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|
// Copyright 2009 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
#include "runtime.h"
int32 debug = 0;
void
sys_printbool(bool v)
{
if(v) {
sys_write(1, (byte*)"true", 4);
return;
}
sys_write(1, (byte*)"false", 5);
}
void
sys_printfloat(float64 v)
{
sys_write(1, "printfloat", 10);
}
void
sys_printint(int64 v)
{
byte buf[100];
int32 i, s;
s = 0;
if(v < 0) {
v = -v;
s = 1;
if(v < 0) {
sys_write(1, (byte*)"-oo", 3);
return;
}
}
for(i=nelem(buf)-1; i>0; i--) {
buf[i] = v%10 + '0';
if(v < 10)
break;
v = v/10;
}
if(s) {
i--;
buf[i] = '-';
}
sys_write(1, buf+i, nelem(buf)-i);
}
void
sys_printpointer(void *p)
{
uint64 v;
byte buf[100];
int32 i;
v = (int64)p;
for(i=nelem(buf)-1; i>0; i--) {
buf[i] = v%16 + '0';
if(buf[i] > '9')
buf[i] += 'a'-'0'-10;
if(v < 16)
break;
v = v/16;
}
sys_write(1, buf+i, nelem(buf)-i);
}
void
sys_printstring(string v)
{
sys_write(1, v->str, v->len);
}
int32
strlen(int8 *s)
{
int32 l;
for(l=0; s[l]!=0; l++)
;
return l;
}
void
prints(int8 *s)
{
sys_write(1, s, strlen(s));
}
void
sys_printpc(void *p)
{
prints("PC=0x");
sys_printpointer(sys_getcallerpc(p));
}
void
sys_panicl(int32 lno)
{
prints("\npanic on line ");
sys_printint(lno);
prints(" ");
sys_printpc(&lno);
prints("\n");
*(int32*)0 = 0;
}
dump(byte *p, int32 n)
{
uint32 v;
int32 i;
for(i=0; i<n; i++) {
sys_printpointer((byte*)(p[i]>>4));
sys_printpointer((byte*)(p[i]&0xf));
if((i&15) == 15)
prints("\n");
else
prints(" ");
}
if(n & 15)
prints("\n");
}
static uint8* hunk;
static uint32 nhunk;
static uint64 nmmap;
static uint64 nmal;
enum
{
NHUNK = 20<<20,
PROT_NONE = 0x00,
PROT_READ = 0x01,
PROT_WRITE = 0x02,
PROT_EXEC = 0x04,
MAP_FILE = 0x0000,
MAP_SHARED = 0x0001,
MAP_PRIVATE = 0x0002,
MAP_FIXED = 0x0010,
MAP_ANON = 0x1000,
};
void
throw(int8 *s)
{
prints("throw: ");
prints(s);
prints("\n");
sys_exit(1);
}
void
mcpy(byte *t, byte *f, uint32 n)
{
while(n > 0) {
*t = *f;
t++;
f++;
n--;
}
}
static byte*
brk(uint32 n)
{
byte* v;
v = sys_mmap(nil, NHUNK, PROT_READ|PROT_WRITE, MAP_ANON|MAP_PRIVATE, 0, 0);
sys_memclr(v, n);
nmmap += n;
return v;
}
void*
mal(uint32 n)
{
byte* v;
// round to keep everything 64-bit alligned
while(n & 7)
n++;
nmal += n;
// do we have enough in contiguous hunk
if(n > nhunk) {
// if it is big allocate it separately
if(n > NHUNK)
return brk(n);
// allocate a new contiguous hunk
hunk = brk(NHUNK);
nhunk = NHUNK;
}
// allocate from the contiguous hunk
v = hunk;
hunk += n;
nhunk -= n;
return v;
}
uint32
cmpstring(string s1, string s2)
{
uint32 i, l;
byte c1, c2;
l = s1->len;
if(s2->len < l)
l = s2->len;
for(i=0; i<l; i++) {
c1 = s1->str[i];
c2 = s2->str[i];
if(c1 < c2)
return -1;
if(c1 > c2)
return +1;
}
if(s1->len < s2->len)
return -1;
if(s1->len > s2->len)
return +1;
return 0;
}
void
sys_mal(uint32 n, uint8 *ret)
{
ret = mal(n);
FLUSH(&ret);
}
void
sys_catstring(string s1, string s2, string s3)
{
uint32 l;
if(s1->len == 0) {
s3 = s2;
goto out;
}
if(s2->len == 0) {
s3 = s1;
goto out;
}
l = s1->len + s2->len;
s3 = mal(sizeof(s3->len)+l);
s3->len = l;
mcpy(s3->str, s1->str, s1->len);
mcpy(s3->str+s1->len, s2->str, s2->len);
out:
FLUSH(&s3);
}
void
sys_cmpstring(string s1, string s2, int32 v)
{
v = cmpstring(s1, s2);
FLUSH(&v);
}
static int32
strcmp(byte *s1, byte *s2)
{
uint32 i;
byte c1, c2;
for(i=0;; i++) {
c1 = s1[i];
c2 = s2[i];
if(c1 < c2)
return -1;
if(c1 > c2)
return +1;
if(c1 == 0)
return 0;
}
}
static void
prbounds(int8* s, int32 a, int32 b, int32 c)
{
int32 i;
prints(s);
prints(" ");
sys_printint(a);
prints("<");
sys_printint(b);
prints(">");
sys_printint(c);
prints("\n");
throw("bounds");
}
void
sys_slicestring(string si, int32 lindex, int32 hindex, string so)
{
string s, str;
int32 l;
if(lindex < 0 || lindex > si->len ||
hindex < lindex || hindex > si->len) {
sys_printpc(&si);
prints(" ");
prbounds("slice", lindex, si->len, hindex);
}
l = hindex-lindex;
so = mal(sizeof(so->len)+l);
so->len = l;
mcpy(so->str, si->str+lindex, l);
FLUSH(&so);
}
void
sys_indexstring(string s, int32 i, byte b)
{
if(i < 0 || i >= s->len) {
sys_printpc(&s);
prints(" ");
prbounds("index", 0, i, s->len);
}
b = s->str[i];
FLUSH(&b);
}
/*
* this is the plan9 runetochar
* extended for 36 bits in 7 bytes
* note that it truncates to 32 bits
* through the argument passing.
