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key.c
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key.c
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/*
Copyright (C) 2001-2008, Parrot Foundation.
$Id$
=head1 NAME
src/key.c - Base vtable calling functions
=head1 DESCRIPTION
The base vtable calling functions.
=head2 Functions
=over 4
=cut
*/
#include "parrot/parrot.h"
#include "parrot/key.h"
#include "key.str"
#include "pmc/pmc_key.h"
/* HEADERIZER HFILE: include/parrot/key.h */
/*
=item C<PMC * key_new(PARROT_INTERP)>
Returns a new C<Key> PMC.
=cut
*/
PARROT_EXPORT
PARROT_CANNOT_RETURN_NULL
PARROT_WARN_UNUSED_RESULT
PMC *
key_new(PARROT_INTERP)
{
ASSERT_ARGS(key_new)
return pmc_new(interp, enum_class_Key);
}
/*
=item C<PMC * key_new_integer(PARROT_INTERP, INTVAL value)>
Returns a new integer C<Key> PMC with value C<value>.
=cut
*/
PARROT_EXPORT
PARROT_CANNOT_RETURN_NULL
PARROT_WARN_UNUSED_RESULT
PMC *
key_new_integer(PARROT_INTERP, INTVAL value)
{
ASSERT_ARGS(key_new_integer)
PMC * const key = pmc_new(interp, enum_class_Key);
PObj_get_FLAGS(key) |= KEY_integer_FLAG;
SETATTR_Key_int_key(interp, key, value);
return key;
}
/*
=item C<PMC * key_new_number(PARROT_INTERP, FLOATVAL value)>
Returns a new number C<Key> PMC with value C<value>.
=cut
*/
PARROT_EXPORT
PARROT_CANNOT_RETURN_NULL
PARROT_WARN_UNUSED_RESULT
PMC *
key_new_number(PARROT_INTERP, FLOATVAL value)
{
ASSERT_ARGS(key_new_number)
PMC * const key = pmc_new(interp, enum_class_Key);
PObj_get_FLAGS(key) |= KEY_number_FLAG;
SETATTR_Key_num_key(interp, key, value);
return key;
}
/*
=item C<PMC * key_new_string(PARROT_INTERP, STRING *value)>
Returns a new string C<Key> PMC with value C<value>.
=cut
*/
PARROT_EXPORT
PARROT_CANNOT_RETURN_NULL
PARROT_WARN_UNUSED_RESULT
PMC *
key_new_string(PARROT_INTERP, ARGIN(STRING *value))
{
ASSERT_ARGS(key_new_string)
PMC * const key = pmc_new(interp, enum_class_Key);
PObj_get_FLAGS(key) |= KEY_string_FLAG;
SETATTR_Key_str_key(interp, key, value);
return key;
}
/*
=item C<PMC * key_new_cstring(PARROT_INTERP, const char *value)>
Returns a new string C<Key> PMC with value C<value> converted to a
C<STRING>.
=cut
*/
PARROT_EXPORT
PARROT_CANNOT_RETURN_NULL
PARROT_WARN_UNUSED_RESULT
PMC *
key_new_cstring(PARROT_INTERP, ARGIN_NULLOK(const char *value))
{
ASSERT_ARGS(key_new_cstring)
return key_new_string(interp, Parrot_str_new(interp, value, 0));
}
/*
=item C<PMC * key_new_pmc(PARROT_INTERP, PMC *value)>
Returns a new PMC C<Key> PMC with value C<value>.
=cut
*/
PARROT_EXPORT
PARROT_CANNOT_RETURN_NULL
PARROT_WARN_UNUSED_RESULT
PMC *
key_new_pmc(PARROT_INTERP, ARGIN(PMC *value))
{
ASSERT_ARGS(key_new_pmc)
PMC * const key = pmc_new(interp, enum_class_Key);
PObj_get_FLAGS(key) |= KEY_pmc_FLAG;
Parrot_ex_throw_from_c_args(interp, NULL, 1, "this is broken - see slice.pmc");
}
/*
=item C<void key_set_integer(PARROT_INTERP, PMC *key, INTVAL value)>
Set the integer C<value> in C<key>.
