src/pkg/runtime/runtime.c - go - Git at Google

 // 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"
 #include "stack.h"

 enum {
 	maxround = sizeof(uintptr),
 };

 uint32	runtime·panicking;

 int32
 runtime·gotraceback(void)
 {
 	byte *p;

 	p = runtime·getenv("GOTRACEBACK");
 	if(p == nil || p[0] == '\0')
 		return 1;	// default is on
 	return runtime·atoi(p);
 }

 static Lock paniclk;

 void
 runtime·startpanic(void)
 {
 	if(m->dying) {
 		runtime·printf("panic during panic\n");
 		runtime·exit(3);
 	}
 	m->dying = 1;
 	runtime·xadd(&runtime·panicking, 1);
 	runtime·lock(&paniclk);
 }

 void
 runtime·dopanic(int32 unused)
 {
 	static bool didothers;

 	if(g->sig != 0)
 		runtime·printf("\n[signal %x code=%p addr=%p pc=%p]\n",
 			g->sig, g->sigcode0, g->sigcode1, g->sigpc);

 	runtime·printf("\n");
 	if(runtime·gotraceback()){
 		runtime·traceback(runtime·getcallerpc(&unused), runtime·getcallersp(&unused), 0, g);
 		if(!didothers) {
 			didothers = true;
 			runtime·tracebackothers(g);
 		}
 	}
 	runtime·unlock(&paniclk);
 	if(runtime·xadd(&runtime·panicking, -1) != 0) {
 		// Some other m is panicking too.
 		// Let it print what it needs to print.
 		// Wait forever without chewing up cpu.
 		// It will exit when it's done.
 		static Lock deadlock;
 		runtime·lock(&deadlock);
 		runtime·lock(&deadlock);
 	}

 	runtime·exit(2);
 }

 void
 runtime·panicindex(void)
 {
 	runtime·panicstring("index out of range");
 }

 void
 runtime·panicslice(void)
 {
 	runtime·panicstring("slice bounds out of range");
 }

 void
 runtime·throwreturn(void)
 {
 	// can only happen if compiler is broken
 	runtime·throw("no return at end of a typed function - compiler is broken");
 }

 void
 runtime·throwinit(void)
 {
 	// can only happen with linker skew
 	runtime·throw("recursive call during initialization - linker skew");
 }

 void
 runtime·throw(int8 *s)
 {
 	runtime·startpanic();
 	runtime·printf("throw: %s\n", s);
 	runtime·dopanic(0);
 	*(int32*)0 = 0;	// not reached
 	runtime·exit(1);	// even more not reached
 }

 void
 runtime·panicstring(int8 *s)
 {
 	Eface err;

 	if(m->gcing) {
 		runtime·printf("panic: %s\n", s);
 		runtime·throw("panic during gc");
 	}
 	runtime·newErrorString(runtime·gostringnocopy((byte*)s), &err);
 	runtime·panic(err);
 }

 void
 runtime·mcpy(byte *t, byte *f, uint32 n)
 {
 	while(n > 0) {
 		*t = *f;
 		t++;
 		f++;
 		n--;
 	}
 }

 int32
 runtime·mcmp(byte *s1, byte *s2, uint32 n)
 {
 	uint32 i;
 	byte c1, c2;

 	for(i=0; i<n; i++) {
 		c1 = s1[i];
 		c2 = s2[i];
 		if(c1 < c2)
 			return -1;
 		if(c1 > c2)
 			return +1;
 	}
 	return 0;
 }


 byte*
 runtime·mchr(byte *p, byte c, byte *ep)
 {
 	for(; p < ep; p++)
 		if(*p == c)
 			return p;
 	return nil;
 }

 uint32
 runtime·rnd(uint32 n, uint32 m)
 {
 	uint32 r;

 	if(m > maxround)
 		m = maxround;
 	r = n % m;
 	if(r)
 		n += m-r;
 	return n;
 }

 static int32	argc;
 static uint8**	argv;

