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646 lines
20 KiB
646 lines
20 KiB
5 months ago
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# Copyright (c) Facebook, Inc. and its affiliates.
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# All rights reserved.
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#
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# This source code is licensed under the BSD-style license found in the
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# LICENSE file in the root directory of this source tree.
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# reference python implementations for C ops
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import torch
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from functorch._C import dim as _C
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from . import op_properties
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from .batch_tensor import _enable_layers
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from .tree_map import tree_flatten, tree_map
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DimList = _C.DimList
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import operator
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from functools import reduce
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# use dict to avoid writing C++ bindings for set
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pointwise = set(op_properties.pointwise)
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def prod(x):
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return reduce(operator.mul, x, 1)
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def _wrap_dim(d, N, keepdim):
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from . import Dim
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if isinstance(d, Dim):
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assert not keepdim, "cannot preserve first-class dimensions with keepdim=True"
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return d
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elif d >= 0:
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return d - N
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else:
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return d
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def _dims(d, N, keepdim, single_dim):
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from . import Dim
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if isinstance(d, (Dim, int)):
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return ltuple((_wrap_dim(d, N, keepdim),))
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assert not single_dim, f"expected a single dimension or int but found: {d}"
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return ltuple(_wrap_dim(x, N, keepdim) for x in d)
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def _bind_dims_to_size(lhs_size, rhs, lhs_debug):
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from . import DimensionMismatchError
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not_bound = tuple((i, r) for i, r in enumerate(rhs) if not r.is_bound)
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if len(not_bound) == 1:
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idx, d = not_bound[0]
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rhs_so_far = prod(r.size for r in rhs if r.is_bound)
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if lhs_size % rhs_so_far != 0:
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rhs_s = tuple("?" if not r.is_bound else str(r.size) for r in rhs)
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raise DimensionMismatchError(
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f"inferred dimension does not evenly fit into larger dimension: {lhs_size} vs {rhs_s}"
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)
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new_size = lhs_size // rhs_so_far
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d.size = new_size
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elif len(not_bound) > 1:
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rhs_s = tuple("?" if not r.is_bound else str(r.size) for r in rhs)
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raise DimensionMismatchError(
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f"cannot infer the size of two dimensions at once: {rhs} with sizes {rhs_s}"
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)
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else:
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rhs_size = prod(r.size for r in rhs)
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if lhs_size != rhs_size:
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raise DimensionMismatchError(
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f"Dimension sizes to do not match ({lhs_size} != {rhs_size}) when matching {lhs_debug} to {rhs}"
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)
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def _tensor_levels(inp):
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from . import _Tensor
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if isinstance(inp, _Tensor):
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return inp._tensor, llist(inp._levels), inp._has_device
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else:
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return inp, llist(range(-inp.ndim, 0)), True
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def _match_levels(v, from_levels, to_levels):
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view = []
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permute = []
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requires_view = False
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size = v.size()
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for t in to_levels:
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try:
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idx = from_levels.index(t)
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permute.append(idx)
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view.append(size[idx])
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except ValueError:
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view.append(1)
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requires_view = True
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if permute != list(range(len(permute))):
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v = v.permute(*permute)
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if requires_view:
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v = v.view(*view)
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return v
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# make a single dimension positional but do not permute it,
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# used to do multi-tensor operators where the dim being acted on
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# should not physically move if possible
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def _positional_no_permute(self, dim, expand_dim=False):
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from . import Tensor
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ptensor, levels = self._tensor, llist(self._levels)
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try:
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idx = levels.index(dim)
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except ValueError:
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if not expand_dim:
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raise
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idx = 0
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ptensor = ptensor.expand(dim.size, *ptensor.size())
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levels.insert(0, 0)
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idx_batched = 0
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for i in range(idx):
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if isinstance(levels[i], int):
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levels[i] -= 1
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idx_batched += 1
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levels[idx] = -idx_batched - 1
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return Tensor.from_positional(ptensor, levels, self._has_device), idx_batched
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def seq(a, b):
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from . import Dim
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if isinstance(a, Dim) != isinstance(b, Dim):
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return False
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if isinstance(a, Dim):
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return a is b
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else:
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return a == b
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class isin:
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def __contains__(self, item):
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for x in self:
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if seq(item, x):
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return True
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return False
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def index(self, item):
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for i, x in enumerate(self):
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if seq(item, x):
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return i
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raise ValueError
