---
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layout: tutorials/tutorial
tutorial: watchface
tutorial_part: 1
title: Build Your Own Watchface in C
description: A guide to making a new Pebble watchface with the Pebble C API
permalink: /tutorials/watchface-tutorial/part1/
menu_section: tutorials
generate_toc: true
platform_choice: true
---
In this tutorial we'll cover the basics of writing a simple watchface with
Pebble's C API. Customizability is at the heart of the Pebble philosophy, so
we'll be sure to add some exciting features for the user!
When we are done this section of the tutorial, you should end up with a brand
new basic watchface looking something like this:
{% screenshot_viewer %}
{
"image": "/images/getting-started/watchface-tutorial/1-time.png",
"platforms": [
{"hw": "aplite", "wrapper": "steel-black"},
{"hw": "basalt", "wrapper": "time-red"},
{"hw": "chalk", "wrapper": "time-round-rosegold-14"}
]
}
{% endscreenshot_viewer %}
## First Steps
So, let's get started!
^CP^ Go to [CloudPebble]({{ site.links.cloudpebble }}) and click 'Get Started'
to log in using your Pebble account, or create a new one if you do not already
have one. Next, click 'Create' to create a new project. Give your project a
suitable name, such as 'Tutorial 1' and leave the 'Project Type' as 'Pebble C
SDK', with a 'Template' of 'Empty project', as we will be starting from scratch
to help maximize your understanding as we go.
^LC^ Before you can start the tutorial you will need to have the Pebble SDK
installed. If you haven't done this yet, go to our [download page](/sdk) to grab
the SDK and follow the instructions to install it on your machine. Once you've
done that you can come back here and carry on where you left off.
^LC^ Once you have installed the SDK, navigate to a directory of your choosing
and run `pebble new-project watchface` (where 'watchface' is the name of your
new project) to start a new project and set up all the relevant files.
^CP^ Click 'Create' and you will see the main CloudPebble project screen. The
left menu shows all the relevant links you will need to create your watchface.
Click on 'Settings' and you will see the name you just supplied, along with
several other options. As we are creating a watchface, change the 'App Kind' to
'Watchface'.
^LC^ In an SDK project, all the information about how an app is configured (its
name, author, capabilities and resource listings etc) is stored in a file in the
project root directory called `package.json`. Since this project will be a
watchface, you will need to modify the `watchapp` object in this file to reflect
this:
{% highlight {} %}
"watchapp": {
"watchface": true
}
{% endhighlight %}
The main difference between the two kinds are that watchfaces serve as the
default display on the watch, with the Up and Down buttons allowing use of the
Pebble timeline. This means that these buttons are not available for custom
behavior (Back and Select are also not available to watchfaces). In contrast,
watchapps are launched from the Pebble system menu. These have more capabilities
such as button clicks and menu elements, but we will come to those later.
^CP^ Finally, set your 'Company Name' and we can start to write some code!
^LC^ Finally, set a value for `companyName` and we can start to write some code!
## Watchface Basics
^CP^ Create the first source file by clicking 'Add New' on the left menu,
selecting 'C file' as the type and choosing a suitable name such as 'main.c'.
Click 'Create' and you will be shown the main editor screen.
^LC^ Our first source file is already created for you by the `pebble` command
line tool and lives in the project's `src` directory. By default, this file
contains sample code which you can safely remove, since we will be starting from
scratch. Alternatively, you can avoid this by using the `--simple` flag when
creating the project.
Let's add the basic code segments which are required by every watchapp. The
first of these is the main directive to use the Pebble SDK at the top of the
file like so:
```c
#include
```
After this first line, we must begin with the recommended app structure,
specifically a standard C `main()` function and two other functions to help us
organize the creation and destruction of all the Pebble SDK elements. This helps
make the task of managing memory allocation and deallocation as simple as
possible. Additionally, `main()` also calls ``app_event_loop()``, which lets the
watchapp wait for system events until it exits.
^CP^ The recommended structure is shown below, and you can use it as the basis
for your own watchface file by copying it into CloudPebble:
^LC^ The recommended structure is shown below, and you can use it as the basis
for your main C file:
```c
#include
static void init() {
}
static void deinit() {
}
int main(void) {
init();
app_event_loop();
deinit();
}
```
To add the first ``Window``, we first declare a static pointer to a ``Window``
variable, so that we can access it wherever we need to, chiefly in the `init()`
and `deinit()` functions. Add this declaration below `#include`, prefixed with
`s_` to denote its `static` nature (`static` here means it is accessible only
within this file):
```c
static Window *s_main_window;
```
The next step is to create an instance of ``Window`` to assign to this pointer,
which we will do in `init()` using the appropriate Pebble SDK functions. In this
process we also assign two handler functions that provide an additional layer of
abstraction to manage the subsequent creation of the ``Window``'s sub-elements,
in a similar way to how `init()` and `deinit()` perform this task for the
watchapp as a whole. These two functions should be created above `init()` and
must match the following signatures (the names may differ, however):
```c
static void main_window_load(Window *window) {
}
static void main_window_unload(Window *window) {
}
```
With this done, we can complete the creation of the ``Window`` element, making
reference to these two new handler functions that are called by the system
whenever the ``Window`` is being constructed. This process is shown below, and
takes place in `init()`:
```c
static void init() {
// Create main Window element and assign to pointer
s_main_window = window_create();
// Set handlers to manage the elements inside the Window
window_set_window_handlers(s_main_window, (WindowHandlers) {
.load = main_window_load,
.unload = main_window_unload
});
// Show the Window on the watch, with animated=true
window_stack_push(s_main_window, true);
}
```
A good best-practice to learn at this early stage is to match every Pebble SDK
`_create()` function call with the equivalent `_destroy()` function to make sure
all memory used is given back to the system when the app exits. Let's do this
now in `deinit()` for our main ``Window`` element:
```c
static void deinit() {
// Destroy Window
window_destroy(s_main_window);
}
```
We can now compile and run this watchface, but it will not show anything
interesting yet. It is also a good practice to check that our code is still
valid after each iterative change, so let's do this now.
