diff options
Diffstat (limited to 'TAO/performance-tests/Cubit/TAO/IDL_Cubit/Cubit_Client.cpp')
-rw-r--r-- | TAO/performance-tests/Cubit/TAO/IDL_Cubit/Cubit_Client.cpp | 1179 |
1 files changed, 0 insertions, 1179 deletions
diff --git a/TAO/performance-tests/Cubit/TAO/IDL_Cubit/Cubit_Client.cpp b/TAO/performance-tests/Cubit/TAO/IDL_Cubit/Cubit_Client.cpp deleted file mode 100644 index 1d9d65e0edc..00000000000 --- a/TAO/performance-tests/Cubit/TAO/IDL_Cubit/Cubit_Client.cpp +++ /dev/null @@ -1,1179 +0,0 @@ -// $Id$ - -#include "ace/Env_Value_T.h" -#include "ace/Read_Buffer.h" -#include "Cubit_Client.h" - -#include "tao/Timeprobe.h" -#include "RTI_IO.h" - -ACE_RCSID(IDL_Cubit, Cubit_Client, "$Id$") - -#if defined (ACE_ENABLE_TIMEPROBES) - - static const char *Cubit_Client_Timeprobe_Description[] = -{ - "Cubit_Client::cube_oneway - start", - "Cubit_Client::cube_oneway - end", - - "Cubit_Client::cube_void - start", - "Cubit_Client::cube_void - end", - - "Cubit_Client::cube_octet - start", - "Cubit_Client::cube_octet - end", - - "Cubit_Client::cube_short - start", - "Cubit_Client::cube_short - end", - - "Cubit_Client::cube_long - start", - "Cubit_Client::cube_long - end", - - "Cubit_Client::cube_struct - start", - "Cubit_Client::cube_struct - end", - - "Cubit_Client::cube_union - start", - "Cubit_Client::cube_union - end", - - "Cubit_Client::cube_long_sequence - start", - "Cubit_Client::cube_long_sequence - end", - - "Cubit_Client::cube_octet_sequence - start", - "Cubit_Client::cube_octet_sequence - end", - - "Cubit_Client::cube_many_sequence - start", - "Cubit_Client::cube_many_sequence - end", - - "Cubit_Client::cube_rti_data - start", - "Cubit_Client::cube_rti_data - end" - -}; - -enum -{ - // Timeprobe description table start key - CUBIT_CLIENT_CUBE_ONEWAY_START = 10000, - CUBIT_CLIENT_CUBE_ONEWAY_END, - - CUBIT_CLIENT_CUBE_VOID_START, - CUBIT_CLIENT_CUBE_VOID_END, - - CUBIT_CLIENT_CUBE_OCTET_START, - CUBIT_CLIENT_CUBE_OCTET_END, - - CUBIT_CLIENT_CUBE_SHORT_START, - CUBIT_CLIENT_CUBE_SHORT_END, - - CUBIT_CLIENT_CUBE_LONG_START, - CUBIT_CLIENT_CUBE_LONG_END, - - CUBIT_CLIENT_CUBE_STRUCT_START, - CUBIT_CLIENT_CUBE_STRUCT_END, - - CUBIT_CLIENT_CUBE_UNION_START, - CUBIT_CLIENT_CUBE_UNION_END, - - CUBIT_CLIENT_CUBE_LONG_SEQUENCE_START, - CUBIT_CLIENT_CUBE_LONG_SEQUENCE_END, - - CUBIT_CLIENT_CUBE_OCTET_SEQUENCE_START, - CUBIT_CLIENT_CUBE_OCTET_SEQUENCE_END, - - CUBIT_CLIENT_CUBE_MANY_SEQUENCE_START, - CUBIT_CLIENT_CUBE_MANY_SEQUENCE_END, - - CUBIT_CLIENT_CUBE_RTI_DATA_START, - CUBIT_CLIENT_CUBE_RTI_DATA_END -}; - -// Setup Timeprobes -ACE_TIMEPROBE_EVENT_DESCRIPTIONS (Cubit_Client_Timeprobe_Description, - CUBIT_CLIENT_CUBE_ONEWAY_START); - -#endif /* ACE_ENABLE_TIMEPROBES */ - -// Constructor. -Cubit_Client::Cubit_Client (void) - : cubit_factory_key_ (0), - loop_count_ (250), - shutdown_ (0), - cubit_ (Cubit::_nil ()), - call_count_ (0), - error_count_ (0), - cubit_factory_ior_file_ (0), - f_handle_ (ACE_INVALID_HANDLE), - only_void_ (0), - only_oneway_ (0) -{ -} - -// Simple function that returns the substraction of 117 from the -// parameter. - -int -Cubit_Client::func (u_int i) -{ - return i - 117; -} - -// Reads the Cubit factory ior from a file - -int -Cubit_Client::read_ior (char *filename) -{ - // Open the file for reading. - this->f_handle_ = ACE_OS::open (filename,0); - - if (this->f_handle_ == ACE_INVALID_HANDLE) - ACE_ERROR_RETURN ((LM_ERROR, - "Unable to open %s for writing: %p\n", - filename), - -1); - ACE_Read_Buffer ior_buffer (this->f_handle_); - char *data = ior_buffer.read (); - - if (data == 0) - ACE_ERROR_RETURN ((LM_ERROR, - "Unable to allocate memory to read ior: %p\n"), - -1); - - this->cubit_factory_key_ = ACE_OS::strdup (data); - ior_buffer.alloc ()->free (data); - - return 0; -} - -// Parses the command line arguments and returns an error status. - -int -Cubit_Client::parse_args (void) -{ - ACE_Get_Opt get_opts (argc_, argv_, "ovdn:f:k:xs"); - int c; - int result; - - while ((c = get_opts ()) != -1) - switch (c) - { - case 'v': - this->only_void_ = 1; - break; - case 'o': - this->only_oneway_ = 1; - break; - case 'd': // debug flag - TAO_debug_level++; - break; - case 'n': // loop count - this->loop_count_ = - (u_int) ACE_OS::atoi (get_opts.optarg); - break; - case 'f': // read the IOR from the file. - result = this->read_ior (get_opts.optarg); - if (result < 0) - ACE_ERROR_RETURN ((LM_ERROR, - "Unable to read ior from %s : %p\n", - get_opts.optarg), - -1); - break; - case 'k': // read the cubit IOR from the command-line. - this->cubit_factory_key_ = - ACE_OS::strdup (get_opts.optarg); - break; - case 'x': - ACE_DEBUG ((LM_DEBUG, "We will shutdown the server\n")); - this->shutdown_ = 1; - break; - case '?': - default: - ACE_ERROR_RETURN ((LM_ERROR, - "usage: %s" - " [-d]" - " [-n loopcount]" - " [-f cubit_factory-obj-ref-key-file]" - " [-k cubit-obj-ref-key]" - " [-x]" - " [-s]" - "\n", - this->argv_ [0]), - -1); - } - - // Indicates successful parsing of command line. - return 0; -} - -// Exercise the union. Cube a union. - -void -Cubit_Client::cube_union (void) -{ - CORBA::Environment env; - Cubit::oneof u; - - this->call_count_++; - - u.l (3); // use the long union branch. - - // Cube a "union" ... - Cubit::oneof r; - { - ACE_FUNCTION_TIMEPROBE (CUBIT_CLIENT_CUBE_UNION_START); - - r = this->cubit_->cube_union (u, this->env_); - } - - if (this->env_.exception () != 0) - { - this->env_.print_exception ("from cube_union"); - this->error_count_++; - } - else - { - dmsg ("cube union ..."); - u.l (u.l () * u.l () * u.l ()) ; - - if (u.l () != r.l ()) - { - ACE_DEBUG ((LM_DEBUG, "** cube_union ERROR\n")); - this->error_count_++; - } - - } - - this->call_count_++; - - u._d (Cubit::e_3rd); -#if 0 - u.cm ().l = this->func (i); - u.cm ().s = this->func (i); - u.cm ().o = this->func (i); -#endif - - u.cm ().l = 7; - u.cm ().s = 5; - u.cm ().o = 3; - - // Cube another "union" which uses the default arm ... NOT tested yet - { - ACE_FUNCTION_TIMEPROBE (CUBIT_CLIENT_CUBE_UNION_START); - - r = this->cubit_->cube_union (u, this->env_); - } - - if (this->env_.exception () != 0) - { - this->env_.print_exception ("from cube_union"); - this->error_count_++; - } - else - { - dmsg ("cube union ..."); - u.cm ().l = u.cm ().l * u.cm ().l * u.cm ().l; - u.cm ().s = u.cm ().s * u.cm ().s * u.cm ().s; - u.cm ().o = u.cm ().o * u.cm ().o * u.cm ().o; - - if (u.cm ().l != r.cm ().l - || u.cm ().s != r.cm ().s - || u.cm ().o != r.cm ().o) - { - ACE_DEBUG ((LM_DEBUG, "** cube_union ERROR\n")); - this->error_count_++; - } - } -} - -// Cube a short. - -void -Cubit_Client::cube_short (int i) -{ - CORBA::Short arg_short = this->func (i); - - // Cube a short. - CORBA::Short ret_short; - { - ACE_FUNCTION_TIMEPROBE (CUBIT_CLIENT_CUBE_SHORT_START); - - ret_short = cubit_->cube_short (arg_short, this->env_); - } - - this->call_count_++; - - if (this->env_.exception () != 0) - { - this->env_.print_exception ("from cube_short"); - this->error_count_++; - } - else - { - dmsg2 ("cube short: %d --> %d\n", - arg_short, - ret_short); - arg_short = arg_short * arg_short * arg_short; - - if (arg_short != ret_short) - { - ACE_ERROR ((LM_ERROR, "** cube_short (%d) ERROR (--> %d)\n", - (CORBA::Short) this->func (i), - ret_short)); - this->error_count_++; - } - } -} - -// Oneway test. - -void -Cubit_Client::cube_oneway (int i) -{ - { - ACE_FUNCTION_TIMEPROBE (CUBIT_CLIENT_CUBE_ONEWAY_START); - - this->cubit_->cube_oneway (this->env_); - } - - this->call_count_++; - - if (this->env_.exception () != 0) - { - this->env_.print_exception ("from cube_oneway"); - this->error_count_++; - } -} - -void -Cubit_Client::cube_void (int i) -{ - { - ACE_FUNCTION_TIMEPROBE (CUBIT_CLIENT_CUBE_VOID_START); - - this->cubit_->cube_void (this->env_); - } - - this->call_count_++; - - if (this->env_.exception () != 0) - { - this->env_.print_exception ("from cube_void"); - this->error_count_++; - } -} - -// Cube an octet - -void -Cubit_Client::cube_octet (int i) -{ - CORBA::Octet arg_octet = this->func (i); - - // Cube an octet. - CORBA::Octet ret_octet; - { - ACE_FUNCTION_TIMEPROBE (CUBIT_CLIENT_CUBE_OCTET_START); - - ret_octet = this->cubit_->cube_octet (arg_octet, this->env_); - } - - this->call_count_++; - - if (this->env_.exception () != 0) - { - this->env_.print_exception ("from cube_octet"); - this->error_count_++; - } - else - { - dmsg2 ("cube octet: %d --> %d\n", arg_octet, ret_octet); - arg_octet = arg_octet * arg_octet * arg_octet; - if (arg_octet != ret_octet) { - ACE_DEBUG ((LM_DEBUG, - "** cube_octet (%d) ERROR (--> %d)\n", - (CORBA::Octet) this->func (i), - ret_octet)); - this->error_count_++; - } - } -} - -// calculate the cube from a long - -void -Cubit_Client::cube_long (int i) -{ - CORBA::Long arg_long = this->func (i); - - // Cube a long. - CORBA::Long ret_long; - { - ACE_FUNCTION_TIMEPROBE (CUBIT_CLIENT_CUBE_LONG_START); - - ret_long = this->cubit_->cube_long (arg_long, this->env_); - } - - this->call_count_++; - - if (this->env_.exception () != 0) - { - this->env_.print_exception ("from cube_long"); - this->error_count_++; - } - else - { - dmsg2 ("cube long: %d --> %d\n", arg_long, ret_long); - arg_long = arg_long * arg_long * arg_long; - - if (arg_long != ret_long) - { - ACE_ERROR ((LM_ERROR, - "** cube_long (%ld) ERROR (--> %ld)\n", - (CORBA::Long) this->func (i), - ret_long)); - this->error_count_++; - } - } -} - -// Cube the numbers in a struct - -void -Cubit_Client::cube_struct (int i) -{ - Cubit::Many arg_struct; - Cubit::Many ret_struct; - - this->call_count_++; - - arg_struct.l = this->func (i); - arg_struct.s = this->func (i); - arg_struct.o = this->func (i); - - // Cube a "struct" ... - { - ACE_FUNCTION_TIMEPROBE (CUBIT_CLIENT_CUBE_STRUCT_START); - - ret_struct = this->cubit_->cube_struct (arg_struct, this->env_); - } - - if (this->env_.exception () != 0) - { - this->env_.print_exception ("from cube_struct"); - this->error_count_++; - } - else - { - dmsg ("cube struct ..."); - arg_struct.l = arg_struct.l * arg_struct.l * arg_struct.l; - arg_struct.s = arg_struct.s * arg_struct.s * arg_struct.s; - arg_struct.o = arg_struct.o * arg_struct.o * arg_struct.o; - - if (arg_struct.l != ret_struct.l - || arg_struct.s != ret_struct.s - || arg_struct.o != ret_struct.o) - { - ACE_ERROR ((LM_ERROR, "** cube_struct ERROR\n")); - this->error_count_++; - } - } -} - -// Cube the numbers in a sequence - -void -Cubit_Client::cube_long_sequence (int i, int l) -{ - this->call_count_++; - - Cubit::long_seq input (l); - input.length (l); - -#if 0 - // Fill in the input sequence... - for (int j = 0; j < l; ++j) - input[j] = j; -#else - // Just set the first item, otherwise it is hard to compare the - // results for longer sequences, i.e. more than just marshalling - // gets in the way. - input[0] = 4; -#endif - - Cubit::long_seq_var output; - Cubit::long_seq_out vout (output); - - // Cube the sequence - { - ACE_FUNCTION_TIMEPROBE (CUBIT_CLIENT_CUBE_LONG_SEQUENCE_START); - - this->cubit_->cube_long_sequence (input, vout, this->env_); - } - - // Cubit::long_seq& output = *vout.ptr (); - // output = vout; - - if (this->env_.exception () != 0) - { - this->env_.print_exception ("from cube_struct"); - this->error_count_++; - } - else - { - if (output->length () != input.length ()) - { - ACE_ERROR ((LM_ERROR, "** cube sequence, wrong length\n")); - this->error_count_++; - return; - } - - u_int rl = output->length (); - if (input.length () < rl) - rl = input.length (); -#if 0 - for (u_int j = 0; j < rl; ++j) - { - CORBA::Long x = input[j]; - if (x*x*x != output[j]) - { - ACE_ERROR ((LM_ERROR, "** cube_long_sequence ERROR\n")); - this->error_count_++; - } - } -#else - CORBA::Long x = input[0]; - if (x * x *x != output[0]) - { - ACE_ERROR ((LM_ERROR, "** cube_long_sequence ERROR\n")); - this->error_count_++; - } -#endif - } -} - -void -Cubit_Client::cube_octet_sequence (int i, int l) -{ - this->call_count_++; - - Cubit::octet_seq input (l); - input.length (l); - -#if 0 - // Fill in the input sequence... - for (int j = 0; j < l; ++j) - input[j] = j; -#else - // Just set the first item, otherwise it is hard to compare the - // results for longer sequences, i.e. more than just marshalling - // gets in the way. - input[0] = 4; -#endif - - Cubit::octet_seq_var output; - Cubit::octet_seq_out vout (output); - - // Cube the sequence - { - ACE_FUNCTION_TIMEPROBE (CUBIT_CLIENT_CUBE_OCTET_SEQUENCE_START); - - this->cubit_->cube_octet_sequence (input, vout, this->env_); - } - - // Cubit::long_seq& output = *vout.ptr (); - // output = vout; - - if (this->env_.exception () != 0) - { - this->env_.print_exception ("from cube_struct"); - this->error_count_++; - } - else - { - if (output->length () != input.length ()) - { - ACE_ERROR ((LM_ERROR, "** cube octet, wrong length\n")); - this->error_count_++; - return; - } - - u_int rl = output->length (); - if (input.length () < rl) - rl = input.length (); -#if 0 - for (u_int j = 0; j < rl; ++j) - { - CORBA::Octet x = input[j]; - if (x*x*x != output[j]) - { - ACE_ERROR ((LM_ERROR, "** cube_octet ERROR\n")); - this->error_count_++; - } - } -#else - CORBA::Octet x = input[0]; - if (x * x *x != output[0]) - { - ACE_ERROR ((LM_ERROR, "** cube_octet ERROR\n")); - this->error_count_++; - } -#endif - } -} - -// Cube the many in a sequence - -void -Cubit_Client::cube_many_sequence (int i, int l) -{ - this->call_count_++; - - Cubit::many_seq input (l); - input.length (l); - -#if 0 - // Fill in the input sequence... - for (int j = 0; j < l; ++j) - { - Cubit::Many &in = input[j]; - in.l = j; - in.s = j; - in.o = j; - } -#else - // Just set the