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authorWu, Ke <wuke@cs.umd.edu>2014-12-06 12:18:18 -0500
committerWu, Ke <wuke@cs.umd.edu>2014-12-06 12:18:18 -0500
commita4d7d7ed27c87d56c925f2b56643d6cc9aee026f (patch)
tree8196045b05c08a73005adfcecb5b3b9d3c46200b /decoder
parent2f0d1f17aea094dda3644b5b583c0e06bb02eee0 (diff)
parentf74345e54b9f5f5f894d81df61e85fddc53a520a (diff)
Merge branch 'const_reorder' into softsyn
Diffstat (limited to 'decoder')
-rw-r--r--decoder/Makefile.am1
-rw-r--r--decoder/ff_const_reorder.cc6
-rw-r--r--decoder/ff_const_reorder_common.h1441
3 files changed, 1444 insertions, 4 deletions
diff --git a/decoder/Makefile.am b/decoder/Makefile.am
index 2f293b15..727e5af5 100644
--- a/decoder/Makefile.am
+++ b/decoder/Makefile.am
@@ -45,6 +45,7 @@ libcdec_a_SOURCES = \
ff_basic.h \
ff_bleu.h \
ff_charset.h \
+ ff_const_reorder_common.h \
ff_const_reorder.h \
ff_context.h \
ff_csplit.h \
diff --git a/decoder/ff_const_reorder.cc b/decoder/ff_const_reorder.cc
index 8da551c6..e4fb4725 100644
--- a/decoder/ff_const_reorder.cc
+++ b/decoder/ff_const_reorder.cc
@@ -4,11 +4,8 @@
#include "stringlib.h"
#include "hg.h"
#include "sentence_metadata.h"
-#include "tree.h"
-#include "srl_sentence.h"
-#include "tsuruoka_maxent.h"
#include "hash.h"
-#include "argument_reorder_model.h"
+#include "ff_const_reorder_common.h"
#include <sstream>
#include <string>
@@ -16,6 +13,7 @@
#include <stdio.h>
using namespace std;
+using namespace const_reorder;
typedef HASH_MAP<std::string, vector<double> > MapClassifier;
diff --git a/decoder/ff_const_reorder_common.h b/decoder/ff_const_reorder_common.h
new file mode 100644
index 00000000..7c111de3
--- /dev/null
+++ b/decoder/ff_const_reorder_common.h
@@ -0,0 +1,1441 @@
+#ifndef _FF_CONST_REORDER_COMMON_H
+#define _FF_CONST_REORDER_COMMON_H
+
+#include <string>
+#include <assert.h>
+#include <stdio.h>
+#include <string.h>
+#include <string>
+#include <sstream>
+#include <unordered_map>
+#include <utility>
+#include <vector>
+
+#include "maxent.h"
+#include "stringlib.h"
+
+namespace const_reorder {
+
+struct STreeItem {
+ STreeItem(const char *pszTerm) {
+ m_pszTerm = new char[strlen(pszTerm) + 1];
+ strcpy(m_pszTerm, pszTerm);
+
+ m_ptParent = NULL;
+ m_iBegin = -1;
+ m_iEnd = -1;
+ m_iHeadChild = -1;
+ m_iHeadWord = -1;
+ m_iBrotherIndex = -1;
+ }
+ ~STreeItem() {
+ delete[] m_pszTerm;
+ for (size_t i = 0; i < m_vecChildren.size(); i++) delete m_vecChildren[i];
+ }
+ int fnAppend(STreeItem *ptChild) {
+ m_vecChildren.push_back(ptChild);
+ ptChild->m_iBrotherIndex = m_vecChildren.size() - 1;
+ ptChild->m_ptParent = this;
+ return m_vecChildren.size() - 1;
+ }
+ int fnGetChildrenNum() { return m_vecChildren.size(); }
+
+ bool fnIsPreTerminal(void) {
+ int I;
+ if (this == NULL || m_vecChildren.size() == 0) return false;
+
+ for (I = 0; I < m_vecChildren.size(); I++)
+ if (m_vecChildren[I]->m_vecChildren.size() > 0) return false;
+
+ return true;
+ }
+
+ public:
+ char *m_pszTerm;
+
+ std::vector<STreeItem *> m_vecChildren; // children items
+ STreeItem *m_ptParent; // the parent item
+
+ int m_iBegin;
+ int m_iEnd; // the node span words[m_iBegin, m_iEnd]
+ int m_iHeadChild; // the index of its head child
+ int m_iHeadWord; // the index of its head word
+ int m_iBrotherIndex; // the index in his brothers
+};
+
+struct SGetHeadWord {
+ typedef std::vector<std::string> CVectorStr;
+ SGetHeadWord() {}
+ ~SGetHeadWord() {}
+ int fnGetHeadWord(char *pszCFGLeft, CVectorStr vectRight) {
+ // 0 indicating from right to left while 1 indicating from left to right
+ char szaHeadLists[201] = "0";
+
+ /* //head rules for Egnlish
+ if( strcmp( pszCFGLeft, "ADJP" ) == 0 )
+ strcpy( szaHeadLists, "0NNS 0QP 0NN 0$ 0ADVP 0JJ 0VBN 0VBG 0ADJP
+ 0JJR 0NP 0JJS 0DT 0FW 0RBR 0RBS 0SBAR 0RB 0" );
+ else if( strcmp( pszCFGLeft, "ADVP" ) == 0 )
+ strcpy( szaHeadLists, "1RB 1RBR 1RBS 1FW 1ADVP 1TO 1CD 1JJR 1JJ 1IN
+ 1NP 1JJS 1NN 1" );
+ else if( strcmp( pszCFGLeft, "CONJP" ) == 0 )
+ strcpy( szaHeadLists, "1CC 1RB 1IN 1" );
+ else if( strcmp( pszCFGLeft, "FRAG" ) == 0 )
+ strcpy( szaHeadLists, "1" );
+ else if( strcmp( pszCFGLeft, "INTJ" ) == 0 )
+ strcpy( szaHeadLists, "0" );
+ else if( strcmp( pszCFGLeft, "LST" ) == 0 )
+ strcpy( szaHeadLists, "1LS 1: 1CLN 1" );
+ else if( strcmp( pszCFGLeft, "NAC" ) == 0 )
+ strcpy( szaHeadLists, "0NN 0NNS 0NNP 0NNPS 0NP 0NAC 0EX 0$ 0CD 0QP
+ 0PRP 0VBG 0JJ 0JJS 0JJR 0ADJP 0FW 0" );
+ else if( strcmp( pszCFGLeft, "PP" ) == 0 )
+ strcpy( szaHeadLists, "1IN 1TO 1VBG 1VBN 1RP 1FW 1" );
+ else if( strcmp( pszCFGLeft, "PRN" ) == 0 )
+ strcpy( szaHeadLists, "1" );
+ else if( strcmp( pszCFGLeft, "PRT" ) == 0 )
+ strcpy( szaHeadLists, "1RP 1" );
+ else if( strcmp( pszCFGLeft, "QP" ) == 0 )
+ strcpy( szaHeadLists, "0$ 0IN 0NNS 0NN 0JJ 0RB 0DT 0CD 0NCD 0QP 0JJR
+ 0JJS 0" );
+ else if( strcmp( pszCFGLeft, "RRC" ) == 0 )
+ strcpy( szaHeadLists, "1VP 1NP 1ADVP 1ADJP 1PP 1" );
+ else if( strcmp( pszCFGLeft, "S" ) == 0 )
+ strcpy( szaHeadLists, "0TO 0IN 0VP 0S 0SBAR 0ADJP 0UCP 0NP 0" );
