liboffloadmic/runtime/compiler_if_host.cpp - gcc - Git at Google

 /*
     Copyright (c) 2014-2016 Intel Corporation.  All Rights Reserved.

     Redistribution and use in source and binary forms, with or without
     modification, are permitted provided that the following conditions
     are met:

       * Redistributions of source code must retain the above copyright
         notice, this list of conditions and the following disclaimer.
       * Redistributions in binary form must reproduce the above copyright
         notice, this list of conditions and the following disclaimer in the
         documentation and/or other materials provided with the distribution.
       * Neither the name of Intel Corporation nor the names of its
         contributors may be used to endorse or promote products derived
         from this software without specific prior written permission.

     THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
     "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
     LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
     A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
     HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
     SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
     LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
     DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
     THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
     (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
     OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 */


 #include "compiler_if_host.h"

 #include <malloc.h>
 #ifndef TARGET_WINNT
 #include <alloca.h>
 #endif // TARGET_WINNT

 // Global counter on host.
 // This variable is used if P2OPT_offload_do_data_persistence == 2.
 // The variable used to identify offload constructs contained in one procedure.
 // Increment of OFFLOAD_CALL_COUNT is inserted at entries of HOST routines with
 // offload constructs.
 static int offload_call_count = 0;

 extern "C" OFFLOAD OFFLOAD_TARGET_ACQUIRE(
     TARGET_TYPE      target_type,
     int              target_number,
     int              is_optional,
     _Offload_status* status,
     const char*      file,
     uint64_t         line
 )
 {
     bool retval;
     OFFLOAD ofld;

     // initialize status
     if (status != 0) {
         status->result = OFFLOAD_UNAVAILABLE;
         status->device_number = -1;
         status->data_sent = 0;
         status->data_received = 0;
     }

     // make sure libray is initialized
     retval = __offload_init_library();

     // OFFLOAD_TIMER_INIT must follow call to __offload_init_library
     OffloadHostTimerData * timer_data = OFFLOAD_TIMER_INIT(file, line);

     OFFLOAD_TIMER_START(timer_data, c_offload_host_total_offload);

     OFFLOAD_TIMER_START(timer_data, c_offload_host_initialize);

     // initialize all devices is init_type is on_offload_all
     if (retval && __offload_init_type == c_init_on_offload_all) {
         for (int i = 0; i < mic_engines_total; i++) {
              mic_engines[i].init();
         }
     }
     OFFLOAD_TIMER_STOP(timer_data, c_offload_host_initialize);

     OFFLOAD_TIMER_START(timer_data, c_offload_host_target_acquire);

     if (target_type == TARGET_HOST) {
         // Host always available
         retval = true;
     }
     else if (target_type == TARGET_MIC) {
         if (target_number >= -1) {
             if (retval) {
                 if (target_number >= 0) {
                     // User provided the device number
                     target_number = target_number % mic_engines_total;
                 }
                 else {
                     // use device 0
                     target_number = 0;
                 }

                 // reserve device in ORSL
                 if (is_optional) {
                     if (!ORSL::try_reserve(target_number)) {
                         target_number = -1;
                     }
                 }
                 else {
                     if (!ORSL::reserve(target_number)) {
                         target_number = -1;
                     }
                 }

                 // initialize device
                 if (target_number >= 0 &&
                     __offload_init_type == c_init_on_offload) {
                     OFFLOAD_TIMER_START(timer_data, c_offload_host_initialize);
                     mic_engines[target_number].init();
                     OFFLOAD_TIMER_STOP(timer_data, c_offload_host_initialize);
                 }
             }
             else {
                 // fallback to CPU
                 target_number = -1;
             }

             if (target_number < 0 || !retval) {
                 if (!is_optional && status == 0) {
                     LIBOFFLOAD_ERROR(c_device_is_not_available);
                     exit(1);
                 }

                 retval = false;
             }
         }
         else {
             LIBOFFLOAD_ERROR(c_invalid_device_number);
             exit(1);
         }
     }

     if (retval) {
         ofld = new OffloadDescriptor(target_number, status,
                                      !is_optional, false, timer_data);
         OFFLOAD_TIMER_HOST_MIC_NUM(timer_data, target_number);
         Offload_Report_Prolog(timer_data);
         OFFLOAD_DEBUG_TRACE_1(2, timer_data->offload_number, c_offload_start,
                               "Starting offload: target_type = %d, "
                               "number = %d, is_optional = %d\n",
                               target_type, target_number, is_optional);

