third_party/gofrontend/libgo/runtime/parfor.c - llvm-project/llgo - Git at Google

 // Copyright 2012 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.

 // Parallel for algorithm.

 #include "runtime.h"
 #include "arch.h"

 struct ParForThread
 {
 	// the thread's iteration space [32lsb, 32msb)
 	uint64 pos;
 	// stats
 	uint64 nsteal;
 	uint64 nstealcnt;
 	uint64 nprocyield;
 	uint64 nosyield;
 	uint64 nsleep;
 	byte pad[CacheLineSize];
 };

 ParFor*
 runtime_parforalloc(uint32 nthrmax)
 {
 	ParFor *desc;

 	// The ParFor object is followed by CacheLineSize padding
 	// and then nthrmax ParForThread.
 	desc = (ParFor*)runtime_malloc(sizeof(ParFor) + CacheLineSize + nthrmax * sizeof(ParForThread));
 	desc->thr = (ParForThread*)((byte*)(desc+1) + CacheLineSize);
 	desc->nthrmax = nthrmax;
 	return desc;
 }

 void
 runtime_parforsetup(ParFor *desc, uint32 nthr, uint32 n, bool wait, const FuncVal *body)
 {
 	uint32 i, begin, end;
 	uint64 *pos;

 	if(desc == nil || nthr == 0 || nthr > desc->nthrmax || body == nil) {
 		runtime_printf("desc=%p nthr=%d count=%d body=%p\n", desc, nthr, n, body);
 		runtime_throw("parfor: invalid args");
 	}

 	desc->body = body;
 	desc->done = 0;
 	desc->nthr = nthr;
 	desc->thrseq = 0;
 	desc->cnt = n;
 	desc->wait = wait;
 	desc->nsteal = 0;
 	desc->nstealcnt = 0;
 	desc->nprocyield = 0;
 	desc->nosyield = 0;
 	desc->nsleep = 0;
 	for(i=0; i<nthr; i++) {
 		begin = (uint64)n*i / nthr;
 		end = (uint64)n*(i+1) / nthr;
 		pos = &desc->thr[i].pos;
 		if(((uintptr)pos & 7) != 0)
 			runtime_throw("parforsetup: pos is not aligned");
 		*pos = (uint64)begin | (((uint64)end)<<32);
 	}
 }

 void
 runtime_parfordo(ParFor *desc)
 {
 	ParForThread *me;
 	uint32 tid, begin, end, begin2, try, victim, i;
 	uint64 *mypos, *victimpos, pos, newpos;
 	const FuncVal *body;
 	void (*bodyfn)(ParFor*, uint32);
 	bool idle;

 	// Obtain 0-based thread index.
 	tid = runtime_xadd(&desc->thrseq, 1) - 1;
 	if(tid >= desc->nthr) {
 		runtime_printf("tid=%d nthr=%d\n", tid, desc->nthr);
 		runtime_throw("parfor: invalid tid");
 	}

 	body = desc->body;
 	bodyfn = (void (*)(ParFor*, uint32))(void*)body->fn;

 	// If single-threaded, just execute the for serially.
 	if(desc->nthr==1) {
 		for(i=0; i<desc->cnt; i++)
 		  __builtin_call_with_static_chain (bodyfn(desc, i), body);
 		return;
 	}

 	me = &desc->thr[tid];
 	mypos = &me->pos;
 	for(;;) {
 		for(;;) {
 			// While there is local work,
 			// bump low index and execute the iteration.
 			pos = runtime_xadd64(mypos, 1);
 			begin = (uint32)pos-1;
 			end = (uint32)(pos>>32);
 			if(begin < end) {
 				__builtin_call_with_static_chain(bodyfn(desc, begin), body);
 				continue;
 			}
 			break;
 		}