 Slice os·Args;
 Slice os·Envs;

 void
 runtime·args(int32 c, uint8 **v)
 {
 	argc = c;
 	argv = v;
 }

 int32 runtime·isplan9;
 int32 runtime·iswindows;

 void
 runtime·goargs(void)
 {
 	String *s;
 	int32 i;

 	// for windows implementation see "os" package
 	if(Windows)
 		return;

 	s = runtime·malloc(argc*sizeof s[0]);
 	for(i=0; i<argc; i++)
 		s[i] = runtime·gostringnocopy(argv[i]);
 	os·Args.array = (byte*)s;
 	os·Args.len = argc;
 	os·Args.cap = argc;
 }

 void
 runtime·goenvs_unix(void)
 {
 	String *s;
 	int32 i, n;

 	for(n=0; argv[argc+1+n] != 0; n++)
 		;

 	s = runtime·malloc(n*sizeof s[0]);
 	for(i=0; i<n; i++)
 		s[i] = runtime·gostringnocopy(argv[argc+1+i]);
 	os·Envs.array = (byte*)s;
 	os·Envs.len = n;
 	os·Envs.cap = n;
 }

 // Atomic add and return new value.
 uint32
 runtime·xadd(uint32 volatile *val, int32 delta)
 {
 	uint32 oval, nval;

 	for(;;){
 		oval = *val;
 		nval = oval + delta;
 		if(runtime·cas(val, oval, nval))
 			return nval;
 	}
 }

 byte*
 runtime·getenv(int8 *s)
 {
 	int32 i, j, len;
 	byte *v, *bs;
 	String* envv;
 	int32 envc;

 	bs = (byte*)s;
 	len = runtime·findnull(bs);
 	envv = (String*)os·Envs.array;
 	envc = os·Envs.len;
 	for(i=0; i<envc; i++){
 		if(envv[i].len <= len)
 			continue;
 		v = envv[i].str;
 		for(j=0; j<len; j++)
 			if(bs[j] != v[j])
 				goto nomatch;
 		if(v[len] != '=')
 			goto nomatch;
 		return v+len+1;
 	nomatch:;
 	}
 	return nil;
 }

 void
 runtime·getgoroot(String out)
 {
 	byte *p;

 	p = runtime·getenv("GOROOT");
 	out = runtime·gostringnocopy(p);
 	FLUSH(&out);
 }

 int32
 runtime·atoi(byte *p)
 {
 	int32 n;

 	n = 0;
 	while('0' <= *p && *p <= '9')
 		n = n*10 + *p++ - '0';
 	return n;
 }

 void
 runtime·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;
 	struct x1 {
 		byte x;
 	};
 	struct y1 {
 		struct x1 x1;
 		byte y;
 	};

 	if(sizeof(a) != 1) runtime·throw("bad a");
 	if(sizeof(b) != 1) runtime·throw("bad b");
 	if(sizeof(c) != 2) runtime·throw("bad c");
 	if(sizeof(d) != 2) runtime·throw("bad d");
 	if(sizeof(e) != 4) runtime·throw("bad e");
 	if(sizeof(f) != 4) runtime·throw("bad f");
 	if(sizeof(g) != 8) runtime·throw("bad g");
 	if(sizeof(h) != 8) runtime·throw("bad h");
 	if(sizeof(i) != 4) runtime·throw("bad i");
 	if(sizeof(j) != 8) runtime·throw("bad j");
 	if(sizeof(k) != sizeof(uintptr)) runtime·throw("bad k");
 	if(sizeof(l) != sizeof(uintptr)) runtime·throw("bad l");
 	if(sizeof(struct x1) != 1) runtime·throw("bad sizeof x1");
 	if(offsetof(struct y1, y) != 1) runtime·throw("bad offsetof y1.y");
 	if(sizeof(struct y1) != 2) runtime·throw("bad sizeof y1");