         OFFLOAD_TIMER_STOP(timer_data, c_offload_host_target_acquire);
     }
     else {
         ofld = NULL;

         OFFLOAD_TIMER_STOP(timer_data, c_offload_host_target_acquire);
         OFFLOAD_TIMER_STOP(timer_data, c_offload_host_total_offload);
         offload_report_free_data(timer_data);
     }

     return ofld;
 }

 // This routine is called for OpenMP4.5 offload calls
 // OpenMP 4.5 offload is always optional.
 extern "C" OFFLOAD OFFLOAD_TARGET_ACQUIRE1(
     const int*  device_num,
     const char* file,
     uint64_t    line
 )
 {
     int target_number;

     // make sure libray is initialized and at least one device is available
     if (!__offload_init_library()) {
        OFFLOAD_DEBUG_TRACE(2, "No device available, fall back to host\n");
        return NULL;
     }

     // OFFLOAD_TIMER_INIT must follow call to __offload_init_library

     OffloadHostTimerData * timer_data = OFFLOAD_TIMER_INIT(file, line);

     OFFLOAD_TIMER_START(timer_data, c_offload_host_total_offload);

     OFFLOAD_TIMER_START(timer_data, c_offload_host_initialize);

     if (__offload_init_type == c_init_on_offload_all) {
         for (int i = 0; i < mic_engines_total; i++) {
              mic_engines[i].init();
         }
     }

     OFFLOAD_TIMER_STOP(timer_data, c_offload_host_initialize);

     OFFLOAD_TIMER_START(timer_data, c_offload_host_target_acquire);

     // use default device number if it is not provided
     if (device_num != 0) {
         target_number = *device_num;
     }
     else {
         target_number = __omp_device_num;
     }

     // device number should be a non-negative integer value
     if (target_number < 0) {
         LIBOFFLOAD_ERROR(c_omp_invalid_device_num);
         exit(1);
     }

     // should we do this for OpenMP?
     target_number %= mic_engines_total;

     // reserve device in ORSL
     if (!ORSL::reserve(target_number)) {
         LIBOFFLOAD_ERROR(c_device_is_not_available);
         exit(1);
     }

     // initialize device(s)
     OFFLOAD_TIMER_START(timer_data, c_offload_host_initialize);

     if (__offload_init_type == c_init_on_offload) {
         mic_engines[target_number].init();
     }

     OFFLOAD_TIMER_STOP(timer_data, c_offload_host_initialize);

     OFFLOAD ofld =
         new OffloadDescriptor(target_number, 0, true, true, timer_data);

     OFFLOAD_TIMER_HOST_MIC_NUM(timer_data, target_number);

     Offload_Report_Prolog(timer_data);

     OFFLOAD_DEBUG_TRACE_1(2, timer_data->offload_number, c_offload_start,
                           "Starting OpenMP offload, device = %d\n",
                           target_number);

     OFFLOAD_TIMER_STOP(timer_data, c_offload_host_target_acquire);

     return ofld;
 }

 extern "C" OFFLOAD OFFLOAD_TARGET_ACQUIRE2(
     TARGET_TYPE      target_type,
     int              target_number,
     int              is_optional,
     _Offload_status* status,
     const char*      file,
     uint64_t         line,
     const void**     stream
 )
 {
     bool retval;
     OFFLOAD ofld;

     // initialize status
     if (status != 0) {
         status->result = OFFLOAD_UNAVAILABLE;
         status->device_number = -1;
         status->data_sent = 0;
         status->data_received = 0;
     }

     // make sure libray is initialized
     retval = __offload_init_library();
     // OFFLOAD_TIMER_INIT must follow call to __offload_init_library
     OffloadHostTimerData * timer_data = OFFLOAD_TIMER_INIT(file, line);

     OFFLOAD_TIMER_START(timer_data, c_offload_host_total_offload);

     OFFLOAD_TIMER_START(timer_data, c_offload_host_initialize);

