mirror of
https://github.com/moses-smt/mosesdecoder.git
synced 2024-12-29 23:12:41 +03:00
176 lines
3.6 KiB
C++
176 lines
3.6 KiB
C++
#include "Hildreth.h"
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using namespace Moses;
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using namespace std;
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namespace Mira
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{
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vector<float> Hildreth::optimise (const vector<ScoreComponentCollection>& a, const vector<float>& b)
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{
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size_t i;
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int max_iter = 10000;
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float eps = 0.00000001;
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float zero = 0.000000000001;
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vector<float> alpha ( b.size() );
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vector<float> F ( b.size() );
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vector<float> kkt ( b.size() );
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float max_kkt = -1e100;
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size_t K = b.size();
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float A[K][K];
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bool is_computed[K];
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for ( i = 0; i < K; i++ ) {
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A[i][i] = a[i].InnerProduct(a[i]);
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is_computed[i] = false;
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}
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int max_kkt_i = -1;
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for ( i = 0; i < b.size(); i++ ) {
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F[i] = b[i];
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kkt[i] = F[i];
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if ( kkt[i] > max_kkt ) {
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max_kkt = kkt[i];
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max_kkt_i = i;
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}
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}
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int iter = 0;
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float diff_alpha;
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float try_alpha;
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float add_alpha;
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while ( max_kkt >= eps && iter < max_iter ) {
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diff_alpha = A[max_kkt_i][max_kkt_i] <= zero ? 0.0 : F[max_kkt_i]/A[max_kkt_i][max_kkt_i];
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try_alpha = alpha[max_kkt_i] + diff_alpha;
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add_alpha = 0.0;
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if ( try_alpha < 0.0 )
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add_alpha = -1.0 * alpha[max_kkt_i];
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else
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add_alpha = diff_alpha;
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alpha[max_kkt_i] = alpha[max_kkt_i] + add_alpha;
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if ( !is_computed[max_kkt_i] ) {
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for ( i = 0; i < K; i++ ) {
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A[i][max_kkt_i] = a[i].InnerProduct(a[max_kkt_i] ); // for version 1
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//A[i][max_kkt_i] = 0; // for version 1
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is_computed[max_kkt_i] = true;
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}
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}
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for ( i = 0; i < F.size(); i++ ) {
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F[i] -= add_alpha * A[i][max_kkt_i];
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kkt[i] = F[i];
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if ( alpha[i] > zero )
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kkt[i] = abs ( F[i] );
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}
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max_kkt = -1e100;
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max_kkt_i = -1;
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for ( i = 0; i < F.size(); i++ )
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if ( kkt[i] > max_kkt ) {
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max_kkt = kkt[i];
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max_kkt_i = i;
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}
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iter++;
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}
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return alpha;
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}
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vector<float> Hildreth::optimise (const vector<ScoreComponentCollection>& a, const vector<float>& b, float C)
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{
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size_t i;
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int max_iter = 10000;
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float eps = 0.00000001;
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float zero = 0.000000000001;
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vector<float> alpha ( b.size() );
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vector<float> F ( b.size() );
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vector<float> kkt ( b.size() );
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float max_kkt = -1e100;
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size_t K = b.size();
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float A[K][K];
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bool is_computed[K];
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for ( i = 0; i < K; i++ ) {
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A[i][i] = a[i].InnerProduct(a[i]);
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is_computed[i] = false;
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}
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int max_kkt_i = -1;
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for ( i = 0; i < b.size(); i++ ) {
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F[i] = b[i];
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kkt[i] = F[i];
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if ( kkt[i] > max_kkt ) {
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max_kkt = kkt[i];
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max_kkt_i = i;
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}
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}
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int iter = 0;
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float diff_alpha;
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float try_alpha;
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float add_alpha;
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while ( max_kkt >= eps && iter < max_iter ) {
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diff_alpha = A[max_kkt_i][max_kkt_i] <= zero ? 0.0 : F[max_kkt_i]/A[max_kkt_i][max_kkt_i];
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try_alpha = alpha[max_kkt_i] + diff_alpha;
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add_alpha = 0.0;
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if ( try_alpha < 0.0 )
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add_alpha = -1.0 * alpha[max_kkt_i];
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else if (try_alpha > C)
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add_alpha = C - alpha[max_kkt_i];
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else
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add_alpha = diff_alpha;
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alpha[max_kkt_i] = alpha[max_kkt_i] + add_alpha;
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if ( !is_computed[max_kkt_i] ) {
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for ( i = 0; i < K; i++ ) {
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A[i][max_kkt_i] = a[i].InnerProduct(a[max_kkt_i] ); // for version 1
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//A[i][max_kkt_i] = 0; // for version 1
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is_computed[max_kkt_i] = true;
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}
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}
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for ( i = 0; i < F.size(); i++ ) {
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F[i] -= add_alpha * A[i][max_kkt_i];
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kkt[i] = F[i];
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if (alpha[i] > C - zero)
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kkt[i]=-kkt[i];
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else if (alpha[i] > zero)
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kkt[i] = abs(F[i]);
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}
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max_kkt = -1e100;
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max_kkt_i = -1;
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for ( i = 0; i < F.size(); i++ )
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if ( kkt[i] > max_kkt ) {
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max_kkt = kkt[i];
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max_kkt_i = i;
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}
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iter++;
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}
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return alpha;
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}
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}
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