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postgresql/src/interfaces/ecpg/preproc/variable.c
Tom Lane 89d1dfa49a Use "%option prefix" to set API names in ecpg's lexer. 
Clean up some technical debt left behind by commit 72b1e3a21: instead of
quickly hacking the name of base_yylex() with a #define, set it properly
with "%option prefix".  This causes the names of pgc.l's other exported
symbols to change as well, so run around and modify the outside references
to them as needed.  Similarly, make pgc.l's external references to
base_yylval use that variable's true name instead of a macro.

The reason for doing this now is that the quick-hack solution will fail
with future versions of flex, as reported by Дилян Палаузов.
Hence, back-patch into 9.6 where the previous commit appeared, since
it's likely people will build 9.6 with newer flex versions during
its lifetime.

Discussion: https://postgr.es/m/d845c1af-e18d-6651-178f-9f08cdf37e10@aegee.org
2016-12-11 14:54:25 -05:00

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/* src/interfaces/ecpg/preproc/variable.c */
#include "postgres_fe.h"
#include "extern.h"
static struct variable *allvariables = NULL;
struct variable *
new_variable(const char *name, struct ECPGtype * type, int brace_level)
{
struct variable *p = (struct variable *) mm_alloc(sizeof(struct variable));
p->name = mm_strdup(name);
p->type = type;
p->brace_level = brace_level;
p->next = allvariables;
allvariables = p;
return (p);
}
static struct variable *
find_struct_member(char *name, char *str, struct ECPGstruct_member * members, int brace_level)
{
char *next = strpbrk(++str, ".-["),
*end,
c = '\0';
if (next != NULL)
{
c = *next;
*next = '\0';
}
for (; members; members = members->next)
{
if (strcmp(members->name, str) == 0)
{
if (next == NULL)
{
/* found the end */
switch (members->type->type)
{
case ECPGt_array:
return (new_variable(name, ECPGmake_array_type(ECPGmake_simple_type(members->type->u.element->type, members->type->u.element->size, members->type->u.element->counter), members->type->size), brace_level));
case ECPGt_struct:
case ECPGt_union:
return (new_variable(name, ECPGmake_struct_type(members->type->u.members, members->type->type, members->type->type_name, members->type->struct_sizeof), brace_level));
default:
return (new_variable(name, ECPGmake_simple_type(members->type->type, members->type->size, members->type->counter), brace_level));
}
}
else
{
*next = c;
if (c == '[')
{
int count;
/*
* We don't care about what's inside the array braces so
* just eat up the character
*/
for (count = 1, end = next + 1; count; end++)
{
switch (*end)
{
case '[':
count++;
break;
case ']':
count--;
break;
default:
break;
}
}
}
else
end = next;
switch (*end)
{
case '\0': /* found the end, but this time it has to be
* an array element */
if (members->type->type != ECPGt_array)
mmfatal(PARSE_ERROR, "incorrectly formed variable \"%s\"", name);
switch (members->type->u.element->type)
{
case ECPGt_array:
return (new_variable(name, ECPGmake_array_type(ECPGmake_simple_type(members->type->u.element->u.element->type, members->type->u.element->u.element->size, members->type->u.element->u.element->counter), members->type->u.element->size), brace_level));
case ECPGt_struct:
case ECPGt_union:
return (new_variable(name, ECPGmake_struct_type(members->type->u.element->u.members, members->type->u.element->type, members->type->u.element->type_name, members->type->u.element->struct_sizeof), brace_level));