+ else if( strcmp( pszCFGLeft, "SBAR" ) == 0 )
+ strcpy( szaHeadLists, "0WHNP 0WHPP 0WHADVP 0WHADJP 0IN 0DT 0S 0SQ
+ 0SINV 0SBAR 0FRAG 0" );
+ else if( strcmp( pszCFGLeft, "SBARQ" ) == 0 )
+ strcpy( szaHeadLists, "0SQ 0S 0SINV 0SBARQ 0FRAG 0" );
+ else if( strcmp( pszCFGLeft, "SINV" ) == 0 )
+ strcpy( szaHeadLists, "0VBZ 0VBD 0VBP 0VB 0MD 0VP 0S 0SINV 0ADJP 0NP
+ 0" );
+ else if( strcmp( pszCFGLeft, "SQ" ) == 0 )
+ strcpy( szaHeadLists, "0VBZ 0VBD 0VBP 0VB 0MD 0VP 0SQ 0" );
+ else if( strcmp( pszCFGLeft, "UCP" ) == 0 )
+ strcpy( szaHeadLists, "1" );
+ else if( strcmp( pszCFGLeft, "VP" ) == 0 )
+ strcpy( szaHeadLists, "0TO 0VBD 0VBN 0MD 0VBZ 0VB 0VBG 0VBP 0VP
+ 0ADJP 0NN 0NNS 0NP 0" );
+ else if( strcmp( pszCFGLeft, "WHADJP" ) == 0 )
+ strcpy( szaHeadLists, "0CC 0WRB 0JJ 0ADJP 0" );
+ else if( strcmp( pszCFGLeft, "WHADVP" ) == 0 )
+ strcpy( szaHeadLists, "1CC 1WRB 1" );
+ else if( strcmp( pszCFGLeft, "WHNP" ) == 0 )
+ strcpy( szaHeadLists, "0WDT 0WP 0WP$ 0WHADJP 0WHPP 0WHNP 0" );
+ else if( strcmp( pszCFGLeft, "WHPP" ) == 0 )
+ strcpy( szaHeadLists, "1IN 1TO FW 1" );
+ else if( strcmp( pszCFGLeft, "NP" ) == 0 )
+ strcpy( szaHeadLists, "0NN NNP NNS NNPS NX POS JJR 0NP 0$ ADJP PRN
+ 0CD 0JJ JJS RB QP 0" );
+ */
+
+ if (strcmp(pszCFGLeft, "ADJP") == 0)
+ strcpy(szaHeadLists, "0ADJP JJ 0AD NN CS 0");
+ else if (strcmp(pszCFGLeft, "ADVP") == 0)
+ strcpy(szaHeadLists, "0ADVP AD 0");
+ else if (strcmp(pszCFGLeft, "CLP") == 0)
+ strcpy(szaHeadLists, "0CLP M 0");
+ else if (strcmp(pszCFGLeft, "CP") == 0)
+ strcpy(szaHeadLists, "0DEC SP 1ADVP CS 0CP IP 0");
+ else if (strcmp(pszCFGLeft, "DNP") == 0)
+ strcpy(szaHeadLists, "0DNP DEG 0DEC 0");
+ else if (strcmp(pszCFGLeft, "DVP") == 0)
+ strcpy(szaHeadLists, "0DVP DEV 0");
+ else if (strcmp(pszCFGLeft, "DP") == 0)
+ strcpy(szaHeadLists, "1DP DT 1");
+ else if (strcmp(pszCFGLeft, "FRAG") == 0)
+ strcpy(szaHeadLists, "0VV NR NN 0");
+ else if (strcmp(pszCFGLeft, "INTJ") == 0)
+ strcpy(szaHeadLists, "0INTJ IJ 0");
+ else if (strcmp(pszCFGLeft, "LST") == 0)
+ strcpy(szaHeadLists, "1LST CD OD 1");
+ else if (strcmp(pszCFGLeft, "IP") == 0)
+ strcpy(szaHeadLists, "0IP VP 0VV 0");
+ // strcpy( szaHeadLists, "0VP 0VV 1IP 0" );
+ else if (strcmp(pszCFGLeft, "LCP") == 0)
+ strcpy(szaHeadLists, "0LCP LC 0");
+ else if (strcmp(pszCFGLeft, "NP") == 0)
+ strcpy(szaHeadLists, "0NP NN NT NR QP 0");
+ else if (strcmp(pszCFGLeft, "PP") == 0)
+ strcpy(szaHeadLists, "1PP P 1");
+ else if (strcmp(pszCFGLeft, "PRN") == 0)
+ strcpy(szaHeadLists, "0 NP IP VP NT NR NN 0");
+ else if (strcmp(pszCFGLeft, "QP") == 0)
+ strcpy(szaHeadLists, "0QP CLP CD OD 0");
+ else if (strcmp(pszCFGLeft, "VP") == 0)
+ strcpy(szaHeadLists, "1VP VA VC VE VV BA LB VCD VSB VRD VNV VCP 1");
+ else if (strcmp(pszCFGLeft, "VCD") == 0)
+ strcpy(szaHeadLists, "0VCD VV VA VC VE 0");
+ if (strcmp(pszCFGLeft, "VRD") == 0)
+ strcpy(szaHeadLists, "0VRD VV VA VC VE 0");
+ else if (strcmp(pszCFGLeft, "VSB") == 0)
+ strcpy(szaHeadLists, "0VSB VV VA VC VE 0");
+ else if (strcmp(pszCFGLeft, "VCP") == 0)
+ strcpy(szaHeadLists, "0VCP VV VA VC VE 0");
+ else if (strcmp(pszCFGLeft, "VNV") == 0)
+ strcpy(szaHeadLists, "0VNV VV VA VC VE 0");
+ else if (strcmp(pszCFGLeft, "VPT") == 0)
+ strcpy(szaHeadLists, "0VNV VV VA VC VE 0");
+ else if (strcmp(pszCFGLeft, "UCP") == 0)
+ strcpy(szaHeadLists, "0");
+ else if (strcmp(pszCFGLeft, "WHNP") == 0)
+ strcpy(szaHeadLists, "0WHNP NP NN NT NR QP 0");
+ else if (strcmp(pszCFGLeft, "WHPP") == 0)
+ strcpy(szaHeadLists, "1WHPP PP P 1");
+
+ /* //head rules for GENIA corpus
+ if( strcmp( pszCFGLeft, "ADJP" ) == 0 )
+ strcpy( szaHeadLists, "0NNS 0QP 0NN 0$ 0ADVP 0JJ 0VBN 0VBG 0ADJP
+ 0JJR 0NP 0JJS 0DT 0FW 0RBR 0RBS 0SBAR 0RB 0" );
+ else if( strcmp( pszCFGLeft, "ADVP" ) == 0 )
+ strcpy( szaHeadLists, "1RB 1RBR 1RBS 1FW 1ADVP 1TO 1CD 1JJR 1JJ 1IN
+ 1NP 1JJS 1NN 1" );
+ else if( strcmp( pszCFGLeft, "CONJP" ) == 0 )
+ strcpy( szaHeadLists, "1CC 1RB 1IN 1" );
+ else if( strcmp( pszCFGLeft, "FRAG" ) == 0 )
+ strcpy( szaHeadLists, "1" );
+ else if( strcmp( pszCFGLeft, "INTJ" ) == 0 )
+ strcpy( szaHeadLists, "0" );
+ else if( strcmp( pszCFGLeft, "LST" ) == 0 )
+ strcpy( szaHeadLists, "1LS 1: 1CLN 1" );
+ else if( strcmp( pszCFGLeft, "NAC" ) == 0 )
+ strcpy( szaHeadLists, "0NN 0NNS 0NNP 0NNPS 0NP 0NAC 0EX 0$ 0CD 0QP
+ 0PRP 0VBG 0JJ 0JJS 0JJR 0ADJP 0FW 0" );
+ else if( strcmp( pszCFGLeft, "PP" ) == 0 )
+ strcpy( szaHeadLists, "1IN 1TO 1VBG 1VBN 1RP 1FW 1" );
+ else if( strcmp( pszCFGLeft, "PRN" ) == 0 )
+ strcpy( szaHeadLists, "1" );
+ else if( strcmp( pszCFGLeft, "PRT" ) == 0 )
+ strcpy( szaHeadLists, "1RP 1" );
+ else if( strcmp( pszCFGLeft, "QP" ) == 0 )
+ strcpy( szaHeadLists, "0$ 0IN 0NNS 0NN 0JJ 0RB 0DT 0CD 0NCD 0QP 0JJR
+ 0JJS 0" );
+ else if( strcmp( pszCFGLeft, "RRC" ) == 0 )
+ strcpy( szaHeadLists, "1VP 1NP 1ADVP 1ADJP 1PP 1" );
+ else if( strcmp( pszCFGLeft, "S" ) == 0 )
+ strcpy( szaHeadLists, "0TO 0IN 0VP 0S 0SBAR 0ADJP 0UCP 0NP 0" );
+ else if( strcmp( pszCFGLeft, "SBAR" ) == 0 )
+ strcpy( szaHeadLists, "0WHNP 0WHPP 0WHADVP 0WHADJP 0IN 0DT 0S 0SQ