 		// Out of work, need to steal something.
 		idle = false;
 		for(try=0;; try++) {
 			// If we don't see any work for long enough,
 			// increment the done counter...
 			if(try > desc->nthr*4 && !idle) {
 				idle = true;
 				runtime_xadd(&desc->done, 1);
 			}
 			// ...if all threads have incremented the counter,
 			// we are done.
 			if(desc->done + !idle == desc->nthr) {
 				if(!idle)
 					runtime_xadd(&desc->done, 1);
 				goto exit;
 			}
 			// Choose a random victim for stealing.
 			victim = runtime_fastrand1() % (desc->nthr-1);
 			if(victim >= tid)
 				victim++;
 			victimpos = &desc->thr[victim].pos;
 			for(;;) {
 				// See if it has any work.
 				pos = runtime_atomicload64(victimpos);
 				begin = (uint32)pos;
 				end = (uint32)(pos>>32);
 				if(begin+1 >= end) {
 					begin = end = 0;
 					break;
 				}
 				if(idle) {
 					runtime_xadd(&desc->done, -1);
 					idle = false;
 				}
 				begin2 = begin + (end-begin)/2;
 				newpos = (uint64)begin | (uint64)begin2<<32;
 				if(runtime_cas64(victimpos, pos, newpos)) {
 					begin = begin2;
 					break;
 				}
 			}
 			if(begin < end) {
 				// Has successfully stolen some work.
 				if(idle)
 					runtime_throw("parfor: should not be idle");
 				runtime_atomicstore64(mypos, (uint64)begin | (uint64)end<<32);
 				me->nsteal++;
 				me->nstealcnt += end-begin;
 				break;
 			}
 			// Backoff.
 			if(try < desc->nthr) {
 				// nothing
 			} else if (try < 4*desc->nthr) {
 				me->nprocyield++;
 				runtime_procyield(20);
 			// If a caller asked not to wait for the others, exit now
 			// (assume that most work is already done at this point).
 			} else if (!desc->wait) {
 				if(!idle)
 					runtime_xadd(&desc->done, 1);
 				goto exit;
 			} else if (try < 6*desc->nthr) {
 				me->nosyield++;
 				runtime_osyield();
 			} else {
 				me->nsleep++;
 				runtime_usleep(1);
 			}
 		}
 	}
 exit:
 	runtime_xadd64(&desc->nsteal, me->nsteal);
 	runtime_xadd64(&desc->nstealcnt, me->nstealcnt);
 	runtime_xadd64(&desc->nprocyield, me->nprocyield);
 	runtime_xadd64(&desc->nosyield, me->nosyield);
 	runtime_xadd64(&desc->nsleep, me->nsleep);
 	me->nsteal = 0;
 	me->nstealcnt = 0;
 	me->nprocyield = 0;
 	me->nosyield = 0;
 	me->nsleep = 0;
 }

 // For testing from Go.
 void
 runtime_parforiters(ParFor *desc, uintptr tid, uintptr *start, uintptr *end)
 {
 	*start = (uint32)desc->thr[tid].pos;
 	*end = (uint32)(desc->thr[tid].pos>>32);
 }
	// Copyright 2012 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.

	// Parallel for algorithm.

	#include "runtime.h"
	#include "arch.h"

	struct ParForThread
	{
	// the thread's iteration space [32lsb, 32msb)
	uint64 pos;
	// stats
	uint64 nsteal;
	uint64 nstealcnt;
	uint64 nprocyield;
	uint64 nosyield;
	uint64 nsleep;
	byte pad[CacheLineSize];
	};

	ParFor*
	runtime_parforalloc(uint32 nthrmax)
	{
	ParFor *desc;

	// The ParFor object is followed by CacheLineSize padding
	// and then nthrmax ParForThread.
	desc = (ParFor)runtime_malloc(sizeof(ParFor) + CacheLineSize + nthrmax sizeof(ParForThread));
	desc->thr = (ParForThread)((byte)(desc+1) + CacheLineSize);
	desc->nthrmax = nthrmax;
	return desc;
	}

	void
	runtime_parforsetup(ParFor desc, uint32 nthr, uint32 n, bool wait, const FuncVal body)
	{
	uint32 i, begin, end;
	uint64 *pos;

	if(desc == nil \|\| nthr == 0 \|\| nthr > desc->nthrmax \|\| body == nil) {
	runtime_printf("desc=%p nthr=%d count=%d body=%p\n", desc, nthr, n, body);
	runtime_throw("parfor: invalid args");
	}

	desc->body = body;
	desc->done = 0;
	desc->nthr = nthr;
	desc->thrseq = 0;
	desc->cnt = n;
	desc->wait = wait;
	desc->nsteal = 0;
	desc->nstealcnt = 0;
	desc->nprocyield = 0;
	desc->nosyield = 0;
	desc->nsleep = 0;
	for(i=0; i<nthr; i++) {
	begin = (uint64)n*i / nthr;
	end = (uint64)n*(i+1) / nthr;
	pos = &desc->thr[i].pos;
	if(((uintptr)pos & 7) != 0)
	runtime_throw("parforsetup: pos is not aligned");
	*pos = (uint64)begin \| (((uint64)end)<<32);
	}
	}

	void
	runtime_parfordo(ParFor *desc)
	{
	ParForThread *me;
	uint32 tid, begin, end, begin2, try, victim, i;
	uint64 mypos, victimpos, pos, newpos;
	const FuncVal *body;
	void (bodyfn)(ParFor, uint32);
	bool idle;

