corresp.c
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#include "sctk.h"
static int scores_are_diff(PATH **path_set,int npath);
SC_CORRESPONDENCE *alloc_SC_CORRESPONDENCE(SCORES *scor[], int nsc){
SC_CORRESPONDENCE *tcor;
int g;
alloc_singarr(tcor,1,SC_CORRESPONDENCE);
tcor->scor = scor;
tcor->nscor = nsc;
tcor->max_grp = scor[0]->num_grp;
tcor->num_grp = 0;
alloc_2dimarr(tcor->grp,tcor->max_grp,1,SC_COR_GRP);
for (g=0; g < tcor->max_grp; g++)
alloc_singZ(tcor->grp[g]->grp_ptr,tcor->nscor,int,0);
/* calculate the maximum number of paths */
tcor->max_path = 0;
for (g=0; g < tcor->max_grp; g++)
if (tcor->max_path < tcor->scor[0]->grp[g].num_path)
tcor->max_path = tcor->scor[0]->grp[g].num_path;
/* allocate data for the paths */
for (g=0; g < tcor->max_grp; g++){
tcor->grp[g]->num_path = 0;
alloc_2dimZ(tcor->grp[g]->path_ptr,tcor->max_path,tcor->nscor,int,0);
}
return(tcor);
}
void locate_matched_data(SCORES *scor[], int nscor, SC_CORRESPONDENCE **corresp){
*corresp = alloc_SC_CORRESPONDENCE(scor, nscor);
find_matched_grp(*corresp);
find_matched_paths(*corresp);
}
void dump_paths_of_SC_CORRESPONDENCE(SC_CORRESPONDENCE *corresp, int maxlen, FILE *fp, int score_diff){
int gr, sc, pa;
int totRefWord = 0, refWord = 0;
int totErrRefWord = 0, errRefWord = 0;
int numPaths = 0, numIdentPaths = 0;
AUTO_LEX alex;
AUTO_LEX_init(&alex, 1000);
fprintf(fp,"Common scoring speakers and segments\n");
fprintf(fp,"Version 0.1\n");
fprintf(fp,"\n");
fprintf(fp,"Represented Systems\n");
for (sc=0; sc<corresp->nscor; sc++){
fprintf(fp," name: %s Ref: %s Hyp: %s\n",
corresp->scor[sc]->title,
corresp->scor[sc]->ref_fname,
corresp->scor[sc]->hyp_fname);
}
fprintf(fp," End of Represented Systems\n");
fprintf(fp,"\n");
if (corresp->scor[0]->aset.num_plab > 0 || corresp->scor[0]->aset.num_cat > 0){
int i;
fprintf(fp,"Utterance Label Definitions:\n");
for (i=0; i<corresp->scor[0]->aset.num_cat; i++)
fprintf(fp," Category: id: \"%s\" title: \"%s\" "
"description: \"%s\"\n",corresp->scor[0]->aset.cat[i].id,
corresp->scor[0]->aset.cat[i].title,corresp->scor[0]->aset.cat[i].desc);
for (i=0; i<corresp->scor[0]->aset.num_plab; i++)
fprintf(fp," Label: id: \"%s\" title: \"%s\" "
"description: \"%s\"\n",corresp->scor[0]->aset.plab[i].id,
corresp->scor[0]->aset.plab[i].title,corresp->scor[0]->aset.plab[i].desc);
}
fprintf(fp," End of Utterance Label Definitions\n");
fprintf(fp,"\n\n");
for (gr=0; gr<corresp->num_grp; gr++){
int to_print = 1;
for (pa=0; pa<corresp->grp[gr]->num_path; pa++){
PATH *path_set[100];
fprintf(fp,"Speaker: %s\n",
corresp->scor[0]->grp[corresp->grp[gr]->grp_ptr[0]].name);
/* load an array with paths !!! */
for (sc=0; sc<corresp->nscor; sc++){
int gnum, pnum;
gnum = corresp->grp[gr]->grp_ptr[sc];
pnum = corresp->grp[gr]->path_ptr[pa][sc];
path_set[sc] = corresp->scor[sc]->grp[gnum].path[pnum];
}
if (score_diff && ! scores_are_diff(path_set,corresp->nscor))
to_print = 0;
if (to_print)