+ 0SINV 0SBAR 0FRAG 0" );
+ else if( strcmp( pszCFGLeft, "SBARQ" ) == 0 )
+ strcpy( szaHeadLists, "0SQ 0S 0SINV 0SBARQ 0FRAG 0" );
+ else if( strcmp( pszCFGLeft, "SINV" ) == 0 )
+ strcpy( szaHeadLists, "0VBZ 0VBD 0VBP 0VB 0MD 0VP 0S 0SINV 0ADJP 0NP
+ 0" );
+ else if( strcmp( pszCFGLeft, "SQ" ) == 0 )
+ strcpy( szaHeadLists, "0VBZ 0VBD 0VBP 0VB 0MD 0VP 0SQ 0" );
+ else if( strcmp( pszCFGLeft, "UCP" ) == 0 )
+ strcpy( szaHeadLists, "1" );
+ else if( strcmp( pszCFGLeft, "VP" ) == 0 )
+ strcpy( szaHeadLists, "0TO 0VBD 0VBN 0MD 0VBZ 0VB 0VBG 0VBP 0VP
+ 0ADJP 0NN 0NNS 0NP 0" );
+ else if( strcmp( pszCFGLeft, "WHADJP" ) == 0 )
+ strcpy( szaHeadLists, "0CC 0WRB 0JJ 0ADJP 0" );
+ else if( strcmp( pszCFGLeft, "WHADVP" ) == 0 )
+ strcpy( szaHeadLists, "1CC 1WRB 1" );
+ else if( strcmp( pszCFGLeft, "WHNP" ) == 0 )
+ strcpy( szaHeadLists, "0WDT 0WP 0WP$ 0WHADJP 0WHPP 0WHNP 0" );
+ else if( strcmp( pszCFGLeft, "WHPP" ) == 0 )
+ strcpy( szaHeadLists, "1IN 1TO FW 1" );
+ else if( strcmp( pszCFGLeft, "NP" ) == 0 )
+ strcpy( szaHeadLists, "0NN NNP NNS NNPS NX POS JJR 0NP 0$ ADJP PRN
+ 0CD 0JJ JJS RB QP 0" );
+ */
+
+ return fnMyOwnHeadWordRule(szaHeadLists, vectRight);
+ }
+
+ private:
+ int fnMyOwnHeadWordRule(char *pszaHeadLists, CVectorStr vectRight) {
+ char szHeadList[201], *p;
+ char szTerm[101];
+ int J;
+
+ p = pszaHeadLists;
+
+ int iCountRight;
+
+ iCountRight = vectRight.size();
+
+ szHeadList[0] = '\0';
+ while (1) {
+ szTerm[0] = '\0';
+ sscanf(p, "%s", szTerm);
+ if (strlen(szHeadList) == 0) {
+ if (strcmp(szTerm, "0") == 0) {
+ return iCountRight - 1;
+ }
+ if (strcmp(szTerm, "1") == 0) {
+ return 0;
+ }
+
+ sprintf(szHeadList, "%c %s ", szTerm[0], szTerm + 1);
+ p = strstr(p, szTerm);
+ p += strlen(szTerm);
+ } else {
+ if ((szTerm[0] == '0') || (szTerm[0] == '1')) {
+ if (szHeadList[0] == '0') {
+ for (J = iCountRight - 1; J >= 0; J--) {
+ sprintf(szTerm, " %s ", vectRight.at(J).c_str());
+ if (strstr(szHeadList, szTerm) != NULL) return J;
+ }
+ } else {
+ for (J = 0; J < iCountRight; J++) {
+ sprintf(szTerm, " %s ", vectRight.at(J).c_str());
+ if (strstr(szHeadList, szTerm) != NULL) return J;
+ }
+ }
+
+ szHeadList[0] = '\0';
+ } else {
+ strcat(szHeadList, szTerm);
+ strcat(szHeadList, " ");
+
+ p = strstr(p, szTerm);
+ p += strlen(szTerm);
+ }
+ }
+ }
+
+ return 0;
+ }
+};
+
+struct SParsedTree {
+ SParsedTree() { m_ptRoot = NULL; }
+ ~SParsedTree() {
+ if (m_ptRoot != NULL) delete m_ptRoot;
+ }
+ static SParsedTree *fnConvertFromString(const char *pszStr) {
+ if (strcmp(pszStr, "(())") == 0) return NULL;
+ SParsedTree *pTree = new SParsedTree();
+
+ std::vector<std::string> vecSyn;
+ fnReadSyntactic(pszStr, vecSyn);
+
+ int iLeft = 1, iRight = 1; //# left/right parenthesis
+
+ STreeItem *pcurrent;
+
+ pTree->m_ptRoot = new STreeItem(vecSyn[1].c_str());
+
+ pcurrent = pTree->m_ptRoot;
+
+ for (size_t i = 2; i < vecSyn.size() - 1; i++) {
+ if (strcmp(vecSyn[i].c_str(), "(") == 0)
+ iLeft++;
+ else if (strcmp(vecSyn[i].c_str(), ")") == 0) {
+ iRight++;
+ if (pcurrent == NULL) {
+ // error
+ fprintf(stderr, "ERROR in ConvertFromString\n");
+ fprintf(stderr, "%s\n", pszStr);
+ return NULL;
+ }
+ pcurrent = pcurrent->m_ptParent;
+ } else {
+ STreeItem *ptNewItem = new STreeItem(vecSyn[i].c_str());
+ pcurrent->fnAppend(ptNewItem);
+ pcurrent = ptNewItem;
+
+ if (strcmp(vecSyn[i - 1].c_str(), "(") != 0 &&
+ strcmp(vecSyn[i - 1].c_str(), ")") != 0) {
+ pTree->m_vecTerminals.push_back(ptNewItem);
+ pcurrent = pcurrent->m_ptParent;
+ }
+ }
+ }
+
+ if (iLeft != iRight) {
+ // error
+ fprintf(stderr, "the left and right parentheses are not matched!");
+ fprintf(stderr, "ERROR in ConvertFromString\n");
+ fprintf(stderr, "%s\n", pszStr);
+ return NULL;
+ }
+
+ return pTree;
+ }
+
+ int fnGetNumWord() { return m_vecTerminals.size(); }
+
+ void fnSetSpanInfo() {
+ int iNextNum = 0;
+ fnSuffixTraverseSetSpanInfo(m_ptRoot, iNextNum);
+ }
+
+ void fnSetHeadWord() {
+ for (size_t i = 0; i < m_vecTerminals.size(); i++)
+ m_vecTerminals[i]->m_iHeadWord = i;
+ SGetHeadWord *pGetHeadWord = new SGetHeadWord();
+ fnSuffixTraverseSetHeadWord(m_ptRoot, pGetHeadWord);
+ delete pGetHeadWord;
+ }
+
+ STreeItem *fnFindNodeForSpan(int iLeft, int iRight, bool bLowest) {
+ STreeItem *pTreeItem = m_vecTerminals[iLeft];
+
+ while (pTreeItem->m_iEnd < iRight) {
+ pTreeItem = pTreeItem->m_ptParent;
+ if (pTreeItem == NULL) break;
+ }
+ if (pTreeItem == NULL) return NULL;
+ if (pTreeItem->m_iEnd > iRight) return NULL;
+
+ assert(pTreeItem->m_iEnd == iRight);
+ if (bLowest) return pTreeItem;
+
+ while (pTreeItem->m_ptParent != NULL &&
+ pTreeItem->m_ptParent->fnGetChildrenNum() == 1)
+ pTreeItem = pTreeItem->m_ptParent;
+
+ return pTreeItem;
+ }
+
+ private:
+ void fnSuffixTraverseSetSpanInfo(STreeItem *ptItem, int &iNextNum) {
+ int I;
+ int iNumChildren = ptItem->fnGetChildrenNum();
+ for (I = 0; I < iNumChildren; I++)
+ fnSuffixTraverseSetSpanInfo(ptItem->m_vecChildren[I], iNextNum);
+
+ if (I == 0) {
+ ptItem->m_iBegin = iNextNum;
+ ptItem->m_iEnd = iNextNum++;