 	uint32 z;
 	z = 1;
 	if(!runtime·cas(&z, 1, 2))
 		runtime·throw("cas1");
 	if(z != 2)
 		runtime·throw("cas2");

 	z = 4;
 	if(runtime·cas(&z, 5, 6))
 		runtime·throw("cas3");
 	if(z != 4)
 		runtime·throw("cas4");

 	runtime·initsig(0);
 }

 /*
  * map and chan helpers for
  * dealing with unknown types
  */
 static uintptr
 memhash(uint32 s, void *a)
 {
 	byte *b;
 	uintptr hash;

 	b = a;
 	if(sizeof(hash) == 4)
 		hash = 2860486313U;
 	else
 		hash = 33054211828000289ULL;
 	while(s > 0) {
 		if(sizeof(hash) == 4)
 			hash = (hash ^ *b) * 3267000013UL;
 		else
 			hash = (hash ^ *b) * 23344194077549503ULL;
 		b++;
 		s--;
 	}
 	return hash;
 }

 static uint32
 memequal(uint32 s, void *a, void *b)
 {
 	byte *ba, *bb, *aend;

 	if(a == b)
 	  return 1;
 	ba = a;
 	bb = b;
 	aend = ba+s;
 	while(ba != aend) {
 		if(*ba != *bb)
 			return 0;
 		ba++;
 		bb++;
 	}
 	return 1;
 }

 static void
 memprint(uint32 s, void *a)
 {
 	uint64 v;

 	v = 0xbadb00b;
 	switch(s) {
 	case 1:
 		v = *(uint8*)a;
 		break;
 	case 2:
 		v = *(uint16*)a;
 		break;
 	case 4:
 		v = *(uint32*)a;
 		break;
 	case 8:
 		v = *(uint64*)a;
 		break;
 	}
 	runtime·printint(v);
 }

 static void
 memcopy(uint32 s, void *a, void *b)
 {
 	byte *ba, *bb;
 	uint32 i;

 	ba = a;
 	bb = b;
 	if(bb == nil) {
 		for(i=0; i<s; i++)
 			ba[i] = 0;
 		return;
 	}
 	for(i=0; i<s; i++)
 		ba[i] = bb[i];
 }

 static uint32
 memwordequal(uint32 s, void *a, void *b)
 {
 	USED(s);
 	return *(uintptr*)(a) == *(uintptr*)(b);
 }

 static void
 memwordcopy(uint32 s, void *a, void *b)
 {
 	USED(s);
 	if (b == nil) {
 		*(uintptr*)(a) = 0;
 		return;
 	}
 	*(uintptr*)(a) = *(uintptr*)(b);
 }

 static uintptr
 strhash(uint32 s, String *a)
 {
 	USED(s);
 	return memhash((*a).len, (*a).str);
 }

 static uint32
 strequal(uint32 s, String *a, String *b)
 {
 	int32 alen;

 	USED(s);
 	alen = a->len;
 	if(alen != b->len)
 		return false;
 	return memequal(alen, a->str, b->str);
 }

 static void
 strprint(uint32 s, String *a)
 {
 	USED(s);
 	runtime·printstring(*a);
 }

 static uintptr
 interhash(uint32 s, Iface *a)
 {
 	USED(s);
 	return runtime·ifacehash(*a);
 }

 static void
 interprint(uint32 s, Iface *a)
 {
 	USED(s);
 	runtime·printiface(*a);
 }

 static uint32
 interequal(uint32 s, Iface *a, Iface *b)
 {
 	USED(s);
 	return runtime·ifaceeq_c(*a, *b);
 }

 static uintptr
 nilinterhash(uint32 s, Eface *a)
 {
 	USED(s);
 	return runtime·efacehash(*a);
 }

 static void
 nilinterprint(uint32 s, Eface *a)
 {
 	USED(s);
 	runtime·printeface(*a);
 }

 static uint32
 nilinterequal(uint32 s, Eface *a, Eface *b)
 {
 	USED(s);
 	return runtime·efaceeq_c(*a, *b);
 }

 uintptr
 runtime·nohash(uint32 s, void *a)
 {
 	USED(s);
 	USED(a);
 	runtime·panicstring("hash of unhashable type");
 	return 0;
 }

 uint32
 runtime·noequal(uint32 s, void *a, void *b)
 {
 	USED(s);
 	USED(a);
 	USED(b);
 	runtime·panicstring("comparing uncomparable types");
 	return 0;
 }

