Add temp fix gor generator Op when num_epochs=-1

5 years ago · bcf913fb0d
--- a/mindspore/ccsrc/minddata/dataset/engine/datasetops/epoch_ctrl_op.cc
+++ b/mindspore/ccsrc/minddata/dataset/engine/datasetops/epoch_ctrl_op.cc
@@ -51,7 +51,15 @@ void EpochCtrlOp::Print(std::ostream &out, bool show_all) const {
    // Call the super class for displaying any common detailed info
    PipelineOp::Print(out, show_all);
    // Then show any custom derived-internal stuff
    out << "\nCurrent epoch count: " << repeat_count_ << "\nMax epoch count: " << num_repeats_;
    out << "\nCurrent epoch count: " << repeat_count_ << "\nMax epoch count: " << num_repeats_
        << "\nLeaf Nodes in execution path:";
    if (!eoe_ops_.empty()) {
      for (size_t i = 0; i < eoe_ops_.size(); i++) {
        out << "\n  Operator: " << eoe_ops_[i]->id();
      }
    } else {
      out << " None.";
    }
    out << "\n\n";
  }
 }
@@ -86,6 +94,13 @@ Status EpochCtrlOp::EoeReceived(int32_t worker_id) {
  // This will allow GetNextInput in DatasetOp class to pass EOE buffer instead of eating it.
  state_ = OpState::kDeOpIdle;

  if (repeat_count_ != num_repeats_) {
    for (auto &eoe_op : eoe_ops_) {
      MS_LOG(DEBUG) << "Epoch Control driving reset to op: " << eoe_op->id();
      RETURN_IF_NOT_OK(eoe_op->Reset());
    }
  }

  return Status::OK();
 }

--- a/mindspore/ccsrc/minddata/dataset/engine/datasetops/repeat_op.cc
+++ b/mindspore/ccsrc/minddata/dataset/engine/datasetops/repeat_op.cc
@@ -62,7 +62,15 @@ void RepeatOp::Print(std::ostream &out, bool show_all) const {
    // Call the super class for displaying any common detailed info
    PipelineOp::Print(out, show_all);
    // Then show any custom derived-internal stuff
    out << "\nCurrent repeat count: " << repeat_count_ << "\nMax repeat count: " << num_repeats_;
    out << "\nCurrent repeat count: " << repeat_count_ << "\nMax repeat count: " << num_repeats_
        << "\nLeaf Nodes in execution path:";
    if (!eoe_ops_.empty()) {
      for (size_t i = 0; i < eoe_ops_.size(); i++) {
        out << "\n  Operator: " << eoe_ops_[i]->id();
      }
    } else {
      out << " None.";
    }
    out << "\n\n";
  }
 }
@@ -107,9 +115,17 @@ Status RepeatOp::EoeReceived(int32_t worker_id) {
  if (repeat_count_ == num_repeats_) {
    repeat_count_ = 0;
    state_ = OpState::kDeOpIdle;
    return Status::OK();
  } else {
    state_ = OpState::kDeOpRunning;
  }

  // Invoke a reset against the eoe nodes only.
  for (auto &eoe_op : eoe_ops_) {
    MS_LOG(DEBUG) << "Repeat operator sending reset to operator: " << eoe_op->id();
    RETURN_IF_NOT_OK(eoe_op->Reset());
  }

  return Status::OK();
 }

@@ -138,6 +154,19 @@ int32_t RepeatOp::num_consumers() const {
  }
 }

 // Drive reset actions if needed
 Status RepeatOp::Reset() {
  // If there's nested repeats, an ascendant repeat may have ourself listed as an eoe op.
  // In that case, we now have to bounce the reset down to our own eoe ops.
  MS_LOG(DEBUG) << "Repeat operator " << operator_id_ << " got reset.";
  for (auto &eoe_op : eoe_ops_) {
    MS_LOG(DEBUG) << "Nested repeat operator bouncing a reset to operator: " << eoe_op->id();
    RETURN_IF_NOT_OK(eoe_op->Reset());
  }
  state_ = OpState::kDeOpRunning;
  return Status::OK();
 }

 int32_t RepeatOp::num_producers() const {
  if (child_.empty() || child_[0] == nullptr) {
    MS_LOG(DEBUG) << "Repeat operator, pointer to child node is null. Returning 0.";
--- a/mindspore/ccsrc/minddata/dataset/engine/datasetops/repeat_op.h
+++ b/mindspore/ccsrc/minddata/dataset/engine/datasetops/repeat_op.h
@@ -129,6 +129,16 @@ class RepeatOp : public PipelineOp {
  /// \return The number of repeats that the user requested
  int32_t num_repeats() { return num_repeats_; }

