/*
- * Copyright (C) 1995-2008 University of Karlsruhe. All right reserved.
+ * Copyright (C) 1995-2011 University of Karlsruhe. All right reserved.
*
* This file is part of libFirm.
*
#include <assert.h>
#include <stdlib.h>
#include <string.h>
-#ifdef HAVE_STRINGS_H
-#include <strings.h>
-#endif
#include <stdlib.h>
+#include <strings.h>
#include "bitfiddle.h"
#include "tv_t.h"
#define N_CONSTANTS 2048
/* unused, float to int doesn't work yet */
-enum float_to_int_mode {
+typedef enum float_to_int_mode {
TRUNCATE,
ROUND
-};
+} float_to_int_mode;
-#define GET_FLOAT_TO_INT_MODE() TRUNCATE
+static float_to_int_mode current_float_to_int_mode = TRUNCATE;
#define SWITCH_NOINFINITY 0
#define SWITCH_NODENORMALS 0
# define TARVAL_VERIFY(a) ((void)0)
#endif
-#define INSERT_TARVAL(tv) ((tarval*)set_insert(tarvals, (tv), sizeof(tarval), hash_tv((tv))))
-#define FIND_TARVAL(tv) ((tarval*)set_find(tarvals, (tv), sizeof(tarval), hash_tv((tv))))
+#define INSERT_TARVAL(tv) ((ir_tarval*)set_insert(tarvals, (tv), sizeof(ir_tarval), hash_tv((tv))))
+#define FIND_TARVAL(tv) ((ir_tarval*)set_find(tarvals, (tv), sizeof(ir_tarval), hash_tv((tv))))
#define INSERT_VALUE(val, size) (set_insert(values, (val), size, hash_val((val), size)))
#define FIND_VALUE(val, size) (set_find(values, (val), size, hash_val((val), size)))
* private functions
****************************************************************************/
#ifndef NDEBUG
-static int hash_val(const void *value, unsigned int length);
-static int hash_tv(tarval *tv);
-static void _fail_verify(tarval *tv, const char* file, int line)
+static unsigned hash_val(const void *value, size_t length);
+static unsigned hash_tv(ir_tarval *tv);
+static void _fail_verify(ir_tarval *tv, const char* file, int line)
{
/* print a memory image of the tarval and throw an assertion */
if (tv)
panic("%s:%d: Invalid tarval (null)", file, line);
}
#ifdef __GNUC__
-inline static void tarval_verify(tarval *tv) __attribute__ ((unused));
+inline static void tarval_verify(ir_tarval *tv) __attribute__ ((unused));
#endif
-inline static void tarval_verify(tarval *tv)
+inline static void tarval_verify(ir_tarval *tv)
{
assert(tv);
assert(tv->mode);
#endif /* NDEBUG */
/** Hash a tarval. */
-static int hash_tv(tarval *tv)
+static unsigned hash_tv(ir_tarval *tv)
{
- return (PTR_TO_INT(tv->value) ^ PTR_TO_INT(tv->mode)) + tv->length;
+ return (unsigned)((PTR_TO_INT(tv->value) ^ PTR_TO_INT(tv->mode)) + tv->length);
}
/** Hash a value. Treat it as a byte array. */
-static int hash_val(const void *value, unsigned int length)
+static unsigned hash_val(const void *value, size_t length)
{
- unsigned int i;
- unsigned int hash = 0;
+ size_t i;
+ unsigned hash = 0;
/* scramble the byte - array */
for (i = 0; i < length; ++i) {
static int cmp_tv(const void *p1, const void *p2, size_t n)
{
- const tarval *tv1 = p1;
- const tarval *tv2 = p2;
+ const ir_tarval *tv1 = (const ir_tarval*) p1;
+ const ir_tarval *tv2 = (const ir_tarval*) p2;
(void) n;
assert(tv1->kind == k_tarval);
}
/** finds tarval with value/mode or creates new tarval */
-static tarval *get_tarval(const void *value, int length, ir_mode *mode)
+static ir_tarval *get_tarval(const void *value, size_t length, ir_mode *mode)
{
- tarval tv;
+ ir_tarval tv;
tv.kind = k_tarval;
tv.mode = mode;
if (length > 0) {
/* if there already is such a value, it is returned, else value
* is copied into the set */
- char *temp = alloca(length);
+ char *temp = (char*) alloca(length);
memcpy(temp, value, length);
if (get_mode_arithmetic(mode) == irma_twos_complement) {
sign_extend(temp, mode);
}
/* if there is such a tarval, it is returned, else tv is copied
* into the set */
- return (tarval *)INSERT_TARVAL(&tv);
+ return (ir_tarval *)INSERT_TARVAL(&tv);
}
/**
* handle overflow
*/
-static tarval *get_tarval_overflow(const void *value, int length, ir_mode *mode)
+static ir_tarval *get_tarval_overflow(const void *value, size_t length, ir_mode *mode)
{
char *temp;
switch (get_mode_sort(mode)) {
case irms_reference:
/* addresses always wrap around */
- temp = alloca(sc_get_buffer_length());
+ temp = (char*) alloca(sc_get_buffer_length());
memcpy(temp, value, sc_get_buffer_length());
sc_truncate(get_mode_size_bits(mode), temp);
/* the sc_ module expects that all bits are set ... */
case TV_OVERFLOW_SATURATE:
return get_mode_max(mode);
case TV_OVERFLOW_WRAP:
- temp = alloca(sc_get_buffer_length());
+ temp = (char*) alloca(sc_get_buffer_length());
memcpy(temp, value, sc_get_buffer_length());