+ } else {
+ ptItem->m_iBegin = ptItem->m_vecChildren[0]->m_iBegin;
+ ptItem->m_iEnd = ptItem->m_vecChildren[I - 1]->m_iEnd;
+ }
+ }
+
+ void fnSuffixTraverseSetHeadWord(STreeItem *ptItem,
+ SGetHeadWord *pGetHeadWord) {
+ int I, iHeadchild;
+
+ if (ptItem->m_vecChildren.size() == 0) return;
+
+ for (I = 0; I < ptItem->m_vecChildren.size(); I++)
+ fnSuffixTraverseSetHeadWord(ptItem->m_vecChildren[I], pGetHeadWord);
+
+ std::vector<std::string> vecRight;
+
+ if (ptItem->m_vecChildren.size() == 1)
+ iHeadchild = 0;
+ else {
+ for (I = 0; I < ptItem->m_vecChildren.size(); I++)
+ vecRight.push_back(std::string(ptItem->m_vecChildren[I]->m_pszTerm));
+
+ iHeadchild = pGetHeadWord->fnGetHeadWord(ptItem->m_pszTerm, vecRight);
+ }
+
+ ptItem->m_iHeadChild = iHeadchild;
+ ptItem->m_iHeadWord = ptItem->m_vecChildren[iHeadchild]->m_iHeadWord;
+ }
+
+ static void fnReadSyntactic(const char *pszSyn,
+ std::vector<std::string> &vec) {
+ char *p;
+ int I;
+
+ int iLeftNum, iRightNum;
+ char *pszTmp, *pszTerm;
+ pszTmp = new char[strlen(pszSyn)];
+ pszTerm = new char[strlen(pszSyn)];
+ pszTmp[0] = pszTerm[0] = '\0';
+
+ vec.clear();
+
+ char *pszLine;
+ pszLine = new char[strlen(pszSyn) + 1];
+ strcpy(pszLine, pszSyn);
+
+ char *pszLine2;
+
+ while (1) {
+ while ((strlen(pszLine) > 0) && (pszLine[strlen(pszLine) - 1] > 0) &&
+ (pszLine[strlen(pszLine) - 1] <= ' '))
+ pszLine[strlen(pszLine) - 1] = '\0';
+
+ if (strlen(pszLine) == 0) break;
+
+ // printf( "%s\n", pszLine );
+ pszLine2 = pszLine;
+ while (pszLine2[0] <= ' ') pszLine2++;
+ if (pszLine2[0] == '<') continue;
+
+ sscanf(pszLine2 + 1, "%s", pszTmp);
+
+ if (pszLine2[0] == '(') {
+ iLeftNum = 0;
+ iRightNum = 0;
+ }
+
+ p = pszLine2;
+ while (1) {
+ pszTerm[0] = '\0';
+ sscanf(p, "%s", pszTerm);
+
+ if (strlen(pszTerm) == 0) break;
+ p = strstr(p, pszTerm);
+ p += strlen(pszTerm);
+
+ if ((pszTerm[0] == '(') || (pszTerm[strlen(pszTerm) - 1] == ')')) {
+ if (pszTerm[0] == '(') {
+ vec.push_back(std::string("("));
+ iLeftNum++;
+
+ I = 1;
+ while (pszTerm[I] == '(' && pszTerm[I] != '\0') {
+ vec.push_back(std::string("("));
+ iLeftNum++;
+
+ I++;
+ }
+
+ if (strlen(pszTerm) > 1) vec.push_back(std::string(pszTerm + I));
+ } else {
+ char *pTmp;
+ pTmp = pszTerm + strlen(pszTerm) - 1;
+ while ((pTmp[0] == ')') && (pTmp >= pszTerm)) pTmp--;
+ pTmp[1] = '\0';
+
+ if (strlen(pszTerm) > 0) vec.push_back(std::string(pszTerm));
+ pTmp += 2;
+
+ for (I = 0; I <= (int)strlen(pTmp); I++) {
+ vec.push_back(std::string(")"));
+ iRightNum++;
+ }
+ }
+ } else {
+ char *q;
+ q = strchr(pszTerm, ')');
+ if (q != NULL) {
+ q[0] = '\0';
+ if (pszTerm[0] != '\0') vec.push_back(std::string(pszTerm));
+ vec.push_back(std::string(")"));
+ iRightNum++;
+
+ q++;
+ while (q[0] == ')') {
+ vec.push_back(std::string(")"));
+ q++;
+ iRightNum++;
+ }
+
+ while (q[0] == '(') {
+ vec.push_back(std::string("("));
+ q++;
+ iLeftNum++;
+ }
+
+ if (q[0] != '\0') vec.push_back(std::string(q));
+ } else
+ vec.push_back(std::string(pszTerm));
+ }
+ }
+
+ if (iLeftNum != iRightNum) {
+ fprintf(stderr, "%s\n", pszSyn);
+ assert(iLeftNum == iRightNum);
+ }
+ /*if ( iLeftNum != iRightNum ) {
+ printf( "ERROR: left( and right ) is not matched, %d ( and %d
+ )\n", iLeftNum, iRightNum );
+ return;
+ }*/
+
+ if (vec.size() >= 2 && strcmp(vec[1].c_str(), "(") == 0) {
+ //( (IP..) )
+ std::vector<std::string>::iterator it;
+ it = vec.begin();
+ it++;
+ vec.insert(it, std::string("ROOT"));
+ }
+
+ break;
+ }
+
+ delete[] pszLine;
+ delete[] pszTmp;
+ delete[] pszTerm;
+ }
+
+ public:
+ STreeItem *m_ptRoot;
+ std::vector<STreeItem *> m_vecTerminals; // the leaf nodes
+};
+
+struct SParseReader {
+ SParseReader(const char *pszParse_Fname, bool bFlattened = false)
+ : m_bFlattened(bFlattened) {
+ m_fpIn = fopen(pszParse_Fname, "r");
+ assert(m_fpIn != NULL);
+ }
+ ~SParseReader() {
+ if (m_fpIn != NULL) fclose(m_fpIn);
+ }
+
+ SParsedTree *fnReadNextParseTree() {
+ SParsedTree *pTree = NULL;
+ char *pszLine = new char[100001];
+ int iLen;
+
+ while (fnReadNextSentence(pszLine, &iLen) == true) {
+ if (iLen == 0) continue;
+
+ pTree = SParsedTree::fnConvertFromString(pszLine);
+ if (pTree == NULL) break;
+ if (m_bFlattened)
+ fnPostProcessingFlattenedParse(pTree);
+ else {
+ pTree->fnSetSpanInfo();
+ pTree->fnSetHeadWord();
+ }
+ break;
+ }
+
+ delete[] pszLine;
+ return pTree;
+ }
+
+ SParsedTree *fnReadNextParseTreeWithProb(double *pProb) {
+ SParsedTree *pTree = NULL;
+ char *pszLine = new char[100001];
+ int iLen;
+
+ while (fnReadNextSentence(pszLine, &iLen) == true) {
+ if (iLen == 0) continue;
+
+ char *p = strchr(pszLine, ' ');
+ assert(p != NULL);
+ p[0] = '\0';
+ p++;
+ if (pProb) (*pProb) = atof(pszLine);
+
+ pTree = SParsedTree::fnConvertFromString(p);
+ if (m_bFlattened)
+ fnPostProcessingFlattenedParse(pTree);
+ else {
+ pTree->fnSetSpanInfo();
+ pTree->fnSetHeadWord();
+ }
+ break;
+ }
+
+ delete[] pszLine;
+ return pTree;
+ }
+
+ private:
+ /*
+ * since to the parse tree is a flattened tree, use the head mark to identify
+ * head info.
