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Lightmonster (#346)

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* fixed boardname issues

* refactored servo info

* coffee cup monster lesson skeleton

* display event source id / value in advanced section

* normalized project structure

* updated project name

* Update projects.md
This commit is contained in:
Peli de Halleux 2017-01-31 08:29:25 -08:00 committed by GitHub
parent 595e4a23e6
commit 1d47b4de0d
29 changed files with 209 additions and 78 deletions
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2
clients/chrome/README.md
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@ -1,5 +1,5 @@
# microbit-chrome
Prototype chrome addon that exposes the micro:bit's serial output to webpages.
Prototype chrome addon that exposes the @boardname@'s serial output to webpages.
* watch the [demo video](https://vimeo.com/146207766)
# Installation

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docs/projects/inchworm/servo.md → docs/device/servo.md
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@ -1,13 +1,4 @@
# Preparing the servo
### @description Connecting the servo to crocodile clips
### ~avatar avatar
Equip the microservo with crocodile clips.
### ~
## Duration: ~30 minutes
# Equipping a microservo with Crocodile clips
## Materials
* Cutting pliers or wire cutter
@ -70,7 +61,7 @@ Place the cables next to each other
It is very **important** to ensure that there is a good connection between the 2 cables.
If the connection is weak, the microservo will not receive enough current and it will not work.
If you have access to a soldering iron, we strongly recommend to solver this connection.
**If you have access to a soldering iron, we strongly recommend to solder this connection.**
### ~
@ -105,11 +96,9 @@ When attaching the crocodile clips to the pins, don't hesitate to grab the side
* Download the following code to your @boardname@
```blocks
let a = 0
basic.forever(() => {
a = input.acceleration(Dimension.X)
pins.servoWritePin(AnalogPin.P0, pins.map(
a,
input.acceleration(Dimension.X),
-512,
512,
0,
@ -121,10 +110,7 @@ basic.forever(() => {
* When powered by USB, make sure that the servo moves when you tilt the board.
* When powered by batteries **only**, make sure that the servo moves when you tilt the board.
## Troubleshooting
If your servo seems to sutter and stay stuck at a particular position, it means that it is not receiving enough power.
This is probably due to a weak connection or low battery level. Check each connection and check your batteries.
### ~button /projects/inchworm/chassis
NEXT: Chassis
### ~
This is probably due to a weak connection or low battery level. Check each connection and check your batteries.

12
docs/projects.md
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@ -62,17 +62,13 @@ Fun games to build with your @boardname@.
}]
```
## Science and Engineering
## Toys
```codecard
[{
"name": "Inchworm",
"url":"/projects/inchworm",
"imageUrl":"/static/mb/projects/inchworm.jpg"
}, {
"name": "Timing gates",
"url":"/projects/timing-gates",
"imageUrl":"/static/mb/projects/timing-gates.jpg"
}]
```
@ -80,6 +76,10 @@ Fun games to build with your @boardname@.
```codecard
[{
"name": "Timing gates",
"url":"/projects/timing-gates",
"imageUrl":"/static/mb/projects/timing-gates.jpg"
}, {
"name": "Compass",
"url":"/projects/compass",
"imageUrl":"/static/mb/projects/a5-compass.png"
@ -96,4 +96,4 @@ Fun games to build with your @boardname@.
### See Also
[Flashing Heart](/projects/flashing-heart), [Smiley Buttons](/projects/smiley-buttons), [Love Meter](/projects/love-meter), [Rock Paper Scissors](/projects/rock-paper-scissors), [Compass](/projects/compass), [Hack your headphones](/projects/hack-your-headphones), [Banana keyboard](/projects/banana-keyboard), [Telegraph](/projects/telegraph), [Radio](/projects/radio), [Guitar](/projects/guitar), [Wallet](/projects/wallet), [Watch](/projects/watch)
[Flashing Heart](/projects/flashing-heart), [Smiley Buttons](/projects/smiley-buttons), [Love Meter](/projects/love-meter), [Rock Paper Scissors](/projects/rock-paper-scissors), [Compass](/projects/compass), [Hack your headphones](/projects/hack-your-headphones), [Banana keyboard](/projects/banana-keyboard), [Telegraph](/projects/telegraph), [Radio](/projects/radio), [Guitar](/projects/guitar), [Wallet](/projects/wallet), [Watch](/projects/watch)

4
docs/projects/banana-keyboard.md
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@ -21,8 +21,8 @@ Build your own @boardname@ piano using bananas!
## Activities
* [Making the keyboard](/projects/banana-keyboard/make)