 Alg
 runtime·algarray[] =
 {
 [AMEM]	{ memhash, memequal, memprint, memcopy },
 [ANOEQ]	{ runtime·nohash, runtime·noequal, memprint, memcopy },
 [ASTRING]	{ strhash, strequal, strprint, memcopy },
 [AINTER]		{ interhash, interequal, interprint, memcopy },
 [ANILINTER]	{ nilinterhash, nilinterequal, nilinterprint, memcopy },
 [AMEMWORD] { memhash, memwordequal, memprint, memwordcopy },
 };

 int64
 runtime·nanotime(void)
 {
 	int64 sec;
 	int32 usec;

 	sec = 0;
 	usec = 0;
 	runtime·gettime(&sec, &usec);
 	return sec*1000000000 + (int64)usec*1000;
 }

 void
 runtime·Caller(int32 skip, uintptr retpc, String retfile, int32 retline, bool retbool)
 {
 	Func *f;
 	uintptr pc;

 	if(runtime·callers(1+skip, &retpc, 1) == 0) {
 		retfile = runtime·emptystring;
 		retline = 0;
 		retbool = false;
 	} else if((f = runtime·findfunc(retpc)) == nil) {
 		retfile = runtime·emptystring;
 		retline = 0;
 		retbool = true;  // have retpc at least
 	} else {
 		retfile = f->src;
 		pc = retpc;
 		if(pc > f->entry)
 			pc--;
 		retline = runtime·funcline(f, pc);
 		retbool = true;
 	}
 	FLUSH(&retfile);
 	FLUSH(&retline);
 	FLUSH(&retbool);
 }

 void
 runtime·Callers(int32 skip, Slice pc, int32 retn)
 {
 	retn = runtime·callers(skip, (uintptr*)pc.array, pc.len);
 	FLUSH(&retn);
 }

 void
 runtime·FuncForPC(uintptr pc, void *retf)
 {
 	retf = runtime·findfunc(pc);
 	FLUSH(&retf);
 }
	// 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"
	#include "stack.h"

	enum {
	maxround = sizeof(uintptr),
	};

	uint32 runtime·panicking;

	int32
	runtime·gotraceback(void)
	{
	byte *p;

	p = runtime·getenv("GOTRACEBACK");
	if(p == nil \|\| p[0] == '\0')
	return 1; // default is on
	return runtime·atoi(p);
	}

	static Lock paniclk;

	void
	runtime·startpanic(void)
	{
	if(m->dying) {
	runtime·printf("panic during panic\n");
	runtime·exit(3);
	}
	m->dying = 1;
	runtime·xadd(&runtime·panicking, 1);
	runtime·lock(&paniclk);
	}

	void
	runtime·dopanic(int32 unused)
	{
	static bool didothers;

	if(g->sig != 0)
	runtime·printf("\n[signal %x code=%p addr=%p pc=%p]\n",
	g->sig, g->sigcode0, g->sigcode1, g->sigpc);

	runtime·printf("\n");
	if(runtime·gotraceback()){
	runtime·traceback(runtime·getcallerpc(&unused), runtime·getcallersp(&unused), 0, g);
	if(!didothers) {
	didothers = true;
	runtime·tracebackothers(g);
	}
	}
	runtime·unlock(&paniclk);
	if(runtime·xadd(&runtime·panicking, -1) != 0) {
	// Some other m is panicking too.
	// Let it print what it needs to print.
	// Wait forever without chewing up cpu.
	// It will exit when it's done.
	static Lock deadlock;
	runtime·lock(&deadlock);
	runtime·lock(&deadlock);
	}