+ * the head node will be marked as "*XP*"
+ */
+ void fnSetParseTreeHeadInfo(SParsedTree *pTree) {
+ for (size_t i = 0; i < pTree->m_vecTerminals.size(); i++)
+ pTree->m_vecTerminals[i]->m_iHeadWord = i;
+ fnSuffixTraverseSetHeadWord(pTree->m_ptRoot);
+ }
+
+ void fnSuffixTraverseSetHeadWord(STreeItem *pTreeItem) {
+ if (pTreeItem->m_vecChildren.size() == 0) return;
+
+ for (size_t i = 0; i < pTreeItem->m_vecChildren.size(); i++)
+ fnSuffixTraverseSetHeadWord(pTreeItem->m_vecChildren[i]);
+
+ std::vector<std::string> vecRight;
+
+ int iHeadchild;
+
+ if (pTreeItem->fnIsPreTerminal()) {
+ iHeadchild = 0;
+ } else {
+ size_t i;
+ for (i = 0; i < pTreeItem->m_vecChildren.size(); i++) {
+ char *p = pTreeItem->m_vecChildren[i]->m_pszTerm;
+ if (p[0] == '*' && p[strlen(p) - 1] == '*') {
+ iHeadchild = i;
+ p[strlen(p) - 1] = '\0';
+ std::string str = p + 1;
+ strcpy(p, str.c_str()); // erase the "*..*"
+ break;
+ }
+ }
+ assert(i < pTreeItem->m_vecChildren.size());
+ }
+
+ pTreeItem->m_iHeadChild = iHeadchild;
+ pTreeItem->m_iHeadWord = pTreeItem->m_vecChildren[iHeadchild]->m_iHeadWord;
+ }
+ void fnPostProcessingFlattenedParse(SParsedTree *pTree) {
+ pTree->fnSetSpanInfo();
+ fnSetParseTreeHeadInfo(pTree);
+ }
+ bool fnReadNextSentence(char *pszLine, int *piLength) {
+ if (feof(m_fpIn) == true) return false;
+
+ int iLen;
+
+ pszLine[0] = '\0';
+
+ fgets(pszLine, 10001, m_fpIn);
+ iLen = strlen(pszLine);
+ while (iLen > 0 && pszLine[iLen - 1] > 0 && pszLine[iLen - 1] < 33) {
+ pszLine[iLen - 1] = '\0';
+ iLen--;
+ }
+
+ if (piLength != NULL) (*piLength) = iLen;
+
+ return true;
+ }
+
+ private:
+ FILE *m_fpIn;
+ const bool m_bFlattened;
+};
+
+/*
+ * Note:
+ * m_vec_s_align.size() may not be equal to the length of source side
+ *sentence
+ * due to the last words may not be aligned
+ *
+ */
+struct SAlignment {
+ typedef std::vector<int> SingleAlign;
+ SAlignment(const char* pszAlign) { fnInitializeAlignment(pszAlign); }
+ ~SAlignment() {}
+
+ bool fnIsAligned(int i, bool s) const {
+ const std::vector<SingleAlign>* palign;
+ if (s == true)
+ palign = &m_vec_s_align;
+ else
+ palign = &m_vec_t_align;
+ if ((*palign)[i].size() == 0) return false;
+ return true;
+ }
+
+ /*
+ * return true if [b, e] is aligned phrases on source side (if s==true) or on
+ * the target side (if s==false);
+ * return false, otherwise.
+ */
+ bool fnIsAlignedPhrase(int b, int e, bool s, int* pob, int* poe) const {
+ int ob, oe; //[b, e] on the other side
+ if (s == true)
+ fnGetLeftRightMost(b, e, m_vec_s_align, ob, oe);
+ else
+ fnGetLeftRightMost(b, e, m_vec_t_align, ob, oe);
+
+ if (ob == -1) {
+ if (pob != NULL) (*pob) = -1;
+ if (poe != NULL) (*poe) = -1;
+ return false; // no aligned word among [b, e]
+ }
+ if (pob != NULL) (*pob) = ob;
+ if (poe != NULL) (*poe) = oe;
+
+ int bb, be; //[b, e] back given [ob, oe] on the other side
+ if (s == true)
+ fnGetLeftRightMost(ob, oe, m_vec_t_align, bb, be);
+ else
+ fnGetLeftRightMost(ob, oe, m_vec_s_align, bb, be);
+
+ if (bb < b || be > e) return false;
+ return true;
+ }
+
+ bool fnIsAlignedTightPhrase(int b, int e, bool s, int* pob, int* poe) const {
+ const std::vector<SingleAlign>* palign;
+ if (s == true)
+ palign = &m_vec_s_align;
+ else
+ palign = &m_vec_t_align;
+
+ if ((*palign).size() <= e || (*palign)[b].size() == 0 ||
+ (*palign)[e].size() == 0)
+ return false;
+
+ return fnIsAlignedPhrase(b, e, s, pob, poe);
+ }
+
+ void fnGetLeftRightMost(int b, int e, bool s, int& ob, int& oe) const {
+ if (s == true)
+ fnGetLeftRightMost(b, e, m_vec_s_align, ob, oe);
+ else
+ fnGetLeftRightMost(b, e, m_vec_t_align, ob, oe);
+ }
+
+ /*
+ * look the translation of source[b, e] is continuous or not
+ * 1) return "Unaligned": if the source[b, e] is translated silently;
+ * 2) return "Con't": if none of target words in target[.., ..] is exclusively
+ * aligned to any word outside source[b, e]
+ * 3) return "Discon't": otherwise;
+ */
+ std::string fnIsContinuous(int b, int e) const {
+ int ob, oe;
+ fnGetLeftRightMost(b, e, true, ob, oe);
+ if (ob == -1) return "Unaligned";
+
+ for (int i = ob; i <= oe; i++) {
+ if (!fnIsAligned(i, false)) continue;
+ const SingleAlign& a = m_vec_t_align[i];
+ int j;
+ for (j = 0; j < a.size(); j++)
+ if (a[j] >= b && a[j] <= e) break;
+ if (j == a.size()) return "Discon't";
+ }
+ return "Con't";
+ }
+
+ const SingleAlign* fnGetSingleWordAlign(int i, bool s) const {
+ if (s == true) {
+ if (i >= m_vec_s_align.size()) return NULL;
+ return &(m_vec_s_align[i]);
+ } else {
+ if (i >= m_vec_t_align.size()) return NULL;
+ return &(m_vec_t_align[i]);
+ }
+ }
+
+ private:
+ void fnGetLeftRightMost(int b, int e, const std::vector<SingleAlign>& align,
+ int& ob, int& oe) const {
+ ob = oe = -1;
+ for (int i = b; i <= e && i < align.size(); i++) {
+ if (align[i].size() > 0) {
+ if (align[i][0] < ob || ob == -1) ob = align[i][0];
+ if (oe < align[i][align[i].size() - 1])
+ oe = align[i][align[i].size() - 1];
+ }
+ }
+ }
+ void fnInitializeAlignment(const char* pszAlign) {
+ m_vec_s_align.clear();
+ m_vec_t_align.clear();
+
+ std::vector<std::string> terms = SplitOnWhitespace(std::string(pszAlign));
+ int si, ti;
+ for (size_t i = 0; i < terms.size(); i++) {
+ sscanf(terms[i].c_str(), "%d-%d", &si, &ti);
+
+ while (m_vec_s_align.size() <= si) {
+ SingleAlign sa;
+ m_vec_s_align.push_back(sa);
+ }
+ while (m_vec_t_align.size() <= ti) {
+ SingleAlign sa;
+ m_vec_t_align.push_back(sa);
+ }
+
+ m_vec_s_align[si].push_back(ti);
+ m_vec_t_align[ti].push_back(si);
+ }
+
+ // sort
+ for (size_t i = 0; i < m_vec_s_align.size(); i++) {
+ std::sort(m_vec_s_align[i].begin(), m_vec_s_align[i].end());
+ }
+ for (size_t i = 0; i < m_vec_t_align.size(); i++) {
+ std::sort(m_vec_t_align[i].begin(), m_vec_t_align[i].end());
+ }
+ }
+
+ private:
+ std::vector<SingleAlign> m_vec_s_align; // source side words' alignment
+ std::vector<SingleAlign> m_vec_t_align; // target side words' alignment
+};
+
+struct SAlignmentReader {
+ SAlignmentReader(const char* pszFname) {