PATH_multi_print(corresp->scor, path_set,corresp->nscor, maxlen, fp, &refWord, &errRefWord, &alex);
totRefWord += refWord;
totErrRefWord += errRefWord;
}
}
fprintf(fp,"Lattice Summary: #TotRefWords %d #TotRefErrWords %d Accuracy %5.2f\n",totRefWord, totErrRefWord,
((float)(totRefWord - totErrRefWord)/(float)totRefWord)*100.0);
AUTO_LEX_printout(&alex, fp, "\nList of not correct reference words", 1);
}
void dump_SC_CORRESPONDENCE(SC_CORRESPONDENCE *corresp, FILE *fp){
int gr, sc, pa;
fprintf(fp,"SCORES CORRESPONDENCE Common groups\n");
for (gr=0; gr<corresp->num_grp; gr++){
fprintf(fp," ");
for (sc=0; sc<corresp->nscor; sc++)
fprintf(fp,"%s ",
corresp->scor[sc]->grp[corresp->grp[gr]->grp_ptr[sc]].name);
fprintf(fp,"\n");
}
for (gr=0; gr<corresp->num_grp; gr++){
fprintf(fp,"%s\n",
corresp->scor[0]->grp[corresp->grp[gr]->grp_ptr[0]].name);
for (pa=0; pa<corresp->grp[gr]->num_path; pa++){
fprintf(fp," ");
for (sc=0; sc<corresp->nscor; sc++)
fprintf(fp," %s",corresp->scor[sc]->grp[corresp->grp[gr]->grp_ptr[sc]].
path[corresp->grp[gr]->path_ptr[pa][sc]]->id);
fprintf(fp,"\n");
}
}
}
void find_matched_grp(SC_CORRESPONDENCE *corresp){
int mas_grp, sc, gr;
/* locate all the corresponding speakers, using scor[0] as the reference
* point */
for (corresp->num_grp=0, mas_grp=0; mas_grp < corresp->scor[0]->num_grp;
mas_grp++) {
/* locate this group in all the other corresp->scor structures */
corresp->grp[corresp->num_grp]->grp_ptr[0] = mas_grp;
for (sc=1; sc<corresp->nscor; sc++){
for (gr=0; gr < corresp->scor[sc]->num_grp; gr++){ /* for all speakers */
corresp->grp[corresp->num_grp]->grp_ptr[sc] = gr;
if (strcmp(corresp->scor[0]->
grp[corresp->grp[corresp->num_grp]->grp_ptr[0]].name,
corresp->scor[sc]->
grp[corresp->grp[corresp->num_grp]->grp_ptr[sc]].name) == 0)
break;
}
if (gr == corresp->scor[sc]->num_grp)
break;
}
if (sc < corresp->nscor)
break;
corresp->num_grp++;
}
/* look to see if any speakers are not in common */
for (sc=0; sc<corresp->nscor; sc++){
int scmis, cgr;
scmis = 0;
for (gr=0; gr < corresp->scor[sc]->num_grp; gr++){ /* for all speakers */
/* search the mapping array for the group */
for (cgr=0; cgr<corresp->num_grp; cgr++)
if (corresp->grp[cgr]->grp_ptr[sc] == gr)
break;
if (cgr == corresp->num_grp){
if (scmis ++ == 0)
fprintf(scfp,"Warning: system %s has non-unique speakers:",
corresp->scor[sc]->title);
fprintf(scfp," %s",corresp->scor[sc]->grp[gr].name);
}
}
if (scmis > 0) fprintf(scfp,"\n");
}
}
void find_matched_paths(SC_CORRESPONDENCE *corresp){
int sc, gr, *np, mpa, pa;
/* locate all the corresponding paths, using grp[0] as the reference
* point */
for (gr=0; gr < corresp->num_grp; gr++) {
np = &(corresp->grp[gr]->num_path);
for (mpa=0;
mpa < corresp->scor[0]->grp[corresp->grp[gr]->grp_ptr[0]].num_path;
mpa++){
/* set the next path to mpa */
corresp->grp[corresp->grp[gr]->grp_ptr[0]]->path_ptr[*np][0] = mpa;
/* search all the other scor strucs for a matching id */
for (sc=1; sc<corresp->nscor; sc++){
