Contains added code for stm32-L432KC compatibility
Dependents: BNO080_stm32_compatible
Diff: BNO080.cpp
- Revision:
- 9:68e4b1932497
- Parent:
- 8:92d4109beb3c
--- a/BNO080.cpp Tue Jul 30 16:44:07 2019 +0000 +++ b/BNO080.cpp Tue Jul 30 17:23:04 2019 +0000 @@ -513,10 +513,8 @@ } else if(shtpHeader[2] == CHANNEL_REPORTS || shtpHeader[2] == CHANNEL_WAKE_REPORTS) { if(shtpData[0] == SHTP_REPORT_BASE_TIMESTAMP) { - // sensor data packet - //_debugPort->printf("\r\t\t enter pareseSensorDataPacket \r\n"); parseSensorDataPacket(); - //wait(0.002f); //added + } } } @@ -759,7 +757,6 @@ Timer timeoutTimer; timeoutTimer.start(); - //added the 2* while(timeoutTimer.read() <= 2*timeout) { if(_int.read() == 0) { if(!receivePacket(timeout)) { @@ -956,19 +953,7 @@ //Returns false if sensor does not ACK bool BNO080::sendPacket(uint8_t channelNumber, uint8_t dataLength) { - // start the transaction and contact the IMU - //_i2cPort.start(); - - // to indicate an i2c read, shift the 7 bit address up 1 bit and keep bit 0 as a 0 - //int writeResult = _i2cPort.write(_i2cAddress << 1); - - //if(writeResult != 1) { - // _debugPort->printf("BNO I2C write failed!\n"); - // _i2cPort.stop(); - // return false; - //} - - + uint16_t totalLength = dataLength + 4; //Add four bytes for the header packetLength = dataLength; @@ -1003,18 +988,7 @@ return false; } - //Send the 4 byte packet header - //_i2cPort.write(totalLength & 0xFF); //Packet length LSB - //_i2cPort.write(totalLength >> 8); //Packet length MSB - //_i2cPort.write(channelNumber); //Channel number - //_i2cPort.write(sequenceNumber[channelNumber]++); //Send the sequence number, increments with each packet sent, different counter for each channel - - //Send the user's data packet - //for (uint8_t i = 0 ; i < dataLength ; i++) { - // _i2cPort.write(shtpData[i]); - //} - - //_i2cPort.stop(); + return (true); } @@ -1046,31 +1020,6 @@ return false; } - // start the transaction and contact the IMU - //_i2cPort.start(); - - // to indicate an i2c read, shift the 7 bit address up 1 bit and set bit 0 to a 1 - /*int writeResult = _i2cPort.write((_i2cAddress << 1) | 0x1); - - if(writeResult != 1) { - _debugPort->printf("BNO I2C read failed!\n"); - return false; - } - - // first read as ints - int packetLSBInt = _i2cPort.read(true); - - int packetMSBInt = _i2cPort.read(true); - int channelNumberInt = _i2cPort.read(true); - int sequenceNumInt = _i2cPort.read(true); - - _debugPort->printf("Header: %d %d %d %d\n", packetLSBInt, packetMSBInt, channelNumberInt, sequenceNumInt); - - if(packetLSBInt < 0 || packetLSBInt < 0 || packetLSBInt < 0 || packetLSBInt < 0) - { - _debugPort->printf("BNO I2C header read failed!\n"); - return false; - }*/ //Get the first four bytes, aka the packet header uint8_t packetLSB = headerData[0]; @@ -1078,7 +1027,6 @@ uint8_t channelNumber = headerData[2]; uint8_t sequenceNum = headerData[3]; //Not sure if we need to store this or not - //wait(.005f); //Store the header info shtpHeader[0] = packetLSB; shtpHeader[1] = packetMSB; @@ -1135,7 +1083,6 @@ _debugPort->printf("Recieved packet: ----------------\n"); printPacket(); // note: add 4 for the header length #endif - //_debugPort->printf("\r\t\t\t We're done!\r\n"); return (true); //We're done! }