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EMRead.cpp
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Fri, Sep 27, 00:51
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Sun, Sep 29, 00:51 (2 d)
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R8820 scATAC-seq
EMRead.cpp
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#include <EMRead.hpp>
#include <string>
#include <vector>
#include <future> // std::promise, std::future
#include <utility> // std::pair, std::move()
#include <functional> // std::bind(), std::ref()
#include <cmath> // exp()
#include <Matrix2D.hpp>
#include <Matrix3D.hpp>
#include <ReadLayer.hpp> // ReadLayer
#include <RandomNumberGenerator.hpp> // getRandomNumberGenerator()
#include <ConsoleProgressBar.hpp> // ConsoleProgressBar
#include <ThreadPool.hpp> // ThreadPool
EMRead::EMRead(const Matrix2D<int>& read_matrix,
size_t n_class,
size_t n_iter,
size_t n_shift,
bool flip,
bool bckg_class,
const std::string& seed,
size_t n_threads)
: EMBase(read_matrix.get_nrow(),
read_matrix.get_ncol(),
n_class,
n_iter,
n_shift,
flip,
n_threads),
loglikelihood_max(n_row, 0.),
read_layer(nullptr)
{ this->loglikelihood_max = vector_d(n_row, 0.) ;
// initialise post prob randomly
this->set_post_prob_random(seed) ;
// data and models
this->read_layer = new ReadLayer(read_matrix,
this->n_class,
this->n_shift,
flip,
bckg_class,
this->threads) ;
// intialise the models with the post prob
this->read_layer->update_model(this->post_prob,
this->threads) ;
}
EMRead::EMRead(Matrix2D<int>&& read_matrix,
size_t n_class,
size_t n_iter,
size_t n_shift,
bool flip,
bool bckg_class,
const std::string& seed,
size_t n_threads)
: EMBase(read_matrix.get_nrow(),
read_matrix.get_ncol(),
n_class,
n_iter,
n_shift,
flip,
n_threads),
loglikelihood_max(n_row, 0.),
read_layer(nullptr)
{ this->loglikelihood_max = vector_d(n_row, 0.) ;
// initialise post prob randomly
this->set_post_prob_random(seed) ;
// data and models
this->read_layer = new ReadLayer(std::move(read_matrix),
this->n_class,
this->n_shift,
flip,
bckg_class,
this->threads) ;
// intialise the models with the post prob
this->read_layer->update_model(this->post_prob,
this->threads) ;
}
EMRead::~EMRead()
{ if(this->read_layer!= nullptr)
{ delete this->read_layer ;
this->read_layer = nullptr ;
}
if(this->threads != nullptr)
{ this->threads->join() ;
delete this->threads ;
this->threads = nullptr ;
}
}
Matrix3D<double> EMRead::get_read_models() const
{ return read_layer->get_model() ; }
EMRead::exit_codes EMRead::classify()
{
size_t bar_update_n = this->n_iter ;
ConsoleProgressBar bar(std::cerr, bar_update_n, 60, "classifying") ;
// optimize the partition
for(size_t n_iter=0; n_iter<this->n_iter; n_iter++)
{
// E-step
this->compute_loglikelihood() ;
// std::cerr << this->post_prob_rowsum << std::endl ;
// std::cerr << this->post_prob_colsum << std::endl ;
this->compute_post_prob() ;
// M-step
// std::cerr << this->post_prob_rowsum << std::endl ;
// std::cerr << this->post_prob_colsum << std::endl ;
this->compute_class_prob() ;
this->update_models() ;
this->center_post_state_prob() ;
bar.update() ;
}
bar.update() ; std::cerr << std::endl ;
return EMRead::exit_codes::ITER_MAX ;
}
void EMRead::compute_loglikelihood()
{ // compute the loglikelihood
this->read_layer->compute_loglikelihoods(this->loglikelihood,
this->loglikelihood_max,
this->threads) ;
// rescale the values
// don't parallelize
if(this->threads == nullptr)
{ std::promise<bool> promise ;
std::future<bool> future = promise.get_future() ;
this->compute_loglikelihood_routine(0,
this->n_row,
promise) ;
future.get() ;
}
// parallelize
else
{ size_t n_threads = this->threads->getNThread() ;
// compute the slices on which each thread will work
std::vector<std::pair<size_t,size_t>> slices =
ThreadPool::split_range(0, this->n_row,n_threads) ;
// get promises and futures
std::vector<std::promise<bool>> promises(n_threads) ;
std::vector<std::future<bool>> futures(n_threads) ;
for(size_t i=0; i<n_threads; i++)
{ futures[i] = promises[i].get_future() ; }
// distribute work to threads
// -------------------------- threads start --------------------------
