ack/mach/con_float

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/*
(c) copyright 1988 by the Vrije Universiteit, Amsterdam, The Netherlands.
See the copyright notice in the ACK home directory, in the file "Copyright".
*/
/* $Header$ */
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/*
#define CODE_GENERATOR for code generator
#define CODE_EXPANDER for code expander
#define IEEEFLOAT for machines using IEEE floating point format
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#define PDPFLOAT for machines using the PDP-11 floating point format
If none of these are defined, the format of the machine on which the
code generator runs is used.
Returns 1 if sz has an illegal value, 2 in case of overflow,
and 0 if all went well.
If neither IEEEFLOAT nor PDPFLOAT are defined, the return value is not
trustworthy.
Unfortunately, the IEEE standard does not define the byte-order.
depends on the #defines
FL_MSL_AT_LOW_ADDRESS 1 if most significant long is at low address
FL_MSW_AT_LOW_ADDRESS 1 if most significant word is at low address
FL_MSB_AT_LOW_ADDRESS 1 if most significant byte is at low address
*/
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#ifdef IEEEFLOAT
#define USE_FLT
#endif
#ifdef PDPFLOAT
#define USE_FLT
#undef FL_MSL_AT_LOW_ADDRESS
#define FL_MSL_AT_LOW_ADDRESS 1
#undef FL_MSW_AT_LOW_ADDRESS
#define FL_MSW_AT_LOW_ADDRESS 1
#undef FL_MSB_AT_LOW_ADDRESS
#define FL_MSB_AT_LOW_ADDRESS 0
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#endif
#define I0 ((FL_MSL_AT_LOW_ADDRESS ? 0 : 4) + (FL_MSW_AT_LOW_ADDRESS ? 0 : 2) \
+ (FL_MSB_AT_LOW_ADDRESS ? 0 : 1))
#define I1 ((FL_MSL_AT_LOW_ADDRESS ? 0 : 4) + (FL_MSW_AT_LOW_ADDRESS ? 0 : 2) \
+ (FL_MSB_AT_LOW_ADDRESS ? 1 : 0))
#define I2 ((FL_MSL_AT_LOW_ADDRESS ? 0 : 4) + (FL_MSW_AT_LOW_ADDRESS ? 2 : 0) \
+ (FL_MSB_AT_LOW_ADDRESS ? 0 : 1))
#define I3 ((FL_MSL_AT_LOW_ADDRESS ? 0 : 4) + (FL_MSW_AT_LOW_ADDRESS ? 2 : 0) \
+ (FL_MSB_AT_LOW_ADDRESS ? 1 : 0))
#define I4 ((FL_MSL_AT_LOW_ADDRESS ? 4 : 0) + (FL_MSW_AT_LOW_ADDRESS ? 0 : 2) \
+ (FL_MSB_AT_LOW_ADDRESS ? 0 : 1))
#define I5 ((FL_MSL_AT_LOW_ADDRESS ? 4 : 0) + (FL_MSW_AT_LOW_ADDRESS ? 0 : 2) \
+ (FL_MSB_AT_LOW_ADDRESS ? 1 : 0))
#define I6 ((FL_MSL_AT_LOW_ADDRESS ? 4 : 0) + (FL_MSW_AT_LOW_ADDRESS ? 2 : 0) \
+ (FL_MSB_AT_LOW_ADDRESS ? 0 : 1))
#define I7 ((FL_MSL_AT_LOW_ADDRESS ? 4 : 0) + (FL_MSW_AT_LOW_ADDRESS ? 2 : 0) \
+ (FL_MSB_AT_LOW_ADDRESS ? 1 : 0))
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#ifndef USE_FLT
static int
float_cst(str, sz, buf)
char *str, *buf;
int sz;
{
int i;
char *p;
float fl;
double f;
double atof();
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if (sz!= 4 && sz!= 8) {
return 1;
}
f = atof(str);
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if (sz == 4) {
fl = f;
p = (char *) &fl;
}
else {
p = (char *) &f;
}
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for (i = sz; i; i--) {
*buf++ = *p++;
}
return 0;
}
#else /* USE_FLT */
#include <ctype.h>
#include <flt_arith.h>
int
float_cst(str, sz, buf)
char *str, *buf;
int sz;
{
int overflow = 0;
flt_arith e;
if (sz!= 4 && sz!= 8) {
return 1;
}
flt_str2flt(str, &e);
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#ifdef IEEEFLOAT
if (sz == 4) {
#endif
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#ifdef PDPFLOAT
e.flt_exp += 129;
#else
e.flt_exp += 127;
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#endif
if (e.flt_mantissa.flt_h_32 == 0) e.flt_exp = 0;
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#ifdef IEEEFLOAT
if (e.flt_mantissa.flt_h_32 & 0x80) {
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/* rounding */
if ((e.flt_mantissa.flt_h_32 & 0xffffff00) == 0xffffff00) {
e.flt_exp++;
e.flt_mantissa.flt_h_32 = 0x80000000;
}
else {
e.flt_mantissa.flt_h_32 += 0x80;
}
}
if (e.flt_exp >= 255) {
overflow = 1;
e.flt_exp = 255;
e.flt_mantissa.flt_h_32 = e.flt_mantissa.flt_l_32 = 0;
}
if (e.flt_exp <= 0) {
