Commit 26e84642 authored by Kai Backman's avatar Kai Backman

support for printing floats:

fmt.Printf("float32 %f\n", float32(1234.56789))
fmt.Printf("float64 %f\n", float64(1234.56789))
->
float32 1234.567871
float64 1234.567890

this is a snapshot. extended instruction support, corner cases
and fixes coming in subseuent cls.

R=rsc
CC=dpx, golang-dev
https://golang.org/cl/876045
parent 0fd00c8b
......@@ -4,23 +4,401 @@
#include "runtime.h"
// returns number of words that the fp instruction is occupying
void abort(void);
static void
fabort(void)
{
if (1) {
printf("Unsupported floating point instruction\n");
abort();
}
}
static uint32 doabort = 0;
static uint32 trace = 0;
#define DOUBLE_EXPBIAS 1023
#define SINGLE_EXPBIAS 127
static const int8* opnames[] = {
// binary
"adf",
"muf",
"suf",
"rsf",
"dvf",
"rdf",
"pow",
"rpw",
"rmf",
"fml",
"fdv",
"frd",
"pol",
"UNDEFINED",
"UNDEFINED",
"UNDEFINED",
// unary
"mvf",
"mnf",
"abs",
"rnd",
"sqt",
"log",
"lgn",
"exp",
"sin",
"cos",
"tan",
"asn",
"acs",
"atn",
"urd",
"nrm"
};
static const int8* fpconst[] = {
"0.0", "1.0", "2.0", "3.0", "4.0", "5.0", "0.5", "10.0",
};
static const uint64 fpdconst[] = {
0x0000000000000000ll,
0x3ff0000000000000ll,
0x4000000000000000ll,
0x4008000000000000ll,
0x4010000000000000ll,
0x4014000000000000ll,
0x3fe0000000000000ll,
0x4024000000000000ll
};
static const int8* fpprec[] = {
"s", "d", "e", "?"
};
static uint32
precision(uint32 i)
{
switch (i&0x00080080) {
case 0:
return 0;
case 0x80:
return 1;
default:
fabort();
}
return 0;
}
static uint64
frhs(uint32 rhs)
{
if (rhs & 0x8) {
return fpdconst[rhs&0x7];
} else {
return m->freg[rhs&0x7];
}
}
static int32
fexp(uint64 f)
{
return (int32)((uint32)(f >> 52) & 0x7ff) - DOUBLE_EXPBIAS;
}
static uint32
isfltinstr(uint32 *pc)
fsign(uint64 f)
{
return (uint32)(f >> 63) & 0x1;
}
static uint64
fmantissa(uint64 f)
{
return f &0x000fffffffffffffll;
}
static void
fprint()
{
uint32 i;
uint32 c;
for (i = 0; i < 8; i++) {
printf("\tf%d:\t%X\n", i, m->freg[i]);
}
}
static uint32
d2s(uint64 d)
{
return (d>>32 & 0x80000000) | //sign
((uint32)(fexp(d) + SINGLE_EXPBIAS) & 0xff) << 23 | // exponent
(d >> 29 & 0x7fffff); // mantissa
}
static uint64
s2d(uint32 s)
{
return (uint64)(s & 0x80000000) << 63 | // sign
(uint64)((s >> 23 &0xff) + (DOUBLE_EXPBIAS - SINGLE_EXPBIAS)) << 52 | // exponent
(uint64)(s & 0x7fffff) << 29; // mantissa
}
// cdp, data processing instructions
static void
dataprocess(uint32* pc)
{
uint32 i, opcode, unary, dest, lhs, rhs, prec;
uint32 high;
uint64 fraw0, fraw1, exp, sign;
uint64 fd, f0, f1;
i = *pc;
// data processing
opcode = i>>20 & 15;
unary = i>>15 & 1;
dest = i>>12 & 7;
lhs = i>>16 & 7;
rhs = i & 15;
prec = precision(i);
if (unary) {
switch (opcode) {
case 0: // mvf
m->freg[dest] = frhs(rhs);
goto ret;
default:
goto undef;
}
} else {
switch (opcode) {
case 1: // muf
fraw0 = m->freg[lhs];
fraw1 = frhs(rhs);
f0 = fraw0>>21 & 0xffffffff | 0x80000000;
f1 = fraw1>>21 & 0xffffffff | 0x80000000;
fd = f0*f1;
high = fd >> 63;
if (high)
fd = fd >> 11 & 0x000fffffffffffffll;
else
fd = fd >> 10 & 0x000fffffffffffffll;
exp = (uint64)(fexp(fraw0) + fexp(fraw1) + !!high + DOUBLE_EXPBIAS) & 0x7ff;
sign = fraw0 >> 63 ^ fraw1 >> 63;