sc_truncate(get_mode_size_bits(mode), temp);
/* the sc_ module expects that all bits are set ... */
case TV_OVERFLOW_SATURATE:
return get_mode_min(mode);
case TV_OVERFLOW_WRAP: {
- char *temp = alloca(sc_get_buffer_length());
+ char *temp = (char*) alloca(sc_get_buffer_length());
memcpy(temp, value, sc_get_buffer_length());
sc_truncate(get_mode_size_bits(mode), temp);
return get_tarval(temp, length, mode);
break;
case irms_float_number:
- if (SWITCH_NOINFINITY && fc_is_inf(value)) {
+#ifdef SWITCH_NOINFINITY
+ if (fc_is_inf((const fp_value*) value)) {
/* clip infinity to maximum value */
- return fc_is_negative(value) ? get_mode_min(mode) : get_mode_max(mode);
+ return fc_is_negative((const fp_value*) value) ? get_mode_min(mode) : get_mode_max(mode);
}
+#endif
- if (SWITCH_NODENORMALS && fc_is_subnormal(value)) {
+#ifdef SWITCH_NODENORMALS
+ if (fc_is_subnormal((const fp_value*) value)) {
/* clip denormals to zero */
return get_mode_null(mode);
}
+#endif
break;
default:
/*
* public variables declared in tv.h
*/
-static tarval reserved_tv[6];
+static ir_tarval reserved_tv[6];
-tarval *tarval_b_false = &reserved_tv[0];
-tarval *tarval_b_true = &reserved_tv[1];
-tarval *tarval_bad = &reserved_tv[2];
-tarval *tarval_undefined = &reserved_tv[3];
-tarval *tarval_reachable = &reserved_tv[4];
-tarval *tarval_unreachable = &reserved_tv[5];
+ir_tarval *tarval_b_false = &reserved_tv[0];
+ir_tarval *tarval_b_true = &reserved_tv[1];
+ir_tarval *tarval_bad = &reserved_tv[2];
+ir_tarval *tarval_undefined = &reserved_tv[3];
+ir_tarval *tarval_reachable = &reserved_tv[4];
+ir_tarval *tarval_unreachable = &reserved_tv[5];
/**
* get the float descriptor for given mode.
/* case 128: return &quad_desc; */
default:
panic("Unsupported mode in get_descriptor()");
- return NULL;
}
}
-tarval *new_integer_tarval_from_str(const char *str, size_t len, char sign,
- unsigned char base, ir_mode *mode)
+ir_tarval *new_integer_tarval_from_str(const char *str, size_t len, char sign,
+ unsigned char base, ir_mode *mode)
{
void *buffer;
int ok;
return get_tarval_overflow(buffer, sc_get_buffer_length(), mode);
}
-static tarval *new_tarval_from_str_int(const char *str, size_t len,
- ir_mode *mode)
+static ir_tarval *new_tarval_from_str_int(const char *str, size_t len,
+ ir_mode *mode)
{
void *buffer;
unsigned base = 10;
/*
* Constructors =============================================================
*/
-tarval *new_tarval_from_str(const char *str, size_t len, ir_mode *mode)
+ir_tarval *new_tarval_from_str(const char *str, size_t len, ir_mode *mode)
{
const ieee_descriptor_t *desc;
/*
* helper function, create a tarval from long
*/
-tarval *new_tarval_from_long(long l, ir_mode *mode)
+ir_tarval *new_tarval_from_long(long l, ir_mode *mode)
{
assert(mode);
return new_tarval_from_double((long double)l, mode);
default:
- assert(0 && "unsupported mode sort");
+ panic("unsupported mode sort");
}
- return NULL;
}
/* returns non-zero if can be converted to long */
-int tarval_is_long(tarval *tv)
+int tarval_is_long(ir_tarval *tv)
{
if (!mode_is_int(tv->mode) && !mode_is_reference(tv->mode))
return 0;
}
/* this might overflow the machine's long, so use only with small values */
-long get_tarval_long(tarval* tv)
+long get_tarval_long(ir_tarval* tv)
{
assert(tarval_is_long(tv) && "tarval too big to fit in long");
return sc_val_to_long(tv->value);
}
-tarval *new_tarval_from_double(long double d, ir_mode *mode)
+ir_tarval *new_tarval_from_long_double(long double d, ir_mode *mode)
{
const ieee_descriptor_t *desc;
return get_tarval(fc_get_buffer(), fc_get_buffer_length(), mode);
}
+ir_tarval *new_tarval_from_double(double d, ir_mode *mode)
+{
+ return new_tarval_from_long_double(d, mode);
+}
+
/* returns non-zero if can be converted to double */
-int tarval_is_double(tarval *tv)
+int tarval_is_double(ir_tarval *tv)
{
assert(tv);
return (get_mode_sort(tv->mode) == irms_float_number);
}
-long double get_tarval_double(tarval *tv)
+long double get_tarval_long_double(ir_tarval *tv)
{
assert(tarval_is_double(tv));
- return fc_val_to_ieee754(tv->value);
+ return fc_val_to_ieee754((const fp_value*) tv->value);
+}
+
+double get_tarval_double(ir_tarval *tv)
+{
+ return get_tarval_long_double(tv);
}
*/
/* get the mode of the tarval */
-ir_mode *(get_tarval_mode)(const tarval *tv)
+ir_mode *(get_tarval_mode)(const ir_tarval *tv)
{
return _get_tarval_mode(tv);
}
* therefore the irmode functions should be preferred to the functions below.
