perf(mge/functional): speed up AddAxis

GitOrigin-RevId: 92a3e1bdd3
3 years ago · a4d473c99a
--- a/imperative/python/megengine/functional/tensor.py
+++ b/imperative/python/megengine/functional/tensor.py
@@ -12,7 +12,13 @@ from typing import Iterable, Optional, Sequence, Tuple, Union
 import numpy as np

 from ..core._imperative_rt import CompNode
 from ..core._imperative_rt.core2 import SymbolVar, apply, dtype_promotion, split_cpp
 from ..core._imperative_rt.core2 import (
    SymbolVar,
    apply,
    dtype_promotion,
    expand_dims_cpp,
    split_cpp,
 )
 from ..core._wrap import as_device
 from ..core.ops import builtin
 from ..core.ops.builtin import Copy, Identity
@@ -959,27 +965,7 @@ def expand_dims(inp: Tensor, axis: Union[int, Sequence[int]]) -> Tensor:
            (1, 2)
    """

    def get_axes():
        try:
            return [int(axis)]
        except (TypeError, ValueError):
            pass
        return list(map(int, axis))

    axis = get_axes()
    try:
        ndim = inp.ndim + len(axis)
        axis = sorted(i + ndim if i < 0 else i for i in axis)
    except ValueError:
        if any([ind < 0 for ind in axis]):
            raise IndexError(
                "Does not support negative index when tensor's ndim is unknown"
            )
        axis = sorted(axis)
    assert axis, "axis could not be empty"
    op = builtin.AddAxis(axis=axis)
    (result,) = apply(op, inp)
    return result
    return expand_dims_cpp(inp, axis)


 def squeeze(inp: Tensor, axis: Optional[Union[int, Sequence[int]]] = None) -> Tensor:
--- a/imperative/python/src/tensor.cpp
+++ b/imperative/python/src/tensor.cpp
@@ -634,6 +634,7 @@ WRAP_FUNC_PY35(make_shape_tuple);
 WRAP_FUNC_PY35(getitem_cpp);
 WRAP_FUNC_PY35(setitem_cpp);
 WRAP_FUNC_PY35(split_cpp);
 WRAP_FUNC_PY35(expand_dims_cpp);
 #undef WRAP_FUNC_PY35
 #define MGE_PY_INTERFACE(NAME, FUNC) \
    { #NAME, (PyCFunction)py35_##FUNC, METH_VARARGS, nullptr }
@@ -767,6 +768,7 @@ void init_tensor(py::module m) {
            MGE_PY_INTERFACE(getitem_cpp, getitem_cpp),
            MGE_PY_INTERFACE(setitem_cpp, setitem_cpp),
            MGE_PY_INTERFACE(split_cpp, split_cpp),
            MGE_PY_INTERFACE(expand_dims_cpp, expand_dims_cpp),
            {nullptr, nullptr, 0, nullptr}};
    for (auto&& def : method_defs) {
        if (def.ml_meth != nullptr) {
--- a/imperative/python/src/tensor_utils.cpp
+++ b/imperative/python/src/tensor_utils.cpp
@@ -683,6 +683,59 @@ py::object _split_cpp(
    return py::reinterpret_steal<py::object>(py_apply(NULL, p.data(), p.size()));
 }

 py::object _expand_dims_cpp(py::handle inp_hdl, py::handle axis_hdl) {
    std::vector<int32_t> axis;
    if (is_py_sequence(axis_hdl.ptr())) {
        py::list tmp_list =
                py::reinterpret_steal<py::list>(PySequence_List(axis_hdl.ptr()));
        for (size_t i = 0; i < tmp_list.size(); ++i) {
            axis.push_back(tmp_list[i].attr("__int__")().cast<int32_t>());
        }
    } else {
        axis.push_back(getattr(axis_hdl, "__int__")().cast<int>());
    }
    bool unknown_ndim = true;
    size_t ndim = axis.size();
    if (auto p = TensorWrapper::try_cast(inp_hdl.ptr())) {
        auto&& shape = p->m_tensor->shape();
        if (shape) {
            unknown_ndim = false;
            ndim += shape->ndim;
        }
    } else {
        auto&& var = inp_hdl.cast<PySymbolVar*>();
        auto&& mgr = var->m_node->owner_graph()->static_infer_manager();
        auto&& shape = mgr.infer_shape_fallible(var->m_node);
        if (shape) {
            unknown_ndim = false;
            ndim += shape->ndim;
        }
    }
    for (size_t i = 0; i < axis.size(); ++i) {
        if (axis[i] < 0) {
            if (unknown_ndim) {
                throw py::index_error(
                        "Does not support negative index when tensor's ndim is "
                        "unknown");
            }
            axis[i] += ndim;
        }
    }
    if (!axis.size()) {
        throw py::index_error("axis could not be empty");
    }
    std::sort(axis.begin(), axis.end());
    std::shared_ptr<OpDef> op = AddAxis::make(axis = axis);
    std::vector<PyObject*> p;
    p.resize(2);
    py::object Op = py::cast(op);
    p[0] = Op.ptr();
    p[1] = inp_hdl.ptr();
    py::tuple ret =
            py::reinterpret_steal<py::object>(py_apply(NULL, p.data(), p.size()));
    return ret[0];
 }

 PyObject* make_shape_tuple(PyObject* self, PyObject* const* args, size_t nargs) {
    try {
        return _make_shape_tuple(py::handle(args[0])).release().ptr();
@@ -716,4 +769,13 @@ PyObject* split_cpp(PyObject* self, PyObject* const* args, size_t nargs) {
    PYEXT17_TRANSLATE_EXC_RET(nullptr)
 }

 PyObject* expand_dims_cpp(PyObject* self, PyObject* const* args, size_t nargs) {
    try {
        return _expand_dims_cpp(py::handle(args[0]), py::handle(args[1]))
                .release()
                .ptr();
    }
    PYEXT17_TRANSLATE_EXC_RET(nullptr)
 }

 }  // namespace mgb::imperative::python
--- a/imperative/python/src/tensor_utils.h
+++ b/imperative/python/src/tensor_utils.h
@@ -10,4 +10,6 @@ PyObject* setitem_cpp(PyObject* self, PyObject* const* args, size_t nargs);

 PyObject* split_cpp(PyObject* self, PyObject* const* args, size_t nargs);

 PyObject* expand_dims_cpp(PyObject* self, PyObject* const* args, size_t nargs);

 }  // namespace mgb::imperative::python