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[/] [openrisc/] [trunk/] [rtos/] [ecos-2.0/] [packages/] [kernel/] [v2_0/] [tests/] [fptest.c] - Rev 773
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//========================================================================== // // fptest.cxx // // Basic FPU test // //========================================================================== //####ECOSGPLCOPYRIGHTBEGIN#### // ------------------------------------------- // This file is part of eCos, the Embedded Configurable Operating System. // Copyright (C) 2003 Nick Garnett // // eCos is free software; you can redistribute it and/or modify it under // the terms of the GNU General Public License as published by the Free // Software Foundation; either version 2 or (at your option) any later version. // // eCos is distributed in the hope that it will be useful, but WITHOUT ANY // WARRANTY; without even the implied warranty of MERCHANTABILITY or // FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License // for more details. // // You should have received a copy of the GNU General Public License along // with eCos; if not, write to the Free Software Foundation, Inc., // 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. // // As a special exception, if other files instantiate templates or use macros // or inline functions from this file, or you compile this file and link it // with other works to produce a work based on this file, this file does not // by itself cause the resulting work to be covered by the GNU General Public // License. However the source code for this file must still be made available // in accordance with section (3) of the GNU General Public License. // // This exception does not invalidate any other reasons why a work based on // this file might be covered by the GNU General Public License. // // ------------------------------------------- //####ECOSGPLCOPYRIGHTEND#### //========================================================================== //#####DESCRIPTIONBEGIN#### // // Author(s): nickg@calivar.com // Contributors: nickg@calivar.com // Date: 2003-01-27 // Description: Simple FPU test. This is not very sophisticated as far // as checking FPU performance or accuracy. It is more // concerned with checking that several threads doing FP // operations do not interfere with eachother's use of the // FPU. // //####DESCRIPTIONEND#### //========================================================================== #include <pkgconf/kernel.h> #include <pkgconf/hal.h> #include <cyg/hal/hal_arch.h> #include <cyg/kernel/kapi.h> #include <cyg/infra/testcase.h> #include <cyg/infra/diag.h> //#include <cyg/kernel/test/stackmon.h> //#include CYGHWR_MEMORY_LAYOUT_H //========================================================================== #if defined(CYGFUN_KERNEL_API_C) && \ defined(CYGSEM_KERNEL_SCHED_MLQUEUE) && \ (CYGNUM_KERNEL_SCHED_PRIORITIES > 12) //========================================================================== // Base priority for all threads. #define BASE_PRI 5 //========================================================================== // Runtime // // This is the number of ticks that the program will run for. 3000 // ticks is equal to 30 seconds in the default configuration. For // simulators we reduce the run time to 3 simulated seconds. #define RUN_TICKS 3000 #define RUN_TICKS_SIM 300 //========================================================================== // Thread parameters #define STACK_SIZE (CYGNUM_HAL_STACK_SIZE_MINIMUM) static cyg_uint8 stacks[3][STACK_SIZE]; static cyg_handle_t thread[3]; static cyg_thread thread_struct[3]; //========================================================================== // Alarm parameters. static cyg_alarm alarm_struct; static cyg_handle_t alarm; static cyg_count8 cur_thread = 0; static cyg_count32 alarm_ticks = 0; static cyg_count32 run_ticks = RUN_TICKS; //========================================================================== static int errors = 0; //========================================================================== // Random number generator. Ripped out of the C library. static int rand( unsigned int *seed ) { // This is the code supplied in Knuth Vol 2 section 3.6 p.185 bottom #define RAND_MAX 0x7fffffff #define MM 2147483647 // a Mersenne prime #define AA 48271 // this does well in the spectral test #define QQ 44488 // (long)(MM/AA) #define RR 3399 // MM % AA; it is important that RR<QQ *seed = AA*(*seed % QQ) - RR*(unsigned int)(*seed/QQ); if (*seed < 0) *seed += MM; return (int)( *seed & RAND_MAX ); } //========================================================================== // Test calculation. // // Generates an array of random FP values and then repeatedly applies // a calculation to them and checks that the same result is reached // each time. The calculation, in the macro CALC, is intended to make // maximum use of the FPU registers. However, the i386 compiler // doesn't let this expression get very complex before it starts // spilling values out to memory. static void do_test( double *values, int count, int loops, int test, const char *name) { unsigned int i, j; // volatiles necessary to force // values to 64 bits for comparison volatile double sum = 1.0; volatile double last_sum; unsigned int seed; #define V(__i) (values[(__i)%count]) #define CALC ((V(i-1)*V(i+1))*(V(i-2)*V(i+2))*(V(i-3)*sum)) seed = ((unsigned int)&i)*count; // Set up an array of values... for( i = 0; i < count; i++ ) values[i] = (double)rand( &seed )/(double)0x7fffffff; // Now calculate something from them... for( i = 0; i < count; i++ ) sum += CALC; last_sum = sum; // Now recalculate the sum in a loop and look for errors for( j = 0; j < loops ; j++ ) { sum = 1.0; for( i = 0; i < count; i++ ) sum += CALC; if( sum != last_sum ) { errors++; diag_printf("%s: Sum mismatch! %d sum=[%08x:%08x] last_sum=[%08x:%08x]\n", name,j, ((cyg_uint32 *)&sum)[0],((cyg_uint32 *)&sum)[1], ((cyg_uint32 *)&last_sum)[0],((cyg_uint32 *)&last_sum)[1] ); } #if 0 if( ((j*count)%1000000) == 0 ) diag_printf("INFO:<%s: %2d calculations done>\n",name,j*count); #endif } } //========================================================================== // Alarm handler // // This is called every tick. It lowers the priority of the currently // running thread and raises the priority of the next. Thus we // implement a form of timelslicing between the threads at one tick // granularity. static void alarm_fn(cyg_handle_t alarm, cyg_addrword_t data) { alarm_ticks++; if( alarm_ticks >= run_ticks ) { if( errors ) CYG_TEST_FAIL("Errors detected"); else CYG_TEST_PASS("OK"); CYG_TEST_FINISH("FP Test done"); } else { cyg_thread_set_priority( thread[cur_thread], BASE_PRI ); cur_thread = (cur_thread+1)%3; cyg_thread_set_priority( thread[cur_thread], BASE_PRI-1 ); } } //========================================================================== #define FP1_COUNT 1000 static double fpt1_values[FP1_COUNT]; void fptest1( CYG_ADDRWORD id ) { while(1) do_test( fpt1_values, FP1_COUNT, 2000000000, id, "fptest1" ); } //========================================================================== #define FP2_COUNT 10000 static double fpt2_values[FP2_COUNT]; void fptest2( CYG_ADDRWORD id ) { while(1) do_test( fpt2_values, FP2_COUNT, 2000000000, id, "fptest2" ); } //========================================================================== #define FP3_COUNT 100 static double fpt3_values[FP3_COUNT]; void fptest3( CYG_ADDRWORD id ) { while(1) do_test( fpt3_values, FP3_COUNT, 2000000000, id, "fptest3" ); } //========================================================================== void fptest_main( void ) { CYG_TEST_INIT(); if( cyg_test_is_simulator ) { run_ticks = RUN_TICKS_SIM; } CYG_TEST_INFO("Run fptest in cyg_start"); do_test( fpt3_values, FP3_COUNT, 1000, 0, "start" ); CYG_TEST_INFO( "cyg_start run done"); cyg_thread_create( BASE_PRI-1, fptest1, 0, "fptest1", &stacks[0][0], STACK_SIZE, &thread[0], &thread_struct[0]); cyg_thread_resume( thread[0] ); cyg_thread_create( BASE_PRI, fptest2, 1, "fptest2", &stacks[1][0], STACK_SIZE, &thread[1], &thread_struct[1]); cyg_thread_resume( thread[1] ); cyg_thread_create( BASE_PRI, fptest3, 2, "fptest3", &stacks[2][0], STACK_SIZE, &thread[2], &thread_struct[2]); cyg_thread_resume( thread[2] ); cyg_alarm_create( cyg_real_time_clock(), alarm_fn, 0, &alarm, &alarm_struct ); cyg_alarm_initialize( alarm, cyg_current_time()+1, 1 ); cyg_scheduler_start(); } //========================================================================== #ifdef CYGSEM_HAL_STOP_CONSTRUCTORS_ON_FLAG externC void cyg_hal_invoke_constructors(); #endif externC void cyg_start( void ) { #ifdef CYGSEM_HAL_STOP_CONSTRUCTORS_ON_FLAG cyg_hal_invoke_constructors(); #endif fptest_main(); } //========================================================================== #else // CYGFUN_KERNEL_API_C... externC void cyg_start( void ) { CYG_TEST_INIT(); CYG_TEST_NA("FP test requires:\n" "CYGFUN_KERNEL_API_C && \n" "CYGSEM_KERNEL_SCHED_MLQUEUE && \n" "(CYGNUM_KERNEL_SCHED_PRIORITIES > 12)\n"); } #endif // CYGFUN_KERNEL_API_C, etc. //========================================================================== // EOF fptest.cxx
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