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Net由多个layer组成,是一个有向无环图(DAG)。
Net参数主要包括网络信息和每个layer的信息,Blob信息等,接口包括初始化Net来构建整个图,Net信息接口,初始化后Bolb数据输入等。

src/caffe/proto/caffe.proto

message NetParameter {
  optional string name = ; // 网络名称
  // DEPRECATED. See InputParameter. The input blobs to the network.
  repeated string input = ;    //网络输入的blob名称
  // DEPRECATED. See InputParameter. The shape of the input blobs.
  repeated BlobShape input_shape = ;   //输入blob维度

  // 4D input dimensions -- deprecated.  Use "input_shape" instead.
  // If specified, for each input blob there should be four
  // values specifying the num, channels, height and width of the input blob.
  // Thus, there should be a total of (4 * #input) numbers.
  repeated int32 input_dim = ; //默认维度4,代表num, channels, height and width of the input blob

  // Whether the network will force every layer to carry out backward operation.
  // If set False, then whether to carry out backward is determined
  // automatically according to the net structure and learning rates.
  optional bool force_backward =  [default = false];   //是否强制每个层执行后向传播
  // The current "state" of the network, including the phase, level, and stage.
  // Some layers may be included/excluded depending on this state and the states
  // specified in the layers' include and exclude fields.
  optional NetState state = ;  //网络当前状态
// Print debugging information about results while running Net::Forward,
  // Net::Backward, and Net::Update.
  optional bool debug_info =  [default = false];   //debug信息是否打印

  // The layers that make up the net.  Each of their configurations, including
  // connectivity and behavior, is specified as a LayerParameter.
  repeated LayerParameter layer = ;  // ID设置为100,这样层描述会置于末尾
  // DEPRECATED: use 'layer' instead.
  repeated V1LayerParameter layers = ; //已经被淘汰
}

Net属性很少,但是其实对应真实的prototxt可以很长,关键在于用户可以自己配置和增加layer。

include/caffe/net.hpp

Net接口的头文件,包括一些Net接口的声明和实现,比如:

Net的构造函数和析构函数

template <typename Dtype>
class Net {
 public:
  explicit Net(const NetParameter& param);
  explicit Net(const string& param_file, Phase phase,
      const int level = , const vector<string>* stages = NULL);
  virtual ~Net() {}

使用NetParameter对象初始化Net

 /// @brief Initialize a network with a NetParameter.
  void Init(const NetParameter& param);

Net 前向传播的几种接口

  /**
   * @brief Run Forward and return the result.
   *
   */
  const vector<Blob<Dtype>*>& Forward(Dtype* loss = NULL);
  /// @brief DEPRECATED; use Forward() instead.
  const vector<Blob<Dtype>*>& ForwardPrefilled(Dtype* loss = NULL) {
    LOG_EVERY_N(WARNING, ) << "DEPRECATED: ForwardPrefilled() "
        << "will be removed in a future version. Use Forward().";
    return Forward(loss);
  }

Dtype ForwardFromTo(int start, int end);
Dtype ForwardFrom(int start);
Dtype ForwardTo(int end);
/// @brief DEPRECATED; set input blobs then use Forward() instead.
const vector<Blob<Dtype>*>& Forward(const vector<Blob<Dtype>* > & bottom,
      Dtype* loss = NULL);

Net 后向传播的几种接口

void Backward();
  void BackwardFromTo(int start, int end);
  void BackwardFrom(int start);
  void BackwardTo(int end);

从一个训练好的Net拷贝信息

void CopyTrainedLayersFrom(const NetParameter& param);
  void CopyTrainedLayersFrom(const string trained_filename);
  void CopyTrainedLayersFromBinaryProto(const string trained_filename);
  void CopyTrainedLayersFromHDF5(const string trained_filename);

返回bottom信息

inline const vector<vector<Blob<Dtype>*> >& bottom_vecs() const {
    return bottom_vecs_;
  }

src/caffe/net.cpp

Net的源文件,Net接口的具体实现,比如

Net初始化

template <typename Dtype>
void Net<Dtype>::Init(const NetParameter& in_param) {
  // Set phase from the state.
  phase_ = in_param.state().phase();
  // Filter layers based on their include/exclude rules and
  // the current NetState.
  NetParameter filtered_param;
  FilterNet(in_param, &filtered_param);
  LOG_IF(INFO, Caffe::root_solver())
      << "Initializing net from parameters: " << std::endl
      << filtered_param.DebugString();
  // Create a copy of filtered_param with splits added where necessary.
  NetParameter param;
  InsertSplits(filtered_param, &param);
  // Basically, build all the layers and set up their connections.
  name_ = param.name();
  map<string, int> blob_name_to_idx;
  set<string> available_blobs;
  memory_used_ = ;
…

Net中FilterNet构造函数

template <typename Dtype>
void Net<Dtype>::FilterNet(const NetParameter& param,
    NetParameter* param_filtered) {
  NetState net_state(param.state());
  param_filtered->CopyFrom(param);
  param_filtered->clear_layer();
  for (int i = ; i < param.layer_size(); ++i) {
    const LayerParameter& layer_param = param.layer(i);
    const string& layer_name = layer_param.name();
    CHECK(layer_param.include_size() ==  || layer_param.exclude_size() == )
…

Net初始化时将Top层的Bolb数据填充进layer

template <typename Dtype>
void Net<Dtype>::AppendTop(const NetParameter& param, const int layer_id,
                           const int top_id, set<string>* available_blobs,
                           map<string, int>* blob_name_to_idx) {
  shared_ptr<LayerParameter> layer_param(
      new LayerParameter(param.layer(layer_id)));
  const string& blob_name = (layer_param->top_size() > top_id) ?
      layer_param->top(top_id) : "(automatic)";
  // Check if we are doing in-place computation
  if (blob_name_to_idx && layer_param->bottom_size() > top_id &&
      blob_name == layer_param->bottom(top_id)) {
    // In-place computation
LOG_IF(INFO, Caffe::root_solver())
…

Net初始化时将Bottom层的Bolb数据填充进layer

template <typename Dtype>
int Net<Dtype>::AppendBottom(const NetParameter& param, const int layer_id,
    const int bottom_id, set<string>* available_blobs,
    map<string, int>* blob_name_to_idx) {
  const LayerParameter& layer_param = param.layer(layer_id);
  const string& blob_name = layer_param.bottom(bottom_id);
  if (available_blobs->find(blob_name) == available_blobs->end()) {
    LOG(FATAL) << "Unknown bottom blob '" << blob_name << "' (layer '"
               << layer_param.name() << "', bottom index " << bottom_id << ")";
  }
  const int blob_id = (*blob_name_to_idx)[blob_name];
  LOG_IF(INFO, Caffe::root_solver())
      << layer_names_[layer_id] << " <- " << blob_name;
…

这里写图片描述