=cut
*/
PARROT_EXPORT
void
key_set_integer(PARROT_INTERP, ARGMOD(PMC *key), INTVAL value)
{
ASSERT_ARGS(key_set_integer)
PObj_get_FLAGS(key) &= ~KEY_type_FLAGS;
PObj_get_FLAGS(key) |= KEY_integer_FLAG;
SETATTR_Key_int_key(interp, key, value);
return;
}
/*
=item C<void key_set_register(PARROT_INTERP, PMC *key, INTVAL value, INTVAL
flag)>
Set the register C<value> in C<key>.
=cut
*/
PARROT_EXPORT
void
key_set_register(PARROT_INTERP, ARGMOD(PMC *key), INTVAL value, INTVAL flag)
{
ASSERT_ARGS(key_set_register)
PObj_get_FLAGS(key) &= ~KEY_type_FLAGS;
PObj_get_FLAGS(key) |= KEY_register_FLAG | flag;
SETATTR_Key_int_key(interp, key, value);
return;
}
/*
=item C<void key_set_number(PARROT_INTERP, PMC *key, FLOATVAL value)>
Set the number C<value> in C<key>.
=cut
*/
PARROT_EXPORT
void
key_set_number(PARROT_INTERP, ARGMOD(PMC *key), FLOATVAL value)
{
ASSERT_ARGS(key_set_number)
PObj_get_FLAGS(key) &= ~KEY_type_FLAGS;
PObj_get_FLAGS(key) |= KEY_number_FLAG;
SETATTR_Key_num_key(interp, key, value);
return;
}
/*
=item C<void key_set_string(PARROT_INTERP, PMC *key, STRING *value)>
Set the string C<value> in C<key>.
=cut
*/
PARROT_EXPORT
void
key_set_string(PARROT_INTERP, ARGMOD(PMC *key), ARGIN(STRING *value))
{
ASSERT_ARGS(key_set_string)
PObj_get_FLAGS(key) &= ~KEY_type_FLAGS;
PObj_get_FLAGS(key) |= KEY_string_FLAG;
SETATTR_Key_str_key(interp, key, value);
return;
}
/*
=item C<void key_set_pmc(PARROT_INTERP, PMC *key, PMC *value)>
Set the PMC C<value> in C<key>.
=cut
*/
PARROT_EXPORT
void
key_set_pmc(PARROT_INTERP, ARGMOD(PMC *key), ARGIN(PMC *value))
{
ASSERT_ARGS(key_set_pmc)
PObj_get_FLAGS(key) &= ~KEY_type_FLAGS;
PObj_get_FLAGS(key) |= KEY_pmc_FLAG;
/*
* XXX leo
* what for is this indirection?
*/
Parrot_ex_throw_from_c_args(interp, NULL, 1, "this is broken - see slice.pmc");
}
/*
=item C<INTVAL key_type(PARROT_INTERP, const PMC *key)>
Returns the type of C<key>.
=cut
*/
PARROT_EXPORT
PARROT_WARN_UNUSED_RESULT
INTVAL
key_type(SHIM_INTERP, ARGIN(const PMC *key))
{
ASSERT_ARGS(key_type)
return (PObj_get_FLAGS(key) & KEY_type_FLAGS) & ~KEY_register_FLAG;
}
/*
=item C<INTVAL key_integer(PARROT_INTERP, PMC *key)>
Translates a key value into an integer.
Takes an interpreter name and pointer to a key.
Returns an integer value corresponding to the key.