     // initalize all devices if init_type is on_offload_all
     if (retval && __offload_init_type == c_init_on_offload_all) {
         for (int i = 0; i < mic_engines_total; i++) {
              mic_engines[i].init();
         }
     }
     OFFLOAD_TIMER_STOP(timer_data, c_offload_host_initialize);

     OFFLOAD_TIMER_START(timer_data, c_offload_host_target_acquire);

     if (target_type == TARGET_HOST) {
         // Host always available
         retval = true;
     }
     else if (target_type == TARGET_MIC) {
         _Offload_stream handle = *(reinterpret_cast<_Offload_stream*>(stream));
         Stream * stream = handle ? Stream::find_stream(handle, false) : NULL;
         if (target_number >= -1) {
             if (retval) {
                 // device number is defined by stream
                 if (stream) {
                     target_number = stream->get_device();
                     target_number = target_number % mic_engines_total;
                 }

                 // reserve device in ORSL
                 if (target_number != -1) {
                     if (is_optional) {
                         if (!ORSL::try_reserve(target_number)) {
                             target_number = -1;
                         }
                     }
                     else {
                         if (!ORSL::reserve(target_number)) {
                             target_number = -1;
                         }
                     }
                 }

                 // initialize device
                 if (target_number >= 0 &&
                     __offload_init_type == c_init_on_offload) {
                     OFFLOAD_TIMER_START(timer_data, c_offload_host_initialize);
                     mic_engines[target_number].init();
                     OFFLOAD_TIMER_STOP(timer_data, c_offload_host_initialize);
                 }
             }
             else {
                 // fallback to CPU
                 target_number = -1;
             }
             if (!(target_number == -1 && handle == 0)) {
                 if (target_number < 0 || !retval) {
                     if (!is_optional && status == 0) {
                         LIBOFFLOAD_ERROR(c_device_is_not_available);
                         exit(1);
                     }

                     retval = false;
                 }
             }
         }
         else {
             LIBOFFLOAD_ERROR(c_invalid_device_number);
             exit(1);
         }
     }

     if (retval) {
         ofld = new OffloadDescriptor(target_number, status,
                                      !is_optional, false, timer_data);
         OFFLOAD_TIMER_HOST_MIC_NUM(timer_data, target_number);
         Offload_Report_Prolog(timer_data);
         OFFLOAD_DEBUG_TRACE_1(2, timer_data->offload_number, c_offload_start,
                               "Starting offload: target_type = %d, "
                               "number = %d, is_optional = %d\n",
                               target_type, target_number, is_optional);

         OFFLOAD_TIMER_STOP(timer_data, c_offload_host_target_acquire);
     }
     else {
         ofld = NULL;

         OFFLOAD_TIMER_STOP(timer_data, c_offload_host_target_acquire);
         OFFLOAD_TIMER_STOP(timer_data, c_offload_host_total_offload);
         offload_report_free_data(timer_data);
     }

     return ofld;
 }

 static int offload_offload_wrap(
     OFFLOAD ofld,
     const char *name,
     int is_empty,
     int num_vars,
     VarDesc *vars,
     VarDesc2 *vars2,
     int num_waits,
     const void **waits,
     const void **signal,
     int entry_id,
     const void *stack_addr,
     OffloadFlags offload_flags
 )
 {
     if (signal) {
        ofld->set_signal(*signal);
     }

     bool ret = ofld->offload(name, is_empty, vars, vars2, num_vars,
                              waits, num_waits, signal, entry_id,
                              stack_addr, offload_flags);
     if (!ret || (signal == 0 && ofld->get_stream() == 0 &&
                  !offload_flags.bits.omp_async)) {
         delete ofld;
     }
     return ret;
 }

 extern "C" int OFFLOAD_OFFLOAD1(
     OFFLOAD ofld,
     const char *name,
     int is_empty,
     int num_vars,
     VarDesc *vars,
     VarDesc2 *vars2,
     int num_waits,
     const void **waits,
     const void **signal
 )
 {
     return offload_offload_wrap(ofld, name, is_empty,
                             num_vars, vars, vars2,
                             num_waits, waits,
                             signal, 0, NULL, {0});
 }

