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version 1.2, 1999/10/13 18:45:28
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version 1.5, 1999/10/20 19:57:37
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Line 332 q_text : TEXT_LINE
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Line 332 q_text : TEXT_LINE
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| ; |
; |
| |
|
| if_expr : CAPA_IF '(' calc_expr ')' |
if_expr : CAPA_IF '(' calc_expr ')' |
| { int leng; /* begin_next_line(); no use, can be get rid of */ |
{ int leng=0; /* begin_next_line(); no use, can be get rid of */ |
| YYDBUG_PR2("(IF expr <IFcount=%d>)\n",IFcount); |
YYDBUG_PR2("(IF expr <IFcount=%d>)\n",IFcount); |
| switch($3->s_type) { |
switch($3->s_type) { |
| case IDENTIFIER: |
case IDENTIFIER: |
|
Line 358 if_expr : CAPA_IF '(' calc_expr '
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Line 358 if_expr : CAPA_IF '(' calc_expr '
|
| } |
} |
| break; |
break; |
| case S_CONSTANT: |
case S_CONSTANT: |
| leng = strlen($3->s_str); |
if ( $3->s_str) { |
| capa_mfree($3->s_str); |
leng = strlen($3->s_str); |
| |
capa_mfree($3->s_str); |
| |
} |
| if(leng == 0) { |
if(leng == 0) { |
| IFstatus[IFcount] = IF_FALSE; |
IFstatus[IFcount] = IF_FALSE; |
| begin_if_skip(); |
begin_if_skip(); |
|
Line 369 if_expr : CAPA_IF '(' calc_expr '
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Line 371 if_expr : CAPA_IF '(' calc_expr '
|
| } |
} |
| break; |
break; |
| case S_VAR: |
case S_VAR: |
| leng = strlen($3->s_str); |
if ( $3->s_str) { |
| if(leng == 0) { |
leng = strlen($3->s_str); |
| |
capa_mfree($3->s_str); |
| |
} |
| |
if(leng == 0) { |
| IFstatus[IFcount] = IF_FALSE; |
IFstatus[IFcount] = IF_FALSE; |
| begin_if_skip(); |
begin_if_skip(); |
| }else{ |
}else{ |
|
Line 646 answer_comp : ANS_CS {
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Line 651 answer_comp : ANS_CS {
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| |
|
| |
|
| map_expr : startM '(' basic_constr ';' var_list ';' arg_list ')' |
map_expr : startM '(' basic_constr ';' var_list ';' arg_list ')' |
| { char key[SIXTEEN]; |
{ char key[SMALL_LINE_BUFFER]; |
| char warn_msg[WARN_MSG_LENGTH]; |
char warn_msg[WARN_MSG_LENGTH]; |
| int result=0; |
int result=0; |
| |
|
|
Line 674 map_expr : startM '(' basic_constr '
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Line 679 map_expr : startM '(' basic_constr '
|
| free_arglist($7->s_argp); |
free_arglist($7->s_argp); |
| } |
} |
| | startR '(' basic_constr ';' var_list ';' arg_list ')' |
| startR '(' basic_constr ';' var_list ';' arg_list ')' |
| { char key[SIXTEEN]; |
{ char key[SMALL_LINE_BUFFER]; |
| char warn_msg[WARN_MSG_LENGTH]; |
char warn_msg[WARN_MSG_LENGTH]; |
| int result=0; |
int result=0; |
| |
|
|
Line 889 Symbol *name,*index;int free_symbols;
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Line 894 Symbol *name,*index;int free_symbols;
|
| Symbol *s_p, *a_p; |
Symbol *s_p, *a_p; |
| char *key, *tmp; |
char *key, *tmp; |
| int leng, idx_len; |
int leng, idx_len; |
| |
|