*/
-tarval *(get_tarval_bad)(void)
+ir_tarval *(get_tarval_bad)(void)
{
return _get_tarval_bad();
}
-tarval *(get_tarval_undefined)(void)
+ir_tarval *(get_tarval_undefined)(void)
{
return _get_tarval_undefined();
}
-tarval *(get_tarval_b_false)(void)
+ir_tarval *(get_tarval_b_false)(void)
{
return _get_tarval_b_false();
}
-tarval *(get_tarval_b_true)(void)
+ir_tarval *(get_tarval_b_true)(void)
{
return _get_tarval_b_true();
}
-tarval *(get_tarval_reachable)(void)
+ir_tarval *(get_tarval_reachable)(void)
{
return _get_tarval_reachable();
}
-tarval *(get_tarval_unreachable)(void)
+ir_tarval *(get_tarval_unreachable)(void)
{
return _get_tarval_unreachable();
}
-tarval *get_tarval_max(ir_mode *mode)
+ir_tarval *get_tarval_max(ir_mode *mode)
{
const ieee_descriptor_t *desc;
return tarval_bad;
}
-tarval *get_tarval_min(ir_mode *mode)
+ir_tarval *get_tarval_min(ir_mode *mode)
{
const ieee_descriptor_t *desc;
/** The bit pattern for the pointer NULL */
static long _null_value = 0;
-tarval *get_tarval_null(ir_mode *mode)
+ir_tarval *get_tarval_null(ir_mode *mode)
{
assert(mode);
return tarval_bad;
}
-tarval *get_tarval_one(ir_mode *mode)
+ir_tarval *get_tarval_one(ir_mode *mode)
{
assert(mode);
return tarval_bad;
}
-tarval *get_tarval_all_one(ir_mode *mode)
+ir_tarval *get_tarval_all_one(ir_mode *mode)
{
assert(mode);
return tarval_bad;
}
-int tarval_is_constant(tarval *tv)
+int tarval_is_constant(ir_tarval *tv)
{
int num_res = sizeof(reserved_tv) / sizeof(reserved_tv[0]);
return (tv < &reserved_tv[2] || tv > &reserved_tv[num_res - 1]);
}
-tarval *get_tarval_minus_one(ir_mode *mode)
+ir_tarval *get_tarval_minus_one(ir_mode *mode)
{
assert(mode);
return tarval_bad;
}
-tarval *get_tarval_nan(ir_mode *mode)
+ir_tarval *get_tarval_nan(ir_mode *mode)
{
const ieee_descriptor_t *desc;
panic("mode %F does not support NaN value", mode);
}
-tarval *get_tarval_plus_inf(ir_mode *mode)
+ir_tarval *get_tarval_plus_inf(ir_mode *mode)
{
assert(mode);
if (get_mode_n_vector_elems(mode) > 1)
panic("mode %F does not support +inf value", mode);
}
-tarval *get_tarval_minus_inf(ir_mode *mode)
+ir_tarval *get_tarval_minus_inf(ir_mode *mode)
{
assert(mode);
/*
* test if negative number, 1 means 'yes'
*/
-int tarval_is_negative(tarval *a)
+int tarval_is_negative(ir_tarval *a)
{
if (get_mode_n_vector_elems(a->mode) > 1)
panic("vector arithmetic not implemented yet");
return sc_comp(a->value, get_mode_null(a->mode)->value) == -1 ? 1 : 0;
case irms_float_number:
- return fc_is_negative(a->value);
+ return fc_is_negative((const fp_value*) a->value);
default:
panic("mode %F does not support negation value", a->mode);
/*
* test if null, 1 means 'yes'
*/
-int tarval_is_null(tarval *a)
+int tarval_is_null(ir_tarval *a)
{
return
a != tarval_bad &&
/*
* test if one, 1 means 'yes'
*/
-int tarval_is_one(tarval *a)
+int tarval_is_one(ir_tarval *a)
{
return
a != tarval_bad &&
a == get_mode_one(get_tarval_mode(a));
}
-int tarval_is_all_one(tarval *tv)
+int tarval_is_all_one(ir_tarval *tv)
{
return
tv != tarval_bad &&
/*
* test if one, 1 means 'yes'
*/
-int tarval_is_minus_one(tarval *a)
+int tarval_is_minus_one(ir_tarval *a)
{
return
a != tarval_bad &&
/*
* comparison
*/
-pn_Cmp tarval_cmp(tarval *a, tarval *b)
+ir_relation tarval_cmp(ir_tarval *a, ir_tarval *b)
{
carry_flag = -1;
if (a == tarval_bad || b == tarval_bad) {
panic("Comparison with tarval_bad");
- return pn_Cmp_False;
}
if (a == tarval_undefined || b == tarval_undefined)
- return pn_Cmp_False;
+ return ir_relation_false;
if (a->mode != b->mode)
- return pn_Cmp_False;
+ return ir_relation_false;