=cut
*/
PARROT_EXPORT
PARROT_WARN_UNUSED_RESULT
INTVAL
key_integer(PARROT_INTERP, ARGIN(PMC *key))
{
ASSERT_ARGS(key_integer)
INTVAL int_key;
STRING *str_key;
FLOATVAL num_key;
if (VTABLE_isa(interp, key, CONST_STRING(interp, "Key"))) {
switch (PObj_get_FLAGS(key) & KEY_type_FLAGS) {
case KEY_hash_iterator_FLAGS:
case KEY_integer_FLAG:
GETATTR_Key_int_key(interp, key, int_key);
return int_key;
case KEY_integer_FLAG | KEY_register_FLAG:
GETATTR_Key_int_key(interp, key, int_key);
return REG_INT(interp, int_key);
case KEY_number_FLAG:
GETATTR_Key_num_key(interp, key, num_key);
return (INTVAL)num_key;
case KEY_number_FLAG | KEY_register_FLAG:
GETATTR_Key_int_key(interp, key, int_key);
return (INTVAL)REG_NUM(interp, int_key);
case KEY_pmc_FLAG | KEY_register_FLAG:
{
PMC *reg;
GETATTR_Key_int_key(interp, key, int_key);
reg = REG_PMC(interp, int_key);
return VTABLE_get_integer(interp, reg);
}
case KEY_string_FLAG:
GETATTR_Key_str_key(interp, key, str_key);
return Parrot_str_to_int(interp, str_key);
case KEY_string_FLAG | KEY_register_FLAG:
{
STRING *s_reg;
GETATTR_Key_int_key(interp, key, int_key);
s_reg = REG_STR(interp, int_key);
return Parrot_str_to_int(interp, s_reg);
}
case KEY_string_FLAG | KEY_start_slice_FLAG:
case KEY_string_FLAG | KEY_inf_slice_FLAG:
{
STRING * const s_key = VTABLE_get_string(interp, key);
return Parrot_str_to_int(interp, s_key);
}
case KEY_start_slice_FLAG:
case KEY_inf_slice_FLAG:
default:
break;
}
}
return VTABLE_get_integer(interp, key);
}
/*
=item C<FLOATVAL key_number(PARROT_INTERP, PMC *key)>
Translates a key value into a number.
Takes an interpreter name and pointer to a key.
Returns a number value corresponding to the key.
Throws an exception if the key is not a valid number.
=cut
*/
PARROT_EXPORT
PARROT_WARN_UNUSED_RESULT
FLOATVAL
key_number(PARROT_INTERP, ARGIN(PMC *key))
{
ASSERT_ARGS(key_number)
INTVAL int_key;
FLOATVAL num_key;
switch (PObj_get_FLAGS(key) & KEY_type_FLAGS) {
case KEY_number_FLAG:
GETATTR_Key_num_key(interp, key, num_key);
return num_key;
case KEY_number_FLAG | KEY_register_FLAG:
GETATTR_Key_int_key(interp, key, int_key);
return REG_NUM(interp, int_key);
case KEY_pmc_FLAG:
return VTABLE_get_number(interp, key);
/* PMC_pmc_val(key)); */
case KEY_pmc_FLAG | KEY_register_FLAG:
{
PMC *reg;
GETATTR_Key_int_key(interp, key, int_key);
reg = REG_PMC(interp, int_key);
return VTABLE_get_number(interp, reg);
}
default:
Parrot_ex_throw_from_c_args(interp, NULL, EXCEPTION_INVALID_OPERATION,
"Key not a number!\n");
}
}
/*
=item C<STRING * key_string(PARROT_INTERP, PMC *key)>
Translates a key value into a string. Takes an interpreter name and pointer to
a key. Returns a string value corresponding to the key.