fd = sign << 63 | exp <<52 | fd;
m->freg[dest] = fd;
goto ret;
default:
goto undef;
}
}
undef:
doabort = 1;
ret:
if (trace || doabort) {
printf(" %p %x\t%s%s\tf%d, ", pc, *pc, opnames[opcode | unary<<4],
fpprec[prec], dest);
if (!unary)
printf("f%d, ", lhs);
if (rhs & 0x8)
printf("#%s\n", fpconst[rhs&0x7]);
else
printf("f%d\n", rhs&0x7);
}
if (doabort)
fabort();
}
#define CPSR 14
#define FLAGS_N (1 << 31)
#define FLAGS_Z (1 << 30)
#define FLAGS_C (1 << 29)
// cmf, compare floating point
static void
compare(uint32 *pc, uint32 *regs) {
uint32 i, flags, lhs, rhs, sign0, sign1;
uint32 f0, f1, mant0, mant1;
int32 exp0, exp1;
i = *pc;
flags = 0;
lhs = i>>16 & 0x7;
rhs = i & 0xf;
f0 = m->freg[lhs];
f1 = frhs(rhs);
if (f0 == f1) {
flags = FLAGS_Z | FLAGS_C;
goto ret;
}
sign0 = fsign(f0);
sign1 = fsign(f1);
if (sign0 == 1 && sign1 == 0) {
flags = FLAGS_N;
goto ret;
}
if (sign0 == 0 && sign1 == 1) {
flags = FLAGS_C;
goto ret;
}
if (sign0 == 0) {
exp0 = fexp(f0);
exp1 = fexp(f1);
mant0 = fmantissa(f0);
mant1 = fmantissa(f1);
} else {
exp0 = fexp(f1);
exp1 = fexp(f0);
mant0 = fmantissa(f1);
mant1 = fmantissa(f0);
}
if (exp0 > exp1) {
flags = FLAGS_C;
} else if (exp0 < exp1) {
flags = FLAGS_N;
} else {
if (mant0 > mant1)
flags = FLAGS_C;
else
flags = FLAGS_N;
}
ret:
if (trace) {
printf(" %p %x\tcmf\tf%d, ", pc, *pc, lhs);
if (rhs & 0x8)
printf("#%s\n", fpconst[rhs&0x7]);
else
printf("f%d\n", rhs&0x7);
}
regs[CPSR] = regs[CPSR] & 0x0fffffff | flags;
}
// ldf/stf, load/store floating
static void
loadstore(uint32 *pc, uint32 *regs)
{
uint32 i, isload, coproc, ud, wb, tlen, p, reg, freg, offset;
uint32 addr;
i = *pc;
coproc = i>>8&0xf;
isload = i>>20&1;
p = i>>24&1;
ud = i>>23&1;
tlen = i>>(22 - 1)&1 | i>>15&1;
wb = i>>21&1;
reg = i>>16 &0xf;
freg = i>>12 &0x7;
offset = (i&0xff) << 2;
if (coproc != 1 || p != 1 || wb != 0 || tlen > 1)
goto undef;
if (reg > 13)
goto undef;
if (ud)
addr = regs[reg] + offset;
else
addr = regs[reg] - offset;
if (isload)
if (tlen)
m->freg[freg] = *((uint64*)addr);
else
m->freg[freg] = s2d(*((uint32*)addr));
else
if (tlen)
*((uint64*)addr) = m->freg[freg];
else
*((uint32*)addr) = d2s(m->freg[freg]);
goto ret;
undef:
doabort = 1;
ret:
if (trace || doabort) {
if (isload)
printf(" %p %x\tldf", pc, *pc);
else
printf(" %p %x\tstf", pc, *pc);
printf("%s\t\tf%d, %s%d(r%d)", fpprec[tlen], freg, ud ? "" : "-", offset, reg);
printf("\t\t// %p", regs[reg] + (ud ? offset : -offset));
if (coproc != 1 || p != 1 || wb != 0)
printf(" coproc: %d pre: %d wb %d", coproc, p, wb);
printf("\n");
fprint();
}
if (doabort)
fabort();
}
static void
loadconst(uint32 *pc, uint32 *regs)
{
uint32 offset;
uint32 *addr;
if (*pc & 0xfffff000 != 0xe59fb838 ||
*(pc+1) != 0xe08bb00c ||
*(pc+2) & 0xffff8fff != 0xed9b0100)
goto undef;
offset = *pc & 0xfff;
addr = (uint32*)((uint8*)pc + offset + 8);
//printf("DEBUG: addr %p *addr %x final %p\n", addr, *addr, *addr + regs[12]);
regs[11] = *addr + regs[12];
loadstore(pc + 2, regs);
goto ret;
undef:
doabort = 1;
ret:
if (trace || doabort) {
printf(" %p coproc const %x %x %x\n", pc, *pc, *(pc+1), *(pc+2));
}
if (doabort)
fabort();
}
// returns number of words that the fp instruction is occupying, 0 if next instruction isn't float.