first item, otherwise it is hard to compare the - // results for longer sequences, i.e. more than just marshalling - // gets in the way. - Cubit::Many &in = input[0]; - in.l = 4; - in.s = 5; - in.o = 6; -#endif - - Cubit::many_seq_var output; - Cubit::many_seq_out vout (output); - - // Cube the sequence - { - ACE_FUNCTION_TIMEPROBE (CUBIT_CLIENT_CUBE_LONG_SEQUENCE_START); - - this->cubit_->cube_many_sequence (input, vout, this->env_); - } - - if (this->env_.exception () != 0) - { - this->env_.print_exception ("from cube_many_sequence"); - this->error_count_++; - } - else - { - if (output->length () != input.length ()) - { - ACE_ERROR ((LM_ERROR, "** cube sequence, wrong length\n")); - this->error_count_++; - return; - } - - u_int rl = output->length (); - if (input.length () < rl) - rl = input.length (); -#if 0 - for (u_int j = 0; j < rl; ++j) - { - Cubit::Many &in = input[j]; - Cubit::Many &out = output[j]; - - if (in.l * in.l * in.l != out.l || - in.s * in.s * in.s != out.s || - in.o * in.o * in.o != out.o) - { - ACE_ERROR ((LM_ERROR, "** cube_long_sequence ERROR\n")); - this->error_count_++; - } - } -#else - Cubit::Many &in = input[0]; - Cubit::Many &out = output[0]; - - if (in.l * in.l * in.l != out.l || - in.s * in.s * in.s != out.s || - in.o * in.o * in.o != out.o) - { - ACE_ERROR ((LM_ERROR, "** cube_long_sequence ERROR\n")); - this->error_count_++; - } -#endif - } -} - -void -Cubit_Client::cube_rti_data (int i, int numUpdates, int numAttrs) -{ - this->call_count_++; - - Cubit::RtiPacket input; - input.packetHeader.packetLength = 1; // this is probably redundant - input.packetHeader.federationHandle = 2; - input.packetHeader.channelHandle = 3; - input.packetHeader.packetColor = 4; - - input.msgs.length (numUpdates); - - for (int j = 0; j < numUpdates; ++j) - { - input.msgs[j].oumh (Cubit::RtiObjectUpdateMessageHeader ()); - Cubit::RtiObjectUpdateMessageHeader & oumh = input.msgs[j].oumh (); - oumh.updateLength = 2001; // redundant - oumh.updateTag = 2002; - oumh.objectHandle = 2003; - oumh.timestamp = 3.14159; - oumh.eventRetractionHandle = 2004; - oumh.classHandle = 2005; - oumh.sendingFederateHandle = 2006; - oumh.userTag = CORBA::string_dup ("beefcake!"); - oumh.regionData.length(0); - oumh.transportationHandle = 1; - oumh.orderingHandle = 1; - oumh.messagePayload.length (numAttrs); - - for (int k = 0; k < numAttrs; ++k) - { - oumh.messagePayload[k] = Cubit::HandleValuePair (); - Cubit::HandleValuePair &hvp = oumh.messagePayload[k]; - hvp.handle = k * k; - char *d1 = "somedata"; - hvp.data.length (ACE_OS::strlen (d1)+1); - ACE_OS::strcpy ((char *) hvp.data.get_buffer (), d1); - } - } - - Cubit::RtiPacket_var output; - Cubit::RtiPacket_out vout (output); - - // Cube the sequence - if (TAO_debug_level > 0) - { - ACE_DEBUG ((LM_DEBUG, "Input: \n")); - print_RtiPacket (input); - } - - { - ACE_FUNCTION_TIMEPROBE (CUBIT_CLIENT_RTI_DATA_START); - - this->cubit_->cube_rti_data (input, vout, this->env_); - } - if (TAO_debug_level > 0) - - { - ACE_DEBUG ((LM_DEBUG, "Output: \n")); - print_RtiPacket (*vout.ptr ()); - ACE_DEBUG ((LM_DEBUG,"need to check whether cubing happened\n")); - } -} - -void -Cubit_Client::print_stats (const char *call_name, - ACE_Profile_Timer::ACE_Elapsed_Time &elapsed_time) -{ - ACE_DEBUG ((LM_DEBUG, - "%s:\n", - call_name)); - - if (this->call_count_ > 0 && this->error_count_ == 0) - { -#if defined (ACE_LACKS_FLOATING_POINT) - // elapsed_time.real_time is in units of microseconds. - const u_int calls_per_sec = - this->call_count_ * 1000000u / elapsed_time.real_time; - - ACE_DEBUG ((LM_DEBUG, - "\treal_time\t= %u ms,\n" - "\t%u calls/second\n", - elapsed_time.real_time / 1000u, - calls_per_sec)); -#else /* ! ACE_LACKS_FLOATING_POINT */ - // elapsed_time.real_time is in units of seconds. - double calls_per_sec = this->call_count_ / elapsed_time.real_time; - - ACE_DEBUG ((LM_DEBUG, - "\treal_time\t= %0.06f ms, \n\t" - "user_time\t= %0.06f ms, \n\t" - "system_time\t= %0.06f ms\n" - "\t%0.00f calls/second\n", - elapsed_time.real_time < 0.0 ? 0.0 - : elapsed_time.real_time * ACE_ONE_SECOND_IN_MSECS, - elapsed_time.user_time < 0.0 ? 0.0 - : elapsed_time.user_time * ACE_ONE_SECOND_IN_MSECS, - elapsed_time.system_time < 0.0 ? 0.0 - : elapsed_time.system_time * ACE_ONE_SECOND_IN_MSECS, - calls_per_sec < 0.0 ? 0.0 : calls_per_sec)); -#endif /* ! ACE_LACKS_FLOATING_POINT */ - } - else - ACE_ERROR ((LM_ERROR, - "\tNo time stats printed. Call count zero or error ocurred.\n")); - - ACE_DEBUG ((LM_DEBUG, - "\t%d calls, %d errors\n", - this->call_count_, - this->error_count_)); -} - -// Execute client example code. - -int -Cubit_Client::run (int testing_collocation) -{ - if (this->only_void_) - return this->run_void (); - - if (this->only_oneway_) - return this->run_oneway (); - - u_int i; - - ACE_Profile_Timer timer; - ACE_Profile_Timer::ACE_Elapsed_Time elapsed_time; - // ACE_Time_Value before; - - // Show the results one type at a time. - - // VOID - this->call_count_ = 0; - this->error_count_ = 0; - timer.start (); - for (i = 0; i < this->loop_count_; i++) - this->cube_void (i); - timer.stop (); - timer.elapsed_time (elapsed_time); - this->print_stats ("cube_void", elapsed_time); - - // SHORT - this->call_count_ = 0; - this->error_count_ = 0; - timer.start (); - for (i = 0; i < this->loop_count_; i++) - this->cube_short (i); - timer.stop (); - timer.elapsed_time (elapsed_time); - this->print_stats ("cube_short", elapsed_time); - - // OCTET - this->call_count_ = 0; - this->error_count_ = 0; - timer.start (); - for (i = 0; i < this->loop_count_; i++) - this->cube_octet (i); - timer.stop (); - timer.elapsed_time (elapsed_time); - this->print_stats ("cube_octet", elapsed_time); - - // LONG - this->call_count_ = 0; - this->error_count_ = 0; - timer.start (); - for (i = 0; i < this->loop_count_; i++) - this->cube_long (i); - timer.stop (); - timer.elapsed_time (elapsed_time); - this->print_stats ("cube_long", elapsed_time); - - // STRUCT - this->call_count_ = 0; - this->error_count_ = 0; - timer.start (); - for (i = 0; i < this->loop_count_; i++) - this->cube_struct (i); - timer.stop (); - timer.elapsed_time (elapsed_time); - this->print_stats ("cube_struct", elapsed_time); - -#if 0 /* ASG - temporarily commented out since <<, >> operators for unions are - not supported yet */ - // UNION - this->call_count_ = 0; - this->error_count_ = 0; - timer.start (); - for (i = 0; i < this->loop_count_; i++) - this->cube_union (); - timer.stop (); - timer.elapsed_time (elapsed_time); - this->print_stats ("cube_union_stub call", elapsed_time); -#endif /* ASG */ - - // SMALL LONG SEQUENCES - this->call_count_ = 0; - this->error_count_ = 0; - timer.start (); - for (i = 0; i < this->loop_count_; i++) - this->cube_long_sequence (this->loop_count_, 4); - timer.stop (); - timer.elapsed_time (elapsed_time); - this->print_stats ("cube_small_sequence<long>", elapsed_time); - - // LARGE LONG SEQUENCES - this->call_count_ = 0; - this->error_count_ = 0; - timer.start (); - for (i = 0; i < this->loop_count_; i++) - this->cube_long_sequence (this->loop_count_, 1024); - timer.stop (); - timer.elapsed_time (elapsed_time); - this->print_stats ("cube_large_sequence<long>", elapsed_time); - - // SMALL OCTET SEQUENCES - this->call_count_ = 0; - this->error_count_ = 0; - timer.start (); - for (i = 0; i < this->loop_count_; i++) - this->cube_octet_sequence (this->loop_count_, 16); - timer.stop (); - timer.elapsed_time (elapsed_time); - this->print_stats ("cube_small_sequence<octet>", elapsed_time); - - // LARGE OCTET SEQUENCES - this->call_count_ = 0; - this->error_count_ = 0; - timer.start (); - for (i = 0; i < this->loop_count_; i++) - this->cube_octet_sequence (this->loop_count_, 4096); - timer.stop (); - timer.elapsed_time (elapsed_time); - this->print_stats ("cube_large_sequence<octet>", elapsed_time); - - // SMALL MANY SEQUENCES - this->call_count_ = 0; - this->error_count_ = 0; - timer.start (); - for (i = 0; i < this->loop_count_; i++) - this->cube_many_sequence (this->loop_count_, 4); - timer.stop (); - timer.elapsed_time (elapsed_time); - this->print_stats ("cube_small_sequence<many>", elapsed_time); - - // LARGE many SEQUENCES - this->call_count_ = 0; - this->error_count_ = 0; - timer.start (); - for (i = 0; i < this->loop_count_; i++) - this->cube_many_sequence (this->loop_count_, 1024); - timer.stop (); - timer.elapsed_time (elapsed_time); - this->print_stats ("cube_large_sequence<many>", elapsed_time); - - // MIXIN - this->call_count_ = 0; - this->error_count_ = 0; - timer.start (); - for (i = 0; i < this->loop_count_; i++) - { - this->cube_short (i); - this->cube_octet (i); - this->cube_long (i); - } - timer.stop (); - timer.elapsed_time (elapsed_time); - this->print_stats ("cube mixin (short/octet/long)", elapsed_time); - -#if 0 /* ASG - temporarily commented out since <<, >> operators for unions are - not supported yet */ - // RTI - this->call_count_ = 0; - this->error_count_ = 0; - timer.start (); - for (i = 0; i < this->loop_count_; i++) - this->cube_rti_data (this->loop_count_, 2, 5); - timer.stop (); - timer.elapsed_time (elapsed_time); - this->print_stats ("cube_rti_data", elapsed_time); -#endif /* ASG */ - - // ONEWAY - this->call_count_ = 0; - this->error_count_ = 0; - timer.start (); - for (i = 0; i < this->loop_count_; i++) - this->cube_oneway (i); - timer.stop (); - timer.elapsed_time (elapsed_time); - this->print_stats ("cube_oneway", elapsed_time); - - if (testing_collocation) - { - // @@ Nanbor, this code should be split into a separate method. - TAO_ORB_Core_instance ()->using_collocation (0); - // Make sure we call the following method "remotely" so - // the right ORB could be used. - - TAO_TRY - { - this->cubit_ = - this->factory_->make_cubit (TAO_TRY_ENV); - TAO_CHECK_ENV; - - this->cubit_->shutdown (TAO_TRY_ENV); - TAO_CHECK_ENV; - - ACE_DEBUG ((LM_DEBUG, "shutdown on shutdown object\n")); - dexc (this->env_, - "server, please ACE_OS::exit"); - } - TAO_CATCHANY - { - TAO_TRY_ENV.print_exception ("Cubit::init"); - return -1; - } - TAO_ENDTRY; - - } - else if (this->shutdown_) - { - ACE_DEBUG ((LM_DEBUG, "shutdown on cubit object\n")); - this->cubit_->shutdown (this->env_); - dexc (this->env_, "server, please ACE_OS::exit"); - } - - - return this->error_count_ == 0 ? 