 extern "C" int OFFLOAD_OFFLOAD2(
     OFFLOAD ofld,
     const char *name,
     int is_empty,
     int num_vars,
     VarDesc *vars,
     VarDesc2 *vars2,
     int num_waits,
     const void** waits,
     const void** signal,
     int entry_id,
     const void *stack_addr
 )
 {
     return offload_offload_wrap(ofld, name, is_empty,
                             num_vars, vars, vars2,
                             num_waits, waits,
                             signal, entry_id, stack_addr, {0});
 }

 extern "C" int OFFLOAD_OFFLOAD3(
     OFFLOAD ofld,
     const char *name,
     int is_empty,
     int num_vars,
     VarDesc *vars,
     VarDesc2 *vars2,
     int num_waits,
     const void** waits,
     const void** signal,
     int entry_id,
     const void *stack_addr,
     OffloadFlags offload_flags,
     const void** stream
 )
 {
     // 1. if the source is compiled with -traceback then stream is 0
     // 2. if offload has a stream clause then stream is address of stream value
     if (stream) {
         ofld->set_stream(*(reinterpret_cast<_Offload_stream *>(stream)));
     }

     return offload_offload_wrap(ofld, name, is_empty,
                             num_vars, vars, vars2,
                             num_waits, waits,
                             signal, entry_id, stack_addr, offload_flags);
 }

 extern "C" int OFFLOAD_OFFLOAD(
     OFFLOAD ofld,
     const char *name,
     int is_empty,
     int num_vars,
     VarDesc *vars,
     VarDesc2 *vars2,
     int num_waits,
     const void **waits,
     const void *signal,
     int entry_id,
     const void *stack_addr
 )
 {
     // signal is passed by reference now
     const void **signal_new = (signal != 0) ? &signal : 0;
     const void **waits_new = 0;
     int num_waits_new = 0;

     // remove NULL values from the list of signals to wait for
     if (num_waits > 0) {
         waits_new = (const void**) alloca(sizeof(void*) * num_waits);
         for (int i = 0; i < num_waits; i++) {
             if (waits[i] != 0) {
                 waits_new[num_waits_new++] = waits[i];
             }
         }
     }

     return OFFLOAD_OFFLOAD1(ofld, name, is_empty,
                             num_vars, vars, vars2,
                             num_waits_new, waits_new,
                             signal_new);
 }

 extern "C" int OFFLOAD_CALL_COUNT()
 {
     offload_call_count++;
     return offload_call_count;
 }
	/*
	Copyright (c) 2014-2016 Intel Corporation. All Rights Reserved.

	Redistribution and use in source and binary forms, with or without
	modification, are permitted provided that the following conditions
	are met:

	* Redistributions of source code must retain the above copyright
	notice, this list of conditions and the following disclaimer.
	* Redistributions in binary form must reproduce the above copyright
	notice, this list of conditions and the following disclaimer in the
	documentation and/or other materials provided with the distribution.
	* Neither the name of Intel Corporation nor the names of its
	contributors may be used to endorse or promote products derived
	from this software without specific prior written permission.

	THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
	A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
	HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
	SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
	LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	*/


	#include "compiler_if_host.h"

	#include <malloc.h>
	#ifndef TARGET_WINNT
	#include <alloca.h>
	#endif // TARGET_WINNT

	// Global counter on host.
	// This variable is used if P2OPT_offload_do_data_persistence == 2.
	// The variable used to identify offload constructs contained in one procedure.
	// Increment of OFFLOAD_CALL_COUNT is inserted at entries of HOST routines with
	// offload constructs.
	static int offload_call_count = 0;

	extern "C" OFFLOAD OFFLOAD_TARGET_ACQUIRE(
	TARGET_TYPE target_type,
	int target_number,
	int is_optional,
	_Offload_status* status,
	const char* file,
	uint64_t line
	)
	{
	bool retval;
	OFFLOAD ofld;

	// initialize status
	if (status != 0) {
	status->result = OFFLOAD_UNAVAILABLE;
	status->device_number = -1;
	status->data_sent = 0;
	status->data_received = 0;
	}

	// make sure libray is initialized
	retval = __offload_init_library();

	// OFFLOAD_TIMER_INIT must follow call to __offload_init_library
	OffloadHostTimerData * timer_data = OFFLOAD_TIMER_INIT(file, line);

	OFFLOAD_TIMER_START(timer_data, c_offload_host_total_offload);