// TODO(kaib): insert sanity checks for coproc 1
static uint32
stepflt(uint32 *pc, uint32 *regs)
{
uint32 i, c;
i = *pc;
c = i >> 25 & 7;
switch(c) {
case 6: // 110
//printf(" %p coproc multi: %x\n", pc, i);
loadstore(pc, regs);
return 1;
case 7: // 111
if (i>>24 & 1) return 0; // ignore swi
//printf(" %p coproc %x\n", pc, i);
if (i>>4 & 1) { //data transfer
if ((i&0x00f0ff00) != 0x0090f100) {
printf(" %p %x\n", pc, i);
fabort();
}
compare(pc, regs);
} else {
dataprocess(pc);
}
return 1;
}
......@@ -28,12 +406,11 @@ isfltinstr(uint32 *pc)
c = ((*pc & 0x0f000000) >> 16) |
((*(pc + 1) & 0x0f000000) >> 20) |
((*(pc + 2) & 0x0f000000) >> 24);
if(c == 0x50d) {
//printf(" %p coproc const %x\n", pc, i);
if(c == 0x50d) { // 0101 0000 1101
loadconst(pc, regs);
return 3;
}
//printf(" %p %x\n", pc, i);
return 0;
}
......@@ -42,12 +419,11 @@ uint32*
_sfloat2(uint32 *lr, uint32 r0)
{
uint32 skip;
uint32 cpsr;
//printf("softfloat: pre %p\n", lr);
while(skip = isfltinstr(lr))
while(skip = stepflt(lr, &r0)) {
lr += skip;
//printf(" post: %p\n", lr);
}
return lr;
}
......@@ -167,17 +167,23 @@ out:
B out
// trampoline for _sfloat2. passes LR as arg0 and
// saves registers R0-R11 on the stack for mutation
// by _sfloat2
TEXT _sfloat(SB), 7, $52 // 4 arg + 12*4 saved regs
// saves registers R0-R13 and CPSR on the stack. R0-R12 and CPSR flags can
// be changed by _sfloat2.
TEXT _sfloat(SB), 7, $64 // 4 arg + 14*4 saved regs + cpsr
MOVW R14, 4(R13)
MOVW R0, 8(R13)
MOVW $12(R13), R0
MOVM.IA.W [R1-R11], (R0)
MOVM.IA.W [R1-R12], (R0)
MOVW $68(R13), R1 // correct for frame size
MOVW R1, 60(R13)
WORD $0xe10f1000 // mrs r1, cpsr
MOVW R1, 64(R13)
BL _sfloat2(SB)
MOVW R0, 0(R13)
MOVW 64(R13), R1
WORD $0xe128f001 // msr cpsr_f, r1
MOVW $12(R13), R0
MOVM.IA.W (R0), [R1-R11]
MOVM.IA.W (R0), [R1-R12]
MOVW 8(R13), R0
RET
......
......@@ -230,6 +230,7 @@ struct M
uint32 machport; // Return address for Mach IPC (OS X)
MCache *mcache;
G* lockedg;
uint64 freg[8]; // Floating point register storage used by ARM software fp routines
#ifdef __MINGW__
void* return_address; // saved return address and stack
void* stack_pointer; // pointer for Windows stdcall
......
......@@ -36,7 +36,7 @@
./empty.go
# ./env.go # android runner doesn't pass env through
./escape.go
./float_lit.go
# ./float_lit.go # need floating point
# ./floatcmp.go # need floating point
./for.go
# ./func.go
......@@ -66,18 +66,18 @@
./int_lit.go
./intcvt.go
./iota.go
./literal.go
# ./literal.go # need floating point
# ./malloc1.go
# ./mallocfin.go
# ./mallocrand.go
# ./mallocrep.go
# ./mallocrep1.go
./map.go
# ./map.go # need floating point
./method.go
./method1.go
./method2.go
./method3.go
./named.go
#./named.go # need floating point
./named1.go
./nil.go
# ./nul1.go # android runner gets confused
......@@ -137,15 +137,15 @@ ken/robfor.go
# ken/robfunc.go # fail
ken/robif.go
ken/shift.go
ken/simparray.go
#ken/simparray.go # need floating point
ken/simpbool.go
ken/simpconv.go
#ken/simpconv.go # need floating point
ken/simpfun.go
ken/simpprint.go
ken/simpswitch.go
ken/simpvar.go
ken/slicearray.go
ken/sliceslice.go
#ken/slicearray.go # need floating point
#ken/sliceslice.go # need floating point
ken/string.go
ken/strvar.go
# chan/doubleselect.go # slow
......@@ -209,7 +209,7 @@ fixedbugs/bug007.go
fixedbugs/bug008.go
fixedbugs/bug009.go
fixedbugs/bug010.go
fixedbugs/bug011.go
#fixedbugs/bug011.go # need floating point
fixedbugs/bug012.go
fixedbugs/bug013.go
fixedbugs/bug014.go
......
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