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97f2a2213e
* Move some code outside dbms/src folder * Fix paths
404 lines
10 KiB
C++
404 lines
10 KiB
C++
#include <Processors/ResizeProcessor.h>
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#include <iostream>
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namespace DB
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{
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namespace ErrorCodes
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{
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extern const int LOGICAL_ERROR;
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}
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ResizeProcessor::Status ResizeProcessor::prepare()
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{
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bool is_first_output = true;
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auto output_end = current_output;
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bool all_outs_full_or_unneeded = true;
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bool all_outs_finished = true;
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bool is_first_input = true;
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auto input_end = current_input;
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bool all_inputs_finished = true;
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auto is_end_input = [&]() { return !is_first_input && current_input == input_end; };
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auto is_end_output = [&]() { return !is_first_output && current_output == output_end; };
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auto inc_current_input = [&]()
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{
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is_first_input = false;
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++current_input;
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if (current_input == inputs.end())
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current_input = inputs.begin();
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};
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auto inc_current_output = [&]()
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{
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is_first_output = false;
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++current_output;
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if (current_output == outputs.end())
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current_output = outputs.begin();
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};
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/// Find next output where can push.
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auto get_next_out = [&, this]() -> OutputPorts::iterator
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{
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while (!is_end_output())
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{
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if (!current_output->isFinished())
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{
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all_outs_finished = false;
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if (current_output->canPush())
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{
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all_outs_full_or_unneeded = false;
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auto res_output = current_output;
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inc_current_output();
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return res_output;
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}
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}
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inc_current_output();
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}
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return outputs.end();
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};
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/// Find next input from where can pull.
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auto get_next_input = [&, this]() -> InputPorts::iterator
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{
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while (!is_end_input())
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{
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if (!current_input->isFinished())
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{
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all_inputs_finished = false;
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current_input->setNeeded();
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if (current_input->hasData())
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{
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auto res_input = current_input;
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inc_current_input();
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return res_input;
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}
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}
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inc_current_input();
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}
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return inputs.end();
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};
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auto get_status_if_no_outputs = [&]() -> Status
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{
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if (all_outs_finished)
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{
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for (auto & in : inputs)
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in.close();
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return Status::Finished;
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}
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if (all_outs_full_or_unneeded)
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{
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for (auto & in : inputs)
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in.setNotNeeded();
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return Status::PortFull;
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}
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/// Now, we pushed to output, and it must be full.
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return Status::PortFull;
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};
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auto get_status_if_no_inputs = [&]() -> Status
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{
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if (all_inputs_finished)
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{
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for (auto & out : outputs)
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out.finish();
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return Status::Finished;
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}
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return Status::NeedData;
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};
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/// Set all inputs needed in order to evenly process them.
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/// Otherwise, in case num_outputs < num_inputs and chunks are consumed faster than produced,
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/// some inputs can be skipped.
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// auto set_all_unprocessed_inputs_needed = [&]()
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// {
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// for (; cur_input != inputs.end(); ++cur_input)
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// if (!cur_input->isFinished())
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// cur_input->setNeeded();
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// };
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while (!is_end_input() && !is_end_output())
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{
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auto output = get_next_out();
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auto input = get_next_input();
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if (output == outputs.end())
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return get_status_if_no_outputs();
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if (input == inputs.end())
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return get_status_if_no_inputs();
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output->push(input->pull());
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}
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if (is_end_input())
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return get_status_if_no_outputs();
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/// cur_input == inputs_end()
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return get_status_if_no_inputs();
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}
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IProcessor::Status ResizeProcessor::prepare(const PortNumbers & updated_inputs, const PortNumbers & updated_outputs)
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{
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if (!initialized)
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{
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initialized = true;
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for (auto & input : inputs)
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{
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input.setNeeded();
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input_ports.push_back({.port = &input, .status = InputStatus::NotActive});
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}
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for (auto & output : outputs)
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output_ports.push_back({.port = &output, .status = OutputStatus::NotActive});
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}
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for (auto & output_number : updated_outputs)
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{
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auto & output = output_ports[output_number];
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if (output.port->isFinished())
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{
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if (output.status != OutputStatus::Finished)
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{
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++num_finished_outputs;
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output.status = OutputStatus::Finished;
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}
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continue;
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}
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if (output.port->canPush())
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{
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if (output.status != OutputStatus::NeedData)
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{
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output.status = OutputStatus::NeedData;
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waiting_outputs.push(output_number);
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}
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}
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}
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if (num_finished_outputs == outputs.size())
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{
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for (auto & input : inputs)
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input.close();
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return Status::Finished;