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class llist(isin, list):
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pass
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class ltuple(isin, tuple):
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pass
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empty_dict = {}
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@classmethod
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def __torch_function__(self, orig, cls, args, kwargs=empty_dict):
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from . import _Tensor, Tensor, TensorLike
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from .delayed_mul_tensor import DelayedMulTensor
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if orig is torch.Tensor.__mul__:
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lhs, rhs = args
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if (
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isinstance(lhs, _Tensor)
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and isinstance(rhs, _Tensor)
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and lhs.ndim == 0
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and rhs.ndim == 0
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):
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return DelayedMulTensor(lhs, rhs)
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all_dims = llist()
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flat_args, unflatten = tree_flatten((args, kwargs))
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device_holding_tensor = None
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for f in flat_args:
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if isinstance(f, _Tensor):
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if f._has_device:
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device_holding_tensor = f._batchtensor
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for d in f.dims:
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if d not in all_dims:
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all_dims.append(d)
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def unwrap(t):
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if isinstance(t, _Tensor):
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r = t._batchtensor
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if device_holding_tensor is not None and not t._has_device:
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r = r.to(device=device_holding_tensor.device)
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return r
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return t
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if orig in pointwise:
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result_levels = llist()
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arg_levels = llist()
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to_expand = []
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for i, f in enumerate(flat_args):
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if isinstance(f, TensorLike):
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ptensor, levels, _ = _tensor_levels(f)
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if (
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isinstance(f, _Tensor)
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and not f._has_device
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and device_holding_tensor is not None
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):
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ptensor = ptensor.to(device=device_holding_tensor.device)
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flat_args[i] = ptensor
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for l in levels:
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if l not in result_levels:
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result_levels.append(l)
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to_expand.append((i, levels))
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for i, levels in to_expand:
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flat_args[i] = _match_levels(flat_args[i], levels, result_levels)
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args, kwargs = unflatten(flat_args)
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result = orig(*args, **kwargs)
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def wrap(t):
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if isinstance(t, TensorLike):
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return Tensor.from_positional(
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t, result_levels, device_holding_tensor is not None
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)
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return t
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return tree_map(wrap, result)
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else:
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def wrap(t):
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if isinstance(t, TensorLike):
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return Tensor.from_batched(t, device_holding_tensor is not None)
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return t
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with _enable_layers(all_dims):
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print(f"batch_tensor for {orig}")
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args, kwargs = unflatten(unwrap(f) for f in flat_args)
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result = orig(*args, **kwargs)
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# print("END", orig)
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return tree_map(wrap, result)
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def positional(self, *dims):
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from . import Dim, DimensionBindError, Tensor
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ptensor, levels = self._tensor, llist(self._levels)
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flat_dims = llist()
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view = []
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needs_view = False
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ndim = self.ndim
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for d in dims:
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if isinstance(d, DimList):
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flat_dims.extend(d)
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view.extend(e.size for e in d)
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elif isinstance(d, Dim):
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flat_dims.append(d)
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view.append(d.size)
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elif isinstance(d, int):
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d = _wrap_dim(d, ndim, False)
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flat_dims.append(d)
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view.append(ptensor.size(d))
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else:
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flat_dims.extend(d)
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view.append(prod(e.size for e in d))
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needs_view = True
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permute = list(range(len(levels)))
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nflat = len(flat_dims)
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for i, d in enumerate(flat_dims):
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try:
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idx = levels.index(d)
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except ValueError as e:
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raise DimensionBindError(
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f"tensor of dimensions {self.dims} does not contain dim {d}"
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) from e
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p = permute[idx]
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del levels[idx]
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del permute[idx]
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levels.insert(i, 0)
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permute.insert(i, p)
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ptensor = ptensor.permute(*permute)
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seen = 0
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for i in range(len(levels) - 1, -1, -1):
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if isinstance(levels[i], int):
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seen += 1
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levels[i] = -seen
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result = Tensor.from_positional(ptensor, levels, self._has_device)
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if needs_view:
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result = result.reshape(*view, *result.size()[len(flat_dims) :])
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return result
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def _contains_dim(input):
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from . import Dim
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for i in input:
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if isinstance(i, Dim):
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return True
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def expand(self, *sizes):
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if not _contains_dim(sizes):