| leng = strlen(name->s_name)+8; /* [ ] */ |
leng = strlen(name->s_name)+8; /* [ ] */ |
| |
|
| switch(index->s_type) { |
switch(index->s_type) { |
|
Line 933 Symbol *ar_name;int num_elem;
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Line 937 Symbol *ar_name;int num_elem;
|
| { |
{ |
| int i; |
int i; |
| Symbol *arg_list,*a_p; |
Symbol *arg_list,*a_p; |
| char idx_str[SIXTEEN]; |
char idx_str[MAX_BUFFER_SIZE]; |
| |
|
| a_p = find_arrayid(ar_name); |
a_p = find_arrayid(ar_name->s_name); |
| i = 1; |
i = 1; |
| sprintf(idx_str,"%ld",i); /* create array elements with integer index */ |
sprintf(idx_str,"%s[%d]",ar_name->s_name,i); /* create array elements with integer index */ |
| arg_list = find_array_by_index(a_p,idx_str); /* will create a new element if not found */ |
arg_list = find_array_by_index(a_p,idx_str); /* will create a new element if not found */ |
| arg_list->s_argc=1; |
arg_list->s_argc=1; |
| arg_list->s_argp=new_arglist(arg_list); |
arg_list->s_argp=new_arglist(arg_list); |
| |
|
| for (i=2;i<=num_elem;i++) { |
for (i=2;i<=num_elem;i++) { |
| sprintf(idx_str,"%ld",i); |
sprintf(idx_str,"%s[%d]",ar_name->s_name,i); |
| arg_list->s_argc++; |
arg_list->s_argc++; |
| arg_list->s_argp=addto_arglist(arg_list->s_argp,find_array_by_index(a_p,idx_str)); |
arg_list->s_argp=addto_arglist(arg_list->s_argp,find_array_by_index(a_p,idx_str)); |
| } |
} |
|
Line 1139 if( a->s_type == IDENTIFIER || b->s_type
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Line 1143 if( a->s_type == IDENTIFIER || b->s_type
|
| (b->s_type == S_VAR) || (b->s_type == S_CONSTANT) ) { /* either a or b is a string */ |
(b->s_type == S_VAR) || (b->s_type == S_CONSTANT) ) { /* either a or b is a string */ |
| type = S_CONSTANT; /* the return type is a string */ |
type = S_CONSTANT; /* the return type is a string */ |
| if( (a->s_type == S_VAR) || (a->s_type == S_CONSTANT) ) { /* a is a string */ |
if( (a->s_type == S_VAR) || (a->s_type == S_CONSTANT) ) { /* a is a string */ |
| switch( b->s_type ) { |
if (a->s_str == NULL || |
| case I_VAR: |
(((b->s_type == S_VAR) || (b->s_type == S_CONSTANT)) && b->s_str == NULL)) { |
| case I_CONSTANT: |
if (a->s_str == NULL) { |
| leng = SIXTEEN; /* assuming a long integer does not exceed 16 digits*/ |
sprintf(warn_msg,"variable %s has not yet been assigned a value.\n",a->s_name); |
| b_str= capa_malloc(sizeof(char), leng); |
capa_msg(MESSAGE_ERROR,warn_msg); |
| sprintf(b_str,"%ld", b->s_int); |
} |
| break; |
if (((b->s_type == S_VAR) || (b->s_type == S_CONSTANT)) && b->s_str == NULL) { |
| case R_VAR: |
sprintf(warn_msg,"variable %s has not yet been assigned a value.\n",a->s_name); |
| case R_CONSTANT: |
capa_msg(MESSAGE_ERROR,warn_msg); |
| leng = SMALL_LINE_BUFFER;/*assuming a double does not exceed128chars*/ |
} |
| b_str= capa_malloc(sizeof(char), leng); |
} else { /* a is a valid string */ |
| sprintf(b_str,"%.15g", b->s_real); |
switch( b->s_type ) { |
| break; |
case I_VAR: |
| case S_VAR: |
case I_CONSTANT: |
| case S_CONSTANT: /* DONE: get rid of limitations on b_str[] */ |
