capa/capa51/pProj/capaCommon.c - diff

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Diff for /capa/capa51/pProj/capaCommon.c between versions 1.1.1.1 and 1.10

version 1.1.1.1, 1999/09/28 21:26:21	version 1.10, 2000/03/22 21:08:03
Line 46 capa_excuse(int set,int prob,int secti	Line 46 capa_excuse(int set,int prob,int secti
/* Calculate parameters */	/* Calculate parameters */
if (capa_get_header(&header,set)) return (-1);	if (capa_get_header(&header,set)) return (-1);
sscanf(header.num_questions,"%d", &nq);	sscanf(header.num_questions,"%d", &nq);
capa_mfree(header.weight);
capa_mfree(header.partial_credit);

if( ( prob > nq ) \|\| (section < 0 ) \|\| (section > MAX_SECTION_COUNT) ) return (-1);	if( ( prob > nq ) \|\| (section < 0 ) \|\| (section > MAX_SECTION_COUNT) ) return (-1);
num_students= 0;	num_students= 0;
Line 57 capa_excuse(int set,int prob,int secti	Line 55 capa_excuse(int set,int prob,int secti
offset = capa_get_entry(&entry,tmp_number,set);	offset = capa_get_entry(&entry,tmp_number,set);
if(offset < 0 ) offset = -offset;	if(offset < 0 ) offset = -offset;
switch(entry.answers[prob-1]) {	switch(entry.answers[prob-1]) {
	case '0':
case '-': entry.answers[prob-1] = 'E'; break;	case '-': entry.answers[prob-1] = 'E'; break;
case 'N': entry.answers[prob-1] = 'E'; break;	case 'N': entry.answers[prob-1] = 'E'; break;
case 'n': entry.answers[prob-1] = 'e'; break;	case 'n': entry.answers[prob-1] = 'e'; break;
	case '1': case '2': case '3': case '4': case '5':
	case '6': case '7': case '8': case '9':
	if (entry.answers[prob-1] < header.weight[prob-1]) {
	entry.answers[prob-1] = 'E';
	}
	break;
default : break;	default : break;
}	}
capa_set_entry(&entry,tmp_number,set,offset);	capa_set_entry(&entry,tmp_number,set,offset);
capa_mfree(entry.answers); entry.answers = NULL;	capa_mfree(entry.answers); entry.answers = NULL;
capa_mfree(entry.tries); entry.tries = NULL;	capa_mfree(entry.tries); entry.tries = NULL;
}	}
	capa_mfree(header.weight);
	capa_mfree(header.partial_credit);
free_students(student_p);	free_students(student_p);
return (0);	return (0);
}	}
Line 562 int set;	Line 569 int set;
}	}
funlockstream(fp); fclose(fp);	funlockstream(fp); fclose(fp);
if(!found) {	if(!found) {
ans_p = capa_malloc(nq+1,1);	ans_p = capa_malloc(nq+2,1);
tries_p = capa_malloc(3nq+2,1); / space and \0 */	tries_p = capa_malloc(3nq+3,1); / space and \0 */
for(ii=0;ii<nq;ii++) { /* Initialize answer string and tries string */	for(ii=0;ii<nq;ii++) { /* Initialize answer string and tries string */
ans_p[ii] = '-'; tries_p[3ii] = ' '; tries_p[3ii + 1] = '0';	ans_p[ii] = '-'; tries_p[3ii] = ' '; tries_p[3ii + 1] = '0';
if(ii < nq-1) tries_p[3*ii + 2] = ',';	if(ii < nq-1) tries_p[3*ii + 2] = ',';
Line 578 int set;	Line 585 int set;
comma=index(oneline,',');	comma=index(oneline,',');
length=((int)(comma-oneline))-(MAX_STUDENT_NUMBER+1);	length=((int)(comma-oneline))-(MAX_STUDENT_NUMBER+1);
if (length < nq) {	if (length < nq) {
ans_p = capa_malloc(nq+1,1);	ans_p = capa_malloc(nq+2,1);
tries_p = capa_malloc(3nq+2,1); / space and \0 */	tries_p = capa_malloc(3nq+3,1); / space and \0 */
} else {	} else {
ans_p = capa_malloc(length+1,1);	ans_p = capa_malloc(length+2,1);
tries_p = capa_malloc(3length+2,1); / space and \0 */	tries_p = capa_malloc(3length+3,1); / space and \0 */
}	}
sprintf(fmtbuf, "%%%dc",length);	sprintf(fmtbuf, "%%%dc",length);
sscanf(oneline + MAX_STUDENT_NUMBER+1,fmtbuf,ans_p);	sscanf(oneline + MAX_STUDENT_NUMBER+1,fmtbuf,ans_p);
	ans_p[length]='\0';
sprintf(fmtbuf, "%%%dc",(3*length-1));	sprintf(fmtbuf, "%%%dc",(3*length-1));
sscanf(oneline + MAX_STUDENT_NUMBER+1+length+1,fmtbuf,tries_p);	sscanf(oneline + MAX_STUDENT_NUMBER+1+length+1,fmtbuf,tries_p);
	tries_p[3*length-1]='\0';
entry->answers = ans_p;	entry->answers = ans_p;
entry->tries = tries_p;	entry->tries = tries_p;
entry->e_probs = nq;	entry->e_probs = nq;
Line 1350 int capa_check_option(int option,int set	Line 1359 int capa_check_option(int option,int set
}	}