## First Compilation and Installation
^CP^ To compile the watchface, make sure you have saved your C file by clicking
the 'Save' icon on the right of the editor screen and then proceed to the
'Compilation' screen by clicking the appropriate link on the left of the screen.
Click 'Run Build' to start the compilation process and wait for the result.
Hopefully the status should become 'Succeeded', meaning the code is valid and
can be run on the watch.
^LC^ To compile the watchface, make sure you have saved your project files and
then run `pebble build` from the project's root directory. The installable
`.pbw` file will be deposited in the `build` directory. After a successful
compile you will see a message reading `'build' finished successfully`. If there
are any problems with your code, the compiler will tell you which lines are in
error so you can fix them.
In order to install your watchface on your Pebble, first
[setup the Pebble Developer Connection](/guides/tools-and-resources/developer-connection/).
Make sure you are using the latest version of the Pebble app.
^CP^ Click 'Install and Run' and wait for the app to install.
^LC^ Install the watchapp by running `pebble install`, supplying your phone's IP
address with the `--phone` flag. For example: `pebble install
--phone 192.168.1.78`.
{% markdown {} %}
> Instead of using the --phone flag every time you install, set the PEBBLE_PHONE environment variable:
> `export PEBBLE_PHONE=192.168.1.78` and simply use `pebble install`.
{% endmarkdown %}
Congratulations! You should see that you have a new item in the watchface menu,
but it is entirely blank!
{% screenshot_viewer %}
{
"image": "/images/getting-started/watchface-tutorial/1-blank.png",
"platforms": [
{"hw": "aplite", "wrapper": "steel-black"},
{"hw": "basalt", "wrapper": "time-red"},
{"hw": "chalk", "wrapper": "time-round-rosegold-14"}
]
}
{% endscreenshot_viewer %}
Let's change that with the next stage towards a basic watchface - the
``TextLayer`` element.
## Showing Some Text
^CP^ Navigate back to the CloudPebble code editor and open your main C file to
continue adding code.
^LC^ Re-open your main C file to continue adding code.
The best way to show some text on a watchface or watchapp
is to use a ``TextLayer`` element. The first step in doing this is to follow a
similar procedure to that used for setting up the ``Window`` with a pointer,
ideally added below `s_main_window`:
```c
static TextLayer *s_time_layer;
```
This will be the first element added to our ``Window``, so we will make the
Pebble SDK function calls to create it in `main_window_load()`. After calling
``text_layer_create()``, we call other functions with plain English names that
describe exactly what they do, which is to help setup layout properties for the
text shown in the ``TextLayer`` including colors, alignment and font size. We
also include a call to ``text_layer_set_text()`` with "00:00" so that we can
verify that the ``TextLayer`` is set up correctly.
The layout parameters will vary depending on the shape of the display. To easily
specify which value of the vertical position is used on each of the round and
rectangular display shapes we use ``PBL_IF_ROUND_ELSE()``. Thus
`main_window_load()` becomes:
```c
static void main_window_load(Window *window) {
// Get information about the Window
Layer *window_layer = window_get_root_layer(window);
GRect bounds = layer_get_bounds(window_layer);
// Create the TextLayer with specific bounds
s_time_layer = text_layer_create(
GRect(0, PBL_IF_ROUND_ELSE(58, 52), bounds.size.w, 50));
// Improve the layout to be more like a watchface
text_layer_set_background_color(s_time_layer, GColorClear);
text_layer_set_text_color(s_time_layer, GColorBlack);
text_layer_set_text(s_time_layer, "00:00");
text_layer_set_font(s_time_layer, fonts_get_system_font(FONT_KEY_BITHAM_42_BOLD));
text_layer_set_text_alignment(s_time_layer, GTextAlignmentCenter);
// Add it as a child layer to the Window's root layer
layer_add_child(window_layer, text_layer_get_layer(s_time_layer));
}
```
Note the use of SDK values such as ``GColorBlack`` and `FONT_KEY_BITHAM_42_BOLD`
which allow use of built-in features and behavior. These examples here are the
color black and a built in system font. Later we will discuss loading a custom
font file, which can be used to replace this value.
