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Put opening curly brace of functions on a separate line.
[libfirm]
/
ir
/
tv
/
fltcalc.c
diff --git
a/ir/tv/fltcalc.c
b/ir/tv/fltcalc.c
index
412bbd8
..
bb7b28f
100644
(file)
--- a/
ir/tv/fltcalc.c
+++ b/
ir/tv/fltcalc.c
@@
-24,21
+24,18
@@
* @author Mathias Heil
* @version $Id$
*/
* @author Mathias Heil
* @version $Id$
*/
-
#include "config.h"
#include "fltcalc.h"
#include "strcalc.h"
#include "config.h"
#include "fltcalc.h"
#include "strcalc.h"
-#include <math.h>
/* need isnan() and isinf() (will be changed)*/
+#include <math.h>
/* undef some reused constants defined by math.h */
#ifdef NAN
# undef NAN
#endif
/* undef some reused constants defined by math.h */
#ifdef NAN
# undef NAN
#endif
-#ifdef HAVE_INTTYPES_H
-# include <inttypes.h>
-#endif
+#include <inttypes.h>
#include <string.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <stdio.h>
@@
-137,7
+134,8
@@
static int max_precision;
static int fc_exact = 1;
#if 0
static int fc_exact = 1;
#if 0
-static void fail_char(const char *str, unsigned int len, int pos) {
+static void fail_char(const char *str, unsigned int len, int pos)
+{
if (*(str+pos))
printf("ERROR: Unexpected character '%c'\n", *(str + pos));
else
if (*(str+pos))
printf("ERROR: Unexpected character '%c'\n", *(str + pos));
else
@@
-150,7
+148,8
@@
static void fail_char(const char *str, unsigned int len, int pos) {
#endif
/** pack machine-like */
#endif
/** pack machine-like */
-static void *pack(const fp_value *int_float, void *packed) {
+static void *pack(const fp_value *int_float, void *packed)
+{
char *shift_val;
char *temp;
fp_value *val_buffer;
char *shift_val;
char *temp;
fp_value *val_buffer;
@@
-213,7
+212,8
@@
static void *pack(const fp_value *int_float, void *packed) {
*
* @return non-zero if result is exact
*/
*
* @return non-zero if result is exact
*/
-static int normalize(const fp_value *in_val, fp_value *out_val, int sticky) {
+static int normalize(const fp_value *in_val, fp_value *out_val, int sticky)
+{
int exact = 1;
int hsb;
char lsb, guard, round, round_dir = 0;
int exact = 1;
int hsb;
char lsb, guard, round, round_dir = 0;
@@
-414,7
+414,8
@@
do { \
/**
* calculate a + b, where a is the value with the bigger exponent
*/
/**
* calculate a + b, where a is the value with the bigger exponent
*/
-static void _fadd(const fp_value *a, const fp_value *b, fp_value *result) {
+static void _fadd(const fp_value *a, const fp_value *b, fp_value *result)
+{
char *temp;
char *exp_diff;
char *temp;
char *exp_diff;
@@
-532,7
+533,8
@@
static void _fadd(const fp_value *a, const fp_value *b, fp_value *result) {
/**
* calculate a * b
*/
/**
* calculate a * b
*/
-static void _fmul(const fp_value *a, const fp_value *b, fp_value *result) {
+static void _fmul(const fp_value *a, const fp_value *b, fp_value *result)
+{
int sticky;
char *temp;
char res_sign;
int sticky;
char *temp;
char res_sign;
@@
-618,7
+620,8
@@
static void _fmul(const fp_value *a, const fp_value *b, fp_value *result) {
/**
* calculate a / b
*/
/**
* calculate a / b
*/
-static void _fdiv(const fp_value *a, const fp_value *b, fp_value *result) {
+static void _fdiv(const fp_value *a, const fp_value *b, fp_value *result)
+{
int sticky;
char *temp, *dividend;
char res_sign;
int sticky;
char *temp, *dividend;
char res_sign;
@@
-717,7
+720,8
@@
static void _fdiv(const fp_value *a, const fp_value *b, fp_value *result) {
}
#if 0
}
#if 0
-static void _power_of_ten(int exp, ieee_descriptor_t *desc, char *result) {
+static void _power_of_ten(int exp, ieee_descriptor_t *desc, char *result)
+{
char *build;
char *temp;
char *build;
char *temp;
@@
-759,7
+763,8
@@
static void _power_of_ten(int exp, ieee_descriptor_t *desc, char *result) {
*
* This does not clip to any integer range.