	runtime·exit(2);
	}

	void
	runtime·panicindex(void)
	{
	runtime·panicstring("index out of range");
	}

	void
	runtime·panicslice(void)
	{
	runtime·panicstring("slice bounds out of range");
	}

	void
	runtime·throwreturn(void)
	{
	// can only happen if compiler is broken
	runtime·throw("no return at end of a typed function - compiler is broken");
	}

	void
	runtime·throwinit(void)
	{
	// can only happen with linker skew
	runtime·throw("recursive call during initialization - linker skew");
	}

	void
	runtime·throw(int8 *s)
	{
	runtime·startpanic();
	runtime·printf("throw: %s\n", s);
	runtime·dopanic(0);
	(int32)0 = 0; // not reached
	runtime·exit(1); // even more not reached
	}

	void
	runtime·panicstring(int8 *s)
	{
	Eface err;

	if(m->gcing) {
	runtime·printf("panic: %s\n", s);
	runtime·throw("panic during gc");
	}
	runtime·newErrorString(runtime·gostringnocopy((byte*)s), &err);
	runtime·panic(err);
	}

	void
	runtime·mcpy(byte t, byte f, uint32 n)
	{
	while(n > 0) {
	t = f;
	t++;
	f++;
	n--;
	}
	}

	int32
	runtime·mcmp(byte s1, byte s2, uint32 n)
	{
	uint32 i;
	byte c1, c2;

	for(i=0; i<n; i++) {
	c1 = s1[i];
	c2 = s2[i];
	if(c1 < c2)
	return -1;
	if(c1 > c2)
	return +1;
	}
	return 0;
	}


	byte*
	runtime·mchr(byte p, byte c, byte ep)
	{
	for(; p < ep; p++)
	if(*p == c)
	return p;
	return nil;
	}

	uint32
	runtime·rnd(uint32 n, uint32 m)
	{
	uint32 r;

	if(m > maxround)
	m = maxround;
	r = n % m;
	if(r)
	n += m-r;
	return n;
	}

	static int32 argc;
	static uint8** argv;

	Slice os·Args;
	Slice os·Envs;

	void
	runtime·args(int32 c, uint8 **v)
	{
	argc = c;
	argv = v;
	}

	int32 runtime·isplan9;
	int32 runtime·iswindows;

	void
	runtime·goargs(void)
	{
	String *s;
	int32 i;

	// for windows implementation see "os" package
	if(Windows)
	return;

	s = runtime·malloc(argc*sizeof s[0]);
	for(i=0; i<argc; i++)
	s[i] = runtime·gostringnocopy(argv[i]);
	os·Args.array = (byte*)s;
	os·Args.len = argc;
	os·Args.cap = argc;
	}

	void
	runtime·goenvs_unix(void)
	{
	String *s;
	int32 i, n;

	for(n=0; argv[argc+1+n] != 0; n++)
	;

	s = runtime·malloc(n*sizeof s[0]);
	for(i=0; i<n; i++)
	s[i] = runtime·gostringnocopy(argv[argc+1+i]);
	os·Envs.array = (byte*)s;
	os·Envs.len = n;
	os·Envs.cap = n;
	}

	// Atomic add and return new value.
	uint32
	runtime·xadd(uint32 volatile *val, int32 delta)
	{
	uint32 oval, nval;

	for(;;){
	oval = *val;
	nval = oval + delta;
	if(runtime·cas(val, oval, nval))
	return nval;
	}
	}

	byte*
	runtime·getenv(int8 *s)
	{
	int32 i, j, len;
	byte v, bs;
	String* envv;
	int32 envc;