/----------------------------------------------------------/	/----------------------------------------------------------/
/* INPUT: set the X in logX.db */	/* INPUT: time the current time */
	/* datetime the datetime string to compare */
/* OUTPUT: none */	/* OUTPUT: none */
/* */	/* */
/* RETURN: -1 file error */	/* RETURN: -1 time is earlier then datetime */
/* 0 no login */	/* 1 time is later than datetime */
/* >0 number of logins in that logX.db file */
/----------------------------------------------------------/	/----------------------------------------------------------/
int	int
compare_datetime(time,datetime)	compare_datetime(time,datetime)
Line 1384 char *datetime;	Line 1393 char *datetime;
/* What if: [7,3] date_info */	/* What if: [7,3] date_info */
/* [3,7] date_info */	/* [3,7] date_info */
/* 4 date_info */	/* 4 date_info */
	/* RETURN: -1 if not pass time */
	/* 1 if pass time (or no time available */
int capa_check_date(int which,char *student_number, int section,int set)	int capa_check_date(int which,char *student_number, int section,int set)
{	{
int result;	int result;
Line 2602 answers_string(mode, p)int mode;Problem_	Line 2612 answers_string(mode, p)int mode;Problem_
str_bb = format_toTeX(lower);	str_bb = format_toTeX(lower);
} else { /* answer could be string, choice */	} else { /* answer could be string, choice */
str_bb = (char *)capa_malloc(strlen(lower)+MAX_BUFFER_SIZE,1);	str_bb = (char *)capa_malloc(strlen(lower)+MAX_BUFFER_SIZE,1);
if (p->ans_type == ANSWER_IS_FORMULA \|\| 1)	if (p->verbatim == DO_VERBATIM)
sprintf(str_bb,"\\begin{verbatim}%s\\end{verbatim}",lower);	sprintf(str_bb,"\\begin{verbatim}%s\\end{verbatim}",lower);
else	else
strcpy(str_bb,lower);	strcpy(str_bb,lower);
Line 2857 answers_string(mode, p)int mode;Problem_	Line 2867 answers_string(mode, p)int mode;Problem_