=cut
*/
PARROT_WARN_UNUSED_RESULT
PARROT_CANNOT_RETURN_NULL
STRING *
key_string(PARROT_INTERP, ARGIN(PMC *key))
{
ASSERT_ARGS(key_string)
INTVAL int_key;
FLOATVAL num_key;
switch (PObj_get_FLAGS(key) & KEY_type_FLAGS) {
/* remember to COW strings instead of returning them directly */
case KEY_string_FLAG:
{
STRING *s;
GETATTR_Key_str_key(interp, key, s);
if (s)
s = Parrot_str_new_COW(interp, s);
return s;
}
case KEY_string_FLAG | KEY_register_FLAG:
{
STRING *s;
GETATTR_Key_int_key(interp, key, int_key);
s = REG_STR(interp, int_key);
if (s)
s = Parrot_str_new_COW(interp, s);
return s;
}
/* PMC_pmc_val(key)); */
case KEY_pmc_FLAG | KEY_register_FLAG:
{
PMC *reg;
GETATTR_Key_int_key(interp, key, int_key);
reg = REG_PMC(interp, int_key);
return VTABLE_get_string(interp, reg);
}
case KEY_integer_FLAG:
GETATTR_Key_int_key(interp, key, int_key);
return Parrot_str_from_int(interp, int_key);
case KEY_integer_FLAG | KEY_register_FLAG:
GETATTR_Key_int_key(interp, key, int_key);
return Parrot_str_from_int(interp, REG_INT(interp, int_key));
case KEY_number_FLAG:
GETATTR_Key_num_key(interp, key, num_key);
return Parrot_str_from_num(interp, num_key);
case KEY_number_FLAG | KEY_register_FLAG:
GETATTR_Key_int_key(interp, key, int_key);
return Parrot_str_from_num(interp, REG_NUM(interp, int_key));
default:
case KEY_pmc_FLAG:
return VTABLE_get_string(interp, key);
}
}
/*
=item C<PMC * key_pmc(PARROT_INTERP, PMC *key)>
These functions return the integer/number/string/PMC values of C<key> if
possible. Otherwise they throw exceptions.
=cut
*/
PARROT_EXPORT
PARROT_CANNOT_RETURN_NULL
PARROT_WARN_UNUSED_RESULT
PMC *
key_pmc(PARROT_INTERP, ARGIN(PMC *key))
{
ASSERT_ARGS(key_pmc)
INTVAL int_key;
switch (PObj_get_FLAGS(key) & KEY_type_FLAGS) {
case KEY_pmc_FLAG | KEY_register_FLAG:
GETATTR_Key_int_key(interp, key, int_key);
return REG_PMC(interp, int_key);
default:
return key; /* PMC_pmc_val(key); */
}
}
/*
=item C<PMC * key_next(PARROT_INTERP, PMC *key)>
Returns the next key if C<key> is in a sequence of linked keys.
=cut
*/
PARROT_EXPORT
PARROT_CAN_RETURN_NULL
PARROT_WARN_UNUSED_RESULT
PMC *
key_next(PARROT_INTERP, ARGIN(PMC *key))
{
ASSERT_ARGS(key_next)
PMC *next_key;
if (VTABLE_isa(interp, key, CONST_STRING(interp, "Key")) && key->pmc_ext) {
GETATTR_Key_next_key(interp, key, next_key);
return next_key;
}
else {
return NULL;
}
}
/*
=item C<PMC * key_append(PARROT_INTERP, PMC *key1, PMC *key2)>
Appends C<key2> to C<key1>.
Note that if C<key1> is not the last key in a sequence of linked keys then the
last key will be found and C<key2> appended to that.
Returns C<key1>.
=cut
*/
PARROT_EXPORT
PARROT_CANNOT_RETURN_NULL
PARROT_IGNORABLE_RESULT
PMC *
key_append(PARROT_INTERP, ARGMOD(PMC *key1), ARGIN(PMC *key2))
{
ASSERT_ARGS(key_append)
PMC *tail = key1;
PMC *tail_next;
GETATTR_Key_next_key(interp, tail, tail_next);
while (tail_next) {
tail = tail_next;
GETATTR_Key_next_key(interp, tail, tail_next);
}
SETATTR_Key_next_key(interp, tail, key2);
return key1;
}
/*
=item C<void key_mark(PARROT_INTERP, PMC *key)>
Marks C<key> as live.
=cut
*/
PARROT_EXPORT
void
key_mark(PARROT_INTERP, ARGIN(PMC *key))
{
ASSERT_ARGS(key_mark)
const UINTVAL flags = PObj_get_FLAGS(key) & KEY_type_FLAGS;
PMC *next_key;
STRING *str_key;
if (flags == KEY_string_FLAG) {
GETATTR_Key_str_key(interp, key, str_key);
pobject_lives(interp, (PObj *)str_key);
}
/*
* KEY_hash_iterator_FLAGS denote a hash key iteration, PMC_data() is
* the bucket_index and not the next key component
* Note to self: shoot whoever thought this was a good idea.