for (pa=0; pa <
corresp->scor[sc]->grp[corresp->grp[gr]->grp_ptr[sc]].num_path;
pa++){
corresp->grp[gr]->path_ptr[*np][sc] = pa;
if (strcmp(corresp->scor[0]->
grp[corresp->grp[gr]->grp_ptr[0]] .path[mpa]->id,
corresp->scor[sc]->
grp[corresp->grp[gr]->grp_ptr[sc]].path[pa]->id) == 0)
break;
}
if (pa==corresp->scor[sc]->grp[corresp->grp[gr]->grp_ptr[sc]].num_path)
break;
}
if (sc == corresp->nscor)
(*np)++;
}
}
/* look to see if any of the common speakers paths are not in common */
for (gr=0; gr < corresp->num_grp; gr++) {
for (sc=0; sc<corresp->nscor; sc++){
int scmis, p;
/* search the paths in the score, making sure they are there */
for (scmis = 0, pa=0; pa <
corresp->scor[sc]->grp[corresp->grp[gr]->grp_ptr[sc]].num_path;
pa++){
for (p=0; p < corresp->grp[gr]->num_path; p++){
if( corresp->grp[gr]->path_ptr[p][sc]==pa)
break;
}
if (p == corresp->grp[gr]->num_path){
if (scmis++ == 0)
fprintf(scfp,"Warning: system %s, speaker %s has non-unique path:",
corresp->scor[sc]->title,
corresp->scor[sc]->grp[corresp->grp[gr]->grp_ptr[sc]].name);
fprintf(scfp," %s",
corresp->scor[sc]->grp[corresp->grp[gr]->grp_ptr[sc]].
path[pa]->id);
}
}
if (scmis > 0) fprintf(scfp,"\n");
}
}
}
static int scores_are_diff(PATH **path_set,int npath){
int p, r, e, nref=0, nerr=0, w;
for (p=0; p<npath; p++){
r = e = 0;
for (w=0; w < path_set[0]->num; w++){
if ((path_set[p]->pset[w].eval & P_INS) == 0) r++;
if ( ((path_set[p]->pset[w].eval & P_DEL) != 0) ||
((path_set[p]->pset[w].eval & P_INS) != 0) ||
((path_set[p]->pset[w].eval & P_SUB) != 0))
e++;
}
if (p == 0) { nref = r; nerr = e; }
else {
if (nref != r || nerr != e)
return(1);
}
}
return(0);
}
/*****************************************************************/
/*********** Multi-path_print-Functions **************/
static int more_data(PATH **path_set, int npath, int *psets);
static int inserts_exist(SCORES **scor, PATH **path_set, int npath, int *psets);
static void add_header_data(SCORES **scor, PATH **path_set, int npath, TEXT **outbuf, int *outlen, int maxlen, int continuation);
static void flush_text(SCORES **scor, PATH **path_set, int npath, TEXT **outbuf, int *outlen, int maxlen, FILE *fp);
static void process_inserts(SCORES **scor, PATH **path_set, int npath, int *psets, TEXT **outbuf, int *outlen, int maxlen, FILE *fp);
static void process_rest(SCORES **scor, PATH **path_set, int npath, int *psets, TEXT **outbuf, int *outlen, int maxlen, FILE *fp);
static int identical_refs(int npaths,PATH **paths);
static void lattice_error(int npaths,PATH **paths, int *refWord, int *refErrRefWord, AUTO_LEX *alex);
/* return 1 if the paths have the identical reference strings */
static int identical_refs(int npaths,PATH **paths){
int p, w, wp;
if (npaths == 0) {return 0;}
if (npaths == 1) {return 1;}
for (p=1; p<npaths; p++){
w=0; wp=0;
while (w < paths[0]->num && wp < paths[p]->num){
/* skip insertions */
while (w < paths[0]->num && (paths[0]->pset[w].eval == P_INS))
w++;