/* <== This routine checks user input string ans against correct answer s ==> */	/* <== This routine checks user input string ans against correct answer s ==> */
int	int
capa_check_ans(ai,ans) AnswerInfo_t ai; char ans;	capa_check_ans(ai,ans, error) AnswerInfo_t ai; char ans; char **error;
{	{
int t; /* ans_type */	int t; /* ans_type */
char s; / ans_str */	char s; / ans_str */
Line 2900 capa_check_ans(ai,ans) AnswerInfo_t *ai	Line 2910 capa_check_ans(ai,ans) AnswerInfo_t *ai
outcome = split_num_unit(ans,&n_part,num_str,unit_str);	outcome = split_num_unit(ans,&n_part,num_str,unit_str);
if( outcome > 1 ) { /* with both num and unit parts or only unit part */	if( outcome > 1 ) { /* with both num and unit parts or only unit part */
if( u_p != NULL ) {	if( u_p != NULL ) {
result = check_correct_unit(unit_str,u_p,&scale);	if (UNIT_FAIL == (result = check_correct_unit(unit_str,u_p,&scale))) {
	*error=strsave(unit_str);
	}
} else { /* what to do when no unit is specified but student entered a unit? */	} else { /* what to do when no unit is specified but student entered a unit? */
result = UNIT_NOTNEEDED;	result = UNIT_NOTNEEDED;
	*error=strsave(unit_str);
}	}
} else {	} else {
if( u_p != NULL ) {	if( u_p != NULL ) {
Line 2917 capa_check_ans(ai,ans) AnswerInfo_t *ai	Line 2930 capa_check_ans(ai,ans) AnswerInfo_t *ai
}	}
given = n_part * scale; /* convert the given answer into proper scale for units */	given = n_part * scale; /* convert the given answer into proper scale for units */
sig = calc_sig( num_str );	sig = calc_sig( num_str );
if( (sig < sl) \|\| (sig > su) ) {	if( ((sig < sl ) \|\| (sig > su )) && (sig!=0)) {
result = SIG_FAIL;	result = SIG_FAIL;
	*error=capa_malloc(1,ANSWER_STRING_LENG);
	sprintf(*error,"%d",sig);
} else {	} else {
switch( tt ) { /* tolerence type */	switch( tt ) { /* tolerence type */
case TOL_ABSOLUTE:	case TOL_ABSOLUTE:
Line 2960 capa_check_ans(ai,ans) AnswerInfo_t *ai	Line 2975 capa_check_ans(ai,ans) AnswerInfo_t *ai
} /* end sig check */	} /* end sig check */
} /* end if unit check */	} /* end if unit check */
} else { /* user entered alphabets, but no number */	} else { /* user entered alphabets, but no number */
result = INCORRECT;	result = WANTED_NUMERIC;
}	}
}	}
break;	break;
Line 2990 capa_check_ans(ai,ans) AnswerInfo_t *ai	Line 3005 capa_check_ans(ai,ans) AnswerInfo_t *ai
result = check_formula_ans(s,ans,ai->ans_id_list,ai->ans_pts_list,tt,to);	result = check_formula_ans(s,ans,ai->ans_id_list,ai->ans_pts_list,tt,to);
break;	break;
case ANSWER_IS_EXTERNAL: /* Not yet implemented */	case ANSWER_IS_EXTERNAL: /* Not yet implemented */



break;	break;
}	}
return (result);	return (result);
Line 3012 capa_check_ans(ai,ans) AnswerInfo_t *ai	Line 3030 capa_check_ans(ai,ans) AnswerInfo_t *ai