leng = SMALL_LINE_BUFFER; /* assuming a long integer does not exceed 128 digits*/ |
| leng = strlen( b->s_str ) + 1; |
b_str= capa_malloc(sizeof(char), leng); |
| b_str= capa_malloc(sizeof(char), leng); |
sprintf(b_str,"%ld", b->s_int); |
| sprintf(b_str,"%s",b->s_str); |
break; |
| /*if(b->s_type == S_CONSTANT) capa_mfree(b->s_str);*/ |
case R_VAR: |
| break; |
case R_CONSTANT: |
| } |
leng = SMALL_LINE_BUFFER;/*assuming a double does not exceed128chars*/ |
| switch( op ) { |
b_str= capa_malloc(sizeof(char), leng); |
| case ADD_op: |
sprintf(b_str,"%.15g", b->s_real); |
| leng = strlen( a->s_str ) + strlen(b_str) + 1; |
break; |
| r_strp = capa_malloc(sizeof(char), leng); /* **** */ |
case S_VAR: |
| strcat(r_strp, a->s_str); |
case S_CONSTANT: /* DONE: get rid of limitations on b_str[] */ |
| strcat(r_strp, b_str); /* concatenate two strings together */ |
leng = strlen( b->s_str ) + 1; |
| if( !new ) capa_mfree(a->s_str); |
b_str= capa_malloc(sizeof(char), leng); |
| a_symp->s_str = r_strp; |
sprintf(b_str,"%s",b->s_str); |
| break; |
/*if(b->s_type == S_CONSTANT) capa_mfree(b->s_str);*/ |
| case SUB_op: |
break; |
| case MUL_op: |
} |
| case DIV_op: |
switch( op ) { |
| case IDIV_op: |
case ADD_op: |
| if( !new ) capa_mfree(a->s_str); |
leng = strlen( a->s_str ) + strlen(b_str) + 1; |
| a_symp->s_str = strsave("<<Op NOT DEFINED>>"); |
r_strp = capa_malloc(sizeof(char), leng); /* **** */ |
| sprintf(warn_msg,"integer division (%%) cannot accept string operand!\n"); |
strcat(r_strp, a->s_str); |
| capa_msg(MESSAGE_ERROR,warn_msg); |
strcat(r_strp, b_str); /* concatenate two strings together */ |
| break; |
if( !new ) capa_mfree(a->s_str); |
| case EQ_op: a_symp->s_int = (strcmp(a->s_str, b_str) == 0? 1: 0); |
a_symp->s_str = r_strp; |
| type = I_CONSTANT; break; |
break; |
| case NE_op: a_symp->s_int = (strcmp(a->s_str, b_str) == 0? 0: 1); |
case SUB_op: |
| type = I_CONSTANT; break; |
case MUL_op: |
| case GT_op: a_symp->s_int = (strcmp(a->s_str, b_str) > 0? 1: 0); |
case DIV_op: |
| type = I_CONSTANT; break; |
case IDIV_op: |
| case GE_op: a_symp->s_int = (strcmp(a->s_str, b_str) >= 0? 1: 0); |
if( !new ) capa_mfree(a->s_str); |
| type = I_CONSTANT; break; |
a_symp->s_str = strsave("<<Op NOT DEFINED>>"); |
| case LT_op: a_symp->s_int = (strcmp(a->s_str, b_str) < 0? 1: 0); |
sprintf(warn_msg,"integer division (%%) cannot accept string operand!\n"); |
| type = I_CONSTANT; break; |
capa_msg(MESSAGE_ERROR,warn_msg); |
| case LE_op: a_symp->s_int = (strcmp(a->s_str, b_str) <= 0? 1: 0); |
break; |
| type = I_CONSTANT; break; |
case EQ_op: a_symp->s_int = (strcmp(a->s_str, b_str) == 0? 1: 0); |
| case AND_op: if( (a->s_str[0] != 0) && (b_str[0] != 0)) { |
type = I_CONSTANT; break; |
| a_symp->s_int = 1; |
case NE_op: a_symp->s_int = (strcmp(a->s_str, b_str) == 0? 0: 1); |
| } else { |
type = I_CONSTANT; break; |
| a_symp->s_int = 0; |
case GT_op: a_symp->s_int = (strcmp(a->s_str, b_str) > 0? 1: 0); |
| } |
type = I_CONSTANT; break; |
| type = I_CONSTANT; break; |
case GE_op: a_symp->s_int = (strcmp(a->s_str, b_str) >= 0? 1: 0); |
