![]() ![]() var/folders/59/dvn8w71s54s1643_7pr2bx400000gn/T//cciLkwKo.s:29: Error: junk at end of line, first unrecognized character is `n' pio/build/pico-mac/src/runtime.c.oĬompiling. pio/build/pico-mac/src/radioPrims.c.oĬompiling. pio/build/pico-mac/src/persist.c.oĬompiling. pio/build/pico-mac/src/miscPrims.c.oĬompiling. pio/build/pico-mac/src/interp.c.oĬompiling. pio/build/pico-mac/src/dataPrims.c.oĬompiling. pio/build/pico-mac/FrameworkArduinoBootloader/boot2_w25q080_2_padded_checksum.S.oĬompiling. LDF Modes: Finder ~ chain+, Compatibility ~ softĬompiling. Maximium Sketch size: 520192 EEPROM start: 0x101ff000 Filesystem start: 0x1007f000 Filesystem end: 0x101ff000 HARDWARE: RP2040 133MHz, 264KB RAM, 2MB FlashĭEBUG: Current (cmsis-dap) External (cmsis-dap, jlink, picoprobe, raspberrypi-swd) PLATFORM: Raspberry Pi RP2040 (1.7.0+sha.1b8624b) > Raspberry Pi Pico Verbose mode can be enabled via -v, -verbose option Here is the output: `Processing pico-mac (platform: board: pico framework: arduino) The error message reports "extra junk" at the end of one of the assembly files. The Pico build works on the the Intel Powerbook but not on M1 Powerbook. I'm using the same version of Platformio (PlatformIO Core, version 6.0.2) and the same arduino-pico framework on both computers. ResponseContainer rc = e32ttl100.I am migrating from an Intel-based Mac Powerbook to a new M1-based Mac Powerbook Pro. ![]() LoRa E32 device for Arduino, esp32 or esp8266: power saving and sending structured data.LoRa E32 device for Arduino, esp32 or esp8266: fixed transmission.LoRa E32 device for Arduino, esp32 or esp8266: configuration.LoRa E32 device for Arduino, esp32 or esp8266: library.LoRa E32 device for Arduino, esp32 or esp8266: settings and basic usage.Serial.println(c.status.getResponseDescription()) Ĭ = FT_TRANSPARENT_TRANSMISSION ĮtConfiguration(configuration, WRITE_CFG_PWR_DWN_SAVE) īut we are going to see It better in the next article.īut this kind of usage is very very reductive, in the next articles we are going more in deep, and we start to use massively the library to simplify the complex configuration and settings. If you have already change configuration you must restore base parameter: // If you have ever change configuration you must restore ItĬonfiguration configuration = *(Configuration*) c.data ResponseContainer rc = e32ttl100.receiveMessage() Serial.println(rs.getResponseDescription()) Check If there is some problem of succesfully send ResponseStatus rs = ndMessage("Hello, world?") * Write on serial to transfer a message to other device SoftwareSerial mySerial(D2, D3) // RX, TXīut this basic usage is quite unusefully, so in the next chapter we are going to use my library and go in deep of device features. Serial.println("Hi, I'm going to send message!") * Start device or reset to send a message You can use 2 Arduinos or 2 Wemos or one and one as you prefer. You can use 2 Arduinos or 2 Wemos D1 mini or one of kind.Īt start send a message and if you write on serial from one of device the text is transferred to the other device. If you put to 0 M1 and M0 pin you enter in “Normal” mode, than you can receive and trasmit all the data from device A to B, this modality is defined “Trasparent transmission”. ![]()
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