	OFFLOAD_TIMER_START(timer_data, c_offload_host_initialize);

	// initialize all devices is init_type is on_offload_all
	if (retval && __offload_init_type == c_init_on_offload_all) {
	for (int i = 0; i < mic_engines_total; i++) {
	mic_engines[i].init();
	}
	}
	OFFLOAD_TIMER_STOP(timer_data, c_offload_host_initialize);

	OFFLOAD_TIMER_START(timer_data, c_offload_host_target_acquire);

	if (target_type == TARGET_HOST) {
	// Host always available
	retval = true;
	}
	else if (target_type == TARGET_MIC) {
	if (target_number >= -1) {
	if (retval) {
	if (target_number >= 0) {
	// User provided the device number
	target_number = target_number % mic_engines_total;
	}
	else {
	// use device 0
	target_number = 0;
	}

	// reserve device in ORSL
	if (is_optional) {
	if (!ORSL::try_reserve(target_number)) {
	target_number = -1;
	}
	}
	else {
	if (!ORSL::reserve(target_number)) {
	target_number = -1;
	}
	}

	// initialize device
	if (target_number >= 0 &&
	__offload_init_type == c_init_on_offload) {
	OFFLOAD_TIMER_START(timer_data, c_offload_host_initialize);
	mic_engines[target_number].init();
	OFFLOAD_TIMER_STOP(timer_data, c_offload_host_initialize);
	}
	}
	else {
	// fallback to CPU
	target_number = -1;
	}

	if (target_number < 0 \|\| !retval) {
	if (!is_optional && status == 0) {
	LIBOFFLOAD_ERROR(c_device_is_not_available);
	exit(1);
	}

	retval = false;
	}
	}
	else {
	LIBOFFLOAD_ERROR(c_invalid_device_number);
	exit(1);
	}
	}

	if (retval) {
	ofld = new OffloadDescriptor(target_number, status,
	!is_optional, false, timer_data);
	OFFLOAD_TIMER_HOST_MIC_NUM(timer_data, target_number);
	Offload_Report_Prolog(timer_data);
	OFFLOAD_DEBUG_TRACE_1(2, timer_data->offload_number, c_offload_start,
	"Starting offload: target_type = %d, "
	"number = %d, is_optional = %d\n",
	target_type, target_number, is_optional);

	OFFLOAD_TIMER_STOP(timer_data, c_offload_host_target_acquire);
	}
	else {
	ofld = NULL;

	OFFLOAD_TIMER_STOP(timer_data, c_offload_host_target_acquire);
	OFFLOAD_TIMER_STOP(timer_data, c_offload_host_total_offload);
	offload_report_free_data(timer_data);
	}

	return ofld;
	}

	// This routine is called for OpenMP4.5 offload calls
	// OpenMP 4.5 offload is always optional.
	extern "C" OFFLOAD OFFLOAD_TARGET_ACQUIRE1(
	const int* device_num,
	const char* file,
	uint64_t line
	)
	{
	int target_number;

	// make sure libray is initialized and at least one device is available
	if (!__offload_init_library()) {
	OFFLOAD_DEBUG_TRACE(2, "No device available, fall back to host\n");
	return NULL;
	}

	// OFFLOAD_TIMER_INIT must follow call to __offload_init_library

	OffloadHostTimerData * timer_data = OFFLOAD_TIMER_INIT(file, line);

	OFFLOAD_TIMER_START(timer_data, c_offload_host_total_offload);

	OFFLOAD_TIMER_START(timer_data, c_offload_host_initialize);

	if (__offload_init_type == c_init_on_offload_all) {
	for (int i = 0; i < mic_engines_total; i++) {
	mic_engines[i].init();
	}
	}

	OFFLOAD_TIMER_STOP(timer_data, c_offload_host_initialize);

	OFFLOAD_TIMER_START(timer_data, c_offload_host_target_acquire);

	// use default device number if it is not provided
	if (device_num != 0) {
	target_number = *device_num;
	}
	else {
	target_number = __omp_device_num;
	}

	// device number should be a non-negative integer value
	if (target_number < 0) {
	LIBOFFLOAD_ERROR(c_omp_invalid_device_num);
	exit(1);
	}