for(size_t i=0; i<n_threads; i++)
{ auto slice = slices[i] ;
this->threads->addJob(std::move(
std::bind(&EMRead::compute_loglikelihood_routine,
this,
slice.first,
slice.second,
std::ref(promises[i])))) ;
}
// wait until all threads are done working
for(auto& future : futures)
{ future.get() ; }
// -------------------------- threads stop ---------------------------
}
}
void EMRead::compute_loglikelihood_routine(size_t from,
size_t to,
std::promise<bool>& done)
{
// rescale the values
for(size_t i=from; i<to; i++)
{ for(size_t j=0; j<this->n_class; j++)
{ for(size_t k=0; k<this->n_shift; k++)
{ for(size_t l=0; l<this->n_flip; l++)
{ this->loglikelihood(i,j,k,l) =
std::max(this->loglikelihood(i,j,k,l) -
this->loglikelihood_max[i],
ReadLayer::p_min_log) ;
}
}
}
}
done.set_value(true) ;
}
void EMRead::compute_post_prob()
{ // don't parallelize
if(this->threads == nullptr)
{ std::promise<vector_d> promise ;
std::future<vector_d> future = promise.get_future() ;
this->compute_post_prob_routine(0, this->n_row, promise) ;
// compute the sum of post prob and the per class sum of post prob
// from the partial results computed on each slice
this->post_prob_tot = 0. ;
this->post_prob_colsum = future.get() ;
for(const auto& prob : this->post_prob_colsum)
{ this->post_prob_tot += prob ; }
}
// parallelize
else
{ size_t n_threads = this->threads->getNThread() ;
// compute the slices on which each thread will work
std::vector<std::pair<size_t,size_t>> slices =
ThreadPool::split_range(0, this->n_row,n_threads) ;
// get promises and futures
// the function run by the threads will compute
// the partial sum per class of post_prob for the given slice
// this should be used to compute the complete sum of post_prob
// and the complete sum per class of post_prob
std::vector<std::promise<vector_d>> promises(n_threads) ;
std::vector<std::future<vector_d>> futures(n_threads) ;
for(size_t i=0; i<n_threads; i++)
{ futures[i] = promises[i].get_future() ; }
// distribute work to threads
// -------------------------- threads start --------------------------
for(size_t i=0; i<n_threads; i++)
{ auto slice = slices[i] ;
this->threads->addJob(std::move(
std::bind(&EMRead::compute_post_prob_routine,
this,
slice.first,
slice.second,
std::ref(promises[i])))) ;
}
// wait until all threads are done working
// compute the sum of post prob and the per class sum of post prob
// from the partial results computed on each slice
this->post_prob_tot = 0. ;
this->post_prob_colsum = vector_d(this->n_class, 0.) ;
for(auto& future : futures)
{ auto probs = future.get() ;
for(size_t i=0; i<this->n_class; i++)
{ double prob = probs[i] ;
this->post_prob_colsum[i] += prob ;
this->post_prob_tot += prob ;
}
}
// -------------------------- threads stop ---------------------------
}
}
void EMRead::compute_post_prob_routine(size_t from,
size_t to,
std::promise<vector_d>& post_prob_colsum)
{ vector_d colsums(this->n_class, 0.) ;
// reset grand total
// this->post_prob_tot = 0 ;
// this->post_prob_colsum = vector_d(n_class, 0) ;
// post prob
for(size_t i=from; i<to; i++)
{ // reset row sum to 0
this->post_prob_rowsum[i] = 0. ;
for(size_t n_class=0; n_class<this->n_class; n_class++)
{ for(size_t n_shift=0; n_shift<this->n_shift; n_shift++)
{ for(size_t n_flip=0; n_flip<this->n_flip; n_flip++)
{
double p = exp(this->loglikelihood(i,n_class,n_shift,n_flip)) *
this->post_state_prob(n_class,n_shift,n_flip) ;
this->post_prob(i,n_class,n_shift,n_flip) = p ;
this->post_prob_rowsum[i] += p ;
}
}
}
// normalize
for(size_t n_class=0; n_class<this->n_class; n_class++)
{ for(size_t n_shift=0; n_shift<this->n_shift; n_shift++)
{ for(size_t n_flip=0; n_flip<this->n_flip; n_flip++)
{ // avoid p=0. by rounding errors
double p = std::max(this->post_prob(i,n_class,n_shift,n_flip) /
this->post_prob_rowsum[i],
ReadLayer::p_min) ;
this->post_prob(i,n_class,n_shift,n_flip) = p ;
colsums[n_class] += p ;
}
}
}
}
post_prob_colsum.set_value(colsums) ;
}
void EMRead::update_models()
{ this->read_layer->update_model(this->post_prob,
this->post_prob_colsum,
this->threads) ;
}
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