import numpy as np from .core import Backend class NumpyBackend(Backend): backend_name = 'numpy' @staticmethod def context(tensor): return {'dtype': tensor.dtype} @staticmethod def tensor(data, dtype=None): return np.array(data, dtype=dtype) @staticmethod def is_tensor(tensor): return isinstance(tensor, np.ndarray) @staticmethod def to_numpy(tensor): return np.copy(tensor) @staticmethod def shape(tensor): return tensor.shape @staticmethod def ndim(tensor): return tensor.ndim @staticmethod def clip(tensor, a_min=None, a_max=None): return np.clip(tensor, a_min, a_max) @staticmethod def dot(a, b): return a.dot(b) @staticmethod def lstsq(a, b): x, residuals, _, _ = np.linalg.lstsq(a, b, rcond=None) return x, residuals def kr(self, matrices, weights=None, mask=None): n_columns = matrices[0].shape[1] n_factors = len(matrices) start = ord('a') common_dim = 'z' target = ''.join(chr(start + i) for i in range(n_factors)) source = ','.join(i + common_dim for i in target) operation = source + '->' + target + common_dim if weights is not None: matrices = [m if i else m*self.reshape(weights, (1, -1)) for i, m in enumerate(matrices)] m = mask.reshape((-1, 1)) if mask is not None else 1 return np.einsum(operation, *matrices).reshape((-1, n_columns))*m @staticmethod def sort(tensor, axis, descending = False): if descending: return np.flip(np.sort(tensor, axis=axis), axis = axis) else: return np.sort(tensor, axis=axis) for name in ['int64', 'int32', 'float64', 'float32', 'complex128', 'complex64', 'reshape', 'moveaxis', 'any', 'trace', 'where', 'copy', 'transpose', 'arange', 'ones', 'zeros', 'flip', 'zeros_like', 'eye', 'kron', 'concatenate', 'max', 'min', 'matmul', 'all', 'mean', 'sum', 'cumsum', 'prod', 'sign', 'abs', 'sqrt', 'argmin', 'argmax', 'stack', 'conj', 'diag', 'einsum', 'log2', 'tensordot', 'sin', 'cos']: NumpyBackend.register_method(name, getattr(np, name)) for name in ['solve', 'qr', 'svd', 'eigh']: NumpyBackend.register_method(name, getattr(np.linalg, name))