while (wp < paths[p]->num && (paths[p]->pset[wp].eval == P_INS))
wp++;
if (w >= paths[0]->num && wp >= paths[p]->num)
;
else {
if (w > paths[0]->num || wp > paths[p]->num)
return 0;
if (TEXT_strcmp(((WORD *)(paths[0]->pset[w].a_ptr))->value,
((WORD *)(paths[p]->pset[wp].a_ptr))->value) != 0)
return(0);
w++; wp++;
}
}
}
return 1;
}
/* Counts the number of ref words and the number with at least on systemwith the correct word */
static void lattice_error(int npaths,PATH **paths, int *refWord, int *refErrRefWord, AUTO_LEX *alex){
int p, w, wp, ind;
int *evals;
if (npaths == 0 || npaths == 1) {
fprintf(stderr,"Error: these are paths are not compatable");
exit(1);
}
/* Build an array to keep track */
alloc_singZ(evals, paths[0]->num, int, P_INS);
w = 0;
while (w < paths[0]->num){
evals[w] = paths[0]->pset[w].eval;
w++;
}
for (p=1; p<npaths; p++){
w=0; wp=0;
while (w < paths[0]->num && wp < paths[p]->num){
/* skip insertions */
while (w < paths[0]->num && (paths[0]->pset[w].eval == P_INS))
w++;
while (wp < paths[p]->num && (paths[p]->pset[wp].eval == P_INS))
wp++;
if (w >= paths[0]->num && wp >= paths[p]->num)
;
else {
if (w > paths[0]->num || wp > paths[p]->num){
fprintf(stderr,"Error: these are paths are not compatable");
exit(1);
}
if (TEXT_strcmp(((WORD *)(paths[0]->pset[w].a_ptr))->value,
((WORD *)(paths[p]->pset[wp].a_ptr))->value) != 0){
fprintf(stderr,"Error: these are paths are not compatable");
exit(1);
}
if (paths[p]->pset[wp].eval == P_CORR)
evals[w] = P_CORR;
w++; wp++;
}
}
}
*refWord = 0;
*refErrRefWord = 0;
for (w=0; w < paths[0]->num; w++){
if (evals[w] != P_INS){
if (evals[w] != P_CORR){
ind = AUTO_LEX_find(alex, ((WORD *)(paths[0]->pset[w].a_ptr))->value);
if (ind < 0){
ind = AUTO_LEX_insert(alex, ((WORD *)(paths[0]->pset[w].a_ptr))->value);
alex->field_a[ind] = 0;
}
alex->field_a[ind] ++;
(*refErrRefWord) ++;
}
(*refWord) ++;
}
}
free_singarr(evals, int);
}
static int more_data(PATH **path_set, int npath, int *psets){
int p;
for (p=0; p<npath; p++)
if (path_set[p]->num > psets[p])
return(1);
return(0);
}
static int inserts_exist(SCORES **scor, PATH **path_set, int npath, int *psets){
int p;
for (p=0; p<npath; p++)
if ((path_set[p]->num > psets[p]) &&
(path_set[p]->pset[psets[p]].eval & P_INS) != 0)
return(1);
return(0);
}
static void add_header_data(SCORES **scor, PATH **path_set, int npath, TEXT **outbuf, int *outlen, int maxlen, int continuation){
int max=0, p;
char fmt[40];
/* for ref: */
max = 3;
for (p=0; p<npath; p++)
if (max < TEXT_strlen((TEXT*)scor[p]->title))
max = TEXT_strlen((TEXT*)scor[p]->title);
if (max + 2 + ((continuation)?4:0) > maxlen){
fprintf(stderr,"Error: Failed to add header data lines for PRN report. System names too long. increase via -l option\n");
exit(1);
}
sprintf(fmt,"%s%%-%ds",(continuation)?">>> ":"",max + 2);
for (p=0; p<npath; p++)
sprintf((char *)outbuf[p],fmt, rsprintf("%s:",scor[p]->title));
sprintf((char *)outbuf[npath],fmt, "REF:");
