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898 lines
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898 lines
31 KiB
ReStructuredText
Display Component
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=================
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.. seo::
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:description: Instructions for setting up the display integration.
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:image: folder-open.svg
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The ``display`` component houses ESPHome's powerful rendering and display
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engine. Fundamentally, there are these types of displays:
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- Text based displays like :doc:`7-Segment displays <max7219>` or
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:doc:`some LCD displays <lcd_display>`.
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- Displays like the :doc:`nextion` that have their own processors for rendering.
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- Binary displays which can toggle ON/OFF any pixel, like :doc:`E-Paper displays <waveshare_epaper>` or
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:doc:`OLED displays <ssd1306>`.
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For the last type, ESPHome has a powerful rendering engine that can do
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many things like draw some basic shapes, print text with any font you want, or even show images.
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To achieve all this flexibility displays tie in directly into ESPHome's :ref:`lambda system <config-lambda>`.
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So when you want to write some text or sensor values to the screen you will be writing in C++ code
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using an API that is designed to
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- be simple and to be used without programming experience
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- but also be flexible enough to work with more complex tasks like displaying an analog clock.
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.. _display-engine:
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Display Rendering Engine
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------------------------
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In this section we will be discussing how to use ESPHome's display rendering engine from ESPHome
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and some basic commands. Please note that this only applies to displays that can control each pixel
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individually.
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So, first a few basics: When setting up a display platform in ESPHome there will be a configuration
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option called ``lambda:`` which will be called every time ESPHome wants to re-render the display.
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In each cycle, the display is automatically cleared before the lambda is executed. You can disable
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this behavior by setting ``auto_clear_enabled: false``.
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In the lambda, you can write code like in any :ref:`lambda <config-lambda>` in ESPHome. Display
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lambdas are additionally passed a variable called ``it`` which represents the rendering engine object.
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.. code-block:: yaml
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display:
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- platform: ...
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# ...
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lambda: |-
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// Write your display rendering code here
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// For example, draw a line from [x=0,y=0] to [x=50,y=50]
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it.line(0, 0, 50, 50);
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.. note::
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Lambdas are essentially just a lightly modified version of C++. So don't forget to end each line
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with a semicolon (``;``). Otherwise you will be greeted by a long error message at the compilation stage.
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If you compile and upload the configuration above, you should see a black (or white, depending on the display)
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line which starts at the top left and goes a few pixels down at a 45° angle. (If it's in another corner, use the
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``rotation:`` option to rotate the display to your liking)
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This already highlights one of the things you must learn before diving into writing your own custom display code:
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The **top left** is always the origin of the pixel coordinate system. Also, all points in this coordinate system
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are a pair of integers like ``50, 50`` which represent the shift to the right and shift downwards. So, in other words,
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x always represents the horizontal axis (width) and y the vertical axis (height). And the convention in
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the rendering engine is always first specify the ``x`` coordinate and then the ``y`` coordinate.
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Basic Shapes
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************
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Now that you know a bit more about ESPHome's coordinate system, let's draw some basic shapes like lines, rectangles
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and circles:
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.. code-block:: yaml
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display:
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- platform: ...
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# ...
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lambda: |-
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// Draw a line from [0,0] to [100,50]
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it.line(0, 0, 100, 50);
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// Draw the outline of a rectangle with the top left at [50,60], a width of 30 and a height of 42
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it.rectangle(50, 60, 30, 42);
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// Draw the same rectangle, but this time filled.
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it.filled_rectangle(50, 60, 30, 42);
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// Circles! Let's draw one with the center at [25,25] and a radius of 10
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it.circle(25, 25, 10);
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// ... and the same thing filled again
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it.filled_circle(25, 25, 10);
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All the above methods can optionally also be called with an argument at the end which specifies in which
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color to draw. For monochrome displays, only ``COLOR_ON`` (the default if color is not given) and ``COLOR_OFF`` are supported.
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.. code-block:: yaml
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display:
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- platform: ...
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# ...
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lambda: |-
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// Turn the whole display on.
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it.fill(COLOR_ON);
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// Turn the whole display off.
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it.fill(COLOR_OFF);
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// Turn a single pixel off at [50,60]
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it.draw_pixel_at(50, 60, COLOR_OFF);
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// Turn off a whole display portion.
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it.rectangle(50, 50, 30, 42, COLOR_OFF);
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For color displays (e.g. TFT displays), you can use the Color class.
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.. code-block:: yaml
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display:
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- platform: ...
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# ...
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lambda: |-
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auto red = Color(255, 0, 0);
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auto green = Color(0, 255, 0);
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auto blue = Color(0, 0, 255);
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auto white = Color(255, 255, 255);
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it.rectangle(20, 50, 30, 30, white);
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it.rectangle(25, 55, 30, 30, red);
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it.rectangle(30, 60, 30, 30, green);
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it.rectangle(35, 65, 30, 30, blue);
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Additionally, you have access to two helper methods which will fetch the width and height of the display:
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.. code-block:: yaml
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display:
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- platform: ...
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# ...
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lambda: |-
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// Draw a circle in the middle of the display
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it.filled_circle(it.get_width() / 2, it.get_height() / 2, 20);
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You can view the full API documentation for the rendering engine in the "API Reference" in the See Also section.
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.. _display-fonts:
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Fonts
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*****
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The rendering engine also has a powerful font drawer which integrates seamlessly into ESPHome.