default:
return (new_variable(name, ECPGmake_simple_type(members->type->u.element->type, members->type->u.element->size, members->type->u.element->counter), brace_level));
}
break;
case '-':
if (members->type->type == ECPGt_array)
return (find_struct_member(name, ++end, members->type->u.element->u.members, brace_level));
else
return (find_struct_member(name, ++end, members->type->u.members, brace_level));
break;
break;
case '.':
if (members->type->type == ECPGt_array)
return (find_struct_member(name, end, members->type->u.element->u.members, brace_level));
else
return (find_struct_member(name, end, members->type->u.members, brace_level));
break;
default:
mmfatal(PARSE_ERROR, "incorrectly formed variable \"%s\"", name);
break;
}
}
}
}
return (NULL);
}
static struct variable *
find_struct(char *name, char *next, char *end)
{
struct variable *p;
char c = *next;
/* first get the mother structure entry */
*next = '\0';
p = find_variable(name);
if (c == '-')
{
if (p->type->type != ECPGt_array)
mmfatal(PARSE_ERROR, "variable \"%s\" is not a pointer", name);
if (p->type->u.element->type != ECPGt_struct && p->type->u.element->type != ECPGt_union)
mmfatal(PARSE_ERROR, "variable \"%s\" is not a pointer to a structure or a union", name);
/* restore the name, we will need it later */
*next = c;
return find_struct_member(name, ++end, p->type->u.element->u.members, p->brace_level);
}
else
{
if (next == end)
{
if (p->type->type != ECPGt_struct && p->type->type != ECPGt_union)
mmfatal(PARSE_ERROR, "variable \"%s\" is neither a structure nor a union", name);
/* restore the name, we will need it later */
*next = c;
return find_struct_member(name, end, p->type->u.members, p->brace_level);
}
else
{
if (p->type->type != ECPGt_array)
mmfatal(PARSE_ERROR, "variable \"%s\" is not an array", name);
if (p->type->u.element->type != ECPGt_struct && p->type->u.element->type != ECPGt_union)
mmfatal(PARSE_ERROR, "variable \"%s\" is not a pointer to a structure or a union", name);
/* restore the name, we will need it later */
*next = c;
return find_struct_member(name, end, p->type->u.element->u.members, p->brace_level);
}
}
}
static struct variable *
find_simple(char *name)
{
struct variable *p;
for (p = allvariables; p; p = p->next)
{
if (strcmp(p->name, name) == 0)
return p;
}
return (NULL);
}
/* Note that this function will end the program in case of an unknown */
/* variable */
struct variable *
find_variable(char *name)
{
char *next,
*end;
struct variable *p;
int count;
next = strpbrk(name, ".[-");
if (next)
{
if (*next == '[')
{
/*
* We don't care about what's inside the array braces so just eat
* up the characters
*/
for (count = 1, end = next + 1; count; end++)
{
switch (*end)
{
case '[':
count++;
break;
case ']':
count--;
break;
default:
break;
}
}
if (*end == '.')
p = find_struct(name, next, end);
else
{
char c = *next;
*next = '\0';
p = find_simple(name);
if (p == NULL)
mmfatal(PARSE_ERROR, "variable \"%s\" is not declared", name);
*next = c;
switch (p->type->u.element->type)
{
case ECPGt_array:
return (new_variable(name, ECPGmake_array_type(ECPGmake_simple_type(p->type->u.element->u.element->type, p->type->u.element->u.element->size, p->type->u.element->u.element->counter), p->type->u.element->size), p->brace_level));
case ECPGt_struct:
case ECPGt_union:
return (new_variable(name, ECPGmake_struct_type(p->type->u.element->u.members, p->type->u.element->type, p->type->u.element->type_name, p->type->u.element->struct_sizeof), p->brace_level));
