Nitin Shukla
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Dependencies: MAX44000 nexpaq_mdk
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LED_Demo
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Maxim nexpaq
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main.cpp
00001 #include "mbed.h" 00002 #include "greentea-client/test_env.h" 00003 #include "rtos.h" 00004 00005 #if defined(MBED_RTOS_SINGLE_THREAD) 00006 #error [NOT_SUPPORTED] test not supported 00007 #endif 00008 00009 typedef struct { 00010 float voltage; /* AD result of measured voltage */ 00011 float current; /* AD result of measured current */ 00012 uint32_t counter; /* A counter value */ 00013 } message_t; 00014 00015 #define CREATE_VOLTAGE(COUNTER) (COUNTER * 0.1) * 33 00016 #define CREATE_CURRENT(COUNTER) (COUNTER * 0.1) * 11 00017 #define QUEUE_SIZE 16 00018 #define QUEUE_PUT_DELAY 100 00019 00020 /* 00021 * The stack size is defined in cmsis_os.h mainly dependent on the underlying toolchain and 00022 * the C standard library. For GCC, ARM_STD and IAR it is defined with a size of 2048 bytes 00023 * and for ARM_MICRO 512. Because of reduce RAM size some targets need a reduced stacksize. 00024 */ 00025 #if (defined(TARGET_STM32L053R8) || defined(TARGET_STM32L053C8)) && defined(TOOLCHAIN_GCC) 00026 #define STACK_SIZE DEFAULT_STACK_SIZE/4 00027 #elif (defined(TARGET_STM32F030R8)) && defined(TOOLCHAIN_GCC) 00028 #define STACK_SIZE DEFAULT_STACK_SIZE/4 00029 #elif (defined(TARGET_STM32F030R8)) && defined(TOOLCHAIN_IAR) 00030 #define STACK_SIZE DEFAULT_STACK_SIZE/2 00031 #elif (defined(TARGET_EFM32HG_STK3400)) && !defined(TOOLCHAIN_ARM_MICRO) 00032 #define STACK_SIZE 512 00033 #elif (defined(TARGET_EFM32LG_STK3600) || defined(TARGET_EFM32WG_STK3800) || defined(TARGET_EFM32PG_STK3401)) && !defined(TOOLCHAIN_ARM_MICRO) 00034 #define STACK_SIZE 768 00035 #elif (defined(TARGET_EFM32GG_STK3700)) && !defined(TOOLCHAIN_ARM_MICRO) 00036 #define STACK_SIZE 1536 00037 #elif defined(TARGET_MCU_NRF51822) || defined(TARGET_MCU_NRF52832) 00038 #define STACK_SIZE 768 00039 #else 00040 #define STACK_SIZE DEFAULT_STACK_SIZE 00041 #endif 00042 00043 MemoryPool<message_t, QUEUE_SIZE> mpool; 00044 Queue<message_t, QUEUE_SIZE> queue; 00045 00046 /* Send Thread */ 00047 void send_thread (void const *argument) { 00048 static uint32_t i = 10; 00049 while (true) { 00050 i++; // Fake data update 00051 message_t *message = mpool.alloc(); 00052 message->voltage = CREATE_VOLTAGE(i); 00053 message->current = CREATE_CURRENT(i); 00054 message->counter = i; 00055 queue.put(message); 00056 Thread::wait(QUEUE_PUT_DELAY); 00057 } 00058 } 00059 00060 int main (void) { 00061 GREENTEA_SETUP(20, "default_auto"); 00062 00063 Thread thread(send_thread, NULL, osPriorityNormal, STACK_SIZE); 00064 bool result = true; 00065 int result_counter = 0; 00066 00067 while (true) { 00068 osEvent evt = queue.get(); 00069 if (evt.status == osEventMessage) { 00070 message_t *message = (message_t*)evt.value.p; 00071 const float expected_voltage = CREATE_VOLTAGE(message->counter); 00072 const float expected_current = CREATE_CURRENT(message->counter); 00073 // Check using macros if received values correspond to values sent via queue 00074 bool expected_values = (expected_voltage == message->voltage) && 00075 (expected_current == message->current); 00076 result = result && expected_values; 00077 const char *result_msg = expected_values ? "OK" : "FAIL"; 00078 printf("%3d %.2fV %.2fA ... [%s]\r\n", message->counter, 00079 message->voltage, 00080 message->current, 00081 result_msg); 00082 mpool.free(message); 00083 if (result == false || ++result_counter == QUEUE_SIZE) { 00084 break; 00085 } 00086 } 00087 } 00088 GREENTEA_TESTSUITE_RESULT(result); 00089 return 0; 00090 }
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