if (get_mode_n_vector_elems(a->mode) > 1) {
/* vector arithmetic not implemented yet */
- assert(0 && "cmp not implemented for vector modes");
+ panic("cmp not implemented for vector modes");
}
/* Here the two tarvals are unequal and of the same mode */
case irms_memory:
case irms_auxiliary:
if (a == b)
- return pn_Cmp_Eq;
- return pn_Cmp_False;
+ return ir_relation_equal;
+ return ir_relation_false;
case irms_float_number:
- /* it should be safe to enable this even if other arithmetic is disabled */
- /*if (no_float)
- return pn_Cmp_False;*/
/*
* BEWARE: we cannot compare a == b here, because
* a NaN is always Unordered to any other value, even to itself!
*/
- switch (fc_comp(a->value, b->value)) {
- case -1: return pn_Cmp_Lt;
- case 0: return pn_Cmp_Eq;
- case 1: return pn_Cmp_Gt;
- case 2: return pn_Cmp_Uo;
- default: return pn_Cmp_False;
+ switch (fc_comp((const fp_value*) a->value, (const fp_value*) b->value)) {
+ case -1: return ir_relation_less;
+ case 0: return ir_relation_equal;
+ case 1: return ir_relation_greater;
+ case 2: return ir_relation_unordered;
+ default: return ir_relation_false;
}
case irms_reference:
case irms_int_number:
if (a == b)
- return pn_Cmp_Eq;
- return sc_comp(a->value, b->value) == 1 ? pn_Cmp_Gt : pn_Cmp_Lt;
+ return ir_relation_equal;
+ return sc_comp(a->value, b->value) == 1 ? ir_relation_greater : ir_relation_less;
case irms_internal_boolean:
if (a == b)
- return pn_Cmp_Eq;
- return a == tarval_b_true ? pn_Cmp_Gt : pn_Cmp_Lt;
+ return ir_relation_equal;
+ return a == tarval_b_true ? ir_relation_greater : ir_relation_less;
}
- return pn_Cmp_False;
+ return ir_relation_false;
}
/*
* convert to other mode
*/
-tarval *tarval_convert_to(tarval *src, ir_mode *dst_mode)
+ir_tarval *tarval_convert_to(ir_tarval *src, ir_mode *dst_mode)
{
char *buffer;
- fp_value *res;
+ fp_value *res = NULL;
const ieee_descriptor_t *desc;
int len;
switch (get_mode_sort(dst_mode)) {
case irms_float_number:
desc = get_descriptor(dst_mode);
- fc_cast(src->value, desc, NULL);
+ fc_cast((const fp_value*) src->value, desc, NULL);
return get_tarval(fc_get_buffer(), fc_get_buffer_length(), dst_mode);
case irms_int_number:
- switch (GET_FLOAT_TO_INT_MODE()) {
+ switch (current_float_to_int_mode) {
case TRUNCATE:
- res = fc_int(src->value, NULL);
+ res = fc_int((const fp_value*) src->value, NULL);
break;
case ROUND:
- res = fc_rnd(src->value, NULL);
- break;
- default:
- panic("Unsupported float to int conversion mode in tarval_convert_to()");
+ res = fc_rnd((const fp_value*) src->value, NULL);
break;
}
- buffer = alloca(sc_get_buffer_length());
+ buffer = (char*) alloca(sc_get_buffer_length());
if (! fc_flt2int(res, buffer, dst_mode))
return tarval_bad;
return get_tarval(buffer, sc_get_buffer_length(), dst_mode);
case irms_reference:
case irms_int_number:
- buffer = alloca(sc_get_buffer_length());
+ buffer = (char*) alloca(sc_get_buffer_length());
memcpy(buffer, src->value, sc_get_buffer_length());
sign_extend(buffer, dst_mode);
return get_tarval_overflow(buffer, src->length, dst_mode);
/* XXX floating point unit does not understand internal integer
* representation, convert to string first, then create float from
* string */
- buffer = alloca(100);
+ buffer = (char*) alloca(100);
/* decimal string representation because hexadecimal output is
* interpreted unsigned by fc_val_from_str, so this is a HACK */
len = snprintf(buffer, 100, "%s",
case irms_reference:
if (get_mode_sort(dst_mode) == irms_int_number) {
- buffer = alloca(sc_get_buffer_length());
+ buffer = (char*) alloca(sc_get_buffer_length());
memcpy(buffer, src->value, sc_get_buffer_length());