	// Obtain 0-based thread index.
	tid = runtime_xadd(&desc->thrseq, 1) - 1;
	if(tid >= desc->nthr) {
	runtime_printf("tid=%d nthr=%d\n", tid, desc->nthr);
	runtime_throw("parfor: invalid tid");
	}

	body = desc->body;
	bodyfn = (void ()(ParFor, uint32))(void*)body->fn;

	// If single-threaded, just execute the for serially.
	if(desc->nthr==1) {
	for(i=0; i<desc->cnt; i++)
	__builtin_call_with_static_chain (bodyfn(desc, i), body);
	return;
	}

	me = &desc->thr[tid];
	mypos = &me->pos;
	for(;;) {
	for(;;) {
	// While there is local work,
	// bump low index and execute the iteration.
	pos = runtime_xadd64(mypos, 1);
	begin = (uint32)pos-1;
	end = (uint32)(pos>>32);
	if(begin < end) {
	__builtin_call_with_static_chain(bodyfn(desc, begin), body);
	continue;
	}
	break;
	}

	// Out of work, need to steal something.
	idle = false;
	for(try=0;; try++) {
	// If we don't see any work for long enough,
	// increment the done counter...
	if(try > desc->nthr*4 && !idle) {
	idle = true;
	runtime_xadd(&desc->done, 1);
	}
	// ...if all threads have incremented the counter,
	// we are done.
	if(desc->done + !idle == desc->nthr) {
	if(!idle)
	runtime_xadd(&desc->done, 1);
	goto exit;
	}
	// Choose a random victim for stealing.
	victim = runtime_fastrand1() % (desc->nthr-1);
	if(victim >= tid)
	victim++;
	victimpos = &desc->thr[victim].pos;
	for(;;) {
	// See if it has any work.
	pos = runtime_atomicload64(victimpos);
	begin = (uint32)pos;
	end = (uint32)(pos>>32);
	if(begin+1 >= end) {
	begin = end = 0;
	break;
	}
	if(idle) {
	runtime_xadd(&desc->done, -1);
	idle = false;
	}
	begin2 = begin + (end-begin)/2;
	newpos = (uint64)begin \| (uint64)begin2<<32;
	if(runtime_cas64(victimpos, pos, newpos)) {
	begin = begin2;
	break;
	}
	}
	if(begin < end) {
	// Has successfully stolen some work.
	if(idle)
	runtime_throw("parfor: should not be idle");
	runtime_atomicstore64(mypos, (uint64)begin \| (uint64)end<<32);
	me->nsteal++;
	me->nstealcnt += end-begin;
	break;
	}
	// Backoff.
	if(try < desc->nthr) {
	// nothing
	} else if (try < 4*desc->nthr) {
	me->nprocyield++;
	runtime_procyield(20);
	// If a caller asked not to wait for the others, exit now
	// (assume that most work is already done at this point).
	} else if (!desc->wait) {
	if(!idle)
	runtime_xadd(&desc->done, 1);
	goto exit;
	} else if (try < 6*desc->nthr) {
	me->nosyield++;
	runtime_osyield();
	} else {
	me->nsleep++;
	runtime_usleep(1);
	}
	}
	}
	exit:
	runtime_xadd64(&desc->nsteal, me->nsteal);
	runtime_xadd64(&desc->nstealcnt, me->nstealcnt);
	runtime_xadd64(&desc->nprocyield, me->nprocyield);
	runtime_xadd64(&desc->nosyield, me->nosyield);
	runtime_xadd64(&desc->nsleep, me->nsleep);
	me->nsteal = 0;
	me->nstealcnt = 0;
	me->nprocyield = 0;
	me->nosyield = 0;
	me->nsleep = 0;
	}

	// For testing from Go.
	void
	runtime_parforiters(ParFor desc, uintptr tid, uintptr start, uintptr *end)
	{
	*start = (uint32)desc->thr[tid].pos;
	*end = (uint32)(desc->thr[tid].pos>>32);
	}