0 : 1; -} - -int -Cubit_Client::run_oneway (void) -{ - u_int i; - - ACE_Profile_Timer timer; - ACE_Profile_Timer::ACE_Elapsed_Time elapsed_time; - // ACE_Time_Value before; - - - // ONEWAY - this->call_count_ = 0; - this->error_count_ = 0; - timer.start (); - for (i = 0; i < this->loop_count_; i++) - this->cube_oneway (i); - timer.stop (); - timer.elapsed_time (elapsed_time); - this->print_stats ("cube_oneway", elapsed_time); - - if (this->shutdown_) - { - ACE_DEBUG ((LM_DEBUG, "shutdown on cubit object\n")); - this->cubit_->shutdown (this->env_); - dexc (this->env_, "server, please ACE_OS::exit"); - } - - return this->error_count_ == 0 ? 0 : 1; -} - -int -Cubit_Client::run_void (void) -{ - u_int i; - - ACE_Profile_Timer timer; - ACE_Profile_Timer::ACE_Elapsed_Time elapsed_time; - // ACE_Time_Value before; - - // VOID - this->call_count_ = 0; - this->error_count_ = 0; - timer.start (); - for (i = 0; i < this->loop_count_; i++) - this->cube_void (i); - timer.stop (); - timer.elapsed_time (elapsed_time); - this->print_stats ("cube_void", elapsed_time); - - if (this->shutdown_) - { - ACE_DEBUG ((LM_DEBUG, "shutdown on cubit object\n")); - this->cubit_->shutdown (this->env_); - dexc (this->env_, "server, please ACE_OS::exit"); - } - - return this->error_count_ == 0 ? 0 : 1; -} - -Cubit_Client::~Cubit_Client (void) -{ - // Free resources and close the IOR files. - if (this->cubit_factory_ior_file_) - ACE_OS::fclose (this->cubit_factory_ior_file_); - - if (this->f_handle_ != ACE_INVALID_HANDLE) - ACE_OS::close (this->f_handle_); - - if (this->cubit_factory_key_ != 0) - ACE_OS::free (this->cubit_factory_key_); -} - -int -Cubit_Client::init (int argc, char **argv) -{ - this->argc_ = argc; - this->argv_ = argv; - - TAO_TRY - { - // Retrieve the ORB. - this->orb_ = CORBA::ORB_init (this->argc_, - this->argv_, - "internet", - TAO_TRY_ENV); - TAO_CHECK_ENV; - - // Parse command line and verify parameters. - if (this->parse_args () == -1) - return -1; - - if (this->cubit_factory_key_ == 0) - ACE_ERROR_RETURN ((LM_ERROR, - "%s: no cubit factory key specified\n", - this->argv_[0]), - -1); - - CORBA::Object_var factory_object = - this->orb_->string_to_object (this->cubit_factory_key_, - TAO_TRY_ENV); - TAO_CHECK_ENV; - - this->factory_ = - Cubit_Factory::_narrow (factory_object.in(), - TAO_TRY_ENV); - TAO_CHECK_ENV; - - if (CORBA::is_nil (this->factory_.in ())) - ACE_ERROR_RETURN ((LM_ERROR, - "invalid factory key <%s>\n", - this->cubit_factory_key_), - -1); - - ACE_DEBUG ((LM_DEBUG, - "Factory received OK\n")); - - // Now retrieve the Cubit obj ref corresponding to the key. - this->cubit_ = - this->factory_->make_cubit (TAO_TRY_ENV); - TAO_CHECK_ENV; - - if (CORBA::is_nil (this->cubit_.in ())) - ACE_ERROR_RETURN ((LM_ERROR, - "null cubit objref returned by factory\n"), - -1); - } - TAO_CATCHANY - { - TAO_TRY_ENV.print_exception ("Cubit::init"); - return -1; - } - TAO_ENDTRY; - - return 0; -} - -#if defined (ACE_HAS_EXPLICIT_TEMPLATE_INSTANTIATION) -template class ACE_Env_Value<unsigned long>; -template class ACE_Env_Value<unsigned short>; -#elif defined (ACE_HAS_TEMPLATE_INSTANTIATION_PRAGMA) -#pragma instantiate ACE_Env_Value<unsigned long> -#pragma instantiate ACE_Env_Value<unsigned short> -#endif /* ACE_HAS_EXPLICIT_TEMPLATE_INSTANTIATION */ |