   return self.ravel()[sFrom:sTo][newaxis].copy()
  # _base case for column slice
  retCm = _new_cm(retShape)
  _cm_col_slice_read(self._base_shaped(1), sFrom, sTo, retCm)
  return garray(retCm, retShape, None) 
开发者ID:renmengye,项目名称:imageqa-public,代码行数:55,代码来源:gnumpy.py


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