| case OR_op: if( (a->s_str[0] != 0) || (b_str[0] != 0)) { |
type = I_CONSTANT; break; |
| a_symp->s_int = 1; |
case LT_op: a_symp->s_int = (strcmp(a->s_str, b_str) < 0? 1: 0); |
| } else { |
type = I_CONSTANT; break; |
| a_symp->s_int = 0; |
case LE_op: a_symp->s_int = (strcmp(a->s_str, b_str) <= 0? 1: 0); |
| } |
type = I_CONSTANT; break; |
| type = I_CONSTANT; break; |
case AND_op: |
| } |
if( (a->s_str[0] != 0) && (b_str[0] != 0)) { |
| |
a_symp->s_int = 1; |
| |
} else { |
| |
a_symp->s_int = 0; |
| |
} |
| |
type = I_CONSTANT; break; |
| |
case OR_op: |
| |
if( (a->s_str[0] != 0) || (b_str[0] != 0)) { |
| |
a_symp->s_int = 1; |
| |
} else { |
| |
a_symp->s_int = 0; |
| |
} |
| |
type = I_CONSTANT; break; |
| |
} |
| |
} |
| if (b_str!=NULL) capa_mfree(b_str); |
if (b_str!=NULL) capa_mfree(b_str); |
| } else { /* b is string and a is either integer or real */ |
} else { /* b is string and a is either integer or real */ |
| switch( a->s_type ) { |
switch( a->s_type ) { |
|
Line 1326 char *
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Line 1344 char *
|
| format_toTeX( real ) char *real; |
format_toTeX( real ) char *real; |
| { |
{ |
| int idx, length, fraclength, i_exp; |
int idx, length, fraclength, i_exp; |
| char *expo_p, fracS[SIXTEEN], result[ONE_K], *areal; |
char *expo_p, fracS[SMALL_LINE_BUFFER], result[ONE_K], *areal; |
| char warn_msg[WARN_MSG_LENGTH]; |
char warn_msg[WARN_MSG_LENGTH]; |
| |
|
| length = strlen(real); |
length = strlen(real); |
|
Line 1374 char *
|
Line 1392 char *
|
| format_toHTML( real ) char *real; |
format_toHTML( real ) char *real; |
| { |
{ |
| int idx, length, fraclength, i_exp; |
int idx, length, fraclength, i_exp; |
| char *expo_p, fracS[SIXTEEN], result[ONE_K], *areal; |
char *expo_p, fracS[SMALL_LINE_BUFFER], result[ONE_K], *areal; |
| char warn_msg[WARN_MSG_LENGTH]; |
char warn_msg[WARN_MSG_LENGTH]; |
| |
|
| length = strlen(real); |
length = strlen(real); |
|
Line 1487 display_var( s )Symbol *s;
|
Line 1505 display_var( s )Symbol *s;
|
| } |
} |
| } |
} |
| break; |
break; |
| case S_VAR: case S_CONSTANT: |
case S_VAR: case S_CONSTANT: |
| aline = (char *)capa_malloc(strlen(s->s_str)+1,1); |
if (s->s_str == NULL) { |
| sprintf(aline,"%s",s->s_str); |
sprintf(warn_msg,"variable %s has not yet been assigned a value.\n", |
| |
s->s_name); |
| |
capa_msg(MESSAGE_ERROR,warn_msg); |
| |
aline=(char *)capa_malloc(9,1); |
| |
sprintf(aline,"NO VALUE"); |
| |
} else { |
| |
aline = (char *)capa_malloc(strlen(s->s_str)+1,1); |
| |
sprintf(aline,"%s",s->s_str); |
| |
} |
| break; |
break; |
| } |
} |
| append_text(aline); |
append_text(aline); |
| capa_mfree((char *)aline); |
capa_mfree((char *)aline); |
| if(s->s_format) { |
if(s->s_format) { capa_mfree((char *)s->s_format); } |
| capa_mfree((char *)s->s_format); |
|
| } |
|
| s->s_format = NULL; |
s->s_format = NULL; |
| switch(s->s_type) { /* free up spaces taken by constants */ |
switch(s->s_type) { /* free up spaces taken by constants */ |
| case I_CONSTANT: |
case I_CONSTANT: |
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