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return self.__torch_function__(torch.Tensor.expand, None, (self, *sizes))
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dims = sizes
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sizes = [d.size for d in dims] + [-1] * self.ndim
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self = self.expand(*sizes)
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return self[dims]
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_not_present = object()
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def _getarg(name, offset, args, kwargs, default):
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if len(args) > offset:
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return args[offset]
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return kwargs.get(name, default)
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def _patcharg(name, offset, args, kwargs, value):
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if len(args) > offset:
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args[offset] = value
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else:
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kwargs[name] = value
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def _wrap(
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orig, dim_offset=0, keepdim_offset=1, dim_name="dim", single_dim=False, reduce=True
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):
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from . import Dim, Tensor, TensorLike
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def fn(self, *args, **kwargs):
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dim = _getarg(dim_name, dim_offset, args, kwargs, _not_present)
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if dim is _not_present or (single_dim and not isinstance(dim, Dim)):
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with _enable_layers(self.dims):
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print(f"dim fallback batch_tensor for {orig}")
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return Tensor.from_batched(
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orig(self._batchtensor, *args, **kwargs), self._has_device
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)
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keepdim = (
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_getarg("keepdim", keepdim_offset, args, kwargs, False) if reduce else False
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)
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t, levels = self._tensor, llist(self._levels)
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dims = _dims(dim, self._batchtensor.ndim, keepdim, single_dim)
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dim_indices = tuple(levels.index(d) for d in dims)
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if reduce and not keepdim:
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new_levels = [l for i, l in enumerate(levels) if i not in dim_indices]
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else:
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new_levels = levels
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if len(dim_indices) == 1:
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dim_indices = dim_indices[
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0
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] # so that dims that really only take a single argument work...
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args = list(args)
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_patcharg(dim_name, dim_offset, args, kwargs, dim_indices)
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def wrap(t):
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if isinstance(t, TensorLike):
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return Tensor.from_positional(t, new_levels, self._has_device)
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return t
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with _enable_layers(new_levels):
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print(f"dim used batch_tensor for {orig}")
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r = orig(t, *args, **kwargs)
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return tree_map(wrap, r)
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return fn
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def _def(name, *args, **kwargs):
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from . import _Tensor
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orig = getattr(torch.Tensor, name)
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setattr(_Tensor, name, _wrap(orig, *args, **kwargs))
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no_slice = slice(None)
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_orig_getitem = torch.Tensor.__getitem__
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class dim_tracker:
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def __init__(self):
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self.dims = llist()
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self.count = []
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def record(self, d):
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if d not in self.dims:
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self.dims.append(d)
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self.count.append(1)
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def __getitem__(self, d):
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return self.count[self.dims.index(d)]
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def t__getitem__(self, input):
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from . import _Tensor, Dim, DimensionBindError, DimList, Tensor, TensorLike
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# * bail to original example if we have a single non-Dim tensor, or a non-tensor
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# * locate ... or an unbound tensor list, and determine its size, bind dim list
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# (remember that None does not count to the total dim count)
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# * bind simple dims and dim-packs to their sizes, count the number of uses of each dim,
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# produce the re-view if needed
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# * for each single-use dim index, replace with no_slice and mark that it will be added
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# (keep track of whether we have to call super)
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# * call super if needed
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# * if we have dims to bind, bind them (it will help if we eliminated ... and None before)
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# this handles bool indexing handling, as well as some other simple cases.
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is_simple = (
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not isinstance(input, Dim)
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and not isinstance(input, (tuple, list))
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and
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# WAR for functorch bug where zero time tensors in getitem are not handled correctly.
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not (isinstance(input, TensorLike) and input.ndim == 0)
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)
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if is_simple:
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if isinstance(self, _Tensor):
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return _Tensor.__torch_function__(_orig_getitem, None, (self, input))
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else:
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return _orig_getitem(self, input)
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# can further optimize this case
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if not isinstance(input, tuple):
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input = [input]
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else:
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input = list(input)
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dims_indexed = 0
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expanding_object = None
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dimlists = []
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for i, s in enumerate(input):
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if s is ... or isinstance(s, DimList) and not s.is_bound:
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if expanding_object is not None:
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msg = (
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"at most one ... or unbound dimension list can exist in indexing list but"
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f" found 2 at offsets {i} and {expanding_object}"
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)
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raise DimensionBindError(msg)
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expanding_object = i
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if isinstance(s, DimList):
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dims_indexed += len(s) if s.is_bound else 0
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|
dimlists.append(i)
|
||
|
elif s is not None and s is not ...:
|
||
|
dims_indexed += 1
|
||
|
|
||
|
ndim = self.ndim
|
||
|
if dims_indexed > ndim:
|
||
|
raise IndexError(
|
||
|
f"at least {dims_indexed} indices were supplied but the tensor only has {ndim} dimensions."
