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version 1.15, 2000/08/22 13:19:56
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version 1.22, 2002/09/20 21:27:49
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Line 48 int yyparse();
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Line 48 int yyparse();
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| extern FILE *yyin; |
extern FILE *yyin; |
| extern void yyrestart(); |
extern void yyrestart(); |
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extern FILE *dfp; |
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|
| /*----------------------------------------------------------*/ |
/*----------------------------------------------------------*/ |
| /* RETURN: -1 file error */ |
/* RETURN: -1 file error */ |
| /* 0 success */ |
/* 0 success */ |
|
Line 1447 void capa_get_due_date(char *date_str,T_
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Line 1449 void capa_get_due_date(char *date_str,T_
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| if ((duration > 0) && (student_number!=NULL)) { |
if ((duration > 0) && (student_number!=NULL)) { |
| if (capa_get_login_time(student_number,set,&logintime)==1) { |
if (capa_get_login_time(student_number,set,&logintime)==1) { |
| duetime=logintime+duration; |
duetime=logintime+duration; |
| due_time_tm=localtime(&duetime); |
if (compare_datetime(duetime,current->due_date)==-1) { |
| sprintf(date_str,"%04d/%02d/%02d %02d:%02d",((due_time_tm->tm_year)+1900), |
due_time_tm=localtime(&duetime); |
| due_time_tm->tm_mon+1,due_time_tm->tm_mday,due_time_tm->tm_hour, |
sprintf(date_str,"%04d/%02d/%02d %02d:%02d",((due_time_tm->tm_year)+1900), |
| due_time_tm->tm_min); |
due_time_tm->tm_mon+1,due_time_tm->tm_mday,due_time_tm->tm_hour, |
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due_time_tm->tm_min); |
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} else { |
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strncpy(date_str,current->due_date,DATE_BUFFER); |
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} |
| return; |
return; |
| } |
} |
| } |
} |
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Line 2493 char *buf;double *num; char *num_p; char
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Line 2499 char *buf;double *num; char *num_p; char
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| while( isspace(buf[idx]) ) { idx++; } |
while( isspace(buf[idx]) ) { idx++; } |
| sscanf(num_str, "%lg", &result); /* put the numerical value into a double variable */ |
sscanf(num_str, "%lg", &result); /* put the numerical value into a double variable */ |
| errcode = errcode | 1; |
errcode = errcode | 1; |
| } else if( buf[idx] == 'x' || buf[idx] == 'X') { /* optional x or X part */ |
} else if( buf[idx] == 'x' || buf[idx] == 'X' || buf[idx] == '*') { /* optional x or X part */ |
| idx++; /* skip x or X */ |
idx++; /* skip x or X */ |
| while( isspace(buf[idx]) ) { idx++; } |
while( isspace(buf[idx]) ) { idx++; } |
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Line 2915 capa_check_ans(ai,ans, error) AnswerInfo
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Line 2921 capa_check_ans(ai,ans, error) AnswerInfo
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| int sig, corr_len; |
int sig, corr_len; |
| int choice[ANSWER_STRING_LENG]; |
int choice[ANSWER_STRING_LENG]; |
| char num_str[ANSWER_STRING_LENG], unit_str[ANSWER_STRING_LENG]; |
char num_str[ANSWER_STRING_LENG], unit_str[ANSWER_STRING_LENG]; |
| char fmted[ANSWER_STRING_LENG], correct[ANSWER_STRING_LENG], answer[ANSWER_STRING_LENG]; |
char fmted[ANSWER_STRING_LENG], correctans[ANSWER_STRING_LENG], answer[ANSWER_STRING_LENG]; |
| double n_part; |
double n_part; |
| double given, target, ratio, fmted_target, target_u, target_l, scale=1.0; |
double given, target, ratio, fmted_target, target_u, target_l, scale=1.0; |
| double delta; |
double delta; |
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Line 3014 capa_check_ans(ai,ans, error) AnswerInfo
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Line 3020 capa_check_ans(ai,ans, error) AnswerInfo
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| { |
{ |
| corr_len = strlen(s); input_len = strlen(ans); |
corr_len = strlen(s); input_len = strlen(ans); |
| if( corr_len == input_len ) { |
if( corr_len == input_len ) { |
| for(idx=0;idx<ANSWER_STRING_LENG;idx++) choice[idx] = 0; |
for(idx=0;idx<ANSWER_STRING_LENG;idx++) { |
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choice[idx] = 0;correctans[idx] = 0; |
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} |
| result = EXACT_ANS; |
result = EXACT_ANS; |
| for(ii=0;ii<corr_len; ii++) { |
for(ii=0;ii<corr_len; ii++) { |
| idx = toupper(correct[ii]) - 'A'; choice[idx] = 1; |
idx = toupper(s[ii]) - 'A'; choice[idx] = 1; |
| } |
} |
| for(ii=0;ii<input_len;ii++) { |
for(ii=0;ii<input_len;ii++) { |
| idx = toupper(answer[ii]) - 'A'; |
idx = toupper(ans[ii]) - 'A'; correctans[idx] = 1; |
| if(choice[idx] != 1 ) result = INCORRECT; |
} |
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for(ii=0;ii<ANSWER_STRING_LENG;ii++) { |
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if(choice[ii] != correctans[ii] ) result = INCORRECT; |
| } |
} |
| } else { result = INCORRECT; } |
} else { result = INCORRECT; } |
| break; |
break; |
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Line 3071 capa_check_answer(p, answer, error) Prob
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Line 3081 capa_check_answer(p, answer, error) Prob
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| int sig_l; |
int sig_l; |
| int sig_u; |
int sig_u; |
| char *fmt; |
char *fmt; |
| int choice[ANSWER_STRING_LENG], ii, idx, corr_len, input_len; |
int choice[ANSWER_STRING_LENG], correctans[ANSWER_STRING_LENG]; |
| |
int ii, idx, corr_len, input_len; |
| int result = INCORRECT, sig, outcome, all_alphabet; |
int result = INCORRECT, sig, outcome, all_alphabet; |