*/
if (flags == KEY_hash_iterator_FLAGS)
return;
/* if iteration hasn't started, above flag isn't set yet */
GETATTR_Key_next_key(interp, key, next_key);
if (next_key && (void *)next_key != (void *)INITBucketIndex)
pobject_lives(interp, (PObj *)next_key);
}
/*
=item C<STRING * key_set_to_string(PARROT_INTERP, PMC *key)>
Translates a series of key values into strings, quoted or bracketed if
appropriate. Takes an interpreter name and pointer to a key. Returns a
string value corresponding to the key.
=cut
*/
PARROT_EXPORT
PARROT_CANNOT_RETURN_NULL
PARROT_WARN_UNUSED_RESULT
STRING *
key_set_to_string(PARROT_INTERP, ARGIN_NULLOK(PMC *key))
{
ASSERT_ARGS(key_set_to_string)
STRING * const semicolon = CONST_STRING(interp, " ; ");
STRING * const quote = CONST_STRING(interp, "'");
STRING *value = Parrot_str_new(interp, "[ ", 2);
PMC *next_key;
INTVAL int_key;
STRING *str_key;
for (;key;) {
switch (PObj_get_FLAGS(key) & KEY_type_FLAGS) {
case KEY_integer_FLAG:
GETATTR_Key_int_key(interp, key, int_key);
value = Parrot_str_append(interp, value,
Parrot_str_from_int(interp, int_key));
break;
case KEY_number_FLAG:
GETATTR_Key_int_key(interp, key, int_key);
value = Parrot_str_append(interp, value,
Parrot_str_from_num(interp, int_key));
break;
case KEY_string_FLAG:
GETATTR_Key_str_key(interp, key, str_key);
value = Parrot_str_append(interp, value, quote);
value = Parrot_str_append(interp, value, str_key);
value = Parrot_str_append(interp, value, quote);
break;
case KEY_pmc_FLAG:
value = Parrot_str_append(interp, value,
VTABLE_get_string(interp, key));
break;
case KEY_integer_FLAG | KEY_register_FLAG:
GETATTR_Key_int_key(interp, key, int_key);
value = Parrot_str_append(interp, value,
Parrot_str_from_int(interp,
REG_INT(interp, int_key)));
break;
case KEY_number_FLAG | KEY_register_FLAG:
GETATTR_Key_int_key(interp, key, int_key);
value = Parrot_str_append(interp, value,
Parrot_str_from_num(interp,
REG_NUM(interp, int_key)));
break;
case KEY_string_FLAG | KEY_register_FLAG:
value = Parrot_str_append(interp, value, quote);
GETATTR_Key_int_key(interp, key, int_key);
value = Parrot_str_append(interp, value,
REG_STR(interp, int_key));
value = Parrot_str_append(interp, value, quote);
break;
case KEY_pmc_FLAG | KEY_register_FLAG:
{
PMC *reg;
GETATTR_Key_int_key(interp, key, int_key);
reg = REG_PMC(interp, int_key);
value = Parrot_str_append(interp, value,
VTABLE_get_string(interp, reg));
}
break;
default:
value = Parrot_str_append(interp, value, CONST_STRING(interp, "Key type unknown"));
break;
}
GETATTR_Key_next_key(interp, key, next_key);
if (next_key)
value = Parrot_str_append(interp, value, semicolon);
GETATTR_Key_next_key(interp, key, key);
}
value = Parrot_str_append(interp, value, Parrot_str_new(interp, " ]", 2));
return value;
}
/*
=back
=head1 SEE ALSO
F<include/parrot/key.h>.
=head1 HISTORY
Initial version by Jeff G. on 2001.12.05.
=cut
*/
/*
* Local variables:
* c-file-style: "parrot"
* End:
* vim: expandtab shiftwidth=4:
*/