  /// \brief reset Op
  /// \@return Status - The error code return
  Status Reset() override;

  // \brief Adds an operator to the repeat ops list of tracked leaf/eoe nodes
  // \param[in] eoe_op The input leaf/eoe operator to add to the list
  void AddToEoeList(std::shared_ptr<DatasetOp> eoe_op) { eoe_ops_.push_back(std::move(eoe_op)); }

  std::vector<std::shared_ptr<DatasetOp>> eoe_ops_;  // List of operators that can generate EOE underneath this repeat.

 protected:
  // The number of repeats that the user requested.
  // Note that num_repeats_ is different with op_total_repeats_ or op_num_repeats_per_epoch_ in base DatasetOp class.
--- a/mindspore/ccsrc/minddata/dataset/engine/datasetops/source/generator_op.cc
+++ b/mindspore/ccsrc/minddata/dataset/engine/datasetops/source/generator_op.cc
@@ -186,6 +186,7 @@ Status GeneratorOp::FillBuffer(TensorQTable *tt) {
 Status GeneratorOp::operator()() {
  // Handshake with TaskManager to synchronize thread creation
  TaskManager::FindMe()->Post();
  RETURN_IF_NOT_OK(wp_.Register(tree_->AllTasks()));
  std::unique_ptr<DataBuffer> fetched_buffer;
  bool eof = false;
  while (!eof) {
@@ -227,8 +228,17 @@ Status GeneratorOp::operator()() {
        MS_LOG(DEBUG) << "Generator operator main execution loop complete.";
        eof = true;
      } else {
        // Self-reset to start a new iteration
        RETURN_IF_NOT_OK(Reset());
        // Waiting for repeatOp to start new epoch
        // If Reset() is called first by repeat op, this wait() will return right away.
        // If Reset() is not called yet, this wait() will block until reset.
        if (this->op_total_repeats() < 0) {
          RETURN_IF_NOT_OK(wp_.Wait());
          // Clear the status of the wait post
          wp_.Clear();
        } else {
          // Self-reset to start a new iteration
          RETURN_IF_NOT_OK(Reset());
        }
      }
      UpdateRepeatAndEpochCounter();
    }
@@ -240,6 +250,10 @@ Status GeneratorOp::Reset() {
  // Reset Op state
  MS_LOG(DEBUG) << Name() << " performing a self-reset.";
  RETURN_IF_NOT_OK(this->Init());
  if (this->op_total_repeats() < 0) {
    // Wake up master thread
    wp_.Set();
  }
  return Status(StatusCode::kOK, "GeneratorOp Reset Succeed");
 }

--- a/mindspore/ccsrc/minddata/dataset/engine/datasetops/source/generator_op.h
+++ b/mindspore/ccsrc/minddata/dataset/engine/datasetops/source/generator_op.h
@@ -144,6 +144,8 @@ class GeneratorOp : public PipelineOp {
  py::object generator_;
  int32_t buffer_id_;

  WaitPost wp_;

  Status Init();

  void Dealloc() noexcept;
--- a/mindspore/ccsrc/minddata/dataset/engine/opt/post/repeat_pass.cc
+++ b/mindspore/ccsrc/minddata/dataset/engine/opt/post/repeat_pass.cc
@@ -22,15 +22,31 @@
 #include "minddata/dataset/engine/datasetops/cache_merge_op.h"
 #include "minddata/dataset/engine/datasetops/device_queue_op.h"
 #include "minddata/dataset/engine/datasetops/epoch_ctrl_op.h"
 #include "minddata/dataset/engine/datasetops/source/generator_op.h"

 namespace mindspore {
 namespace dataset {

 RepeatPass::RepeatPass()
    : num_repeats_(1), num_epochs_(1), is_merge_(false), is_cached_(false), cache_lookup_(nullptr) {}
    : is_repeated_(false),
      nested_repeats_(0),
      num_repeats_(1),
      num_epochs_(1),
      is_merge_(false),
      is_cached_(false),
      cache_lookup_(nullptr) {}