|
||
|
)
|
||
|
if expanding_object is not None:
|
||
|
expanding_ndims = ndim - dims_indexed
|
||
|
obj = input[expanding_object]
|
||
|
if obj is ...:
|
||
|
input[expanding_object : expanding_object + 1] = [
|
||
|
no_slice
|
||
|
] * expanding_ndims
|
||
|
else:
|
||
|
obj.bind_len(expanding_ndims)
|
||
|
# flatten the dimslists into the indexing
|
||
|
for i in reversed(dimlists):
|
||
|
input[i : i + 1] = input[i]
|
||
|
dims_indexed = 0
|
||
|
requires_view = False
|
||
|
size = self.size()
|
||
|
view_sizes = []
|
||
|
dims_seen = dim_tracker()
|
||
|
|
||
|
def add_dims(t):
|
||
|
if not isinstance(t, _Tensor):
|
||
|
return
|
||
|
for d in t.dims:
|
||
|
dims_seen.record(d)
|
||
|
|
||
|
add_dims(self)
|
||
|
dim_packs = []
|
||
|
for i, idx in enumerate(input):
|
||
|
if idx is None:
|
||
|
input[i] = no_slice
|
||
|
view_sizes.append(1)
|
||
|
requires_view = True
|
||
|
else:
|
||
|
sz = size[dims_indexed]
|
||
|
if isinstance(idx, Dim):
|
||
|
idx.size = sz
|
||
|
dims_seen.record(idx)
|
||
|
view_sizes.append(sz)
|
||
|
elif isinstance(idx, (tuple, list)) and idx and isinstance(idx[0], Dim):
|
||
|
for d in idx:
|
||
|
dims_seen.record(idx)
|
||
|
_bind_dims_to_size(sz, idx, f"offset {i}")
|
||
|
view_sizes.extend(d.size for d in idx)
|
||
|
requires_view = True
|
||
|
dim_packs.append(i)
|
||
|
else:
|
||
|
add_dims(idx)
|
||
|
view_sizes.append(sz)
|
||
|
dims_indexed += 1
|
||
|
if requires_view:
|
||
|
self = self.view(*view_sizes)
|
||
|
for i in reversed(dim_packs):
|
||
|
input[i : i + 1] = input[i]
|
||
|
|
||
|
# currenty:
|
||
|
# input is flat, containing either Dim, or Tensor, or something valid for standard indexing
|
||
|
# self may have first-class dims as well.
|
||
|
|
||
|
# to index:
|
||
|
# drop the first class dims from self, they just become direct indices of their positions
|
||
|
|
||
|
# figure out the dimensions of the indexing tensors: union of all the dims in the tensors in the index.
|
||
|
# these dimensions will appear and need to be bound at the first place tensor occures
|
||
|
|
||
|
if isinstance(self, _Tensor):
|
||
|
ptensor_self, levels = self._tensor, list(self._levels)
|
||
|
# indices to ptensor rather than self which has first-class dimensions
|
||
|
input_it = iter(input)
|
||
|
flat_inputs = [next(input_it) if isinstance(l, int) else l for l in levels]
|
||
|
has_device = self._has_device
|
||
|
to_pad = 0
|
||
|
else:
|
||
|
ptensor_self, flat_inputs = self, input
|
||
|
to_pad = ptensor_self.ndim - len(flat_inputs)
|
||
|
has_device = True
|
||
|
|
||
|
result_levels = []
|
||
|
index_levels = []
|
||
|
tensor_insert_point = None
|
||
|
to_expand = {}
|
||
|
requires_getindex = False
|
||
|
for i, inp in enumerate(flat_inputs):
|
||
|
if isinstance(inp, Dim) and dims_seen[inp] == 1:
|
||
|
flat_inputs[i] = no_slice
|
||
|
result_levels.append(inp)
|
||
|
elif isinstance(inp, TensorLike):
|
||
|
requires_getindex = True
|
||
|
if tensor_insert_point is None:
|
||
|
tensor_insert_point = len(result_levels)
|
||
|
ptensor, levels, _ = _tensor_levels(inp)
|
||
|
to_expand[i] = levels
|
||
|
flat_inputs[i] = ptensor
|
||
|
for l in levels:
|
||
|
if l not in index_levels:
|
||
|
index_levels.append(l)
|
||
|
else:
|
||
|
requires_getindex = True
|
||
|
result_levels.append(0)
|
||
|
|
||
|
if tensor_insert_point is not None:
|
||
|
result_levels[tensor_insert_point:tensor_insert_point] = index_levels
|
||
|
|
||
|
for i, levels in to_expand.items():
|
||
|
flat_inputs[i] = _match_levels(flat_inputs[i], levels, index_levels)
|
||
|
|
||
|
if requires_getindex:
|
||
|
result = _orig_getitem(ptensor_self, flat_inputs)
|
||
|
else:
|
||
|
result = ptensor_self
|
||
|
|
||
|
next_positional = -1
|
||
|
if to_pad > 0:
|
||
|
result_levels.extend([0] * to_pad)
|
||
|
for i, r in enumerate(reversed(result_levels)):
|
||
|
if isinstance(r, int):
|
||
|
result_levels[-1 - i] = next_positional
|
||
|
next_positional -= 1
|
||
|
|
||
|
return Tensor.from_positional(result, result_levels, has_device)