+ m_fpIn = fopen(pszFname, "r");
+ assert(m_fpIn != NULL);
+ }
+ ~SAlignmentReader() {
+ if (m_fpIn != NULL) fclose(m_fpIn);
+ }
+ SAlignment* fnReadNextAlignment() {
+ if (feof(m_fpIn) == true) return NULL;
+ char* pszLine = new char[100001];
+ pszLine[0] = '\0';
+ fgets(pszLine, 10001, m_fpIn);
+ int iLen = strlen(pszLine);
+ if (iLen == 0) return NULL;
+ while (iLen > 0 && pszLine[iLen - 1] > 0 && pszLine[iLen - 1] < 33) {
+ pszLine[iLen - 1] = '\0';
+ iLen--;
+ }
+ SAlignment* pAlign = new SAlignment(pszLine);
+ delete[] pszLine;
+ return pAlign;
+ }
+
+ private:
+ FILE* m_fpIn;
+};
+
+struct SArgument {
+ SArgument(const char* pszRole, int iBegin, int iEnd, float fProb) {
+ m_pszRole = new char[strlen(pszRole) + 1];
+ strcpy(m_pszRole, pszRole);
+ m_iBegin = iBegin;
+ m_iEnd = iEnd;
+ m_fProb = fProb;
+ m_pTreeItem = NULL;
+ }
+ ~SArgument() { delete[] m_pszRole; }
+
+ void fnSetTreeItem(STreeItem* pTreeItem) {
+ m_pTreeItem = pTreeItem;
+ if (m_pTreeItem != NULL && m_pTreeItem->m_iBegin != -1) {
+ assert(m_pTreeItem->m_iBegin == m_iBegin);
+ assert(m_pTreeItem->m_iEnd == m_iEnd);
+ }
+ }
+
+ char* m_pszRole; // argument rule, e.g., ARG0, ARGM-TMP
+ int m_iBegin;
+ int m_iEnd; // the span of the argument, [m_iBegin, m_iEnd]
+ float m_fProb; // the probability of this role,
+ STreeItem* m_pTreeItem;
+};
+
+struct SPredicate {
+ SPredicate(const char* pszLemma, int iPosition) {
+ if (pszLemma != NULL) {
+ m_pszLemma = new char[strlen(pszLemma) + 1];
+ strcpy(m_pszLemma, pszLemma);
+ } else
+ m_pszLemma = NULL;
+ m_iPosition = iPosition;
+ }
+ ~SPredicate() {
+ if (m_pszLemma != NULL) delete[] m_pszLemma;
+ for (size_t i = 0; i < m_vecArgt.size(); i++) delete m_vecArgt[i];
+ }
+ int fnAppend(const char* pszRole, int iBegin, int iEnd) {
+ SArgument* pArgt = new SArgument(pszRole, iBegin, iEnd, 1.0);
+ return fnAppend(pArgt);
+ }
+ int fnAppend(SArgument* pArgt) {
+ m_vecArgt.push_back(pArgt);
+ int iPosition = m_vecArgt.size() - 1;
+ return iPosition;
+ }
+
+ char* m_pszLemma; // lemma of the predicate, for Chinese, it's always as same
+ // as the predicate itself
+ int m_iPosition; // the position in sentence
+ std::vector<SArgument*> m_vecArgt; // arguments associated to the predicate
+};
+
+struct SSrlSentence {
+ SSrlSentence() { m_pTree = NULL; }
+ ~SSrlSentence() {
+ if (m_pTree != NULL) delete m_pTree;
+
+ for (size_t i = 0; i < m_vecPred.size(); i++) delete m_vecPred[i];
+ }
+ int fnAppend(const char* pszLemma, int iPosition) {
+ SPredicate* pPred = new SPredicate(pszLemma, iPosition);
+ return fnAppend(pPred);
+ }
+ int fnAppend(SPredicate* pPred) {
+ m_vecPred.push_back(pPred);
+ int iPosition = m_vecPred.size() - 1;
+ return iPosition;
+ }
+ int GetPredicateNum() { return m_vecPred.size(); }
+
+ SParsedTree* m_pTree;
+ std::vector<SPredicate*> m_vecPred;
+};
+
+struct SSrlSentenceReader {
+ SSrlSentenceReader(const char* pszSrlFname) {
+ m_fpIn = fopen(pszSrlFname, "r");
+ assert(m_fpIn != NULL);
+ }
+ ~SSrlSentenceReader() {
+ if (m_fpIn != NULL) fclose(m_fpIn);
+ }
+
+ inline void fnReplaceAll(std::string& str, const std::string& from,
+ const std::string& to) {
+ size_t start_pos = 0;
+ while ((start_pos = str.find(from, start_pos)) != std::string::npos) {
+ str.replace(start_pos, from.length(), to);
+ start_pos += to.length(); // In case 'to' contains 'from', like replacing
+ // 'x' with 'yx'
+ }
+ }
+
+ // TODO: here only considers flat predicate-argument structure
+ // i.e., no overlap among them
+ SSrlSentence* fnReadNextSrlSentence() {
+ std::vector<std::vector<std::string> > vecContent;
+ if (fnReadNextContent(vecContent) == false) return NULL;
+
+ SSrlSentence* pSrlSentence = new SSrlSentence();
+ int iSize = vecContent.size();
+ // put together syntactic text
+ std::ostringstream ostr;
+ for (int i = 0; i < iSize; i++) {
+ std::string strSynSeg =
+ vecContent[i][5]; // the 5th column is the syntactic segment
+ size_t iPosition = strSynSeg.find_first_of('*');
+ assert(iPosition != std::string::npos);
+ std::ostringstream ostrTmp;
+ ostrTmp << "(" << vecContent[i][2] << " " << vecContent[i][0]
+ << ")"; // the 2th column is POS-tag, and the 0th column is word
+ strSynSeg.replace(iPosition, 1, ostrTmp.str());
+ fnReplaceAll(strSynSeg, "(", " (");
+ ostr << strSynSeg;
+ }
+ std::string strSyn = ostr.str();
+ pSrlSentence->m_pTree = SParsedTree::fnConvertFromString(strSyn.c_str());
+ pSrlSentence->m_pTree->fnSetHeadWord();
+ pSrlSentence->m_pTree->fnSetSpanInfo();
+
+ // read predicate-argument structure
+ int iNumPred = vecContent[0].size() - 8;
+ for (int i = 0; i < iNumPred; i++) {
+ std::vector<std::string> vecRole;
+ std::vector<int> vecBegin;
+ std::vector<int> vecEnd;
+ int iPred = -1;
+ for (int j = 0; j < iSize; j++) {
+ const char* p = vecContent[j][i + 8].c_str();
+ const char* q;
+ if (p[0] == '(') {
+ // starting position of an argument(or predicate)
+ vecBegin.push_back(j);
+ q = strchr(p, '*');
+ assert(q != NULL);
+ vecRole.push_back(vecContent[j][i + 8].substr(1, q - p - 1));
+ if (vecRole.back().compare("V") == 0) {
+ assert(iPred == -1);
+ iPred = vecRole.size() - 1;
+ }
+ }
+ if (p[strlen(p) - 1] == ')') {
+ // end position of an argument(or predicate)
+ vecEnd.push_back(j);
+ assert(vecBegin.size() == vecEnd.size());
+ }
+ }
+ assert(iPred != -1);
+ SPredicate* pPred = new SPredicate(
+ pSrlSentence->m_pTree->m_vecTerminals[vecBegin[iPred]]->m_pszTerm,
+ vecBegin[iPred]);
+ pSrlSentence->fnAppend(pPred);
+ for (size_t j = 0; j < vecBegin.size(); j++) {
+ if (j == iPred) continue;
+ pPred->fnAppend(vecRole[j].c_str(), vecBegin[j], vecEnd[j]);
+ pPred->m_vecArgt.back()->fnSetTreeItem(
+ pSrlSentence->m_pTree->fnFindNodeForSpan(vecBegin[j], vecEnd[j],
+ false));
+ }
+ }
+ return pSrlSentence;
+ }
+
+ private:
+ bool fnReadNextContent(std::vector<std::vector<std::string> >& vecContent) {
+ vecContent.clear();
+ if (feof(m_fpIn) == true) return false;
+ char* pszLine;
+ pszLine = new char[100001];
+ pszLine[0] = '\0';
+ int iLen;
+ while (!feof(m_fpIn)) {
+ fgets(pszLine, 10001, m_fpIn);