sign_extend(buffer, src->mode);
return get_tarval_overflow(buffer, src->length, dst_mode);
/*
* bitwise negation
*/
-tarval *tarval_not(tarval *a)
+ir_tarval *tarval_not(ir_tarval *a)
{
char *buffer;
switch (get_mode_sort(a->mode)) {
case irms_reference:
case irms_int_number:
- buffer = alloca(sc_get_buffer_length());
+ buffer = (char*) alloca(sc_get_buffer_length());
sc_not(a->value, buffer);
return get_tarval(buffer, a->length, a->mode);
return tarval_bad;
default:
- assert(0 && "bitwise negation is only allowed for integer and boolean");
- return tarval_bad;
+ panic("bitwise negation is only allowed for integer and boolean");
}
}
/*
* arithmetic negation
*/
-tarval *tarval_neg(tarval *a)
+ir_tarval *tarval_neg(ir_tarval *a)
{
char *buffer;
switch (get_mode_sort(a->mode)) {
case irms_int_number:
- buffer = alloca(sc_get_buffer_length());
+ buffer = (char*) alloca(sc_get_buffer_length());
sc_neg(a->value, buffer);
return get_tarval_overflow(buffer, a->length, a->mode);
/*if (no_float)
return tarval_bad;*/
- fc_neg(a->value, NULL);
+ fc_neg((const fp_value*) a->value, NULL);
return get_tarval_overflow(fc_get_buffer(), fc_get_buffer_length(), a->mode);
default:
/*
* addition
*/
-tarval *tarval_add(tarval *a, tarval *b)
+ir_tarval *tarval_add(ir_tarval *a, ir_tarval *b)
{
char *buffer;
case irms_reference:
case irms_int_number:
/* modes of a,b are equal, so result has mode of a as this might be the character */
- buffer = alloca(sc_get_buffer_length());
+ buffer = (char*) alloca(sc_get_buffer_length());
sc_add(a->value, b->value, buffer);
carry_flag = sc_get_bit_at(buffer, get_mode_size_bits(a->mode));
return get_tarval_overflow(buffer, a->length, a->mode);
if (no_float)
return tarval_bad;
- fc_add(a->value, b->value, NULL);
+ fc_add((const fp_value*) a->value, (const fp_value*) b->value, NULL);
return get_tarval_overflow(fc_get_buffer(), fc_get_buffer_length(), a->mode);
default:
/*
* subtraction
*/
-tarval *tarval_sub(tarval *a, tarval *b, ir_mode *dst_mode)
+ir_tarval *tarval_sub(ir_tarval *a, ir_tarval *b, ir_mode *dst_mode)
{
char *buffer;
case irms_reference:
case irms_int_number:
/* modes of a,b are equal, so result has mode of a as this might be the character */
- buffer = alloca(sc_get_buffer_length());
+ buffer = (char*) alloca(sc_get_buffer_length());
sc_sub(a->value, b->value, buffer);
carry_flag = sc_get_bit_at(buffer, get_mode_size_bits(a->mode));
return get_tarval_overflow(buffer, a->length, a->mode);
if (no_float)
return tarval_bad;
- fc_sub(a->value, b->value, NULL);
+ fc_sub((const fp_value*) a->value, (const fp_value*) b->value, NULL);
return get_tarval_overflow(fc_get_buffer(), fc_get_buffer_length(), a->mode);
default:
/*
* multiplication
*/
-tarval *tarval_mul(tarval *a, tarval *b)
+ir_tarval *tarval_mul(ir_tarval *a, ir_tarval *b)
{
char *buffer;
switch (get_mode_sort(a->mode)) {
case irms_int_number:
/* modes of a,b are equal */
- buffer = alloca(sc_get_buffer_length());
+ buffer = (char*) alloca(sc_get_buffer_length());
sc_mul(a->value, b->value, buffer);
return get_tarval_overflow(buffer, a->length, a->mode);
if (no_float)
return tarval_bad;
- fc_mul(a->value, b->value, NULL);
+ fc_mul((const fp_value*) a->value, (const fp_value*) b->value, NULL);
return get_tarval_overflow(fc_get_buffer(), fc_get_buffer_length(), a->mode);
default:
}
/*
- * floating point division
+ * division
+ * overflow is impossible, but look out for division by zero
*/
-tarval *tarval_quo(tarval *a, tarval *b)
+ir_tarval *tarval_div(ir_tarval *a, ir_tarval *b)
{
- assert((a->mode == b->mode) && mode_is_float(a->mode));