*/
*
* This does not clip to any integer range.
*/
-static void _trunc(const fp_value *a, fp_value *result) {
+static void _trunc(const fp_value *a, fp_value *result)
+{
/*
* When exponent == 0 all bits left of the radix point
* are the integral part of the value. For 15bit exp_size
/*
* When exponent == 0 all bits left of the radix point
* are the integral part of the value. For 15bit exp_size
@@
-820,15
+825,18
@@
static void _trunc(const fp_value *a, fp_value *result) {
/********
* functions defined in fltcalc.h
********/
/********
* functions defined in fltcalc.h
********/
-const void *fc_get_buffer(void) {
+const void *fc_get_buffer(void)
+{
return calc_buffer;
}
return calc_buffer;
}
-int fc_get_buffer_length(void) {
+int fc_get_buffer_length(void)
+{
return calc_buffer_size;
}
return calc_buffer_size;
}
-void *fc_val_from_str(const char *str, unsigned int len, const ieee_descriptor_t *desc, void *result) {
+void *fc_val_from_str(const char *str, unsigned int len, const ieee_descriptor_t *desc, void *result)
+{
#if 0
enum {
START,
#if 0
enum {
START,
@@
-1036,7
+1044,8
@@
done:
#endif
}
#endif
}
-fp_value *fc_val_from_ieee754(LLDBL l, const ieee_descriptor_t *desc, fp_value *result) {
+fp_value *fc_val_from_ieee754(LLDBL l, const ieee_descriptor_t *desc, fp_value *result)
+{
char *temp;
int bias_res, bias_val, mant_val;
value_t srcval;
char *temp;
int bias_res, bias_val, mant_val;
value_t srcval;
@@
-1141,7
+1150,8
@@
fp_value *fc_val_from_ieee754(LLDBL l, const ieee_descriptor_t *desc, fp_value *
return result;
}
return result;
}
-LLDBL fc_val_to_ieee754(const fp_value *val) {
+LLDBL fc_val_to_ieee754(const fp_value *val)
+{
fp_value *value;
fp_value *temp = NULL;
fp_value *value;
fp_value *temp = NULL;
@@
-1207,7
+1217,8
@@
LLDBL fc_val_to_ieee754(const fp_value *val) {
return buildval.d;
}
return buildval.d;
}
-fp_value *fc_cast(const fp_value *value, const ieee_descriptor_t *desc, fp_value *result) {
+fp_value *fc_cast(const fp_value *value, const ieee_descriptor_t *desc, fp_value *result)
+{
char *temp;
int exp_offset, val_bias, res_bias;
char *temp;
int exp_offset, val_bias, res_bias;
@@
-1228,6
+1239,12
@@
fp_value *fc_cast(const fp_value *value, const ieee_descriptor_t *desc, fp_value
else
return fc_get_snan(desc, result);
}
else
return fc_get_snan(desc, result);
}
+ else if(value->desc.clss == INF) {
+ if (value->sign == 0)
+ return fc_get_plusinf(desc, result);
+ else
+ return fc_get_minusinf(desc, result);
+ }
/* set the descriptor of the new value */
result->desc.exponent_size = desc->exponent_size;
/* set the descriptor of the new value */
result->desc.exponent_size = desc->exponent_size;
@@
-1262,7
+1279,8
@@
fp_value *fc_cast(const fp_value *value, const ieee_descriptor_t *desc, fp_value
return result;
}
return result;
}
-fp_value *fc_get_max(const ieee_descriptor_t *desc, fp_value *result) {
+fp_value *fc_get_max(const ieee_descriptor_t *desc, fp_value *result)
+{
if (result == NULL) result = calc_buffer;
result->desc.exponent_size = desc->exponent_size;
if (result == NULL) result = calc_buffer;
result->desc.exponent_size = desc->exponent_size;
@@
-1281,7
+1299,8
@@
fp_value *fc_get_max(const ieee_descriptor_t *desc, fp_value *result) {