flt_b64_sft(&(e.flt_mantissa), 1);
if (e.flt_exp < 0) {
flt_b64_sft(&(e.flt_mantissa), -e.flt_exp);
e.flt_exp = 0;
}
}
#endif
buf[I0] = (e.flt_sign << 7) | (e.flt_exp >> 1);
buf[I1] = ((e.flt_exp&1) << 7) |
((e.flt_mantissa.flt_h_32 & 0x7fffffff) >> 24);
buf[I2] = e.flt_mantissa.flt_h_32 >> 16;
buf[I3] = e.flt_mantissa.flt_h_32 >> 8;
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#ifndef IEEEFLOAT
if (sz == 8) {
buf[I4] = e.flt_mantissa.flt_h_32;
buf[I5] = e.flt_mantissa.flt_l_32 >> 24;
buf[I6] = e.flt_mantissa.flt_l_32 >> 16;
buf[I7] = e.flt_mantissa.flt_l_32 >> 8;
flt_b64_sft(&(e.flt_mantissa), -56);
}
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else
#endif
flt_b64_sft(&(e.flt_mantissa), -24);
#ifdef IEEEFLOAT
}
else {
e.flt_exp += 1023;
if (e.flt_mantissa.flt_h_32 == 0) e.flt_exp = 0;
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if (e.flt_mantissa.flt_l_32 & 0x400) {
/* rounding */
if ((e.flt_mantissa.flt_l_32 & 0xfffff800) == 0xfffff800) {
e.flt_mantissa.flt_l_32 = 0;
if ((e.flt_mantissa.flt_h_32 += 1) == 0) {
e.flt_exp++;
e.flt_mantissa.flt_h_32 = 0x80000000;
}
}
else {
e.flt_mantissa.flt_l_32 += 0x400;
}
}
if (e.flt_exp >= 2047) {
overflow = 1;
e.flt_exp = 2047;
e.flt_mantissa.flt_h_32 = e.flt_mantissa.flt_l_32 = 0;
}
if (e.flt_exp <= 0) {
flt_b64_sft(&(e.flt_mantissa), 1);
if (e.flt_exp < 0) {
flt_b64_sft(&(e.flt_mantissa), -e.flt_exp);
e.flt_exp = 0;
}
}
buf[I0] = (e.flt_sign << 7) | (e.flt_exp >> 4);
buf[I1] = ((e.flt_exp & 017)<< 4) | ((e.flt_mantissa.flt_h_32 >> 27) & 017);
buf[I2] = e.flt_mantissa.flt_h_32 >> 19;
buf[I3] = e.flt_mantissa.flt_h_32 >> 11;
buf[I4] = e.flt_mantissa.flt_h_32 >> 3;
buf[I5] = (e.flt_mantissa.flt_h_32 << 5) | ((e.flt_mantissa.flt_l_32 >> 27) & 037);
buf[I6] = e.flt_mantissa.flt_l_32 >> 19;
buf[I7] = e.flt_mantissa.flt_l_32 >> 11;
flt_b64_sft(&(e.flt_mantissa), -53);
}
#endif
#if ! FL_MSL_AT_LOW_ADDRESS
if (sz == 4) {
buf[I4] = buf[I0];
buf[I5] = buf[I1];
buf[I6] = buf[I2];
buf[I7] = buf[I3];
}
#endif
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if (overflow) {
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return 2;
}
return 0;
}
#endif /* USE_FLT */
#ifdef CODE_GENERATOR
con_float()
{
char buf[8];
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int rval = float_cst(str, (int)argval, buf);
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int i;
if (rval == 1) {
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fprintf(stderr,"float constant size = %d\n",(int)argval);
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fatal("bad fcon size");
}
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fprintf(codefile,"!float %s sz %d\n", str, (int)argval);
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if (rval == 2) {
fprintf(stderr, "Warning: overflow in floating point constant %s\n", str);
}
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fprintf(codefile, ".data1 0%o", buf[0] & 0377);
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for (i = 1; i < (int)argval; i++) {
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fprintf(codefile, ",0%o", buf[i] & 0377);
}
putc('\n', codefile);
}
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#endif /* CODE_GENERATOR */
#ifdef CODE_EXPANDER
con_float(str, argval)
char *str;
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arith argval;
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{
char buf[8];
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int rval = float_cst(str, (int)argval, buf);
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int i;
if (rval == 1) {
argval = 8;
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rval = float_cst(str, 8, buf);
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}
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for (i = 0; i < (int)argval; i++) {
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gen1(buf[i]);
}
}
#endif /* CODE_EXPANDER */