* [Beat box](/projects/banana-keyboard/beat-box)
* [Make](/projects/banana-keyboard/make)
* [Code](/projects/banana-keyboard/code)
### ~button /projects/banana-keyboard/make
Let's get started!

2
docs/projects/banana-keyboard/beat-box.md → docs/projects/banana-keyboard/code.md
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@ -1,4 +1,4 @@
# banana keyboard - beat box
# Code
Have you ever tried to making beat box sounds? Let's try making a beatbox with code!

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docs/projects/banana-keyboard/make.md
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@ -1,4 +1,4 @@
# banana keyboard - making
# Make
## Materials
@ -80,6 +80,6 @@ input.onPinPressed(TouchPin.P1, () => {
Tap your banana instrument to play sound against... the fruit!
### ~button /projects/banana-keyboard/beat-box
### ~button /projects/banana-keyboard/code
NEXT: beat box
### ~

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docs/projects/coffee-cup-monster.md Normal file
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@ -0,0 +1,43 @@
# Coffee Cup Monster
### @description A monster made of cardboard that responds to light
### ~avatar avatar
Make a coffee cup monster that responds to light!
### ~
https://youtu.be/BiZLjugXMbM
## Duration
3 Activities, approx 30-45 min each based on familiarity with the coding concepts
## Materials
* 3 Coffee cup holders
* 2 Coffee cup strirer wood sticks
* Glue gun
* Scissors that can cut cardboard
* 1 @boardname@, battery holder and 2 AAA batteries
* 3 Crocodile clips
* 1 micro servo 9g SG90
* 1 paper clip
## Preparation
* [Equip the microservo with crocodile clips](/device/servo)
## Activities
* [Make](/projects/coffee-cup-monster/make)
* [Code](/projects/coffee-cup-monster/code)
* [Connect](/projects/coffee-cup-monster/connect)
### ~button /projects/coffee-cup-monster/make
Let's get started!
### ~

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docs/projects/coffee-cup-monster/code.md Normal file
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@ -0,0 +1,29 @@
# Code
### @description code to make the coffee cup monster alive
### ~avatar avatar
Add code to open the mouth when light is detected.
### ~
## Duration: ~30 minutes
We are going to add code to open the mouth proportionally to the amount of light on the @boardname@.
In a loop, we will read the light and map it to an angle using the ``pins.map`` function.
```blocks
basic.forever(() => {
pins.servoWritePin(AnalogPin.P0, pins.map(
input.lightLevel(),
0,
255,
30,
150
))
})
```
### ~button /projects/coffee-cup-monster/connect
NEXT: Connect
### ~

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docs/projects/coffee-cup-monster/connect.md Normal file
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@ -0,0 +1,29 @@
# Connect
### ~avatar avatar
Remote control your monster with another @boardname@
### ~
## Duration: ~30 minutes
You will need 2 @boardname@ for this part. By using the radio, we can make the inchworm controlled by another @boardname@.
Download the code below to the @boardname@ on the inchworm and another "controller" @boardname@.
Whenere A is pressed, the monster will open and close it's mouth will move once.
```blocks
radio.onDataPacketReceived(({receivedNumber}) => {
pins.servoWritePin(AnalogPin.P0, 30)
basic.pause(500)
pins.servoWritePin(AnalogPin.P0, 150)
basic.pause(500)
})
input.onButtonPressed(Button.A, () => {
radio.sendNumber(0)
})
```
```package
radio
```

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docs/projects/coffee-cup-monster/make.md Normal file
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@ -0,0 +1,25 @@
# Make
### @description Building the coffee cup monster
### ~avatar avatar
Turn a piece of coffee holders into a monster!
### ~
## Duration: ~60 minutes
## Materials
* 3 Coffee cup holders
* 2 Coffee cup strirer wood sticks
* Scissors
* glue gun or tape
* 1 paper clip
## Step 1: cardboard
TODO
### ~button /projects/coffee-cup-monster/code
NEXT: Code
### ~

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docs/projects/hack-your-headphones.md
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@ -27,8 +27,8 @@ Build your own music player @boardname@ from headphones.
## Activities
* [Connect your headphone](/projects/hack-your-headphones/make)
* [Play sounds!]()
* [Make](/projects/hack-your-headphones/make)
* [Code](/projects/hack-your-headphones/code)
### ~button /projects/hack-your-headphones/make

2
docs/projects/hack-your-headphones/music-of-light.md → docs/projects/hack-your-headphones/code.md
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@ -1,4 +1,4 @@