	// should we do this for OpenMP?
	target_number %= mic_engines_total;

	// reserve device in ORSL
	if (!ORSL::reserve(target_number)) {
	LIBOFFLOAD_ERROR(c_device_is_not_available);
	exit(1);
	}

	// initialize device(s)
	OFFLOAD_TIMER_START(timer_data, c_offload_host_initialize);

	if (__offload_init_type == c_init_on_offload) {
	mic_engines[target_number].init();
	}

	OFFLOAD_TIMER_STOP(timer_data, c_offload_host_initialize);

	OFFLOAD ofld =
	new OffloadDescriptor(target_number, 0, true, true, timer_data);

	OFFLOAD_TIMER_HOST_MIC_NUM(timer_data, target_number);

	Offload_Report_Prolog(timer_data);

	OFFLOAD_DEBUG_TRACE_1(2, timer_data->offload_number, c_offload_start,
	"Starting OpenMP offload, device = %d\n",
	target_number);

	OFFLOAD_TIMER_STOP(timer_data, c_offload_host_target_acquire);

	return ofld;
	}

	extern "C" OFFLOAD OFFLOAD_TARGET_ACQUIRE2(
	TARGET_TYPE target_type,
	int target_number,
	int is_optional,
	_Offload_status* status,
	const char* file,
	uint64_t line,
	const void** stream
	)
	{
	bool retval;
	OFFLOAD ofld;

	// initialize status
	if (status != 0) {
	status->result = OFFLOAD_UNAVAILABLE;
	status->device_number = -1;
	status->data_sent = 0;
	status->data_received = 0;
	}

	// make sure libray is initialized
	retval = __offload_init_library();
	// OFFLOAD_TIMER_INIT must follow call to __offload_init_library
	OffloadHostTimerData * timer_data = OFFLOAD_TIMER_INIT(file, line);

	OFFLOAD_TIMER_START(timer_data, c_offload_host_total_offload);

	OFFLOAD_TIMER_START(timer_data, c_offload_host_initialize);

	// initalize all devices if init_type is on_offload_all
	if (retval && __offload_init_type == c_init_on_offload_all) {
	for (int i = 0; i < mic_engines_total; i++) {
	mic_engines[i].init();
	}
	}
	OFFLOAD_TIMER_STOP(timer_data, c_offload_host_initialize);

	OFFLOAD_TIMER_START(timer_data, c_offload_host_target_acquire);

	if (target_type == TARGET_HOST) {
	// Host always available
	retval = true;
	}
	else if (target_type == TARGET_MIC) {
	_Offload_stream handle = (reinterpret_cast<_Offload_stream>(stream));
	Stream * stream = handle ? Stream::find_stream(handle, false) : NULL;
	if (target_number >= -1) {
	if (retval) {
	// device number is defined by stream
	if (stream) {
	target_number = stream->get_device();
	target_number = target_number % mic_engines_total;
	}

	// reserve device in ORSL
	if (target_number != -1) {
	if (is_optional) {
	if (!ORSL::try_reserve(target_number)) {
	target_number = -1;
	}
	}
	else {
	if (!ORSL::reserve(target_number)) {
	target_number = -1;
	}
	}
	}

	// initialize device
	if (target_number >= 0 &&
	__offload_init_type == c_init_on_offload) {
	OFFLOAD_TIMER_START(timer_data, c_offload_host_initialize);
	mic_engines[target_number].init();
	OFFLOAD_TIMER_STOP(timer_data, c_offload_host_initialize);
	}
	}
	else {
	// fallback to CPU
	target_number = -1;
	}
	if (!(target_number == -1 && handle == 0)) {
	if (target_number < 0 \|\| !retval) {
	if (!is_optional && status == 0) {
	LIBOFFLOAD_ERROR(c_device_is_not_available);
	exit(1);
	}

	retval = false;
	}
	}
	}
	else {
	LIBOFFLOAD_ERROR(c_invalid_device_number);
	exit(1);
	}
	}

	if (retval) {
	ofld = new OffloadDescriptor(target_number, status,
	!is_optional, false, timer_data);
	OFFLOAD_TIMER_HOST_MIC_NUM(timer_data, target_number);
	Offload_Report_Prolog(timer_data);
	OFFLOAD_DEBUG_TRACE_1(2, timer_data->offload_number, c_offload_start,
	"Starting offload: target_type = %d, "
	"number = %d, is_optional = %d\n",
	target_type, target_number, is_optional);