int	int
capa_check_answer(p, answer) Problem_t p; char answer;	capa_check_answer(p, answer, error) Problem_t p; char answer; char **error;
{	{
int type;	int type;
char *correct;	char *correct;
Line 3053 capa_check_answer(p, answer) Problem_t *	Line 3071 capa_check_answer(p, answer) Problem_t *
outcome = split_num_unit(answer,&n_part,input,unit_str);	outcome = split_num_unit(answer,&n_part,input,unit_str);
if( outcome > 1 ) { /* with both num and unit parts or only unit part */	if( outcome > 1 ) { /* with both num and unit parts or only unit part */
if( p->ans_unit != NULL ) {	if( p->ans_unit != NULL ) {
result = check_correct_unit(unit_str,p->ans_unit,&scale);	if ( UNIT_FAIL == ( result = check_correct_unit(unit_str,p->ans_unit,&scale) ) ) {
	*error=strsave(unit_str);
	}
} else { /* what to do when no unit is specified but student entered a unit? */	} else { /* what to do when no unit is specified but student entered a unit? */
result = UNIT_NOTNEEDED;	result = UNIT_NOTNEEDED;
	*error=strsave(unit_str);
}	}
} else {	} else {
if( p->ans_unit != NULL ) {	if( p->ans_unit != NULL ) {
Line 3071 capa_check_answer(p, answer) Problem_t *	Line 3091 capa_check_answer(p, answer) Problem_t *
}	}
given = n_part * scale; /* convert the given answer into proper scale for units */	given = n_part * scale; /* convert the given answer into proper scale for units */
sig = calc_sig( input );	sig = calc_sig( input );
if( (sig < sig_l) \|\| (sig > sig_u) ) {	if( ((sig < sig_l) \|\| (sig > sig_u)) && (sig!=0)) {
result = SIG_FAIL;	result = SIG_FAIL;
	*error=capa_malloc(1,ANSWER_STRING_LENG);
	sprintf(*error,"%d",sig);
} else {	} else {
switch( tol_type ) {	switch( tol_type ) {
case TOL_ABSOLUTE:	case TOL_ABSOLUTE:
Line 3114 capa_check_answer(p, answer) Problem_t *	Line 3136 capa_check_answer(p, answer) Problem_t *
} /* end sig check */	} /* end sig check */
} /* end if unit check */	} /* end if unit check */
} else { /* user entered alphabet, but no number */	} else { /* user entered alphabet, but no number */
result = INCORRECT;	result = WANTED_NUMERIC;
}	}
}	}
break;	break;
Line 3143 capa_check_answer(p, answer) Problem_t *	Line 3165 capa_check_answer(p, answer) Problem_t *
result = check_formula_ans(correct,answer,p->id_list,p->pts_list,tol_type,tol);	result = check_formula_ans(correct,answer,p->id_list,p->pts_list,tol_type,tol);
break;	break;
case ANSWER_IS_EXTERNAL: /* not yet implemented */	case ANSWER_IS_EXTERNAL: /* not yet implemented */
	/* we assume the external program is called through popen() */
	/* and the result will be given back as 0 or 1 to indicate the */
	/* given answer is correct or not */
	/* arguments are given to the program as */

break;	break;

}	}
Line 3294 int tol_type;double tol;char *lower;char	Line 3321 int tol_type;double tol;char *lower;char
/* New check answers routine checks the /AND and /OR group of answers */	/* New check answers routine checks the /AND and /OR group of answers */
/* use array of char pointers char *a /	/* use array of char pointers char *a /
int	int
capa_check_answers(p,answers,cnt) Problem_t p; char *answers; int cnt;	capa_check_answers(p,answers,cnt,error)
	Problem_t p; char answers; int cnt; char *error;
{	{
AnswerInfo_t *ai;	AnswerInfo_t *ai;
int ii, done, result;	int ii, done, result;
int *outcomes;	int *outcomes;
	char **errormsg;