*/
static int32
runetochar(byte *str, uint32 c)
{
int32 i, n;
uint32 mask, mark;
/*
* one character in 7 bits
*/
if(c <= 0x07FUL) {
str[0] = c;
return 1;
}
/*
* every new character picks up 5 bits
* one less in the first byte and
* six more in an extension byte
*/
mask = 0x7ffUL;
mark = 0xC0UL;
for(n=1;; n++) {
if(c <= mask)
break;
mask = (mask<<5) | 0x1fUL;
mark = (mark>>1) | 0x80UL;
}
/*
* lay down the bytes backwards
* n is the number of extension bytes
* mask is the max codepoint
* mark is the zeroth byte indicator
*/
for(i=n; i>0; i--) {
str[i] = 0x80UL | (c&0x3fUL);
c >>= 6;
}
str[0] = mark|c;
return n+1;
}
void
sys_intstring(int64 v, string s)
{
int32 l;
s = mal(sizeof(s->len)+8);
s->len = runetochar(s->str, v);
FLUSH(&s);
}
void
sys_byteastring(byte *a, int32 l, string s)
{
s = mal(sizeof(s->len)+l);
s->len = l;
mcpy(s->str, a, l);
FLUSH(&s);
}
static Map* hash[1009];
static Map*
hashmap(Sigi *si, Sigs *ss)
{
int32 ns, ni;
uint32 ihash, h;
byte *sname, *iname;
Map *m;
h = ((uint32)si + (uint32)ss) % nelem(hash);
for(m=hash[h]; m!=nil; m=m->link) {
if(m->si == si && m->ss == ss) {
if(m->bad) {
throw("bad hashmap");
m = nil;
}
// prints("old hashmap\n");
return m;
}
}
ni = si[0].offset; // first word has size
m = mal(sizeof(*m) + ni*sizeof(m->fun[0]));
m->si = si;
m->ss = ss;
ni = 1; // skip first word
ns = 0;
loop1:
// pick up next name from
// interface signature
iname = si[ni].name;
if(iname == nil) {
m->link = hash[h];
hash[h] = m;
// prints("new hashmap\n");
return m;
}
ihash = si[ni].hash;
loop2:
// pick up and comapre next name
// from structure signature
sname = ss[ns].name;
if(sname == nil) {
prints((int8*)iname);
prints(": ");
throw("hashmap: failed to find method");
m->bad = 1;
m->link = hash[h];
hash[h] = m;
return nil;
}
if(ihash != ss[ns].hash ||
strcmp(sname, iname) != 0) {
ns++;
goto loop2;
}
m->fun[si[ni].offset] = ss[ns].fun;
ni++;
goto loop1;
}
void
sys_ifaces2i(Sigi *si, Sigs *ss, Map *m, void *s)
{
if(debug) {
prints("s2i sigi=");
sys_printpointer(si);
prints(" sigs=");
sys_printpointer(ss);
prints(" s=");
sys_printpointer(s);
}
if(s == nil) {
throw("ifaces2i: nil pointer");
m = nil;
FLUSH(&m);
return;
}
m = hashmap(si, ss);
if(debug) {
prints(" returning m=");
sys_printpointer(m);
prints(" s=");
sys_printpointer(s);
prints("\n");
dump((byte*)m, 64);
}
FLUSH(&m);
}
void
sys_ifacei2i(Sigi *si, Map *m, void *s)
{
if(debug) {
prints("i2i sigi=");
sys_printpointer(si);
prints(" m=");
sys_printpointer(m);
prints(" s=");
sys_printpointer(s);
}
if(m == nil) {
throw("ifacei2i: nil map");
s = nil;
FLUSH(&s);
return;
}
if(m->si == nil) {
throw("ifacei2i: nil pointer");
return;
}
if(m->si != si) {
m = hashmap(si, m->ss);
FLUSH(&m);
}
if(debug) {
prints(" returning m=");
sys_printpointer(m);
prints(" s=");
sys_printpointer(s);
prints("\n");
dump((byte*)m, 64);
}
}
void
sys_ifacei2s(Sigs *ss, Map *m, void *s)
{
if(debug) {
prints("i2s m=");
sys_printpointer(m);
prints(" s=");
sys_printpointer(s);