 // Identifies the subtree below this node as being in a repeated path of the tree.
 Status RepeatPass::PreRunOnNode(std::shared_ptr<RepeatOp> node, bool *modified) {
  // Create a new stack for eoe operators and push onto our stack of stacks.
  std::unique_ptr<op_stack> new_stack = std::make_unique<op_stack>();
  eoe_op_stacks_.push(std::move(new_stack));
  // If we are already repeated, then this is a nested repeat.
  if (is_repeated_) {
    nested_repeats_++;
  }
  is_repeated_ = true;

  // If this is an infinite repeat under infinite repeat/epoch, adjust current num_repeats_.
  // Otherwise, after multiplication it would become positive and this repeat wouldn't run infinitely.
  if (node->num_repeats() == DatasetOp::kInfiniteRepeat && num_repeats_ < 0) {
@@ -58,7 +74,9 @@ Status RepeatPass::PreRunOnNode(std::shared_ptr<EpochCtrlOp> node, bool *modifie
  // that RepeatOp does.  However, epoch control is actually simpler because it can
  // only exist as the root node so it doesn't need all the nested code.
  // Create a new stack for eoe operators and push onto our stack of stacks.

  std::unique_ptr<op_stack> new_stack = std::make_unique<op_stack>();
  eoe_op_stacks_.push(std::move(new_stack));
  is_repeated_ = true;
  // Get the total number of epochs from the EpochCtrlOp parameter
  num_epochs_ = node->num_repeats();
  // Every node below this EpochCtrlOp should be repeated for num_epochs_ times.
@@ -85,6 +103,22 @@ Status RepeatPass::PreRunOnNode(std::shared_ptr<CacheOp> node, bool *modified) {

 // Hooks up any identified eoe nodes under this repeat.
 Status RepeatPass::RunOnNode(std::shared_ptr<RepeatOp> node, bool *modified) {
  // Pop the leaf ops from the save-area stack and add them to the repeat op's eoe node tracking
  std::shared_ptr<DatasetOp> leaf_op = PopFromEOEOpStack();

  while (leaf_op != nullptr) {
    node->AddToEoeList(leaf_op);
    leaf_op = PopFromEOEOpStack();
  }

  // At this point, we are done with the save area stack.  It's a unique pointer to an empty stack
  // at this time, so we can pop it to get rid of it.
  op_stack *current_stack = eoe_op_stacks_.top().get();
  if (!current_stack->empty()) {
    RETURN_STATUS_UNEXPECTED("The eoe op stack should be empty right now!");
  }
  eoe_op_stacks_.pop();

  // We are a repeat op in the descendant tree of a merge op, then we take the saved lookup up
  // and set its total repeats. It is important that the op is removed from the save area,
  // because the merge op above us may also take action on it later for a different case when
@@ -95,6 +129,18 @@ Status RepeatPass::RunOnNode(std::shared_ptr<RepeatOp> node, bool *modified) {
    cache_lookup_.reset();
  }

  // If we are a nested repeat, then we add ourself to the repeat stack for the next one above us.
  // A nested repeat acts like an eoe/leaf for the repeat in the ascendant tree.
  if (nested_repeats_ > 0) {
    AddToEOEOpStack(node);
    nested_repeats_--;
  } else {
    // If we are not nested, or we were the top-most repeat, now we clear the flag
    if (nested_repeats_ != 0) {
      RETURN_STATUS_UNEXPECTED("Nested repeat counter cannot be negative!");
    }
    is_repeated_ = false;
  }
  if (is_cached_) {
    AddToCachedOpStack(node);
  }
@@ -110,6 +156,13 @@ Status RepeatPass::RunOnNode(std::shared_ptr<RepeatOp> node, bool *modified) {

 // Hooks up any identified eoe nodes under this repeat.
 Status RepeatPass::RunOnNode(std::shared_ptr<EpochCtrlOp> node, bool *modified) {
  // Pop the leaf ops from the save-area stack and add them to the eoe node tracking
  std::shared_ptr<DatasetOp> leaf_op = PopFromEOEOpStack();
  while (leaf_op != nullptr) {
    node->AddToEoeList(leaf_op);
    leaf_op = PopFromEOEOpStack();
  }
  is_repeated_ = false;
  node->set_total_repeats(num_repeats_);
  node->set_num_repeats_per_epoch(num_repeats_ / num_epochs_);
  // We finish the walk of this EpochCtrl's descendent nodes.
@@ -138,6 +191,23 @@ Status RepeatPass::RunOnNode(std::shared_ptr<CacheOp> node, bool *modified) {
  return Status::OK();
 }