return result;
}
return result;
}
-fp_value *fc_get_min(const ieee_descriptor_t *desc, fp_value *result) {
+fp_value *fc_get_min(const ieee_descriptor_t *desc, fp_value *result)
+{
if (result == NULL) result = calc_buffer;
fc_get_max(desc, result);
if (result == NULL) result = calc_buffer;
fc_get_max(desc, result);
@@
-1290,7
+1309,8
@@
fp_value *fc_get_min(const ieee_descriptor_t *desc, fp_value *result) {
return result;
}
return result;
}
-fp_value *fc_get_snan(const ieee_descriptor_t *desc, fp_value *result) {
+fp_value *fc_get_snan(const ieee_descriptor_t *desc, fp_value *result)
+{
if (result == NULL) result = calc_buffer;
result->desc.exponent_size = desc->exponent_size;
if (result == NULL) result = calc_buffer;
result->desc.exponent_size = desc->exponent_size;
@@
-1308,7
+1328,8
@@
fp_value *fc_get_snan(const ieee_descriptor_t *desc, fp_value *result) {
return result;
}
return result;
}
-fp_value *fc_get_qnan(const ieee_descriptor_t *desc, fp_value *result) {
+fp_value *fc_get_qnan(const ieee_descriptor_t *desc, fp_value *result)
+{
if (result == NULL) result = calc_buffer;
result->desc.exponent_size = desc->exponent_size;
if (result == NULL) result = calc_buffer;
result->desc.exponent_size = desc->exponent_size;
@@
-1353,7
+1374,8
@@
fp_value *fc_get_plusinf(const ieee_descriptor_t *desc, fp_value *result)
return result;
}
return result;
}
-fp_value *fc_get_minusinf(const ieee_descriptor_t *desc, fp_value *result) {
+fp_value *fc_get_minusinf(const ieee_descriptor_t *desc, fp_value *result)
+{
if (result == NULL) result = calc_buffer;
fc_get_plusinf(desc, result);
if (result == NULL) result = calc_buffer;
fc_get_plusinf(desc, result);
@@
-1362,7
+1384,8
@@
fp_value *fc_get_minusinf(const ieee_descriptor_t *desc, fp_value *result) {
return result;
}
return result;
}
-int fc_comp(const fp_value *val_a, const fp_value *val_b) {
+int fc_comp(const fp_value *val_a, const fp_value *val_b)
+{
int mul = 1;
/*
int mul = 1;
/*
@@
-1409,27
+1432,33
@@
int fc_comp(const fp_value *val_a, const fp_value *val_b) {
}
}
}
}
-int fc_is_zero(const fp_value *a) {
+int fc_is_zero(const fp_value *a)
+{
return a->desc.clss == ZERO;
}
return a->desc.clss == ZERO;
}
-int fc_is_negative(const fp_value *a) {
+int fc_is_negative(const fp_value *a)
+{
return a->sign;
}
return a->sign;
}
-int fc_is_inf(const fp_value *a) {
+int fc_is_inf(const fp_value *a)
+{
return a->desc.clss == INF;
}
return a->desc.clss == INF;
}
-int fc_is_nan(const fp_value *a) {
+int fc_is_nan(const fp_value *a)
+{
return a->desc.clss == NAN;
}
return a->desc.clss == NAN;
}
-int fc_is_subnormal(const fp_value *a) {
+int fc_is_subnormal(const fp_value *a)
+{
return a->desc.clss == SUBNORMAL;
}
return a->desc.clss == SUBNORMAL;
}
-char *fc_print(const fp_value *val, char *buf, int buflen, unsigned base) {
+char *fc_print(const fp_value *val, char *buf, int buflen, unsigned base)
+{
char *mul_1;
LLDBL flt_val;
char *mul_1;
LLDBL flt_val;
@@
-1488,7
+1517,8
@@
char *fc_print(const fp_value *val, char *buf, int buflen, unsigned base) {
return buf;
}
return buf;
}
-unsigned char fc_sub_bits(const fp_value *value, unsigned num_bits, unsigned byte_ofs) {