	bs = (byte*)s;
	len = runtime·findnull(bs);
	envv = (String*)os·Envs.array;
	envc = os·Envs.len;
	for(i=0; i<envc; i++){
	if(envv[i].len <= len)
	continue;
	v = envv[i].str;
	for(j=0; j<len; j++)
	if(bs[j] != v[j])
	goto nomatch;
	if(v[len] != '=')
	goto nomatch;
	return v+len+1;
	nomatch:;
	}
	return nil;
	}

	void
	runtime·getgoroot(String out)
	{
	byte *p;

	p = runtime·getenv("GOROOT");
	out = runtime·gostringnocopy(p);
	FLUSH(&out);
	}

	int32
	runtime·atoi(byte *p)
	{
	int32 n;

	n = 0;
	while('0' <= p && p <= '9')
	n = n10 + p++ - '0';
	return n;
	}

	void
	runtime·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;
	struct x1 {
	byte x;
	};
	struct y1 {
	struct x1 x1;
	byte y;
	};

	if(sizeof(a) != 1) runtime·throw("bad a");
	if(sizeof(b) != 1) runtime·throw("bad b");
	if(sizeof(c) != 2) runtime·throw("bad c");
	if(sizeof(d) != 2) runtime·throw("bad d");
	if(sizeof(e) != 4) runtime·throw("bad e");
	if(sizeof(f) != 4) runtime·throw("bad f");
	if(sizeof(g) != 8) runtime·throw("bad g");
	if(sizeof(h) != 8) runtime·throw("bad h");
	if(sizeof(i) != 4) runtime·throw("bad i");
	if(sizeof(j) != 8) runtime·throw("bad j");
	if(sizeof(k) != sizeof(uintptr)) runtime·throw("bad k");
	if(sizeof(l) != sizeof(uintptr)) runtime·throw("bad l");
	if(sizeof(struct x1) != 1) runtime·throw("bad sizeof x1");
	if(offsetof(struct y1, y) != 1) runtime·throw("bad offsetof y1.y");
	if(sizeof(struct y1) != 2) runtime·throw("bad sizeof y1");

	uint32 z;
	z = 1;
	if(!runtime·cas(&z, 1, 2))
	runtime·throw("cas1");
	if(z != 2)
	runtime·throw("cas2");

	z = 4;
	if(runtime·cas(&z, 5, 6))
	runtime·throw("cas3");
	if(z != 4)
	runtime·throw("cas4");

	runtime·initsig(0);
	}

	/*
	* map and chan helpers for
	* dealing with unknown types
	*/
	static uintptr
	memhash(uint32 s, void *a)
	{
	byte *b;
	uintptr hash;

	b = a;
	if(sizeof(hash) == 4)
	hash = 2860486313U;
	else
	hash = 33054211828000289ULL;
	while(s > 0) {
	if(sizeof(hash) == 4)
	hash = (hash ^ b) 3267000013UL;
	else
	hash = (hash ^ b) 23344194077549503ULL;
	b++;
	s--;
	}
	return hash;
	}

	static uint32
	memequal(uint32 s, void a, void b)
	{
	byte ba, bb, *aend;

	if(a == b)
	return 1;
	ba = a;
	bb = b;
	aend = ba+s;
	while(ba != aend) {
	if(ba != bb)
	return 0;
	ba++;
	bb++;
	}
	return 1;
	}

	static void
	memprint(uint32 s, void *a)
	{
	uint64 v;

	v = 0xbadb00b;
	switch(s) {
	case 1:
	v = (uint8)a;
	break;
	case 2:
	v = (uint16)a;
	break;
	case 4:
	v = (uint32)a;
	break;
	case 8:
	v = (uint64)a;
	break;
	}
	runtime·printint(v);
	}

	static void
	memcopy(uint32 s, void a, void b)
	{
	byte ba, bb;
	uint32 i;

	ba = a;
	bb = b;
	if(bb == nil) {
	for(i=0; i<s; i++)
	ba[i] = 0;
	return;
	}
	for(i=0; i<s; i++)
	ba[i] = bb[i];
	}

	static uint32
	memwordequal(uint32 s, void a, void b)
	{
	USED(s);
	return (uintptr)(a) == (uintptr)(b);
	}

	static void
	memwordcopy(uint32 s, void a, void b)
	{
	USED(s);
	if (b == nil) {
	(uintptr)(a) = 0;
	return;
	}
	(uintptr)(a) = (uintptr)(b);
	}

	static uintptr
	strhash(uint32 s, String *a)
	{
	USED(s);
	return memhash((a).len, (a).str);
	}

	static uint32
	strequal(uint32 s, String a, String b)
	{
	int32 alen;