|
||
|
|
||
|
|
||
|
# XXX - dim is optional and can be the outer-most dimension...
|
||
|
def stack(tensors, new_dim, dim=0, out=None):
|
||
|
if isinstance(dim, int):
|
||
|
return torch.stack(tensors, dim, out).index(dim, new_dim)
|
||
|
index = None
|
||
|
if out is not None:
|
||
|
out, index = _positional_no_permute(out, dim, expand_dim=True)
|
||
|
ptensors = []
|
||
|
for t in tensors:
|
||
|
pt, pi = _positional_no_permute(t, dim, expand_dim=True)
|
||
|
if index is not None and pi != index:
|
||
|
pt = pt.move_dim(pi, index)
|
||
|
else:
|
||
|
index = pi
|
||
|
ptensors.append(pt)
|
||
|
pr = torch.stack(ptensors, index, out=out)
|
||
|
return pr.index((index, index + 1), (new_dim, dim))
|
||
|
|
||
|
|
||
|
_orig_split = torch.Tensor.split
|
||
|
|
||
|
|
||
|
def split(self, split_size_or_sections, dim=0):
|
||
|
from . import _Tensor, Dim
|
||
|
|
||
|
if isinstance(split_size_or_sections, int) or any(
|
||
|
isinstance(t, int) for t in split_size_or_sections
|
||
|
):
|
||
|
if isinstance(dim, Dim):
|
||
|
raise ValueError(
|
||
|
"when dim is specified as a Dim object, split sizes must also be dimensions."
|
||
|
)
|
||
|
return _orig_split(self, split_size_or_sections, dim=dim)
|
||
|
|
||
|
if isinstance(dim, Dim):
|
||
|
assert isinstance(self, _Tensor), f"Tensor does not have dimension {dim}"
|
||
|
self, dim = _positional_no_permute(self, dim)
|
||
|
|
||
|
size = self.size(dim)
|
||
|
total_bound_size = 0
|
||
|
unbound = []
|
||
|
sizes = []
|
||
|
for i, d in enumerate(split_size_or_sections):
|
||
|
if d.is_bound:
|
||
|
sizes.append(d.size)
|
||
|
total_bound_size += d.size
|
||
|
else:
|
||
|
sizes.append(0)
|
||
|
unbound.append(i)
|
||
|
|
||
|
if unbound:
|
||
|
assert (
|
||
|
total_bound_size <= size
|
||
|
), f"result dimensions are larger than original: {total_bound_size} vs {size} ({split_size_or_sections})"
|
||
|
remaining_size = size - total_bound_size
|
||
|
chunk_size = -(-remaining_size // len(unbound))
|
||
|
for u in unbound:
|
||
|
sz = min(chunk_size, remaining_size)
|
||
|
split_size_or_sections[u].size = sz
|
||
|
sizes[u] = sz
|
||
|
remaining_size -= sz
|
||
|
else:
|
||
|
assert (
|
||
|
total_bound_size == size
|
||
|
), f"result dimensions do not match original: {total_bound_size} vs {size} ({split_size_or_sections})"
|
||
|
return tuple(
|
||
|
t.index(dim, d)
|
||
|
for d, t in zip(split_size_or_sections, _orig_split(self, sizes, dim=dim))
|
||
|
)
|