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from cython.operator cimport preincrement as pinc
cdef class DenseVector:
cdef vector[weight_t]* vector
cdef bint owned # if True, do not manage memory
def __init__(self):
self.vector = new vector[weight_t]()
self.owned = False
def __dealloc__(self):
if not self.owned:
del self.vector
def __len__(self):
return self.vector.size()
def __getitem__(self, char* fname):
cdef int fid = FDConvert(fname)
if 0 <= fid < self.vector.size():
return self.vector[0][fid]
raise KeyError(fname)
def __setitem__(self, char* fname, float value):
cdef int fid = FDConvert(<char *>fname)
if fid < 0: raise KeyError(fname)
if self.vector.size() <= fid:
self.vector.resize(fid + 1)
self.vector[0][fid] = value
def __iter__(self):
cdef unsigned fid
for fid in range(1, self.vector.size()):
yield FDConvert(fid).c_str(), self.vector[0][fid]
def dot(self, SparseVector other):
return other.dot(self)
def tosparse(self):
cdef SparseVector sparse = SparseVector.__new__(SparseVector)
sparse.vector = new FastSparseVector[weight_t]()
InitSparseVector(self.vector[0], sparse.vector)
return sparse
cdef class SparseVector:
cdef FastSparseVector[weight_t]* vector
def __init__(self):
self.vector = new FastSparseVector[weight_t]()
def __dealloc__(self):
del self.vector
def copy(self):
return self * 1
def __getitem__(self, char* fname):
cdef int fid = FDConvert(fname)
if fid < 0: raise KeyError(fname)
return self.vector.value(fid)
def __setitem__(self, char* fname, float value):
cdef int fid = FDConvert(<char *>fname)
if fid < 0: raise KeyError(fname)
self.vector.set_value(fid, value)
def __iter__(self):
cdef FastSparseVector[weight_t].const_iterator* it = new FastSparseVector[weight_t].const_iterator(self.vector[0], False)
cdef unsigned i
try:
for i in range(self.vector.size()):
yield (FDConvert(it[0].ptr().first).c_str(), it[0].ptr().second)
pinc(it[0]) # ++it
finally:
del it
def dot(self, other):
if isinstance(other, DenseVector):
return self.vector.dot((<DenseVector> other).vector[0])
elif isinstance(other, SparseVector):
return self.vector.dot((<SparseVector> other).vector[0])
raise TypeError('cannot take the dot product of %s and SparseVector' % type(other))
def __richcmp__(SparseVector x, SparseVector y, int op):
if op == 2: # ==
return x.vector[0] == y.vector[0]
elif op == 3: # !=
return not (x == y)
raise NotImplemented('comparison not implemented for SparseVector')
def __len__(self):
return self.vector.size()
def __contains__(self, char* fname):
return self.vector.nonzero(FDConvert(fname))
def __neg__(self):
cdef SparseVector result = SparseVector.__new__(SparseVector)
result.vector = new FastSparseVector[weight_t](self.vector[0])
result.vector[0] *= -1.0
return result
def __iadd__(SparseVector self, SparseVector other):
self.vector[0] += other.vector[0]
return self
def __isub__(SparseVector self, SparseVector other):
self.vector[0] -= other.vector[0]
return self
def __imul__(SparseVector self, float scalar):
self.vector[0] *= scalar
return self
def __idiv__(SparseVector self, float scalar):
self.vector[0] /= scalar
return self
def __add__(SparseVector x, SparseVector y):
cdef SparseVector result = SparseVector.__new__(SparseVector)
result.vector = new FastSparseVector[weight_t](x.vector[0] + y.vector[0])
return result
def __sub__(SparseVector x, SparseVector y):
cdef SparseVector result = SparseVector.__new__(SparseVector)
result.vector = new FastSparseVector[weight_t](x.vector[0] - y.vector[0])
return result
def __mul__(x, y):
cdef SparseVector vector
cdef float scalar
if isinstance(x, SparseVector): vector, scalar = x, y
else: vector, scalar = y, x
cdef SparseVector result = SparseVector.__new__(SparseVector)
result.vector = new FastSparseVector[weight_t](vector.vector[0] * scalar)
return result
def __div__(x, y):
cdef SparseVector vector
cdef float scalar
if isinstance(x, SparseVector): vector, scalar = x, y
else: vector, scalar = y, x
cdef SparseVector result = SparseVector.__new__(SparseVector)
result.vector = new FastSparseVector[weight_t](vector.vector[0] / scalar)
return result
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