+ ir_mode *mode = a->mode;
+ assert(mode == b->mode);
carry_flag = -1;
- if (no_float)
- return tarval_bad;
-
- if (get_mode_n_vector_elems(a->mode) > 1) {
+ if (get_mode_n_vector_elems(mode) > 1) {
/* vector arithmetic not implemented yet */
return tarval_bad;
}
- fc_div(a->value, b->value, NULL);
- return get_tarval_overflow(fc_get_buffer(), fc_get_buffer_length(), a->mode);
-}
-
-/*
- * integer division
- * overflow is impossible, but look out for division by zero
- */
-tarval *tarval_div(tarval *a, tarval *b)
-{
- assert((a->mode == b->mode) && mode_is_int(a->mode));
-
- carry_flag = -1;
+ if (mode_is_int(mode)) {
+ /* x/0 error */
+ if (b == get_mode_null(mode))
+ return tarval_bad;
- if (get_mode_n_vector_elems(a->mode) > 1) {
- /* vector arithmetic not implemented yet */
- return tarval_bad;
+ /* modes of a,b are equal */
+ sc_div(a->value, b->value, NULL);
+ return get_tarval(sc_get_buffer(), sc_get_buffer_length(), a->mode);
+ } else {
+ assert(mode_is_float(mode));
+ fc_div((const fp_value*) a->value, (const fp_value*) b->value, NULL);
+ return get_tarval_overflow(fc_get_buffer(), fc_get_buffer_length(), mode);
}
-
- /* x/0 error */
- if (b == get_mode_null(b->mode)) return tarval_bad;
- /* modes of a,b are equal */
- sc_div(a->value, b->value, NULL);
- return get_tarval(sc_get_buffer(), sc_get_buffer_length(), a->mode);
}
/*
* remainder
* overflow is impossible, but look out for division by zero
*/
-tarval *tarval_mod(tarval *a, tarval *b)
+ir_tarval *tarval_mod(ir_tarval *a, ir_tarval *b)
{
assert((a->mode == b->mode) && mode_is_int(a->mode));
* integer division AND remainder
* overflow is impossible, but look out for division by zero
*/
-tarval *tarval_divmod(tarval *a, tarval *b, tarval **mod)
+ir_tarval *tarval_divmod(ir_tarval *a, ir_tarval *b, ir_tarval **mod)
{
int len = sc_get_buffer_length();
- char *div_res = alloca(len);
- char *mod_res = alloca(len);
+ char *div_res = (char*) alloca(len);
+ char *mod_res = (char*) alloca(len);
assert((a->mode == b->mode) && mode_is_int(a->mode));
/*
* absolute value
*/
-tarval *tarval_abs(tarval *a)
+ir_tarval *tarval_abs(ir_tarval *a)
{
char *buffer;
switch (get_mode_sort(a->mode)) {
case irms_int_number:
if (sc_comp(a->value, get_mode_null(a->mode)->value) == -1) {
- buffer = alloca(sc_get_buffer_length());
+ buffer = (char*) alloca(sc_get_buffer_length());
sc_neg(a->value, buffer);
return get_tarval_overflow(buffer, a->length, a->mode);
}
/*if (no_float)
return tarval_bad;*/
- if (fc_comp(a->value, get_mode_null(a->mode)->value) == -1) {
- fc_neg(a->value, NULL);
+ if (fc_comp((const fp_value*) a->value,
+ (const fp_value*) get_mode_null(a->mode)->value) == -1) {
+ fc_neg((const fp_value*) a->value, NULL);
return get_tarval_overflow(fc_get_buffer(), fc_get_buffer_length(), a->mode);
}
return a;
default:
- return tarval_bad;
+ break;
}
return tarval_bad;
}
/*
* bitwise and
*/
-tarval *tarval_and(tarval *a, tarval *b)
+ir_tarval *tarval_and(ir_tarval *a, ir_tarval *b)
{
assert(a->mode == b->mode);
return get_tarval(sc_get_buffer(), sc_get_buffer_length(), a->mode);
default:
- assert(0 && "operation not defined on mode");
- return tarval_bad;
+ panic("operation not defined on mode");
}
}
-tarval *tarval_andnot(tarval *a, tarval *b)
+ir_tarval *tarval_andnot(ir_tarval *a, ir_tarval *b)
{
assert(a->mode == b->mode);
return get_tarval(sc_get_buffer(), sc_get_buffer_length(), a->mode);
default:
- assert(0 && "operation not defined on mode");
- return tarval_bad;
+ panic("operation not defined on mode");
}
}
/*
* bitwise or
*/
-tarval *tarval_or(tarval *a, tarval *b)
