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version 1.24, 2004/06/01 19:57:18
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version 1.26, 2005/12/01 22:32:10
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Line 2454 check_input_usymb(u_symb)char *u_symb;
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Line 2454 check_input_usymb(u_symb)char *u_symb;
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| /* num_p : the numerical part in string */ |
/* num_p : the numerical part in string */ |
| /* unit_p : the unit string */ |
/* unit_p : the unit string */ |
| /* num_p is used to calculate sig figs */ |
/* num_p is used to calculate sig figs */ |
| /* return : 0 empty string */ |
/* return : -1 invalid string */ |
| |
/* 0 empty string */ |
| /* 1 number without units */ |
/* 1 number without units */ |
| /* 2 empty number with units */ |
/* 2 empty number with units */ |
| /* 3 number with units */ |
/* 3 number with units */ |
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Line 2505 char *buf;double *num; char *num_p; char
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Line 2506 char *buf;double *num; char *num_p; char
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| |
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| e_part = 1.0; /* default power */ |
e_part = 1.0; /* default power */ |
| base_str[b_idx] = 0; /* initialize base_str[] */ |
base_str[b_idx] = 0; /* initialize base_str[] */ |
| while( isdigit(buf[idx]) || buf[idx] == '.' ) { /* should start with a digit or . */ |
if( buf[idx] == '1' && buf[idx+1] == '0') { |
| base_str[b_idx++] = buf[idx++]; |
base_str[b_idx++] = buf[idx++]; |
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base_str[b_idx++] = buf[idx++]; |
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} else { |
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return (-1); |
| } |
} |
| base_str[b_idx] = 0; /* terminate base_str[] */ |
base_str[b_idx] = 0; /* terminate base_str[] */ |
| while( isspace(buf[idx]) ) { idx++; } /* skip over white spaces */ |
while( isspace(buf[idx]) ) { idx++; } /* skip over white spaces */ |
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Line 2520 char *buf;double *num; char *num_p; char
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Line 2524 char *buf;double *num; char *num_p; char
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| while( isspace(buf[idx]) ) { idx++; } |
while( isspace(buf[idx]) ) { idx++; } |
| if( isdigit(buf[idx]) || buf[idx] == '+' || buf[idx] == '-' ) { |
if( isdigit(buf[idx]) || buf[idx] == '+' || buf[idx] == '-' ) { |
| exp_str[e_idx] = 0; /* initialize exp_str[], again */ |
exp_str[e_idx] = 0; /* initialize exp_str[], again */ |
| while( isdigit(buf[idx]) || buf[idx] == '.' || buf[idx] == '+' || buf[idx] == '-' ) { |
while( isdigit(buf[idx]) /*|| buf[idx] == '.'*/ || buf[idx] == '+' || buf[idx] == '-' ) { |
| exp_str[e_idx++] = buf[idx++]; |
exp_str[e_idx++] = buf[idx++]; |
| } |
} |
| exp_str[e_idx] = 0; /* terminate exp_str[] */ |
exp_str[e_idx] = 0; /* terminate exp_str[] */ |
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Line 2554 char *buf;double *num; char *num_p; char
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Line 2558 char *buf;double *num; char *num_p; char
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| while( isspace(buf[idx]) ) { idx++; } |
while( isspace(buf[idx]) ) { idx++; } |
| if( isdigit(buf[idx]) || buf[idx] == '+' || buf[idx] == '-' ) { |
if( isdigit(buf[idx]) || buf[idx] == '+' || buf[idx] == '-' ) { |
| exp_str[e_idx] = 0; |
exp_str[e_idx] = 0; |
| while( isdigit(buf[idx]) || buf[idx] == '.' || buf[idx] == '+' || buf[idx] == '-' ) { |
while( isdigit(buf[idx]) /*|| buf[idx] == '.'*/ || buf[idx] == '+' || buf[idx] == '-' ) { |
| exp_str[e_idx++] = buf[idx++]; |
exp_str[e_idx++] = buf[idx++]; |
| } |
} |
| exp_str[e_idx] = 0; |
exp_str[e_idx] = 0; |
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Line 2565 char *buf;double *num; char *num_p; char
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Line 2569 char *buf;double *num; char *num_p; char
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| } |
} |
| sscanf(exp_str, "%lg", &e_part); |
sscanf(exp_str, "%lg", &e_part); |
| sscanf(num_str, "%lg", &n_part); |
sscanf(num_str, "%lg", &n_part); |
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if( n_part != 10 ) { |
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return (-1); |
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} |
| result = pow(n_part,e_part); |
result = pow(n_part,e_part); |
| errcode = errcode | 1; |
errcode = errcode | 1; |
| } else { /* number unit */ |
} else { /* number unit */ |
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Line 2953 capa_check_ans(ai,ans, error) AnswerInfo
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Line 2960 capa_check_ans(ai,ans, error) AnswerInfo
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| all_alphabet = 0; |
all_alphabet = 0; |
| } |
} |
| } |
} |
| if( !all_alphabet ) { /* answer string is not all alphabets */ |
if( !all_alphabet ) { |
| outcome = split_num_unit(ans,&n_part,num_str,unit_str); |
outcome = split_num_unit(ans,&n_part,num_str,unit_str); |
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} |
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if( outcome > 0 ) { |
| 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); |
result = check_correct_unit(unit_str,u_p,&scale); |