+unsigned char fc_sub_bits(const fp_value *value, unsigned num_bits, unsigned byte_ofs)
+{
/* this is used to cache the packed version of the value */
static char *packed_value = NULL;
/* this is used to cache the packed version of the value */
static char *packed_value = NULL;
@@
-1501,18
+1531,21
@@
unsigned char fc_sub_bits(const fp_value *value, unsigned num_bits, unsigned byt
}
/* Returns non-zero if the mantissa is zero, i.e. 1.0Exxx */
}
/* Returns non-zero if the mantissa is zero, i.e. 1.0Exxx */
-int fc_zero_mantissa(const fp_value *value) {
+int fc_zero_mantissa(const fp_value *value)
+{
return sc_get_lowest_set_bit(_mant(value)) == ROUNDING_BITS + value->desc.mantissa_size;
}
/* Returns the exponent of a value. */
return sc_get_lowest_set_bit(_mant(value)) == ROUNDING_BITS + value->desc.mantissa_size;
}
/* Returns the exponent of a value. */
-int fc_get_exponent(const fp_value *value) {
+int fc_get_exponent(const fp_value *value)
+{
int exp_bias = (1 << (value->desc.exponent_size - 1)) - 1;
return sc_val_to_long(_exp(value)) - exp_bias;
}
/* Return non-zero if a given value can be converted lossless into another precision */
int exp_bias = (1 << (value->desc.exponent_size - 1)) - 1;
return sc_val_to_long(_exp(value)) - exp_bias;
}
/* Return non-zero if a given value can be converted lossless into another precision */
-int fc_can_lossless_conv_to(const fp_value *value, const ieee_descriptor_t *desc) {
+int fc_can_lossless_conv_to(const fp_value *value, const ieee_descriptor_t *desc)
+{
int v;
int exp_bias;
int v;
int exp_bias;
@@
-1538,18
+1571,21
@@
int fc_can_lossless_conv_to(const fp_value *value, const ieee_descriptor_t *desc
}
}
-fc_rounding_mode_t fc_set_rounding_mode(fc_rounding_mode_t mode) {
+fc_rounding_mode_t fc_set_rounding_mode(fc_rounding_mode_t mode)
+{
if (mode == FC_TONEAREST || mode == FC_TOPOSITIVE || mode == FC_TONEGATIVE || mode == FC_TOZERO)
rounding_mode = mode;
return rounding_mode;
}
if (mode == FC_TONEAREST || mode == FC_TOPOSITIVE || mode == FC_TONEGATIVE || mode == FC_TOZERO)
rounding_mode = mode;
return rounding_mode;
}
-fc_rounding_mode_t fc_get_rounding_mode(void) {
+fc_rounding_mode_t fc_get_rounding_mode(void)
+{
return rounding_mode;
}
return rounding_mode;
}
-void init_fltcalc(int precision) {
+void init_fltcalc(int precision)
+{
if (calc_buffer == NULL) {
/* does nothing if already init */
if (precision == 0) precision = FC_DEFAULT_PRECISION;
if (calc_buffer == NULL) {
/* does nothing if already init */
if (precision == 0) precision = FC_DEFAULT_PRECISION;
@@
-1582,7
+1618,8
@@
void init_fltcalc(int precision) {
}
}
}
}
-void finish_fltcalc (void) {
+void finish_fltcalc (void)
+{
free(calc_buffer); calc_buffer = NULL;
}
free(calc_buffer); calc_buffer = NULL;
}
@@
-1591,7
+1628,8
@@
static char buffer[100];
#endif
/* definition of interface functions */
#endif
/* definition of interface functions */
-fp_value *fc_add(const fp_value *a, const fp_value *b, fp_value *result) {
+fp_value *fc_add(const fp_value *a, const fp_value *b, fp_value *result)
+{
if (result == NULL) result = calc_buffer;
TRACEPRINTF(("%s ", fc_print(a, buffer, sizeof(buffer), FC_PACKED)));
if (result == NULL) result = calc_buffer;