+ iLen = strlen(pszLine);
+ while (iLen > 0 && pszLine[iLen - 1] > 0 && pszLine[iLen - 1] < 33) {
+ pszLine[iLen - 1] = '\0';
+ iLen--;
+ }
+ if (iLen == 0) break; // end of this sentence
+
+ std::vector<std::string> terms = SplitOnWhitespace(std::string(pszLine));
+ assert(terms.size() > 7);
+ vecContent.push_back(terms);
+ }
+ delete[] pszLine;
+ return true;
+ }
+
+ private:
+ FILE* m_fpIn;
+};
+
+typedef std::unordered_map<std::string, int> Map;
+typedef std::unordered_map<std::string, int>::iterator Iterator;
+
+struct Tsuruoka_Maxent {
+ Tsuruoka_Maxent(const char* pszModelFName) {
+ if (pszModelFName != NULL) {
+ m_pModel = new ME_Model();
+ m_pModel->load_from_file(pszModelFName);
+ } else
+ m_pModel = NULL;
+ }
+
+ ~Tsuruoka_Maxent() {
+ if (m_pModel != NULL) delete m_pModel;
+ }
+
+ void fnTrain(const char* pszInstanceFName, const char* pszAlgorithm,
+ const char* pszModelFName, int /*iNumIteration*/) {
+ assert(strcmp(pszAlgorithm, "l1") == 0 || strcmp(pszAlgorithm, "l2") == 0 ||
+ strcmp(pszAlgorithm, "sgd") == 0 ||
+ strcmp(pszAlgorithm, "SGD") == 0);
+ FILE* fpIn = fopen(pszInstanceFName, "r");
+
+ ME_Model* pModel = new ME_Model();
+
+ char* pszLine = new char[100001];
+ int iNumInstances = 0;
+ int iLen;
+ while (!feof(fpIn)) {
+ pszLine[0] = '\0';
+ fgets(pszLine, 20000, fpIn);
+ if (strlen(pszLine) == 0) {
+ continue;
+ }
+
+ iLen = strlen(pszLine);
+ while (iLen > 0 && pszLine[iLen - 1] > 0 && pszLine[iLen - 1] < 33) {
+ pszLine[iLen - 1] = '\0';
+ iLen--;
+ }
+
+ iNumInstances++;
+
+ ME_Sample* pmes = new ME_Sample();
+
+ char* p = strrchr(pszLine, ' ');
+ assert(p != NULL);
+ p[0] = '\0';
+ p++;
+ std::vector<std::string> vecContext;
+ SplitOnWhitespace(std::string(pszLine), &vecContext);
+
+ pmes->label = std::string(p);
+ for (size_t i = 0; i < vecContext.size(); i++)
+ pmes->add_feature(vecContext[i]);
+ pModel->add_training_sample((*pmes));
+ if (iNumInstances % 100000 == 0)
+ fprintf(stdout, "......Reading #Instances: %1d\n", iNumInstances);
+ delete pmes;
+ }
+ fprintf(stdout, "......Reading #Instances: %1d\n", iNumInstances);
+ fclose(fpIn);
+
+ if (strcmp(pszAlgorithm, "l1") == 0)
+ pModel->use_l1_regularizer(1.0);
+ else if (strcmp(pszAlgorithm, "l2") == 0)
+ pModel->use_l2_regularizer(1.0);
+ else
+ pModel->use_SGD();
+
+ pModel->train();
+ pModel->save_to_file(pszModelFName);
+
+ delete pModel;
+ fprintf(stdout, "......Finished Training\n");
+ fprintf(stdout, "......Model saved as %s\n", pszModelFName);
+ delete[] pszLine;
+ }
+
+ double fnEval(const char* pszContext, const char* pszOutcome) const {
+ std::vector<std::string> vecContext;
+ ME_Sample* pmes = new ME_Sample();
+ SplitOnWhitespace(std::string(pszContext), &vecContext);
+
+ for (size_t i = 0; i < vecContext.size(); i++)
+ pmes->add_feature(vecContext[i]);
+ std::vector<double> vecProb = m_pModel->classify(*pmes);
+ delete pmes;
+ int iLableID = m_pModel->get_class_id(pszOutcome);
+ return vecProb[iLableID];
+ }
+ void fnEval(const char* pszContext,
+ std::vector<std::pair<std::string, double> >& vecOutput) const {
+ std::vector<std::string> vecContext;
+ ME_Sample* pmes = new ME_Sample();
+ SplitOnWhitespace(std::string(pszContext), &vecContext);
+
+ vecOutput.clear();
+
+ for (size_t i = 0; i < vecContext.size(); i++)
+ pmes->add_feature(vecContext[i]);
+ std::vector<double> vecProb = m_pModel->classify(*pmes);
+
+ for (size_t i = 0; i < vecProb.size(); i++) {
+ std::string label = m_pModel->get_class_label(i);
+ vecOutput.push_back(make_pair(label, vecProb[i]));
+ }
+ delete pmes;
+ }
+ void fnEval(const char* pszContext, std::vector<double>& vecOutput) const {
+ std::vector<std::string> vecContext;
+ ME_Sample* pmes = new ME_Sample();
+ SplitOnWhitespace(std::string(pszContext), &vecContext);
+
+ vecOutput.clear();
+
+ for (size_t i = 0; i < vecContext.size(); i++)
+ pmes->add_feature(vecContext[i]);
+ std::vector<double> vecProb = m_pModel->classify(*pmes);
+
+ for (size_t i = 0; i < vecProb.size(); i++) {
+ std::string label = m_pModel->get_class_label(i);
+ vecOutput.push_back(vecProb[i]);
+ }
+ delete pmes;
+ }
+ int fnGetClassId(const std::string& strLabel) const {
+ return m_pModel->get_class_id(strLabel);
+ }
+
+ private:
+ ME_Model* m_pModel;
+};
+
+// an argument item or a predicate item (the verb itself)
+struct SSRLItem {
+ SSRLItem(const STreeItem *tree_item, std::string role)
+ : tree_item_(tree_item), role_(role) {}
+ ~SSRLItem() {}
+ const STreeItem *tree_item_;
+ const std::string role_;
+};
+
+struct SPredicateItem {
+ SPredicateItem(const SParsedTree *tree, const SPredicate *pred)
+ : pred_(pred) {
+ vec_items_.reserve(pred->m_vecArgt.size() + 1);
+ for (int i = 0; i < pred->m_vecArgt.size(); i++) {
+ vec_items_.push_back(
+ new SSRLItem(pred->m_vecArgt[i]->m_pTreeItem,
+ std::string(pred->m_vecArgt[i]->m_pszRole)));
+ }
+ vec_items_.push_back(
+ new SSRLItem(tree->m_vecTerminals[pred->m_iPosition]->m_ptParent,
+ std::string("Pred")));
+ sort(vec_items_.begin(), vec_items_.end(), SortFunction);
+
+ begin_ = vec_items_[0]->tree_item_->m_iBegin;
+ end_ = vec_items_[vec_items_.size() - 1]->tree_item_->m_iEnd;
+ }
+
+ ~SPredicateItem() { vec_items_.clear(); }
+
+ static bool SortFunction(SSRLItem *i, SSRLItem *j) {
+ return (i->tree_item_->m_iBegin < j->tree_item_->m_iBegin);
+ }
+
+ std::vector<SSRLItem *> vec_items_;
+ int begin_;
+ int end_;
+ const SPredicate *pred_;
+};
+
+struct SArgumentReorderModel {
+ public:
+ static std::string fnGetBlockOutcome(int iBegin, int iEnd,
+ SAlignment *pAlign) {
+ return pAlign->fnIsContinuous(iBegin, iEnd);
+ }
+ static void fnGetReorderType(SPredicateItem *pPredItem, SAlignment *pAlign,
+ std::vector<std::string> &vecStrLeftReorder,
+ std::vector<std::string> &vecStrRightReorder) {
+ std::vector<int> vecLeft, vecRight;
+ for (int i = 0; i < pPredItem->vec_items_.size(); i++) {
+ const STreeItem *pCon1 = pPredItem->vec_items_[i]->tree_item_;
+ int iLeft1, iRight1;
+ pAlign->fnGetLeftRightMost(pCon1->m_iBegin, pCon1->m_iEnd, true, iLeft1,