*outlen = max + 2 + ((continuation)?4:0);
}
static void flush_text(SCORES **scor, PATH **path_set, int npath, TEXT **outbuf, int *outlen, int maxlen, FILE *fp){
int p;
fprintf(fp,"%s\n",outbuf[npath]);
for (p=0; p<npath; p++)
fprintf(fp,"%s\n",outbuf[p]);
fprintf(fp,"\n");
add_header_data(scor, path_set, npath, outbuf, outlen, maxlen, 1);
}
static void process_inserts(SCORES **scor, PATH **path_set, int npath, int *psets, TEXT **outbuf, int *outlen, int maxlen, FILE *fp){
int p, max;
char fmt[40];
/* make measurements Ref first, then hyps */
max = 0;
for (p=0; p<npath; p++){
if ((path_set[p]->num > psets[p]) &&
((path_set[p]->pset[psets[p]].eval & P_INS) != 0)){
if (max < TEXT_strlen(((WORD *)path_set[p]->pset[psets[p]].b_ptr)->value))
max = TEXT_strlen(((WORD *)path_set[p]->pset[psets[p]].b_ptr)->value);
}
}
sprintf(fmt,"%%-%ds",max);
if (max + *outlen > maxlen-1)
flush_text(scor, path_set, npath, outbuf, outlen, maxlen, fp);
for (p=0; p<npath; p++){
if ((path_set[p]->num > psets[p]) &&
(path_set[p]->pset[psets[p]].eval & P_INS) != 0){
TEXT *buf;
buf = ((WORD *)path_set[p]->pset[psets[p]].b_ptr)->value;
if (BF_notSET(path_set[p]->attrib,PA_CASE_SENSE)){
buf = TEXT_str_to_master(buf, 0);
}
// TEXT_strBcpy(buf,((WORD *)path_set[p]->pset[psets[p]].b_ptr)->value,200);
// if (BF_notSET(path_set[p]->attrib,PA_CASE_SENSE))
// TEXT_str_to_upp(buf);
TEXT_strcat(outbuf[p],(TEXT *)rsprintf(fmt,buf));
psets[p] ++;
} else
TEXT_strcat(outbuf[p],(TEXT *)rsprintf(fmt,""));
}
TEXT_strcat(outbuf[npath],(TEXT *)rsprintf(fmt,""));
*outlen += max;
if (1 + *outlen < maxlen-1){
for (p=0; p<=npath; p++)
TEXT_strcat(outbuf[p],(TEXT *)" ");
*outlen += 1;
}
}
static void process_rest(SCORES **scor, PATH **path_set, int npath, int *psets, TEXT **outbuf, int *outlen, int maxlen, FILE *fp){
int p, max, ref_done;
char fmt[40];
/* make measurements Ref first, then hyps */
max = TEXT_strlen(((WORD *)path_set[0]->pset[psets[0]].a_ptr)->value);
for (p=0; p<npath; p++){
if ((path_set[p]->num > psets[p]) &&
((path_set[p]->pset[psets[p]].eval & P_DEL) == 0)){
if (max < TEXT_strlen(((WORD *)path_set[p]->pset[psets[p]].b_ptr)->value))
max = TEXT_strlen(((WORD *)path_set[p]->pset[psets[p]].b_ptr)->value);
}
}
sprintf(fmt,"%%-%ds",max);
if (max + *outlen > maxlen-1)
flush_text(scor, path_set, npath, outbuf, outlen, maxlen, fp);
ref_done = 0;
for (p=0; p<npath; p++){
if ((! ref_done) && (path_set[p]->num > psets[p])){
TEXT_strcat(outbuf[npath],(TEXT *)rsprintf(fmt,
((WORD *)path_set[p]->pset[psets[p]].a_ptr)->value));
ref_done = 1;
}
if (path_set[p]->num > psets[p]){
TEXT *buf, *aster = (TEXT *)"****************************************";
if ((path_set[p]->pset[psets[p]].eval & P_DEL) == 0){
buf = ((WORD *)path_set[p]->pset[psets[p]].b_ptr)->value;
if (((path_set[p]->pset[psets[p]].eval & P_CORR) == 0) && BF_notSET(path_set[p]->attrib,PA_CASE_SENSE))
buf = TEXT_str_to_master(buf, 0);
} else {
buf = aster + 40 - MIN(40,max);
}