TRACEPRINTF(("%s ", fc_print(a, buffer, sizeof(buffer), FC_PACKED)));
@@
-1607,7
+1645,8
@@
fp_value *fc_add(const fp_value *a, const fp_value *b, fp_value *result) {
return result;
}
return result;
}
-fp_value *fc_sub(const fp_value *a, const fp_value *b, fp_value *result) {
+fp_value *fc_sub(const fp_value *a, const fp_value *b, fp_value *result)
+{
fp_value *temp;
if (result == NULL) result = calc_buffer;
fp_value *temp;
if (result == NULL) result = calc_buffer;
@@
-1627,7
+1666,8
@@
fp_value *fc_sub(const fp_value *a, const fp_value *b, fp_value *result) {
return result;
}
return result;
}
-fp_value *fc_mul(const fp_value *a, const fp_value *b, fp_value *result) {
+fp_value *fc_mul(const fp_value *a, const fp_value *b, fp_value *result)
+{
if (result == NULL) result = calc_buffer;
TRACEPRINTF(("%s ", fc_print(a, buffer, sizeof(buffer), FC_PACKED)));
if (result == NULL) result = calc_buffer;
TRACEPRINTF(("%s ", fc_print(a, buffer, sizeof(buffer), FC_PACKED)));
@@
-1639,7
+1679,8
@@
fp_value *fc_mul(const fp_value *a, const fp_value *b, fp_value *result) {
return result;
}
return result;
}
-fp_value *fc_div(const fp_value *a, const fp_value *b, fp_value *result) {
+fp_value *fc_div(const fp_value *a, const fp_value *b, fp_value *result)
+{
if (result == NULL) result = calc_buffer;
TRACEPRINTF(("%s ", fc_print(a, buffer, sizeof(buffer), FC_PACKED)));
if (result == NULL) result = calc_buffer;
TRACEPRINTF(("%s ", fc_print(a, buffer, sizeof(buffer), FC_PACKED)));
@@
-1651,7
+1692,8
@@
fp_value *fc_div(const fp_value *a, const fp_value *b, fp_value *result) {
return result;
}
return result;
}
-fp_value *fc_neg(const fp_value *a, fp_value *result) {
+fp_value *fc_neg(const fp_value *a, fp_value *result)
+{
if (result == NULL) result = calc_buffer;
TRACEPRINTF(("- %s ", fc_print(a, buffer, sizeof(buffer), FC_PACKED)));
if (result == NULL) result = calc_buffer;
TRACEPRINTF(("- %s ", fc_print(a, buffer, sizeof(buffer), FC_PACKED)));
@@
-1664,7
+1706,8
@@
fp_value *fc_neg(const fp_value *a, fp_value *result) {
return result;
}
return result;
}
-fp_value *fc_int(const fp_value *a, fp_value *result) {
+fp_value *fc_int(const fp_value *a, fp_value *result)
+{
if (result == NULL) result = calc_buffer;
TRACEPRINTF(("%s ", fc_print(a, buffer, sizeof(buffer), FC_PACKED)));
if (result == NULL) result = calc_buffer;
TRACEPRINTF(("%s ", fc_print(a, buffer, sizeof(buffer), FC_PACKED)));
@@
-1676,7
+1719,8
@@
fp_value *fc_int(const fp_value *a, fp_value *result) {
return result;
}
return result;
}
-fp_value *fc_rnd(const fp_value *a, fp_value *result) {
+fp_value *fc_rnd(const fp_value *a, fp_value *result)
+{
if (result == NULL) result = calc_buffer;
(void) a;
if (result == NULL) result = calc_buffer;
(void) a;
@@
-1758,13
+1802,15
@@
int fc_flt2int(const fp_value *a, void *result, ir_mode *dst_mode)
}
}
-unsigned fc_set_immediate_precision(unsigned bits) {
+unsigned fc_set_immediate_precision(unsigned bits)
+{
unsigned old = immediate_prec;
immediate_prec = bits;
return old;
}
unsigned old = immediate_prec;
immediate_prec = bits;
return old;
}
-int fc_is_exact(void) {
+int fc_is_exact(void)
+{
return fc_exact;
}
return fc_exact;
}