Just like with ``Window``, we must be sure to destroy each element we create. We
will do this in `main_window_unload()`, to keep the management of the
``TextLayer`` completely within the loading and unloading of the ``Window`` it
is associated with. This function should now look like this:
```c
static void main_window_unload(Window *window) {
// Destroy TextLayer
text_layer_destroy(s_time_layer);
}
```
^CP^ This completes the setup of the basic watchface layout. If you return to
'Compilation' and install a new build, you should now see the following:
^LC^ This completes the setup of the basic watchface layout. If you run `pebble
build && pebble install` (with your phone's IP address) for the new build, you
should now see the following:
{% screenshot_viewer %}
{
"image": "/images/getting-started/watchface-tutorial/1-textlayer-test.png",
"platforms": [
{"hw": "aplite", "wrapper": "steel-black"},
{"hw": "basalt", "wrapper": "time-red"},
{"hw": "chalk", "wrapper": "time-round-rosegold-14"}
]
}
{% endscreenshot_viewer %}
The final step is to get the current time and display it using the
``TextLayer``. This is done with the ``TickTimerService``.
## Telling the Time
The ``TickTimerService`` is an Event Service that allows access to the current
time by subscribing a function to be run whenever the time changes. Normally
this may be every minute, but can also be every hour, or every second. However,
the latter will incur extra battery costs, so use it sparingly. We can do this
by calling ``tick_timer_service_subscribe()``, but first we must create a
function to give the service to call whenever the time changes, and must match
this signature:
```c
static void tick_handler(struct tm *tick_time, TimeUnits units_changed) {
}
```
This means that whenever the time changes, we are provided with a data structure
of type `struct tm` containing the current time
[in various forms](http://www.cplusplus.com/reference/ctime/tm/), as well as a
constant ``TimeUnits`` value that tells us which unit changed, to allow
filtering of behaviour. With our ``TickHandler`` created, we can register it
with the Event Service in `init()` like so:
```c
// Register with TickTimerService
tick_timer_service_subscribe(MINUTE_UNIT, tick_handler);
```
The logic to update the time ``TextLayer`` will be created in a function called
`update_time()`, enabling us to call it both from the ``TickHandler`` as well as
`main_window_load()` to ensure it is showing a time from the very beginning.
This function will use `strftime()`
([See here for formatting](http://www.cplusplus.com/reference/ctime/strftime/))
to extract the hours and minutes from the `struct tm` data structure and write
it into a character buffer. This buffer is required by ``TextLayer`` to be
long-lived as long as the text is to be displayed, as it is not copied into the
``TextLayer``, but merely referenced. We achieve this by making the buffer
`static`, so it persists across multiple calls to `update_time()`. Therefore
this function should be created before `main_window_load()` and look like this:
```c
static void update_time() {
// Get a tm structure
time_t temp = time(NULL);
struct tm *tick_time = localtime(&temp);
// Write the current hours and minutes into a buffer
static char s_buffer[8];
strftime(s_buffer, sizeof(s_buffer), clock_is_24h_style() ?
"%H:%M" : "%I:%M", tick_time);
// Display this time on the TextLayer
text_layer_set_text(s_time_layer, s_buffer);
}
```
Our ``TickHandler`` follows the correct function signature and contains only a
single call to `update_time()` to do just that:
```c
static void tick_handler(struct tm *tick_time, TimeUnits units_changed) {
update_time();
}
```
Lastly, `init()` should be modified include a call to
`update_time()` after ``window_stack_push()`` to ensure the time is displayed
correctly when the watchface loads:
```c
// Make sure the time is displayed from the start
update_time();
```
Since we can now display the time we can remove the call to
``text_layer_set_text()`` in `main_window_load()`, as it is no longer needed to
test the layout.
Re-compile and re-install the watchface on your Pebble, and it should look like
this:
{% screenshot_viewer %}
{
"image": "/images/getting-started/watchface-tutorial/1-time.png",
"platforms": [
{"hw": "aplite", "wrapper": "steel-black"},
{"hw": "basalt", "wrapper": "time-red"},
{"hw": "chalk", "wrapper": "time-round-rosegold-14"}
]
}
{% endscreenshot_viewer %}
## Conclusion
So there we have it, the basic process required to create a brand new Pebble
watchface! To do this we:
1. Created a new Pebble project.
2. Setup basic app structure.
3. Setup a main ``Window``.
4. Setup a ``TextLayer`` to display the time.
5. Subscribed to ``TickTimerService`` to get updates on the time, and wrote
these to a buffer for display in the ``TextLayer``.
If you have problems with your code, check it against the sample source code
provided using the button below.
^CP^ [Edit in CloudPebble >{center,bg-lightblue,fg-white}]({{ site.links.cloudpebble }}ide/gist/9b9d50b990d742a3ae34)
^LC^ [View Source Code >{center,bg-lightblue,fg-white}](https://gist.github.com/9b9d50b990d742a3ae34)
## What's Next?
The next section of the tutorial will introduce adding custom fonts and bitmap
images to your watchface.
[Go to Part 2 → >{wide,bg-dark-red,fg-white}](/tutorials/watchface-tutorial/part2/)