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}
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for (auto & input_number : updated_inputs)
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{
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auto & input = input_ports[input_number];
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if (input.port->isFinished())
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{
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if (input.status != InputStatus::Finished)
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{
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input.status = InputStatus::Finished;
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++num_finished_inputs;
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}
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continue;
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}
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if (input.port->hasData())
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{
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if (input.status != InputStatus::HasData)
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{
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input.status = InputStatus::HasData;
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inputs_with_data.push(input_number);
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}
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}
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}
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while (!waiting_outputs.empty() && !inputs_with_data.empty())
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{
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auto & waiting_output = output_ports[waiting_outputs.front()];
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waiting_outputs.pop();
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auto & input_with_data = input_ports[inputs_with_data.front()];
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inputs_with_data.pop();
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waiting_output.port->pushData(input_with_data.port->pullData());
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input_with_data.status = InputStatus::NotActive;
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waiting_output.status = OutputStatus::NotActive;
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if (input_with_data.port->isFinished())
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{
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input_with_data.status = InputStatus::Finished;
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++num_finished_inputs;
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}
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}
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if (num_finished_inputs == inputs.size())
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{
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for (auto & output : outputs)
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output.finish();
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return Status::Finished;
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}
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if (!waiting_outputs.empty())
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return Status::NeedData;
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return Status::PortFull;
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}
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IProcessor::Status StrictResizeProcessor::prepare(const PortNumbers & updated_inputs, const PortNumbers & updated_outputs)
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{
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if (!initialized)
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{
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initialized = true;
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for (auto & input : inputs)
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input_ports.push_back({.port = &input, .status = InputStatus::NotActive, .waiting_output = -1});
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for (UInt64 i = 0; i < input_ports.size(); ++i)
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disabled_input_ports.push(i);
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for (auto & output : outputs)
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output_ports.push_back({.port = &output, .status = OutputStatus::NotActive});
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}
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for (auto & output_number : updated_outputs)
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{
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auto & output = output_ports[output_number];
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if (output.port->isFinished())
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{
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if (output.status != OutputStatus::Finished)
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{
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++num_finished_outputs;
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output.status = OutputStatus::Finished;
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}
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continue;
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}
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if (output.port->canPush())
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{
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if (output.status != OutputStatus::NeedData)
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{
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output.status = OutputStatus::NeedData;
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waiting_outputs.push(output_number);
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}
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}
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}
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if (num_finished_outputs == outputs.size())
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{
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for (auto & input : inputs)
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input.close();
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return Status::Finished;
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}
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std::queue<UInt64> inputs_with_data;
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for (auto & input_number : updated_inputs)
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{
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auto & input = input_ports[input_number];
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if (input.port->isFinished())
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{
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if (input.status != InputStatus::Finished)
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{
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input.status = InputStatus::Finished;
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++num_finished_inputs;
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waiting_outputs.push(input.waiting_output);
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}
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continue;
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}
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if (input.port->hasData())
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{
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if (input.status != InputStatus::NotActive)
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{
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input.status = InputStatus::NotActive;
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inputs_with_data.push(input_number);
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}
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}
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}
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while (!inputs_with_data.empty())
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{
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auto input_number = inputs_with_data.front();
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auto & input_with_data = input_ports[input_number];
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inputs_with_data.pop();
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if (input_with_data.waiting_output == -1)
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throw Exception("No associated output for input with data.", ErrorCodes::LOGICAL_ERROR);
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auto & waiting_output = output_ports[input_with_data.waiting_output];
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if (waiting_output.status != OutputStatus::NeedData)
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throw Exception("Invalid status for associated output.", ErrorCodes::LOGICAL_ERROR);
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waiting_output.port->pushData(input_with_data.port->pullData(/* set_not_needed = */ true));
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waiting_output.status = OutputStatus::NotActive;
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if (input_with_data.port->isFinished())
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{
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input_with_data.status = InputStatus::Finished;
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++num_finished_inputs;
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}
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else
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disabled_input_ports.push(input_number);
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}
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if (num_finished_inputs == inputs.size())
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{
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for (auto & output : outputs)
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output.finish();
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return Status::Finished;
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}
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/// Enable more inputs if needed.
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while (!disabled_input_ports.empty() && !waiting_outputs.empty())
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{
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auto & input = input_ports[disabled_input_ports.front()];
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disabled_input_ports.pop();
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input.port->setNeeded();
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input.status = InputStatus::NeedData;
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input.waiting_output = waiting_outputs.front();
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waiting_outputs.pop();
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}
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while (!waiting_outputs.empty())
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{
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auto & output = output_ports[waiting_outputs.front()];
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waiting_outputs.pop();
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output.status = OutputStatus::Finished;
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output.port->finish();
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++num_finished_outputs;
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}
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if (disabled_input_ports.empty())
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return Status::NeedData;
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return Status::PortFull;
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}
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}
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