# hack your headphones - music of light
# Code
### ~avatar avatar

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docs/projects/hack-your-headphones/make.md
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@ -1,4 +1,4 @@
# hack your headphones - making
# Make
### ~avatar avatar
@ -46,7 +46,7 @@ Using the 2nd crocodile clip, connect the second end of the crocodile clip onto
You hacked your headphones!
### ~button /projects/hack-your-headphones/music-of-light
### ~button /projects/hack-your-headphones/code
NEXT: music of light

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docs/projects/inchworm.md
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@ -1,7 +1,7 @@
# Inchworm
### @description A inchworm like robot built with the micro:bit
### @description A inchworm like robot built with the @boardname@
### ~avatar avatar
@ -27,13 +27,17 @@ https://youtu.be/BiZLjugXMbM
![Materials](/static/mb/projects/inchworm/materials.jpg)
## Preparation
* [Equip the microservo with crocodile clips](/device/servo)
## Activities
* [Servo](/projects/inchworm/servo)
* [Chassis](/projects/inchworm/chassis)
* [Make](/projects/inchworm/make)
* [Code](/projects/inchworm/code)
* [Connect](/projects/inchworm/connect)
### ~button /projects/inchworm/servo
### ~button /projects/inchworm/make
Let's get started!

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docs/projects/inchworm/code.md
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@ -30,23 +30,6 @@ so that the inchworm goes as fast as possible. Trying it on carpet also great he
### ~
## Step 2: radio controlled inchworm
You will need 2 @boardname@ for this part. By using the radio, we can make the inchworm controlled by another @boardname@.
Download the code below to the @boardname@ on the inchworm and another "controller" @boardname@. Whenere A is pressed, the inchworm will move once.
```blocks
radio.onDataPacketReceived(({receivedNumber}) => {
pins.servoWritePin(AnalogPin.P0, 0)
basic.pause(500)
pins.servoWritePin(AnalogPin.P0, 180)
basic.pause(500)
})
input.onButtonPressed(Button.A, () => {
radio.sendNumber(0)
})
```
```package
radio
```
### ~button /projects/inchworm/connect
NEXT: Connect
### ~

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docs/projects/inchworm/connect.md Normal file
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@ -0,0 +1,28 @@
# Connect
### ~avatar avatar
Remote control your inchworm with another @boardname@
### ~
## Duration: ~30 minutes
You will need 2 @boardname@ for this part. By using the radio, we can make the inchworm controlled by another @boardname@.
Download the code below to the @boardname@ on the inchworm and another "controller" @boardname@. Whenere A is pressed, the inchworm will move once.
```blocks
radio.onDataPacketReceived(({receivedNumber}) => {
pins.servoWritePin(AnalogPin.P0, 0)
basic.pause(500)
pins.servoWritePin(AnalogPin.P0, 180)
basic.pause(500)
})
input.onButtonPressed(Button.A, () => {
radio.sendNumber(0)
})
```
```package
radio
```

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docs/projects/inchworm/chassis.md → docs/projects/inchworm/make.md
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@ -1,4 +1,4 @@
# Chassis
# Make
### @description Building the cardboard inchworm
### ~avatar avatar

4
docs/projects/telegraph.md
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@ -17,8 +17,8 @@ Build a telegraph between two @boardname@s to communicate with your friends!
## Activities
* [Making the circuit](/projects/telegraph/make)
* [Manual telegraph](/projects/telegraph/manual-telegraph)
* [Make](/projects/telegraph/make)
* [Code](/projects/telegraph/code)
### ~button /projects/telegraph/make
Let's get started!

2
docs/projects/telegraph/manual-telegraph.md → docs/projects/telegraph/code.md
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@ -1,4 +1,4 @@
# telegraph - manual telegraph
# Code
Let's build the code that will send a impulse while the user presses ``A``.

6
docs/projects/telegraph/make.md
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@ -1,4 +1,4 @@
# telegraph - making
# Make
### ~avatar
@ -68,8 +68,8 @@ Using the 4th crocodile clip, connect the unattached end of the crocodile clip o
![](/static/mb/lessons/telegraph-0.png)
### ~button /projects/telegraph/manual-telegraph
### ~button /projects/telegraph/code
NEXT: manual telegraph
NEXT: Code
### ~

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docs/projects/wallet/code.md
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@ -1,4 +1,4 @@
# Wallet - Code
# Code
## Simple animation

2
docs/projects/wallet/make.md
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@ -1,4 +1,4 @@