default:
return (new_variable(name, ECPGmake_simple_type(p->type->u.element->type, p->type->u.element->size, p->type->u.element->counter), p->brace_level));
}
}
}
else
p = find_struct(name, next, next);
}
else
p = find_simple(name);
if (p == NULL)
mmfatal(PARSE_ERROR, "variable \"%s\" is not declared", name);
return (p);
}
void
remove_typedefs(int brace_level)
{
struct typedefs *p,
*prev;
for (p = prev = types; p;)
{
if (p->brace_level >= brace_level)
{
/* remove it */
if (p == types)
prev = types = p->next;
else
prev->next = p->next;
if (p->type->type_enum == ECPGt_struct || p->type->type_enum == ECPGt_union)
free(p->struct_member_list);
free(p->type);
free(p->name);
free(p);
if (prev == types)
p = types;
else
p = prev ? prev->next : NULL;
}
else
{
prev = p;
p = prev->next;
}
}
}
void
remove_variables(int brace_level)
{
struct variable *p,
*prev;
for (p = prev = allvariables; p;)
{
if (p->brace_level >= brace_level)
{
/* is it still referenced by a cursor? */
struct cursor *ptr;
for (ptr = cur; ptr != NULL; ptr = ptr->next)
{
struct arguments *varptr,
*prevvar;
for (varptr = prevvar = ptr->argsinsert; varptr != NULL; varptr = varptr->next)
{
if (p == varptr->variable)
{
/* remove from list */
if (varptr == ptr->argsinsert)
ptr->argsinsert = varptr->next;
else
prevvar->next = varptr->next;
}
}
for (varptr = prevvar = ptr->argsresult; varptr != NULL; varptr = varptr->next)
{
if (p == varptr->variable)
{
/* remove from list */
if (varptr == ptr->argsresult)
ptr->argsresult = varptr->next;
else
prevvar->next = varptr->next;
}
}
}
/* remove it */
if (p == allvariables)
prev = allvariables = p->next;
else
prev->next = p->next;
ECPGfree_type(p->type);
free(p->name);
free(p);
if (prev == allvariables)
p = allvariables;
else
p = prev ? prev->next : NULL;
}
else
{
prev = p;
p = prev->next;
}
}
}
/*
* Here are the variables that need to be handled on every request.
* These are of two kinds: input and output.
* I will make two lists for them.
*/
struct arguments *argsinsert = NULL;
struct arguments *argsresult = NULL;
void
reset_variables(void)
{
argsinsert = NULL;
argsresult = NULL;
}
/* Insert a new variable into our request list.
* Note: The list is dumped from the end,
* so we have to add new entries at the beginning */
void
add_variable_to_head(struct arguments ** list, struct variable * var, struct variable * ind)
{
struct arguments *p = (struct arguments *) mm_alloc(sizeof(struct arguments));
p->variable = var;
p->indicator = ind;
p->next = *list;
*list = p;
}
/* Append a new variable to our request list. */
void
add_variable_to_tail(struct arguments ** list, struct variable * var, struct variable * ind)
{
struct arguments *p,
*new = (struct arguments *) mm_alloc(sizeof(struct arguments));
for (p = *list; p && p->next; p = p->next);
new->variable = var;
new->indicator = ind;
new->next = NULL;
if (p)
p->next = new;
else
*list = new;
}
void
remove_variable_from_list(struct arguments ** list, struct variable * var)
{
struct arguments *p,
*prev = NULL;
bool found = false;
for (p = *list; p; p = p->next)
{
if (p->variable == var)
{
found = true;
break;
}
prev = p;
}
if (found)
{
if (prev)
prev->next = p->next;
else
*list = p->next;
}
}
/* Dump out a list of all the variable on this list.
This is a recursive function that works from the end of the list and
deletes the list as we go on.