	OFFLOAD_TIMER_STOP(timer_data, c_offload_host_target_acquire);
	}
	else {
	ofld = NULL;

	OFFLOAD_TIMER_STOP(timer_data, c_offload_host_target_acquire);
	OFFLOAD_TIMER_STOP(timer_data, c_offload_host_total_offload);
	offload_report_free_data(timer_data);
	}

	return ofld;
	}

	static int offload_offload_wrap(
	OFFLOAD ofld,
	const char *name,
	int is_empty,
	int num_vars,
	VarDesc *vars,
	VarDesc2 *vars2,
	int num_waits,
	const void **waits,
	const void **signal,
	int entry_id,
	const void *stack_addr,
	OffloadFlags offload_flags
	)
	{
	if (signal) {
	ofld->set_signal(*signal);
	}

	bool ret = ofld->offload(name, is_empty, vars, vars2, num_vars,
	waits, num_waits, signal, entry_id,
	stack_addr, offload_flags);
	if (!ret \|\| (signal == 0 && ofld->get_stream() == 0 &&
	!offload_flags.bits.omp_async)) {
	delete ofld;
	}
	return ret;
	}

	extern "C" int OFFLOAD_OFFLOAD1(
	OFFLOAD ofld,
	const char *name,
	int is_empty,
	int num_vars,
	VarDesc *vars,
	VarDesc2 *vars2,
	int num_waits,
	const void **waits,
	const void **signal
	)
	{
	return offload_offload_wrap(ofld, name, is_empty,
	num_vars, vars, vars2,
	num_waits, waits,
	signal, 0, NULL, {0});
	}

	extern "C" int OFFLOAD_OFFLOAD2(
	OFFLOAD ofld,
	const char *name,
	int is_empty,
	int num_vars,
	VarDesc *vars,
	VarDesc2 *vars2,
	int num_waits,
	const void** waits,
	const void** signal,
	int entry_id,
	const void *stack_addr
	)
	{
	return offload_offload_wrap(ofld, name, is_empty,
	num_vars, vars, vars2,
	num_waits, waits,
	signal, entry_id, stack_addr, {0});
	}

	extern "C" int OFFLOAD_OFFLOAD3(
	OFFLOAD ofld,
	const char *name,
	int is_empty,
	int num_vars,
	VarDesc *vars,
	VarDesc2 *vars2,
	int num_waits,
	const void** waits,
	const void** signal,
	int entry_id,
	const void *stack_addr,
	OffloadFlags offload_flags,
	const void** stream
	)
	{
	// 1. if the source is compiled with -traceback then stream is 0
	// 2. if offload has a stream clause then stream is address of stream value
	if (stream) {
	ofld->set_stream((reinterpret_cast<_Offload_stream >(stream)));
	}

	return offload_offload_wrap(ofld, name, is_empty,
	num_vars, vars, vars2,
	num_waits, waits,
	signal, entry_id, stack_addr, offload_flags);
	}

	extern "C" int OFFLOAD_OFFLOAD(
	OFFLOAD ofld,
	const char *name,
	int is_empty,
	int num_vars,
	VarDesc *vars,
	VarDesc2 *vars2,
	int num_waits,
	const void **waits,
	const void *signal,
	int entry_id,
	const void *stack_addr
	)
	{
	// signal is passed by reference now
	const void **signal_new = (signal != 0) ? &signal : 0;
	const void **waits_new = 0;
	int num_waits_new = 0;

	// remove NULL values from the list of signals to wait for
	if (num_waits > 0) {
	waits_new = (const void*) alloca(sizeof(void) * num_waits);
	for (int i = 0; i < num_waits; i++) {
	if (waits[i] != 0) {
	waits_new[num_waits_new++] = waits[i];
	}
	}
	}

	return OFFLOAD_OFFLOAD1(ofld, name, is_empty,
	num_vars, vars, vars2,
	num_waits_new, waits_new,
	signal_new);
	}

	extern "C" int OFFLOAD_CALL_COUNT()
	{
	offload_call_count++;
	return offload_call_count;
	}