a93febb5b7
* add image and deprecated arrow functions * update locales * map basic.showArrow * map arrow blocks * map & remove arrow images * remove arrow blocks * update locales * remove & patch: rgbw -> rgb button/pin pressed -> button/pin event loudness -> soundLevel * update ts mappings for arrows * add wip ts patch rules * update .blocks files * use Click instead of Down as default in Documentation and tests * patch test.blocks * fix lowercase name tag * update test.blocks * update blocks test files * update blocks test files * format block files * pass blocks file tests * fix ts mapping * fix color.defl value closes https://github.com/microsoft/pxt-calliope/issues/136 * fix ts mappings - add optional spacing at the end of rgbw() - map up to v4.0.19 * add suggested changes * replace innerText by textContent Co-authored-by: JW <gitkraken@juriwolf.de> Co-authored-by: Juri <info@juriwolf.de>
82 lines
4.2 KiB
Markdown
82 lines
4.2 KiB
Markdown
# Serial
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The [serial](/reference/serial) supports [serial communication](https://en.wikipedia.org/wiki/Serial_port) between the BBC micro:bit and another computer. Basically, this allows you to send data from the micro:bit to your own computer. This is very useful for debugging purposes: you can add `write line` statements in your code and see them display on your computer as the program executes.
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The code below shows a simple script that sends a line when the BBC micro:bit starts and another line each time the button ``A`` is pressed.
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```blocks
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serial.writeLine("started...")
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input.onButtonEvent(Button.A, ButtonEvent.Down, () => {
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serial.writeLine("A pressed")
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})
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```
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Data is also automatically streamed to serial by the ** bar graph** block
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and picked up by the editor. This data can be streamed to the cloud as well.
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```blocks
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basic.forever(() => {
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led.plotBarGraph(input.acceleration(Dimension.X), 0);
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});
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```
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## How to read the micro:bit's serial output from your computer
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Unfortunately, using the serial library requires quite a bit of a setup.
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### ~ hint
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**Windows earlier than 10**
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If you are running a Windows version earlier than 10, you must [install a device driver](https://os.mbed.com/docs/latest/tutorials/windows-serial-driver.html) (for the computer to recognize the serial interface of the micro:bit).
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## ~
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Also, if you don't see the serial port as one of your computer's devices, you might need to [update the firmware](/device/firmware) on the @boardname@. Find the device name for the attached serial port in the following instructions for your operating system.
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### Windows > Tera Term
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* Install the terminal emulator [Tera Term](https://ttssh2.osdn.jp/index.html.en). At the time of this writing, the latest version is 4.88 and can be downloaded [from here](http://en.osdn.jp/frs/redir.php?m=jaist&f=%2Fttssh2%2F63767%2Fteraterm-4.88.exe). Follow the instructions from the installer.
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Once both the driver and the terminal emulator are installed, plug in the micro:bit and wait until the device is fully setup. Then, open TeraTerm.
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* Hit `File` > `New Connection`
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* Check "Serial"; in the dropdown menu, pick the COM port that says "mbed Serial Port". Hit `Ok`.
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* In the menus, hit `Setup` > `Serial Port` and set the baud rate to `115200`.
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You should be good. Feel free to hit `Setup` > `Save Setup` in the menus to erase the default configuration file with a new one so that you don't have to type in the settings again.
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Please note that Windows will assign you a different COM port if you plug in another micro:bit. If you're juggling between micro:bits, you'll have to change the COM port every time.
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### Windows > Putty
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If you prefer another terminal emulator (such as [PuTTY](http://www.putty.org/)), here are some instructions.
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* Open Windows's [Device Manager](https://windows.microsoft.com/en-us/windows/open-device-manager); expand the section called "Ports (COM & LPT)"; write down the com number for "mbed Serial Port" (e.g. COM14)
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* Open PuTTY; on the main screen, use the following settings: Serial / COM14 / 115200. Replace COM14 with the COM port number you wrote down previously. Feel free to type in a name and hit "Save" to remember this configuration.
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* (optional): in the "Terminal" section, check "implicit cr in every lf"
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## Linux
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* Install the program `screen` if it is not already installed.
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* Plug in the micro:bit.
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* Open a terminal.
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* Find which device node the micro:bit was assigned to with the command `ls /dev/ttyACM*`.
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* If it was `/dev/ttyACM0`, type the command `screen /dev/ttyACM0 115200`. If it was some other device node,
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use that one in the command instead. **Note:** You may need root access to run `screen`
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successfully. You can probably use the command `sudo` like this: `sudo screen /dev/ttyACM0 115200`.
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* To exit `screen`, type `Ctrl-A` `Ctrl-D`.
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Alternative programs include `minicom` and so on.
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## Mac OS
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* Plug in the micro:bit
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* Open a terminal
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* `ls /dev/cu.*` will return to you a list of serial devices; one of them will look like `/dev/cu.usbmodem1422` (the exact number depends on your computer)
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* `screen /dev/cu.usbmodem1422 115200` will open up the micro:bit's serial output. To exit, hit `Ctrl-A` `Ctrl-D`.
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