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Line 3122 capa_check_answer(p, answer, error) Prob
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Line 3131 capa_check_answer(p, answer, error) Prob
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| } |
} |
| if( !all_alphabet ) { |
if( !all_alphabet ) { |
| outcome = split_num_unit(answer,&n_part,input,unit_str); |
outcome = split_num_unit(answer,&n_part,input,unit_str); |
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} |
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if( outcome > 0 ) { |
| 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); |
result = check_correct_unit(unit_str,p->ans_unit,&scale); |
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Line 3239 capa_check_answer(p, answer, error) Prob
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Line 3250 capa_check_answer(p, answer, error) Prob
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| return (result); |
return (result); |
| } |
} |
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int check_tol (formula_val,tol_type,tol) |
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double formula_val;int tol_type;double tol; |
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{ |
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double diff; |
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int outcome=APPROX_ANS; |
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if( tol_type == TOL_ABSOLUTE ) { |
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diff = tol - formula_val; |
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if( diff < 0.0 ) { |
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outcome = INCORRECT; |
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} |
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} else { |
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diff = fabs(1.0 - formula_val) * 100.0 ; |
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if( diff > tol ) { |
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outcome = INCORRECT; |
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} |
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} |
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return outcome; |
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} |
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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 */ |
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Line 3251 char *fml_str;char *input_str;char *var_
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Line 3281 char *fml_str;char *input_str;char *var_
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| char *check_fml_str; |
char *check_fml_str; |
| int f_len, i_len, outcome, error_code; |
int f_len, i_len, outcome, error_code; |
| PointsList_t *pt, *next; |
PointsList_t *pt, *next; |
| double formula_val, diff; |
double formula_val; |
| |
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| f_len = strlen(fml_str); |
f_len = strlen(fml_str); |
| i_len = strlen(input_str); |
i_len = strlen(input_str); |
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Line 3263 char *fml_str;char *input_str;char *var_
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Line 3293 char *fml_str;char *input_str;char *var_
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| sprintf(check_fml_str,"(%s) / (%s)",input_str,fml_str); |
sprintf(check_fml_str,"(%s) / (%s)",input_str,fml_str); |
| } |
} |
| outcome = APPROX_ANS; |
outcome = APPROX_ANS; |
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if( pts_list==NULL ) { |
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error_code = f_eval_formula(&formula_val,check_fml_str, var_list, NULL); |
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if( ! error_code ) { |
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outcome = check_tol(formula_val,tol_type,tol); |
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} else { |
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outcome = BAD_FORMULA; |
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} |
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} |
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| for(pt= pts_list; pt!=NULL ; pt=next) { |
for(pt= pts_list; pt!=NULL ; pt=next) { |
| next=pt->pts_next; |
next=pt->pts_next; |
| error_code = f_eval_formula(&formula_val,check_fml_str, var_list, pt->pts_str); |
error_code = f_eval_formula(&formula_val,check_fml_str, var_list, pt->pts_str); |
| if( ! error_code ) { |
if( ! error_code ) { |
| if( tol_type == TOL_ABSOLUTE ) { |
outcome = check_tol(formula_val,tol_type,tol); |
| diff = tol - formula_val; |
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| if( diff < 0.0 ) { |
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| outcome = INCORRECT; |
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| } |
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| } else { |
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| diff = abs(1.0 - formula_val) * 100.0 ; |
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| if( diff > tol ) { |
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| outcome = INCORRECT; |
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| } |
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| } |
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| } else { |
} else { |
| outcome = BAD_FORMULA; |
outcome = BAD_FORMULA; |
| break; |
break; |
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