| char fmted[FORMAT_STRING_LENG]; |
char fmted[FORMAT_STRING_LENG]; |
| double given, target, ratio, fmted_target, target_u, target_l, scale=1.0; |
double given, target, ratio, fmted_target, target_u, target_l, scale=1.0; |
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Line 3175 capa_check_answer(p, answer, error) Prob
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Line 3186 capa_check_answer(p, answer, error) Prob
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| { |
{ |
| corr_len = strlen(correct); input_len = strlen(answer); |
corr_len = strlen(correct); input_len = strlen(answer); |
| if( corr_len == input_len ) { |
if( corr_len == input_len ) { |
| for(ii=0;ii<ANSWER_STRING_LENG;ii++) choice[ii] = 0; result = EXACT_ANS; |
for(idx=0;idx<ANSWER_STRING_LENG;idx++) { |
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choice[idx] = 0;correctans[idx] = 0; |
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} |
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result = EXACT_ANS; |
| for(ii=0;ii<corr_len; ii++) { |
for(ii=0;ii<corr_len; ii++) { |
| idx = toupper(correct[ii]) - 'A'; choice[idx] = 1; |
idx = toupper(correct[ii]) - 'A'; choice[idx] = 1; |
| } |
} |
| for(ii=0;ii<input_len;ii++) { |
for(ii=0;ii<input_len;ii++) { |
| idx = toupper(answer[ii]) - 'A'; |
idx = toupper(answer[ii]) - 'A'; correctans[idx] = 1; |
| if(choice[idx] != 1 ) result = INCORRECT; |
} |
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for(ii=0;ii<ANSWER_STRING_LENG;ii++) { |
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if(choice[ii] != correctans[ii] ) result = INCORRECT; |
| } |
} |
| } else { result = INCORRECT; } |
} else { result = INCORRECT; } |
| break; |
break; |
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Line 3200 capa_check_answer(p, answer, error) Prob
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Line 3216 capa_check_answer(p, answer, error) Prob
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| /* and the result will be given back as 0 or 1 to indicate the */ |
/* and the result will be given back as 0 or 1 to indicate the */ |
| /* given answer is correct or not */ |
/* given answer is correct or not */ |
| /* arguments are given to the program as */ |
/* arguments are given to the program as */ |
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/* before running the program, check its existance first */ |
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/* should we specify a time out period in capa.config file? */ |
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/* set up a timer for this purpose */ |
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/* FILE *popen (const char *command,const char *type ); */ |
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|
| break; |
break; |
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Line 3207 capa_check_answer(p, answer, error) Prob
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Line 3227 capa_check_answer(p, answer, error) Prob
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| return (result); |
return (result); |
| } |
} |
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| /* ----------------------------------------------------------------------------------- */ |
/* -------------------------------------------------------------------------- */ |
| /* assumming the formula is *fml_str and the student input is *input_str */ |
/* assumming the formula is *fml_str and the student input is *input_str */ |
| /* according to the type of tolerance, we form the final formula as */ |
/* according to the type of tolerance, we form the final formula as */ |
| /* absolute tolerance: (*fml_str) - (*input_str) */ |
/* absolute tolerance: (*fml_str) - (*input_str) */ |
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Line 3242 char *fml_str;char *input_str;char *var_
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Line 3262 char *fml_str;char *input_str;char *var_
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| } |
} |
| } else { |
} else { |
| diff = abs(1.0 - formula_val) * 100.0 ; |
diff = abs(1.0 - formula_val) * 100.0 ; |
| if( diff < tol ) { |
if( diff > tol ) { |
| outcome = INCORRECT; |
outcome = INCORRECT; |
| } |
} |
| } |
} |
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Line 3367 Problem_t *p; char **answers; int cnt; c
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Line 3387 Problem_t *p; char **answers; int cnt; c
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| 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], &errormsg[0]); |
outcomes[0] = capa_check_answer(p, answers[0], &errormsg[0]); |
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#ifdef COMMON_DBUG |
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printf("CAPA_CHECK_ANSWER(%s,%s):: outcome[0]=%d\n", |
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p->answer,answers[0],outcomes[0]); |
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#endif |
| 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],&(errormsg[ii])); |
outcomes[ii] = capa_check_ans(ai,answers[ii],&(errormsg[ii])); |
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#ifdef COMMON_DBUG |
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printf("CAPA_CHECK_ANS(%s,%s): outcome[%d]=%d\n", ai->ans_str,answers[ii],ii,outcomes[ii]); |
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#endif |
| } |
} |
| done = ii = 0; |
done = ii = 0; |
| result = 0; |
result = 0; |
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Line 3539 char *key_word;char *value;
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Line 3566 char *key_word;char *value;
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| } |
} |
| } |
} |
| if (c=='\n') found=1; |
if (c=='\n') found=1; |
| if (((char)c)==((char)EOF)) break; |
if (((char)c)==((char)EOF)) {failed=1;break;} |
| } |
} |
| } |
} |
| } while (!done && !failed); |
} while (!done && !failed); |
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