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prim2code.py 15.7 KB
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#   Copyright (c) 2020  PaddlePaddle Authors. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License"
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#     http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.


def gen_codes(code_list, indent=0):
    indent_blank = "    " * indent
    codes = []
    for code_line in code_list:
        if code_line.strip() == "":
            codes.append('\n')
        else:
            codes.append(indent_blank + code_line + '\n')
    return codes


def get_value(layer, key):
    """ 进行optimizer后可能把inputs的value直接用数值代替(ConstantFuser),
        会把input换成attr,所以需要此处的操作。
    """
    if key in layer.inputs:
        return layer.inputs[key]
    else:
        return str(layer.attrs[key])


def prim_add(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {} + {}".format(layer.outputs[0],
                                 get_value(layer, "x"), get_value(layer, "y"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_add_(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {} + {} * {}".format(layer.outputs[0],
                                      get_value(layer, "x"),
                                      layer.attrs["alpha"],
                                      get_value(layer, "y"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_and(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {} and {}".format(layer.outputs[0],
                                   get_value(layer, "x"), get_value(layer, "y"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_append(layer, indent=1, init_func=[], forward_func=[]):
    line = "{}.append({})".format(
        get_value(layer, "list"), get_value(layer, "element"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_assert(layer, indent=1, init_func=[], forward_func=[]):
    if layer.attrs["type"] == "eq":
        values = get_value(layer, "key")
        if "value" in layer.attrs:
            values = layer.attrs["value"]
        if isinstance(values, list):
            s = ""
            for v in values:
                s += "{} == {} or ".format(get_value(layer, "key"), v)
            if len(s) > 0:
                s = s[:-4]
            line = "assert {}, \'The {} must be {}!\'".format(
                s, get_value(layer, "key"), get_value(layer, "value"))
        else:
            line = "assert {} == {}, \'The {} must be {}!\'".format(
                get_value(layer, "key"),
                get_value(layer, "value"),
                get_value(layer, "key"), get_value(layer, "value"))
    else:
        raise Exception("Not implement yet!")
    forward_func.extend(gen_codes([line], indent=indent))


def prim_check_dim(layer, indent=1, init_func=[], forward_func=[]):
    lines = []
    lines.append("if {} < 0:".format(get_value(layer, "dim")))
    lines.append("    {} = {} + {}".format(layer.outputs[
        0], get_value(layer, "dim"), get_value(layer, "len")))
    lines.append("else:")
    lines.append("    {} = {}".format(layer.outputs[0], get_value(layer,
                                                                  "dim")))
    forward_func.extend(gen_codes(lines, indent=indent))


def prim_constant(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {}".format(layer.outputs[0], layer.attrs["value"])
    forward_func.extend(gen_codes([line], indent=indent))


def prim_contain(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {} in {}".format(layer.outputs[0],
                                  get_value(layer, "element"),
                                  get_value(layer, "input"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_dict(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = dict()".format(layer.outputs[0])
    forward_func.extend(gen_codes([line], indent=indent))


def prim_div(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {} / {}".format(layer.outputs[0],
                                 get_value(layer, "x"), get_value(layer, "y"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_eq(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {} == {}".format(layer.outputs[0],
                                  get_value(layer, "x"), get_value(layer, "y"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_equal(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {}".format(layer.outputs[0], get_value(layer, "input"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_exception(layer, indent=1, init_func=[], forward_func=[]):
    line = "raise RaiseException({})".format(get_value(layer, "input"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_float(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = float({})".format(layer.outputs[0], get_value(layer, "input"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_floor(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = math.floor({})".format(layer.outputs[0],
                                        get_value(layer, "input"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_floordiv(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {} // {}".format(layer.outputs[0],
                                  get_value(layer, "x"), get_value(layer, "y"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_getitem(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {}[{}]".format(layer.outputs[0],
                                get_value(layer, "list"),
                                get_value(layer, "index"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_gt(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {} > {}".format(layer.outputs[0],
                                 get_value(layer, "x"), get_value(layer, "y"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_if(layer, indent=1, init_func=[], forward_func=[]):
    line = "if {} :".format(get_value(layer, "input"))
    forward_func.extend(gen_codes([line], indent=indent))
    block = layer.blocks[0]
    b_init_lines, b_forward_lines = block.gen_dygraph_code(indent=indent + 1)
    init_func.extend(b_init_lines)
    forward_func.extend(b_forward_lines)
    block = layer.blocks[1]
    if len(block.layers) > 0:
        b_init_lines, b_forward_lines = block.gen_dygraph_code(
            indent=indent + 1)
        if len(b_forward_lines) != 0:
            line = "else:"
            forward_func.extend(gen_codes([line], indent=indent))
        init_func.extend(b_init_lines)
        forward_func.extend(b_forward_lines)


def prim_int(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = int({})".format(layer.outputs[0], get_value(layer, "input"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_is(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {} is {}".format(layer.outputs[0],
                                  get_value(layer, "x"), get_value(layer, "y"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_isinstance(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = isinstance({}, {})".format(layer.outputs[0],
                                            get_value(layer, "input"),
                                            layer.attrs["cls"])
    forward_func.extend(gen_codes([line], indent=indent))