prints("\n");
}
if(m == nil) {
throw("ifacei2s: nil map");
s = nil;
FLUSH(&s);
return;
}
if(m->ss != ss) {
dump((byte*)m, 64);
throw("ifacei2s: wrong pointer");
s = nil;
FLUSH(&s);
return;
}
}
enum
{
NANEXP = 2047<<20,
NANMASK = 2047<<20,
NANSIGN = 1<<31,
};
static uint64 uvnan = 0x7FF0000000000001;
static uint64 uvinf = 0x7FF0000000000000;
static uint64 uvneginf = 0xFFF0000000000000;
static int32
isInf(float64 d, int32 sign)
{
uint64 x;
x = *(uint64*)&d;
if(sign == 0) {
if(x == uvinf || x == uvneginf)
return 1;
return 0;
}
if(sign > 0) {
if(x == uvinf)
return 1;
return 0;
}
if(x == uvneginf)
return 1;
return 0;
}
static float64
NaN(void)
{
return *(float64*)&uvnan;
}
static int32
isNaN(float64 d)
{
uint64 x;
x = *(uint64*)&d;
return ((uint32)x>>32)==0x7FF00000 && !isInf(d, 0);
}
static float64
Inf(int32 sign)
{
if(sign < 0)
return *(float64*)&uvinf;
else
return *(float64*)&uvneginf;
}
enum
{
MASK = 0x7ffL,
SHIFT = 64-11-1,
BIAS = 1022L,
};
static float64
frexp(float64 d, int32 *ep)
{
uint64 x;
if(d == 0) {
*ep = 0;
return 0;
}
x = *(uint64*)&d;
*ep = (int32)((x >> SHIFT) & MASK) - BIAS;
x &= ~((uint64)MASK << SHIFT);
x |= (uint64)BIAS << SHIFT;
return *(float64*)&x;
}
static float64
ldexp(float64 d, int32 e)
{
uint64 x;
if(d == 0)
return 0;
x = *(uint64*)&d;
e += (int32)(x >> SHIFT) & MASK;
if(e <= 0)
return 0; /* underflow */
if(e >= MASK){ /* overflow */
if(d < 0)
return Inf(-1);
return Inf(1);
}
x &= ~((uint64)MASK << SHIFT);
x |= (uint64)e << SHIFT;
return *(float64*)&x;
}
static float64
modf(float64 d, float64 *ip)
{
float64 dd;
uint64 x;
int32 e;
if(d < 1) {
if(d < 0) {
d = modf(-d, ip);
*ip = -*ip;
return -d;
}
*ip = 0;
return d;
}
x = *(uint64*)&d;
e = (int32)((x >> SHIFT) & MASK) - BIAS;
/*
* Keep the top 11+e bits; clear the rest.
*/
if(e <= 64-11)
x &= ~((uint64)1 << (64-11-e))-1;
dd = *(float64*)&x;
*ip = dd;
return d - dd;
}
// func frexp(float64) (int32, float64); // break fp into exp,fract
void
sys_frexp(float64 din, int32 iou, float64 dou)
{
dou = frexp(din, &iou);
FLUSH(&dou);
}
//func ldexp(int32, float64) float64; // make fp from exp,fract
void
sys_ldexp(float64 din, int32 ein, float64 dou)
{
dou = ldexp(din, ein);
FLUSH(&dou);
}
//func modf(float64) (float64, float64); // break fp into double+double
float64
sys_modf(float64 din, float64 dou1, float64 dou2)
{
dou1 = modf(din, &dou2);
FLUSH(&dou2);
}
void
check(void)
{
int8 a;
uint8 b;
int16 c;
uint16 d;
int32 e;
uint32 f;
int64 g;
uint64 h;
float32 i;
float64 j;
void* k;
uint16* l;
if(sizeof(a) != 1) throw("bad a");
if(sizeof(b) != 1) throw("bad b");
if(sizeof(c) != 2) throw("bad c");
if(sizeof(d) != 2) throw("bad d");
if(sizeof(e) != 4) throw("bad e");
if(sizeof(f) != 4) throw("bad f");
if(sizeof(g) != 8) throw("bad g");
if(sizeof(h) != 8) throw("bad h");
if(sizeof(i) != 4) throw("bad i");
if(sizeof(j) != 8) throw("bad j");
if(sizeof(k) != 8) throw("bad k");
if(sizeof(l) != 8) throw("bad l");
// prints(1"check ok\n");
}
|