// if ((path_set[p]->pset[psets[p]].eval & P_DEL) == 0){
// TEXT_strBcpy(buf,((WORD *)path_set[p]->pset[psets[p]].b_ptr)->value,200);
// if (((path_set[p]->pset[psets[p]].eval & P_CORR) == 0) &&
// BF_notSET(path_set[p]->attrib,PA_CASE_SENSE))
// TEXT_str_to_upp(buf);
// } else {
// TEXT_strBcpy(buf,aster + 40 - MIN(40,max),40);
// }
TEXT_strcat(outbuf[p],(TEXT *)rsprintf(fmt,buf));
psets[p] ++;
}
}
*outlen += max;
if (1 + *outlen < maxlen-1){
for (p=0; p<=npath; p++)
TEXT_strcat(outbuf[p],(TEXT *)" ");
*outlen += 1;
}
}
/* Pretty print n paths, using the ref transcript as the guide */
void PATH_multi_print(SCORES **scor, PATH **path_set, int npath, int maxlen, FILE *fp, int *refWord,int *errRefWord, AUTO_LEX *alex){
int p;
if (maxlen < 80) maxlen = 80;
if (npath == 1)
PATH_print(path_set[0],fp,maxlen);
else if (identical_refs(npath,path_set) == 0){
fprintf(fp,
";; Reference strings not identical, dumping individual paths\n");
for (p=0; p<npath; p++){
PATH_print(path_set[p],fp,maxlen);
}
} else {
int outlen, *psets;
TEXT **outbuf;
lattice_error(npath, path_set, refWord, errRefWord, alex);
fprintf(fp,"Id: %s\n",path_set[0]->id);
if (path_set[0]->labels != (char *)0)
fprintf(fp,"Labels: %s\n",path_set[0]->labels);
if (path_set[0]->file != (char *)0)
fprintf(fp,"File: %s\n",path_set[0]->file);
if (path_set[0]->channel != (char *)0)
fprintf(fp,"Channel: %s\n",path_set[0]->channel);
if (BF_isSET(path_set[0]->attrib,PA_REF_TIMES))
fprintf(fp,"Ref times: t1= %.2f t2= %.2f\n",path_set[0]->ref_t1,path_set[0]->ref_t2);
if (BF_isSET(path_set[0]->attrib,PA_HYP_TIMES))
fprintf(fp,"Hyp times: t1= %.2f t2= %.2f\n",path_set[0]->hyp_t1,path_set[0]->hyp_t2);
fprintf(fp,"Lattice Analysis: #refWords %d #refErrWords %d\n",*refWord, *errRefWord);
#ifdef later
for (p=0; p<npath; p++){
int c,s,d,n,u;
c = s = d = n = u = 0;
for (i=used; i<to; i++)
if ((path->pset[i].eval & P_CORR) != 0) c++;
else if ((path->pset[i].eval & P_SUB) != 0) s++;
else if ((path->pset[i].eval & P_INS) != 0) n++;
else if ((path->pset[i].eval & P_DEL) != 0) d++;
else u ++;
if (u > 0)
fprintf(fp,"Scores: (#C #S #D #I #UNK) %d %d %d %d %d\n",c,s,d,n,u);
else
fprintf(fp,"Scores: (#C #S #D #I) %d %d %d %d\n",c,s,d,n);
}
#endif
fprintf(fp,"\n\n");
/* output[npath] is the reference string */
alloc_2dimZ(outbuf,npath + 1,maxlen+1+40,TEXT,(TEXT)'\0');
alloc_1dimZ(psets,npath,int,0); /* initialized to zero */
add_header_data(scor, path_set, npath, outbuf, &outlen, maxlen, 0);
while (more_data(path_set, npath, psets) > 0){
if (inserts_exist(scor, path_set, npath, psets))
process_inserts(scor, path_set, npath, psets, outbuf, &outlen, maxlen, fp);
else
process_rest(scor, path_set, npath, psets, outbuf, &outlen, maxlen, fp);
}
flush_text(scor, path_set, npath, outbuf, &outlen, maxlen, fp);
free_2dimarr(outbuf,npath+1,TEXT);
free_1dimarr(psets,int);
}
}
/*********** END OF Multi-path_print-Functio **************/
/*****************************************************************/