*/
void
dump_variables(struct arguments * list, int mode)
{
char *str_zero;
if (list == NULL)
return;
str_zero = mm_strdup("0");
/*
* The list is build up from the beginning so lets first dump the end of
* the list:
*/
dump_variables(list->next, mode);
/* Then the current element and its indicator */
ECPGdump_a_type(base_yyout, list->variable->name, list->variable->type, list->variable->brace_level,
list->indicator->name, list->indicator->type, list->indicator->brace_level,
NULL, NULL, str_zero, NULL, NULL);
/* Then release the list element. */
if (mode != 0)
free(list);
free(str_zero);
}
void
check_indicator(struct ECPGtype * var)
{
/* make sure this is a valid indicator variable */
switch (var->type)
{
struct ECPGstruct_member *p;
case ECPGt_short:
case ECPGt_int:
case ECPGt_long:
case ECPGt_long_long:
case ECPGt_unsigned_short:
case ECPGt_unsigned_int:
case ECPGt_unsigned_long:
case ECPGt_unsigned_long_long:
break;
case ECPGt_struct:
case ECPGt_union:
for (p = var->u.members; p; p = p->next)
check_indicator(p->type);
break;
case ECPGt_array:
check_indicator(var->u.element);
break;
default:
mmerror(PARSE_ERROR, ET_ERROR, "indicator variable must have an integer type");
break;
}
}
struct typedefs *
get_typedef(char *name)
{
struct typedefs *this;
for (this = types; this && strcmp(this->name, name) != 0; this = this->next);
if (!this)
mmfatal(PARSE_ERROR, "unrecognized data type name \"%s\"", name);
return (this);
}
void
adjust_array(enum ECPGttype type_enum, char **dimension, char **length, char *type_dimension, char *type_index, int pointer_len, bool type_definition)
{
if (atoi(type_index) >= 0)
{
if (atoi(*length) >= 0)
mmfatal(PARSE_ERROR, "multidimensional arrays are not supported");
*length = type_index;
}
if (atoi(type_dimension) >= 0)
{
if (atoi(*dimension) >= 0 && atoi(*length) >= 0)
mmfatal(PARSE_ERROR, "multidimensional arrays are not supported");
if (atoi(*dimension) >= 0)
*length = *dimension;
*dimension = type_dimension;
}
if (pointer_len > 2)
mmfatal(PARSE_ERROR, ngettext("multilevel pointers (more than 2 levels) are not supported; found %d level",
"multilevel pointers (more than 2 levels) are not supported; found %d levels", pointer_len),
pointer_len);
if (pointer_len > 1 && type_enum != ECPGt_char && type_enum != ECPGt_unsigned_char && type_enum != ECPGt_string)
mmfatal(PARSE_ERROR, "pointer to pointer is not supported for this data type");
if (pointer_len > 1 && (atoi(*length) >= 0 || atoi(*dimension) >= 0))
mmfatal(PARSE_ERROR, "multidimensional arrays are not supported");
if (atoi(*length) >= 0 && atoi(*dimension) >= 0 && pointer_len)
mmfatal(PARSE_ERROR, "multidimensional arrays are not supported");
switch (type_enum)
{
case ECPGt_struct:
case ECPGt_union:
/* pointer has to get dimension 0 */
if (pointer_len)
{
*length = *dimension;
*dimension = mm_strdup("0");
}
if (atoi(*length) >= 0)
mmfatal(PARSE_ERROR, "multidimensional arrays for structures are not supported");
break;
case ECPGt_varchar:
/* pointer has to get dimension 0 */
if (pointer_len)
*dimension = mm_strdup("0");
/* one index is the string length */
if (atoi(*length) < 0)
{
*length = *dimension;
*dimension = mm_strdup("-1");
}
break;
case ECPGt_char:
case ECPGt_unsigned_char:
case ECPGt_string:
/* char ** */
if (pointer_len == 2)
{
*length = *dimension = mm_strdup("0");
break;
}
/* pointer has to get length 0 */
if (pointer_len == 1)
*length = mm_strdup("0");
/* one index is the string length */
if (atoi(*length) < 0)
{
/*
* make sure we return length = -1 for arrays without given
* bounds
*/
if (atoi(*dimension) < 0 && !type_definition)
/*
* do not change this for typedefs since it will be
* changed later on when the variable is defined
*/
*length = mm_strdup("1");
else if (strcmp(*dimension, "0") == 0)
*length = mm_strdup("-1");
else
*length = *dimension;
*dimension = mm_strdup("-1");
}
break;
default:
/* a pointer has dimension = 0 */
if (pointer_len)
{
*length = *dimension;
*dimension = mm_strdup("0");
}
if (atoi(*length) >= 0)
mmfatal(PARSE_ERROR, "multidimensional arrays for simple data types are not supported");
break;
}
}
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