	errormsg=(char*)capa_malloc(cnt,sizeof(char));
if(p->ans_op == ANS_AND) { /* ans /and ans */	if(p->ans_op == ANS_AND) { /* ans /and ans */
if( (cnt != p->ans_cnt) ) { return (ANS_CNT_NOT_MATCH); }	if( (cnt != p->ans_cnt) ) { return (ANS_CNT_NOT_MATCH); }
if( cnt == 1 ) { return (capa_check_answer(p, answers[0])); } /* there is only one answer */	if( cnt == 1 ) { return (capa_check_answer(p, answers[0], error)); } /* there is only one answer */
outcomes = (int *)capa_malloc(sizeof(int),cnt);	outcomes = (int *)capa_malloc(sizeof(int),cnt);
for(ii=0;ii<cnt;ii++) outcomes[ii]=0; /* initialize the outcomes array */	for(ii=0;ii<cnt;ii++) outcomes[ii]=0; /* initialize the outcomes array */
outcomes[0] = capa_check_answer(p, answers[0]);	outcomes[0] = capa_check_answer(p, answers[0], &errormsg[0]);
for(ii=1, ai = p->ans_list; ai; ii++,ai = ai->ans_next ) {	for(ii=1, ai = p->ans_list; ai; ii++,ai = ai->ans_next ) {
outcomes[ii] = capa_check_ans(ai,answers[ii]);	outcomes[ii] = capa_check_ans(ai,answers[ii],&(errormsg[ii]));
}	}
done = ii = 0;	done = ii = 0;
result = 0;	result = 0;
Line 3316 capa_check_answers(p,answers,cnt) Proble	Line 3346 capa_check_answers(p,answers,cnt) Proble
(outcomes[ii] == NO_UNIT) \|\|	(outcomes[ii] == NO_UNIT) \|\|
(outcomes[ii] == UNIT_NOTNEEDED) ) {	(outcomes[ii] == UNIT_NOTNEEDED) ) {
result = outcomes[ii];	result = outcomes[ii];
	if (result != NO_UNIT) { *error=strsave(errormsg[ii]); }
done = 1;	done = 1;
}	}
ii++;	ii++;
if(ii==cnt) done = 1;	if(ii==cnt) done = 1;
}	}
	if( result == 0 ) { /* check if any of the outcome has failed to be a numeric */
	done = ii = 0;
	while( !done ) {
	if( outcomes[ii] == WANTED_NUMERIC ) {
	result = outcomes[ii];
	done = 1;
	}
	ii++;
	if(ii==cnt) done = 1;
	}
	}
if( result == 0 ) { /* check if any of the outcome has failed on sig figs */	if( result == 0 ) { /* check if any of the outcome has failed on sig figs */
done = ii = 0;	done = ii = 0;
while( !done ) {	while( !done ) {
if( outcomes[ii] == SIG_FAIL ) {	if( outcomes[ii] == SIG_FAIL ) {
result = outcomes[ii];	result = outcomes[ii];
	*error = strsave(errormsg[ii]);
done = 1;	done = 1;
}	}
ii++;	ii++;
Line 3343 capa_check_answers(p,answers,cnt) Proble	Line 3386 capa_check_answers(p,answers,cnt) Proble
if(ii==cnt) done = 1;	if(ii==cnt) done = 1;
}	}
}	}
	for (ii=0;ii<cnt;ii++) {
	if( (outcomes[ii] == UNIT_FAIL) \|\|
	(outcomes[ii] == SIG_FAIL) \|\|
	(outcomes[ii] == UNIT_NOTNEEDED) ) {
	capa_mfree(errormsg[ii]);
	}
	}
	capa_mfree((char *)errormsg);
capa_mfree((char *)outcomes);	capa_mfree((char *)outcomes);
if( result == 0 ) {	if( result == 0 ) {
result = APPROX_ANS; /* all answers are correct */	result = APPROX_ANS; /* all answers are correct */
}	}

} else { /* should be ANS_OR , user answer count should always be 1 */	} else { /* should be ANS_OR , user answer count should always be 1 */
if( cnt != 1 ) { return (ANS_CNT_NOT_MATCH); }	if( cnt != 1 ) { return (ANS_CNT_NOT_MATCH); }
if( p->ans_cnt == 1 ) { return (capa_check_answer(p, answers[0])); }	if( p->ans_cnt == 1 ) { return (capa_check_answer(p, answers[0], error)); }
result = capa_check_answer(p, answers[0]);	result = capa_check_answer(p, answers[0], error);
ii = 1; ai = p->ans_list;	ii = 1; ai = p->ans_list;
while( (ii<p->ans_cnt) && ( (result != EXACT_ANS) && (result != APPROX_ANS) ) ) {	while( (ii<p->ans_cnt) && ( (result != EXACT_ANS) && (result != APPROX_ANS) ) ) {
result = capa_check_ans(ai,answers[0]);	if((ii!=1)&&((result==UNIT_FAIL)\|\|(result==SIG_FAIL)\|\|(result==UNIT_NOTNEEDED))) {
ai = ai->ans_next; ii++;	capa_mfree((char*)error);
	}
	result = capa_check_ans(ai,answers[0],error);
	ai = ai->ans_next; ii++;
}	}
}	}
return (result);	return (result);
Line 3459 char key_word;char value;	Line 3514 char key_word;char value;
fclose(fp);	fclose(fp);

if (done) {	if (done) {
	trim_response_ws(right); /get rid of leading and trailing spaces/
for(i=0,j=0;i<(strlen(right)+1);i++) {	for(i=0,j=0;i<(strlen(right)+1);i++) {
value[j]='\0';	value[j]='\0';
if (right[i] == '\\' && (i < (strlen(right))) ) {	if (right[i] == '\\' && (i < (strlen(right))) ) {

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Removed from v.1.1.1.1
changed lines
	Added in v.1.10