+ir_tarval *tarval_or(ir_tarval *a, ir_tarval *b)
{
assert(a->mode == b->mode);
return get_tarval(sc_get_buffer(), sc_get_buffer_length(), a->mode);
default:
- assert(0 && "operation not defined on mode");
- return tarval_bad;
+ panic("operation not defined on mode");
}
}
/*
* bitwise exclusive or (xor)
*/
-tarval *tarval_eor(tarval *a, tarval *b)
+ir_tarval *tarval_eor(ir_tarval *a, ir_tarval *b)
{
assert((a->mode == b->mode));
return get_tarval(sc_get_buffer(), sc_get_buffer_length(), a->mode);
default:
- assert(0 && "operation not defined on mode");
- return tarval_bad;;
+ panic("operation not defined on mode");
}
}
/*
* bitwise left shift
*/
-tarval *tarval_shl(tarval *a, tarval *b)
+ir_tarval *tarval_shl(ir_tarval *a, ir_tarval *b)
{
char *temp_val = NULL;
}
if (get_mode_modulo_shift(a->mode) != 0) {
- temp_val = alloca(sc_get_buffer_length());
+ temp_val = (char*) alloca(sc_get_buffer_length());
sc_val_from_ulong(get_mode_modulo_shift(a->mode), temp_val);
sc_mod(b->value, temp_val, temp_val);
/*
* bitwise unsigned right shift
*/
-tarval *tarval_shr(tarval *a, tarval *b)
+ir_tarval *tarval_shr(ir_tarval *a, ir_tarval *b)
{
char *temp_val = NULL;
}
if (get_mode_modulo_shift(a->mode) != 0) {
- temp_val = alloca(sc_get_buffer_length());
+ temp_val = (char*) alloca(sc_get_buffer_length());
sc_val_from_ulong(get_mode_modulo_shift(a->mode), temp_val);
sc_mod(b->value, temp_val, temp_val);
/*
* bitwise signed right shift
*/
-tarval *tarval_shrs(tarval *a, tarval *b)
+ir_tarval *tarval_shrs(ir_tarval *a, ir_tarval *b)
{
char *temp_val = NULL;
}
if (get_mode_modulo_shift(a->mode) != 0) {
- temp_val = alloca(sc_get_buffer_length());
+ temp_val = (char*) alloca(sc_get_buffer_length());
sc_val_from_ulong(get_mode_modulo_shift(a->mode), temp_val);
sc_mod(b->value, temp_val, temp_val);
/*
* bitwise rotation to left
*/
-tarval *tarval_rotl(tarval *a, tarval *b)
+ir_tarval *tarval_rotl(ir_tarval *a, ir_tarval *b)
{
char *temp_val = NULL;
}
if (get_mode_modulo_shift(a->mode) != 0) {
- temp_val = alloca(sc_get_buffer_length());
+ temp_val = (char*) alloca(sc_get_buffer_length());
sc_val_from_ulong(get_mode_modulo_shift(a->mode), temp_val);
sc_mod(b->value, temp_val, temp_val);
/*
* Output of tarvals
*/
-int tarval_snprintf(char *buf, size_t len, tarval *tv)
+int tarval_snprintf(char *buf, size_t len, ir_tarval *tv)
{
static const tarval_mode_info default_info = { TVO_NATIVE, NULL, NULL };
const tarval_mode_info *mode_info;
const char *prefix, *suffix;
- mode_info = tv->mode->tv_priv;
+ mode_info = (const tarval_mode_info*) tv->mode->tv_priv;
if (! mode_info)
mode_info = &default_info;
prefix = mode_info->mode_prefix ? mode_info->mode_prefix : "";
case irms_float_number:
switch (mode_info->mode_output) {
case TVO_HEX:
- return snprintf(buf, len, "%s%s%s", prefix, fc_print(tv->value, tv_buf, sizeof(tv_buf), FC_PACKED), suffix);
+ return snprintf(buf, len, "%s%s%s", prefix, fc_print((const fp_value*) tv->value, tv_buf, sizeof(tv_buf), FC_PACKED), suffix);
case TVO_HEXFLOAT:
- return snprintf(buf, len, "%s%s%s", prefix, fc_print(tv->value, tv_buf, sizeof(tv_buf), FC_HEX), suffix);
+ return snprintf(buf, len, "%s%s%s", prefix, fc_print((const fp_value*) tv->value, tv_buf, sizeof(tv_buf), FC_HEX), suffix);
case TVO_FLOAT:
case TVO_NATIVE:
default:
- return snprintf(buf, len, "%s%s%s", prefix, fc_print(tv->value, tv_buf, sizeof(tv_buf), FC_DEC), suffix);
+ return snprintf(buf, len, "%s%s%s", prefix, fc_print((const fp_value*) tv->value, tv_buf, sizeof(tv_buf), FC_DEC), suffix);
}
break;
/**
* Output of tarvals to stdio.