# Wallet - Make
# Make
### @description Maker Project for Wallet

2
docs/reference/bluetooth/advertise-uid-buffer.md
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@ -25,7 +25,7 @@ bluetooth.advertiseUidBuffer(pins.createBuffer(16), 7, true);
* ``buffer`` - a 16 bytes buffer containing the namespace (first 10 bytes) and instance (last 6 bytes).
* ``power`` - a [number](/reference/types/number) representing the power level between 0 (short) and 7 (maximum range).
* ``connectable`` - a [boolean](/blocks/logic/boolean) indicating whether or not the micro:bit should accept connections.
* ``connectable`` - a [boolean](/blocks/logic/boolean) indicating whether or not the @boardname@ should accept connections.
## See Also

2
docs/reference/bluetooth/advertise-uid.md
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@ -26,7 +26,7 @@ bluetooth.advertiseUid(42, 1, 7, true);
* ``namespace`` last 4 bytes of the namespace uid (6 to 9)
* ``instance`` last 4 bytes of the instance (2 to 5)
* ``power`` - a [number](/reference/types/number) representing the power level between 0 (short) and 7 (maximum range).
* ``connectable`` - a [boolean](/blocks/logic/boolean) indicating whether or not the micro:bit should accept connections.
* ``connectable`` - a [boolean](/blocks/logic/boolean) indicating whether or not the @boardname@ should accept connections.
## Encoding

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docs/reference/bluetooth/advertise-url.md
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@ -25,7 +25,7 @@ bluetooth.advertiseUrl("https://pxt.microbit.org/", 7, true);
* ``url`` - a [string](/reference/types/string) containing the URL to broadcast, at most 17 characters long, excluding the protocol (eg: ``https://``) which gets encoded as 1 byte.
* ``power`` - a [number](/reference/types/number) representing the power level between 0 (short) and 7 (maximum range).
* ``connectable`` - a [boolean](/blocks/logic/boolean) indicating whether or not the micro:bit should accept connections.
* ``connectable`` - a [boolean](/blocks/logic/boolean) indicating whether or not the @boardname@ should accept connections.
### Example: Broadcast a secret code

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libs/core/control.cpp
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@ -193,6 +193,7 @@ namespace control {
* Gets a friendly name for the device derived from the its serial number
*/
//% blockId="control_device_name" block="device name" weight=10 blockGap=8
//% advanced=true
StringData* deviceName() {
return ManagedString(microbit_friendly_name()).leakData();
}
@ -201,6 +202,7 @@ namespace control {
* Derive a unique, consistent serial number of this device from internal data.
*/
//% blockId="control_device_serial_number" block="device serial number" weight=9
//% advanced=true
int deviceSerialNumber() {
return microbit_serial_number();
}

4
libs/core/control.ts
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@ -9,7 +9,7 @@ namespace control {
* Returns the value of a C++ runtime constant
*/
//% weight=2 weight=19 blockId="control_event_source_id" block="%id" blockGap=8
//% shim=TD_ID
//% shim=TD_ID advanced=true
export function eventSourceId(id: EventBusSource): number {
return id;
}
@ -17,7 +17,7 @@ namespace control {
* Returns the value of a C++ runtime constant
*/
//% weight=1 weight=19 blockId="control_event_value_id" block="%id"
//% shim=TD_ID
//% shim=TD_ID advanced=true
export function eventValueId(id: EventBusValue): number {
return id;
}

2
libs/core/music.ts
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@ -174,7 +174,7 @@ namespace music {
*/
//% weight=50 help=music/note-frequency
//% blockId=device_note block="%note"
//% shim=TD_ID
//% shim=TD_ID blockHidden=true
export function noteFrequency(name: Note): number {
return name;
}

6
libs/core/shims.d.ts vendored
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@ -415,13 +415,15 @@ declare namespace control {
/**
* Gets a friendly name for the device derived from the its serial number
*/
//% blockId="control_device_name" block="device name" weight=10 blockGap=8 shim=control::deviceName
//% blockId="control_device_name" block="device name" weight=10 blockGap=8
//% advanced=true shim=control::deviceName
function deviceName(): string;
/**
* Derive a unique, consistent serial number of this device from internal data.
*/
//% blockId="control_device_serial_number" block="device serial number" weight=9 shim=control::deviceSerialNumber
//% blockId="control_device_serial_number" block="device serial number" weight=9
//% advanced=true shim=control::deviceSerialNumber
function deviceSerialNumber(): number;
}