Esempio n. 1
0
// Parses a network that begins with 'R'.
Network* NetworkBuilder::ParseR(const StaticShape& input_shape, char** str) {
  char dir = (*str)[1];
  if (dir == 'x' || dir == 'y') {
    STRING name = "Reverse";
    name += dir;
    *str += 2;
    Network* network = BuildFromString(input_shape, str);
    if (network == nullptr) return nullptr;
    Reversed* rev =
        new Reversed(name, dir == 'y' ? NT_YREVERSED : NT_XREVERSED);
    rev->SetNetwork(network);
    return rev;
  }
  int replicas = strtol(*str + 1, str, 10);
  if (replicas <= 0) {
    tprintf("Invalid R spec!:%s\n", *str);
    return nullptr;
  }
  Parallel* parallel = new Parallel("Replicated", NT_REPLICATED);
  char* str_copy = *str;
  for (int i = 0; i < replicas; ++i) {
    str_copy = *str;
    Network* network = BuildFromString(input_shape, &str_copy);
    if (network == NULL) {
      tprintf("Invalid replicated network!\n");
      delete parallel;
      return nullptr;
    }
    parallel->AddToStack(network);
  }
  *str = str_copy;
  return parallel;
}
Esempio n. 2
0
// Builds a set of 4 lstms with x and y reversal, running in true parallel.
Network* NetworkBuilder::BuildLSTMXYQuad(int num_inputs, int num_states) {
  Parallel* parallel = new Parallel("2DLSTMQuad", NT_PAR_2D_LSTM);
  parallel->AddToStack(new LSTM("L2DLTRDown", num_inputs, num_states,
                                num_states, true, NT_LSTM));
  Reversed* rev = new Reversed("L2DLTRXRev", NT_XREVERSED);
  rev->SetNetwork(new LSTM("L2DRTLDown", num_inputs, num_states, num_states,
                           true, NT_LSTM));
  parallel->AddToStack(rev);
  rev = new Reversed("L2DRTLYRev", NT_YREVERSED);
  rev->SetNetwork(
      new LSTM("L2DRTLUp", num_inputs, num_states, num_states, true, NT_LSTM));
  Reversed* rev2 = new Reversed("L2DXRevU", NT_XREVERSED);
  rev2->SetNetwork(rev);
  parallel->AddToStack(rev2);
  rev = new Reversed("L2DXRevY", NT_YREVERSED);
  rev->SetNetwork(new LSTM("L2DLTRDown", num_inputs, num_states, num_states,
                           true, NT_LSTM));
  parallel->AddToStack(rev);
  return parallel;
}
Esempio n. 3
0
// Parses a parallel set of networks, defined by (<net><net>...).
Network* NetworkBuilder::ParseParallel(const StaticShape& input_shape,
                                       char** str) {
  Parallel* parallel = new Parallel("Parallel", NT_PARALLEL);
  ++*str;
  Network* network = NULL;
  while (**str != '\0' && **str != ')' &&
         (network = BuildFromString(input_shape, str)) != NULL) {
    parallel->AddToStack(network);
  }
  if (**str != ')') {
    tprintf("Missing ) at end of (Parallel)!\n");
    delete parallel;
    return nullptr;
  }
  ++*str;
  return parallel;
}
Esempio n. 4
0
// Parses an LSTM network, either individual, bi- or quad-directional.
Network* NetworkBuilder::ParseLSTM(const StaticShape& input_shape, char** str) {
  bool two_d = false;
  NetworkType type = NT_LSTM;
  char* spec_start = *str;
  int chars_consumed = 1;
  int num_outputs = 0;
  char key = (*str)[chars_consumed], dir = 'f', dim = 'x';
  if (key == 'S') {
    type = NT_LSTM_SOFTMAX;
    num_outputs = num_softmax_outputs_;
    ++chars_consumed;
  } else if (key == 'E') {
    type = NT_LSTM_SOFTMAX_ENCODED;
    num_outputs = num_softmax_outputs_;
    ++chars_consumed;
  } else if (key == '2' && (((*str)[2] == 'x' && (*str)[3] == 'y') ||
                            ((*str)[2] == 'y' && (*str)[3] == 'x'))) {
    chars_consumed = 4;
    dim = (*str)[3];
    two_d = true;
  } else if (key == 'f' || key == 'r' || key == 'b') {
    dir = key;
    dim = (*str)[2];
    if (dim != 'x' && dim != 'y') {
      tprintf("Invalid dimension (x|y) in L Spec!:%s\n", *str);
      return nullptr;
    }
    chars_consumed = 3;
    if ((*str)[chars_consumed] == 's') {
      ++chars_consumed;
      type = NT_LSTM_SUMMARY;
    }
  } else {
    tprintf("Invalid direction (f|r|b) in L Spec!:%s\n", *str);
    return nullptr;
  }
  int num_states = strtol(*str + chars_consumed, str, 10);
  if (num_states <= 0) {
    tprintf("Invalid number of states in L Spec!:%s\n", *str);
    return nullptr;
  }
  Network* lstm = nullptr;
  if (two_d) {
    lstm = BuildLSTMXYQuad(input_shape.depth(), num_states);
  } else {
    if (num_outputs == 0) num_outputs = num_states;
    STRING name(spec_start, *str - spec_start);
    lstm = new LSTM(name, input_shape.depth(), num_states, num_outputs, false,
                    type);
    if (dir != 'f') {
      Reversed* rev = new Reversed("RevLSTM", NT_XREVERSED);
      rev->SetNetwork(lstm);
      lstm = rev;
    }
    if (dir == 'b') {
      name += "LTR";
      Parallel* parallel = new Parallel("BidiLSTM", NT_PAR_RL_LSTM);
      parallel->AddToStack(new LSTM(name, input_shape.depth(), num_states,
                                    num_outputs, false, type));
      parallel->AddToStack(lstm);
      lstm = parallel;
    }
  }
  if (dim == 'y') {
    Reversed* rev = new Reversed("XYTransLSTM", NT_XYTRANSPOSE);
    rev->SetNetwork(lstm);
    lstm = rev;
  }
  return lstm;
}