*/
-int tarval_printf(tarval *tv)
+int tarval_printf(ir_tarval *tv)
{
char buf[1024];
int res;
return res;
}
-char *get_tarval_bitpattern(tarval *tv)
+char *get_tarval_bitpattern(ir_tarval *tv)
{
int i, j, pos = 0;
int n = get_mode_size_bits(tv->mode);
/*
* access to the bitpattern
*/
-unsigned char get_tarval_sub_bits(tarval *tv, unsigned byte_ofs)
+unsigned char get_tarval_sub_bits(ir_tarval *tv, unsigned byte_ofs)
{
switch (get_mode_arithmetic(tv->mode)) {
case irma_twos_complement:
return sc_sub_bits(tv->value, get_mode_size_bits(tv->mode), byte_ofs);
case irma_ieee754:
- return fc_sub_bits(tv->value, get_mode_size_bits(tv->mode), byte_ofs);
+ return fc_sub_bits((const fp_value*) tv->value, get_mode_size_bits(tv->mode), byte_ofs);
default:
panic("get_tarval_sub_bits(): arithmetic mode not supported");
}
{
assert(mode);
- return mode->tv_priv;
+ return (const tarval_mode_info*) mode->tv_priv;
}
/*
* Returns non-zero if a given (integer) tarval has only one single bit
* set.
*/
-int tarval_is_single_bit(tarval *tv)
+int tarval_is_single_bit(ir_tarval *tv)
{
int i, l;
int bits;
/*
* Return the number of set bits in a given (integer) tarval.
*/
-int get_tarval_popcnt(tarval *tv)
+int get_tarval_popcount(ir_tarval *tv)
{
int i, l;
int bits;
for (bits = 0, i = l - 1; i >= 0; --i) {
unsigned char v = get_tarval_sub_bits(tv, (unsigned)i);
- bits += popcnt(v);
+ bits += popcount(v);
}
return bits;
}
*
* @return number of lowest set bit or -1 on error
*/
-int get_tarval_lowest_bit(tarval *tv)
+int get_tarval_lowest_bit(ir_tarval *tv)
{
int i, l;
* Returns non-zero if the mantissa of a floating point IEEE-754
* tarval is zero (i.e. 1.0Exxx)
*/
-int tarval_ieee754_zero_mantissa(tarval *tv)
+int tarval_ieee754_zero_mantissa(ir_tarval *tv)
{
assert(get_mode_arithmetic(tv->mode) == irma_ieee754);
- return fc_zero_mantissa(tv->value);
+ return fc_zero_mantissa((const fp_value*) tv->value);
}
/* Returns the exponent of a floating point IEEE-754 tarval. */
-int tarval_ieee754_get_exponent(tarval *tv)
+int tarval_ieee754_get_exponent(ir_tarval *tv)
{
assert(get_mode_arithmetic(tv->mode) == irma_ieee754);
- return fc_get_exponent(tv->value);
+ return fc_get_exponent((const fp_value*) tv->value);
}
/*
* Check if the tarval can be converted to the given mode without
* precision loss.
*/
-int tarval_ieee754_can_conv_lossless(tarval *tv, ir_mode *mode)
+int tarval_ieee754_can_conv_lossless(ir_tarval *tv, ir_mode *mode)
{
const ieee_descriptor_t *desc = get_descriptor(mode);
- return fc_can_lossless_conv_to(tv->value, desc);
+ return fc_can_lossless_conv_to((const fp_value*) tv->value, desc);
}
/* Set the immediate precision for IEEE-754 results. */
}
/* check if its the a floating point NaN */
-int tarval_is_NaN(tarval *tv)
+int tarval_is_NaN(ir_tarval *tv)
{
if (! mode_is_float(tv->mode))
return 0;
- return fc_is_nan(tv->value);
+ return fc_is_nan((const fp_value*) tv->value);
}
/* check if its the a floating point +inf */
-int tarval_is_plus_inf(tarval *tv)
+int tarval_is_plus_inf(ir_tarval *tv)
{
if (! mode_is_float(tv->mode))
return 0;
- return fc_is_inf(tv->value) && !fc_is_negative(tv->value);
+ return fc_is_inf((const fp_value*) tv->value)
+ && !fc_is_negative((const fp_value*) tv->value);
}
/* check if its the a floating point -inf */
-int tarval_is_minus_inf(tarval *tv)
+int tarval_is_minus_inf(ir_tarval *tv)
{
if (! mode_is_float(tv->mode))
return 0;
- return fc_is_inf(tv->value) && fc_is_negative(tv->value);
+ return fc_is_inf((const fp_value*) tv->value)
+ && fc_is_negative((const fp_value*) tv->value);
}
/* check if the tarval represents a finite value */
-int tarval_is_finite(tarval *tv)
+int tarval_is_finite(ir_tarval *tv)
{
if (mode_is_float(tv->mode))
- return !fc_is_nan(tv->value) && !fc_is_inf(tv->value);
+ return !fc_is_nan((const fp_value*) tv->value)
+ && !fc_is_inf((const fp_value*) tv->value);
return 1;
}
{
return _is_tarval(thing);
}
-
-/****************************************************************************
- * end of tv.c
- ****************************************************************************/
projects / libfirm / blobdiff