def prim_isnot(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {} is not {}".format(layer.outputs[0],
                                      get_value(layer, "x"),
                                      get_value(layer, "y"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_le(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {} <= {}".format(layer.outputs[0],
                                  get_value(layer, "x"), get_value(layer, "y"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_len(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = len({})".format(layer.outputs[0], get_value(layer, "input"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_len2list(layer, indent=1, init_func=[], forward_func=[]):
    lines = []
    lines.append("{} = []".format(layer.outputs[0]))
    lines.append("for i in range({}):".format(get_value(layer, "len")))
    lines.append("    {}.append(i)".format(layer.outputs[0]))
    forward_func.extend(gen_codes(lines, indent=indent))


def prim_lt(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {} < {}".format(layer.outputs[0],
                                 get_value(layer, "x"), get_value(layer, "y"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_list(layer, indent=1, init_func=[], forward_func=[]):
    input_len = len(layer.inputs) + len(layer.attrs)
    inputs_list = list()
    for i in range(input_len):
        inputs_list.append(get_value(layer, "input{}".format(i)))
    inputs_str = ', '.join(inputs_list)
    line = "{} = [{}]".format(layer.outputs[0], inputs_str)
    forward_func.extend(gen_codes([line], indent=indent))


def prim_list_unpack(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {}".format(", ".join(layer.outputs), get_value(layer, "input"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_loop(layer, indent=1, init_func=[], forward_func=[]):
    loop_range = get_value(layer, "input")
    line = "for {} in range({}):".format(layer.outputs[1], loop_range)
    forward_func.extend(gen_codes([line], indent=indent))
    block = layer.blocks[0]
    b_init_lines, b_forward_lines = block.gen_dygraph_code(indent=indent + 1)
    init_func.extend(b_init_lines)
    forward_func.extend(b_forward_lines)


def prim_min(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = min({})".format(layer.outputs[0], get_value(layer, "input"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_mul(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {} * {}".format(layer.outputs[0],
                                 get_value(layer, "x"), get_value(layer, "y"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_ne(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {} != {}".format(layer.outputs[0],
                                  get_value(layer, "x"), get_value(layer, "y"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_neg(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = -{}".format(layer.outputs[0], get_value(layer, "input"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_not(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = not {}".format(layer.outputs[0], get_value(layer, "input"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_or(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {} or {}".format(layer.outputs[0],
                                  get_value(layer, "x"), get_value(layer, "y"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_replaceitem(layer, indent=1, init_func=[], forward_func=[]):
    line = "{}[{}] = {}".format(
        get_value(layer, "list"),
        get_value(layer, "index"), get_value(layer, "item"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_requires_grad(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = not {}.stop_gradient".format(layer.outputs[0],
                                              get_value(layer, "input"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_rsub(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {} - {} * {}".format(layer.outputs[0],
                                      get_value(layer, "y"),
                                      get_value(layer, "x"),
                                      get_value(layer, "alpha"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_select(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {}[".format(layer.outputs[0], get_value(layer, "input"))
    for dim in range(layer.attrs["dim"]):
        line += ":, "
    line += (get_value(layer, "index") + "]")
    forward_func.extend(gen_codes([line], indent=indent))


def prim_set_attr(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {}".format(layer.outputs[0], get_value(layer, "input"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_set_item(layer, indent=1, init_func=[], forward_func=[]):
    line = "{}[{}] = {}".format(
        get_value(layer, "dict"),
        get_value(layer, "key"), get_value(layer, "value"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_shape_dim(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = fluid.layers.shape({})[{}]".format(layer.outputs[0],
                                                    get_value(layer, "input"),
                                                    get_value(layer, "dim"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_slice(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {}[{}: {}: {}]".format(layer.outputs[0],
                                        get_value(layer, "input"),
                                        get_value(layer, "start"),
                                        get_value(layer, "end"),
                                        get_value(layer, "step"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_str(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = str({})".format(layer.outputs[0], get_value(layer, "input"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_sub(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {} - {}".format(layer.outputs[0],
                                 get_value(layer, "x"), get_value(layer, "y"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_tuple(layer, indent=1, init_func=[], forward_func=[]):
    input_len = len(layer.inputs) + len(layer.attrs)
    inputs_list = list()
    for i in range(input_len):
        inputs_list.append(get_value(layer, "input{}".format(i)))
    inputs_str = ', '.join(inputs_list)
    line = "{} = ({})".format(layer.outputs[0], inputs_str)
    forward_func.extend(gen_codes([line], indent=indent))


def prim_tuple_unpack(layer, indent=1, init_func=[], forward_func=[]):
    outputs_str = ', '.join(layer.outputs)
    line = "{} = {}".format(outputs_str, get_value(layer, "input"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_type(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {}.dtype".format(layer.outputs[0], get_value(layer, "input"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_var2list(layer, indent=1, init_func=[], forward_func=[]):
    line = "{} = {}.numpy().tolist()".format(layer.outputs[0],
                                             get_value(layer, "input"))
    forward_func.extend(gen_codes([line], indent=indent))


def prim_warnings(layer, indent=1, init_func=[], forward_func=[]):
    lines = ["import warnings"]
    line = "warnings.warn({}, stacklevel={})".format(
        get_value(layer, "input"), layer.attrs["stacklevel"])
    lines.append(line)
    forward_func.extend(gen_codes(lines, indent=indent))