 Status RepeatPass::RunOnNode(std::shared_ptr<GeneratorOp> node, bool *modified) {
  // If we are in a repeat path, then set our repeated flag
  if (is_repeated_) {
    // if infinite repeat save ourself in a stack for the repeat operator above us
    if (num_repeats_ < 0) {
      AddToEOEOpStack(node);
    }
  }
  // If we are under a cache op, then save ourselves to the cached op stack.
  if (is_cached_) {
    AddToCachedOpStack(node);
  }
  // Set total repeats and total epochs for the node
  node->set_total_repeats(num_repeats_);
  node->set_num_repeats_per_epoch(num_repeats_ / num_epochs_);
  return Status::OK();
 }
 // All operators have a flag that might be set related to the repeat and any leaf nodes need to be set up
 // for use with a controlling repeat above it.
 Status RepeatPass::RunOnNode(std::shared_ptr<DatasetOp> node, bool *modified) {
@@ -190,6 +260,23 @@ Status RepeatPass::RunOnNode(std::shared_ptr<DeviceQueueOp> node, bool *modified
  return Status::OK();
 }

 // Adds an operator to the eoe operator stack save area
 void RepeatPass::AddToEOEOpStack(std::shared_ptr<DatasetOp> dataset_op) {
  op_stack *current_stack = eoe_op_stacks_.top().get();
  current_stack->push(dataset_op);
 }

 // Pops an operator from the eoe operator stack save area
 std::shared_ptr<DatasetOp> RepeatPass::PopFromEOEOpStack() {
  std::shared_ptr<DatasetOp> top_op = nullptr;
  op_stack *current_stack = eoe_op_stacks_.top().get();
  if (current_stack != nullptr && !current_stack->empty()) {
    top_op = current_stack->top();
    current_stack->pop();
  }
  return top_op;
 }

 // Adds an operator to the cached operator stack save area
 void RepeatPass::AddToCachedOpStack(std::shared_ptr<DatasetOp> dataset_op) { cached_op_stacks_.push(dataset_op); }

--- a/mindspore/ccsrc/minddata/dataset/engine/opt/post/repeat_pass.h
+++ b/mindspore/ccsrc/minddata/dataset/engine/opt/post/repeat_pass.h
@@ -98,6 +98,12 @@ class RepeatPass : public NodePass {
  /// \return Status The error code return
  Status RunOnNode(std::shared_ptr<DeviceQueueOp> node, bool *modified) override;

  /// \brief Special case for GeneratorOp
  /// \param[in] node The node being visited
  /// \param[inout] modified Indicator if the node was changed at all
  /// \return Status The error code return
  Status RunOnNode(std::shared_ptr<GeneratorOp> node, bool *modified) override;

  /// \brief All operators have a flag that might be set related to the repeat and any leaf nodes need to be set up
  ///     for use with a controlling repeat above it.
  /// \param[in] node The node being visited
@@ -106,6 +112,19 @@ class RepeatPass : public NodePass {
  Status RunOnNode(std::shared_ptr<DatasetOp> node, bool *modified) override;

 private:
  /// \brief Adds an operator to the eoe operator stack save area
  /// \param op - The dataset op to work add to eoe stack
  /// \return Status - The error code return
  void AddToEOEOpStack(std::shared_ptr<DatasetOp> dataset_op);

  /// \brief Pops an operator from the eoe operator stack save area
  /// \return shared_ptr to the popped operator
  std::shared_ptr<DatasetOp> PopFromEOEOpStack();

  bool is_repeated_;                                     // T/F if we are processing under a repeat
  int32_t nested_repeats_;                               // A counter for nested repeats
  std::stack<std::unique_ptr<op_stack>> eoe_op_stacks_;  // A save area for leaf/eoe ops (with nesting)

  /// \brief Adds an operator to the cached operator stack save area
  /// \param op - The dataset op to work add to cached stack
  /// \return Status - The error code return