	USED(s);
	alen = a->len;
	if(alen != b->len)
	return false;
	return memequal(alen, a->str, b->str);
	}

	static void
	strprint(uint32 s, String *a)
	{
	USED(s);
	runtime·printstring(*a);
	}

	static uintptr
	interhash(uint32 s, Iface *a)
	{
	USED(s);
	return runtime·ifacehash(*a);
	}

	static void
	interprint(uint32 s, Iface *a)
	{
	USED(s);
	runtime·printiface(*a);
	}

	static uint32
	interequal(uint32 s, Iface a, Iface b)
	{
	USED(s);
	return runtime·ifaceeq_c(a, b);
	}

	static uintptr
	nilinterhash(uint32 s, Eface *a)
	{
	USED(s);
	return runtime·efacehash(*a);
	}

	static void
	nilinterprint(uint32 s, Eface *a)
	{
	USED(s);
	runtime·printeface(*a);
	}

	static uint32
	nilinterequal(uint32 s, Eface a, Eface b)
	{
	USED(s);
	return runtime·efaceeq_c(a, b);
	}

	uintptr
	runtime·nohash(uint32 s, void *a)
	{
	USED(s);
	USED(a);
	runtime·panicstring("hash of unhashable type");
	return 0;
	}

	uint32
	runtime·noequal(uint32 s, void a, void b)
	{
	USED(s);
	USED(a);
	USED(b);
	runtime·panicstring("comparing uncomparable types");
	return 0;
	}

	Alg
	runtime·algarray[] =
	{
	[AMEM] { memhash, memequal, memprint, memcopy },
	[ANOEQ] { runtime·nohash, runtime·noequal, memprint, memcopy },
	[ASTRING] { strhash, strequal, strprint, memcopy },
	[AINTER] { interhash, interequal, interprint, memcopy },
	[ANILINTER] { nilinterhash, nilinterequal, nilinterprint, memcopy },
	[AMEMWORD] { memhash, memwordequal, memprint, memwordcopy },
	};

	int64
	runtime·nanotime(void)
	{
	int64 sec;
	int32 usec;

	sec = 0;
	usec = 0;
	runtime·gettime(&sec, &usec);
	return sec1000000000 + (int64)usec1000;
	}

	void
	runtime·Caller(int32 skip, uintptr retpc, String retfile, int32 retline, bool retbool)
	{
	Func *f;
	uintptr pc;

	if(runtime·callers(1+skip, &retpc, 1) == 0) {
	retfile = runtime·emptystring;
	retline = 0;
	retbool = false;
	} else if((f = runtime·findfunc(retpc)) == nil) {
	retfile = runtime·emptystring;
	retline = 0;
	retbool = true; // have retpc at least
	} else {
	retfile = f->src;
	pc = retpc;
	if(pc > f->entry)
	pc--;
	retline = runtime·funcline(f, pc);
	retbool = true;
	}
	FLUSH(&retfile);
	FLUSH(&retline);
	FLUSH(&retbool);
	}

	void
	runtime·Callers(int32 skip, Slice pc, int32 retn)
	{
	retn = runtime·callers(skip, (uintptr*)pc.array, pc.len);
	FLUSH(&retn);
	}

	void
	runtime·FuncForPC(uintptr pc, void *retf)
	{
	retf = runtime·findfunc(pc);
	FLUSH(&retf);
	}