#include "hal_led.h" #include "bsp_gpio.h" #include "nrf_gpio.h" #include "usr_config.h" #include "bsp_time.h" #include "system.h" #include "hal_ble_client.h" #include "bsp_pwm.h" #include "nrf_delay.h" #define LED_ENABLE 0 #define LED_DISABLE 1 #define LED_DEFAULT_NUMBER 4 #define ONE_LED_LIGHT_TIME (3*4*8*4*0.125) //us //高位先发,按照GRB的顺序发送数据 //50us以上reset //#define WS_L 0,0x8000,0x8000,0x8000 //#define WS_H 0,0,0,0x8000 static pwm_values_common_t led_color_seq_values[3][4*8] = {0}; static nrf_pwm_sequence_t *led_color_seq = NULL; static const uint16_t WS_H[4] = {0,0,0,0x8000}; static const uint16_t WS_L[4] = {0,0x8000,0x8000,0x8000}; struct WS_t{ uint8_t onoff; uint32_t color; //颜色 }; static struct WS_t m_wsled[LED_NUM_OF_LED] = {0}; /** @brief 设置灯的时序 @param color - [in] 灯的颜色 @return 无 */ static void WS2812_DisplayDot(uint32_t col) { uint32_t col_r = (col & 0x00FF0000) >> 16; uint32_t col_g = (col & 0x0000FF00) >> 8; uint32_t col_b = col & 0x000000FF; uint32_t t = 0x80; uint32_t index = 0; for(int i=0;i<8;i++) { index = i*4; if(col_g & t){ led_color_seq_values[0][index+0] = WS_H[0]; led_color_seq_values[0][index+1] = WS_H[1]; led_color_seq_values[0][index+2] = WS_H[2]; led_color_seq_values[0][index+3] = WS_H[3]; }else{ led_color_seq_values[0][index+0] = WS_L[0]; led_color_seq_values[0][index+1] = WS_L[1]; led_color_seq_values[0][index+2] = WS_L[2]; led_color_seq_values[0][index+3] = WS_L[3]; } index = i*4; if(col_r & t){ led_color_seq_values[1][index+0] = WS_H[0]; led_color_seq_values[1][index+1] = WS_H[1]; led_color_seq_values[1][index+2] = WS_H[2]; led_color_seq_values[1][index+3] = WS_H[3]; }else{ led_color_seq_values[1][index+0] = WS_L[0]; led_color_seq_values[1][index+1] = WS_L[1]; led_color_seq_values[1][index+2] = WS_L[2]; led_color_seq_values[1][index+3] = WS_L[3]; } index = i*4; if(col_b & t){ led_color_seq_values[2][index+0] = WS_H[0]; led_color_seq_values[2][index+1] = WS_H[1]; led_color_seq_values[2][index+2] = WS_H[2]; led_color_seq_values[2][index+3] = WS_H[3]; }else{ led_color_seq_values[2][index+0] = WS_L[0]; led_color_seq_values[2][index+1] = WS_L[1]; led_color_seq_values[2][index+2] = WS_L[2]; led_color_seq_values[2][index+3] = WS_L[3]; } t = t>>1; } } static uint8_t reflash =0 ; //强制关闭LED void LED_Close_Enforce(void){ nrf_gpio_pin_write(PIN_LED_ENABLE,LED_DISABLE); reflash =0 ; } void LED_SetColor(uint8_t n,uint32_t color) { if(n>=LED_NUM_OF_LED) return; m_wsled[n].color = color; reflash = 1; // DEBUG_LOG("WS2812_SetColor[%d]:0x%4X\n",n,color); } void LED_Stop(uint8_t n) { if(n>=LED_NUM_OF_LED) return; if(0 == m_wsled[n].onoff) return; // DEBUG_LOG("LED_Stop:%d\n",n); m_wsled[n].onoff = 0; reflash =1; } void LED_Start(uint8_t n,uint32_t color) { if(n>=LED_NUM_OF_LED) return; if(1 == m_wsled[n].onoff && m_wsled[n].color == color) return; m_wsled[n].onoff = 1; m_wsled[n].color = color; reflash =1; // DEBUG_LOG("LED_Start:%d,%X\n",n,color); } void LED_Process(void) { static uint8_t state =0; uint8_t i =0; switch(state){ case 0: if(reflash){reflash=0; for(i=LED_NUM_OF_LED-1;i>0;i--){ //显示优先级最高的灯 if(m_wsled[i].onoff>0){ // DEBUG_LOG("hal_WS2812_Process->play[%d]\n",i); WS2812_DisplayDot(m_wsled[i].color); break; } } if(i==0) nrf_gpio_pin_write(PIN_LED_ENABLE,LED_DISABLE); //无灯显示,关闭电源 else{ nrf_gpio_pin_write(PIN_LED_ENABLE,LED_ENABLE); //打开灯电源 state = 1; } } break; case 1: SetSimplePwmPlayBack(led_color_seq, LED_DEFAULT_NUMBER, PWM_FLAG_STOP); // DEBUG_LOG("hal_WS2812_Process->state:%d\n",state); state =0; break; default:state = 0;break; } } #if DEBUG_LEDRGB void WS2812_Test(void) { static uint8_t flag = 0; if(flag==0){ flag = 1; LED_Start(WS2812_TEST,WS2812_COLOR_ORANGE); }else{ flag = 0; LED_Stop(WS2812_TEST); } } #endif void cb_LED_Wakeup(uint32_t t) { Pwm_Initialize(); } void cb_LED_Sleep(uint32_t t) { nrf_gpio_pin_write(PIN_LED_ENABLE,LED_DISABLE); Pwm_UnInitialize(); } void LED_Init(void) { SetPwm_BaseClock(NRF_PWM_CLK_8MHz); SetPwm_Channels(PIN_LED_CONTROL,NRF_DRV_PWM_PIN_NOT_USED,NRF_DRV_PWM_PIN_NOT_USED,NRF_DRV_PWM_PIN_NOT_USED); SetPwm_DutyCycleThreshold(3); Pwm_Initialize(); led_color_seq = Pwm_SetComSequence(led_color_seq_values[0], PWM_SEQUENCE_VALUES_LEN(led_color_seq_values),0,0); nrf_gpio_cfg_output(PIN_LED_ENABLE); nrf_gpio_pin_write(PIN_LED_ENABLE,LED_ENABLE); Process_Start(5,"LED_Process",LED_Process); #if DEBUG_LEDRGB Process_Start(2000,"WS2812_Test",WS2812_Test); #endif Sleep_Regist(cb_LED_Sleep); Wakeup_Regist(cb_LED_Wakeup); }