+ iRight1);
+ vecLeft.push_back(iLeft1);
+ vecRight.push_back(iRight1);
+ }
+ std::vector<int> vecLeftPosition;
+ fnGetRelativePosition(vecLeft, vecLeftPosition);
+ std::vector<int> vecRightPosition;
+ fnGetRelativePosition(vecRight, vecRightPosition);
+
+ vecStrLeftReorder.clear();
+ vecStrRightReorder.clear();
+ for (int i = 1; i < vecLeftPosition.size(); i++) {
+ std::string strOutcome;
+ fnGetOutcome(vecLeftPosition[i - 1], vecLeftPosition[i], strOutcome);
+ vecStrLeftReorder.push_back(strOutcome);
+ fnGetOutcome(vecRightPosition[i - 1], vecRightPosition[i], strOutcome);
+ vecStrRightReorder.push_back(strOutcome);
+ }
+ }
+
+ /*
+ * features:
+ * f1: (left_label, right_label, parent_label)
+ * f2: (left_label, right_label, parent_label, other_right_sibling_label)
+ * f3: (left_label, right_label, parent_label, other_left_sibling_label)
+ * f4: (left_label, right_label, left_head_pos)
+ * f5: (left_label, right_label, left_head_word)
+ * f6: (left_label, right_label, right_head_pos)
+ * f7: (left_label, right_label, right_head_word)
+ * f8: (left_label, right_label, left_chunk_status)
+ * f9: (left_label, right_label, right_chunk_status)
+ * f10: (left_label, parent_label)
+ * f11: (right_label, parent_label)
+ *
+ * f1: (left_role, right_role, predicate_term)
+ * f2: (left_role, right_role, predicate_term, other_right_role)
+ * f3: (left_role, right_role, predicate_term, other_left_role)
+ * f4: (left_role, right_role, left_head_pos)
+ * f5: (left_role, right_role, left_head_word)
+ * f6: (left_role, right_role, left_syntactic_label)
+ * f7: (left_role, right_role, right_head_pos)
+ * f8: (left_role, right_role, right_head_word)
+ * f8: (left_role, right_role, right_syntactic_label)
+ * f8: (left_role, right_role, left_chunk_status)
+ * f9: (left_role, right_role, right_chunk_status)
+ * f10: (left_role, right_role, left_chunk_status)
+ * f11: (left_role, right_role, right_chunk_status)
+ * f12: (left_label, parent_label)
+ * f13: (right_label, parent_label)
+ */
+ static void fnGenerateFeature(const SParsedTree *pTree,
+ const SPredicate *pPred,
+ const SPredicateItem *pPredItem, int iPos,
+ const std::string &strBlock1,
+ const std::string &strBlock2,
+ std::ostringstream &ostr) {
+ SSRLItem *pSRLItem1 = pPredItem->vec_items_[iPos - 1];
+ SSRLItem *pSRLItem2 = pPredItem->vec_items_[iPos];
+ const STreeItem *pCon1 = pSRLItem1->tree_item_;
+ const STreeItem *pCon2 = pSRLItem2->tree_item_;
+
+ std::string left_role = pSRLItem1->role_;
+ std::string right_role = pSRLItem2->role_;
+
+ std::string predicate_term =
+ pTree->m_vecTerminals[pPred->m_iPosition]->m_pszTerm;
+
+ std::vector<std::string> vec_other_right_sibling;
+ for (int i = iPos + 1; i < pPredItem->vec_items_.size(); i++)
+ vec_other_right_sibling.push_back(
+ std::string(pPredItem->vec_items_[i]->role_));
+ if (vec_other_right_sibling.size() == 0)
+ vec_other_right_sibling.push_back(std::string("NULL"));
+
+ std::vector<std::string> vec_other_left_sibling;
+ for (int i = 0; i < iPos - 1; i++)
+ vec_other_right_sibling.push_back(
+ std::string(pPredItem->vec_items_[i]->role_));
+ if (vec_other_left_sibling.size() == 0)
+ vec_other_left_sibling.push_back(std::string("NULL"));
+
+ // generate features
+ // f1
+ ostr << "f1=" << left_role << "_" << right_role << "_" << predicate_term;
+ ostr << "f1=" << left_role << "_" << right_role;
+
+ // f2
+ for (int i = 0; i < vec_other_right_sibling.size(); i++) {
+ ostr << " f2=" << left_role << "_" << right_role << "_" << predicate_term
+ << "_" << vec_other_right_sibling[i];
+ ostr << " f2=" << left_role << "_" << right_role << "_"
+ << vec_other_right_sibling[i];
+ }
+ // f3
+ for (int i = 0; i < vec_other_left_sibling.size(); i++) {
+ ostr << " f3=" << left_role << "_" << right_role << "_" << predicate_term
+ << "_" << vec_other_left_sibling[i];
+ ostr << " f3=" << left_role << "_" << right_role << "_"
+ << vec_other_left_sibling[i];
+ }
+ // f4
+ ostr << " f4=" << left_role << "_" << right_role << "_"
+ << pTree->m_vecTerminals[pCon1->m_iHeadWord]->m_ptParent->m_pszTerm;
+ // f5
+ ostr << " f5=" << left_role << "_" << right_role << "_"
+ << pTree->m_vecTerminals[pCon1->m_iHeadWord]->m_pszTerm;
+ // f6
+ ostr << " f6=" << left_role << "_" << right_role << "_" << pCon2->m_pszTerm;
+ // f7
+ ostr << " f7=" << left_role << "_" << right_role << "_"
+ << pTree->m_vecTerminals[pCon2->m_iHeadWord]->m_ptParent->m_pszTerm;
+ // f8
+ ostr << " f8=" << left_role << "_" << right_role << "_"
+ << pTree->m_vecTerminals[pCon2->m_iHeadWord]->m_pszTerm;
+ // f9
+ ostr << " f9=" << left_role << "_" << right_role << "_" << pCon2->m_pszTerm;
+ // f10
+ ostr << " f10=" << left_role << "_" << right_role << "_" << strBlock1;
+ // f11
+ ostr << " f11=" << left_role << "_" << right_role << "_" << strBlock2;
+ // f12
+ ostr << " f12=" << left_role << "_" << predicate_term;
+ ostr << " f12=" << left_role;
+ // f13
+ ostr << " f13=" << right_role << "_" << predicate_term;
+ ostr << " f13=" << right_role;
+ }
+
+ private:
+ static void fnGetOutcome(int i1, int i2, std::string &strOutcome) {
+ assert(i1 != i2);
+ if (i1 < i2) {
+ if (i2 > i1 + 1)
+ strOutcome = std::string("DM");
+ else
+ strOutcome = std::string("M");
+ } else {
+ if (i1 > i2 + 1)
+ strOutcome = std::string("DS");
+ else
+ strOutcome = std::string("S");
+ }
+ }
+
+ static void fnGetRelativePosition(const std::vector<int> &vecLeft,
+ std::vector<int> &vecPosition) {
+ vecPosition.clear();
+
+ std::vector<float> vec;
+ for (int i = 0; i < vecLeft.size(); i++) {
+ if (vecLeft[i] == -1) {
+ if (i == 0)
+ vec.push_back(-1);
+ else
+ vec.push_back(vecLeft[i - 1] + 0.1);
+ } else
+ vec.push_back(vecLeft[i]);
+ }
+
+ for (int i = 0; i < vecLeft.size(); i++) {
+ int count = 0;
+
+ for (int j = 0; j < vecLeft.size(); j++) {
+ if (j == i) continue;
+ if (vec[j] < vec[i]) {
+ count++;
+ } else if (vec[j] == vec[i] && j < i) {
+ count++;
+ }
+ }
+ vecPosition.push_back(count);
+ }
+ }
+};
+} // namespace const_reorder
+
+#endif // _FF_CONST_REORDER_COMMON_H