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Whereas in most Arduino display projects you have to use one of a few pre-defined fonts in very
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specific sizes, with ESPHome you have the option to use **any** TrueType (``.ttf``) font file
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at **any** size, as well as fixed-size `PCF <https://en.wikipedia.org/wiki/Portable_Compiled_Format>`_ and `BDF <https://en.wikipedia.org/wiki/Glyph_Bitmap_Distribution_Format>`_ bitmap fonts! Granted the reason for it is
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actually not having to worry about the licensing of font files :)
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To use fonts you first have to define a font object in your ESPHome configuration file. Just grab
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a ``.ttf``, ``.pcf``, or ``.bdf`` file from somewhere on the internet and place it, for example,
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inside a ``fonts`` folder next to your configuration file.
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Next, create a ``font:`` section in your configuration:
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.. code-block:: yaml
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font:
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- file: "fonts/Comic Sans MS.ttf"
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id: my_font
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size: 20
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# gfonts://family[@weight]
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- file: "gfonts://Roboto"
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id: roboto
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size: 20
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- file:
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type: gfonts
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family: Roboto
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weight: 900
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id: font2
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size: 16
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- file: "fonts/tom-thumb.bdf"
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id: tomthumb
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display:
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# ...
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Configuration variables:
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- **file** (**Required**): The path (relative to where the .yaml file is) of the font
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file. You can use the ``gfonts://`` short form to use Google Fonts, or use the below structure:
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- **type** (**Required**, string): Can be ``gfonts`` or ``local``.
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**Google Fonts**:
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Each Google Font will be downloaded once and cached for future use.
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- **family** (**Required**, string): The name of the Google Font family.
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- **weight** (*Optional*, enum): The weight of the font. Can be either the text name or the integer value:
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- **thin**: 100
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- **extra-light**: 200
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- **light**: 300
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- **regular**: 400 (**default**)
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- **medium**: 500
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- **semi-bold**: 600
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- **bold**: 700
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- **extra-bold**: 800
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- **black**: 900
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- **italic** (*Optional*, boolean): Whether the font should be italic.
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**Local Fonts**:
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- **path** (**Required**, string): The path (relative to where the .yaml file is) of the TrueType or bitmap font file.
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- **id** (**Required**, :ref:`config-id`): The ID with which you will be able to reference the font later
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in your display code.
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- **size** (*Optional*, int): The size of the font in pt (not pixel!).
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If you want to use the same font in different sizes, create two font objects. Note: *size* is ignored
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by bitmap fonts. Defaults to ``20``.
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- **glyphs** (*Optional*, list): A list of characters you plan to use. Only the characters you specify
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here will be compiled into the binary. Adjust this if you need some special characters or want to
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reduce the size of the binary if you don't plan to use some glyphs. The items in the list can also
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be more than one character long if you for example want to use font ligatures. Defaults to
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``!"%()+=,-_.:°0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ abcdefghijklmnopqrstuvwxyz``.
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.. note::
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To use fonts you will need to have the python ``pillow`` package installed, as ESPHome uses that package
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to translate the TrueType and bitmap font files into an internal format. If you're running this as a Home Assistant
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add-on or with the official ESPHome docker image, it should already be installed. Otherwise you need
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to install it using
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``pip install pillow``.
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.. _display-static_text:
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Drawing Static Text
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*******************
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In your display code, you can render static text by referencing the font and just entering your string:
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.. code-block:: yaml
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display:
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- platform: ...
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# ...
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lambda: |-
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// Print the string "Hello World!" at [0,10]
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it.print(0, 10, id(my_font), "Hello World!");
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By default, ESPHome will *align* the text at the top left. That means if you enter the coordinates
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``[0,10]`` for your text, the top left of the text will be at ``[0,10]``. If you want to draw some
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text at the right side of the display, it is however sometimes useful to choose a different **text alignment**.
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When you enter ``[0,10]`` you're really telling ESPHome that it should position the **anchor point** of the text
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at ``[0,10]``. When using a different alignment, like ``TOP_RIGHT``, the text will be positioned left of the anchor
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pointed, so that, as the name implies, the anchor point is a the *top right* corner of the text.
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.. code-block:: yaml
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display:
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- platform: ...
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# ...
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lambda: |-
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// Aligned on left by default
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it.print(0, 0, id(my_font), "Left aligned");
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// Aligned on right edge
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it.print(it.get_width(), 0, id(my_font), TextAlign::TOP_RIGHT, "Right aligned");
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As with basic shapes, you can also specify a color for the text:
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.. code-block:: yaml
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display:
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- platform: ...
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# ...
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lambda: |-
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// Syntax is always: it.print(<x>, <y>, <font>, [color=COLOR_ON], [align=TextAlign::TOP_LEFT], <text>);
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it.print(0, 0, id(my_font), COLOR_ON, "Left aligned");
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.. _display-printf:
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Formatted Text
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**************
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Static text by itself is not too impressive. What we really want is to display *dynamic* content like sensor values
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on the display!. That's where ``printf`` comes in. ``printf`` is a formatting engine from the C era and ESPHome
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chose to use because ... well, I'm too lazy to create a fully-fledged format engine where the existing stuff
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is way better documented :)
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``printf`` can do way more stuff than you will probably ever need, but it's also quite simple for the basic stuff.
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For example, a printf call can look like this:
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.. code-block:: yaml
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sensor:
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- platform: ...
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# ...
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id: my_sensor
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display:
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- platform: ...
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# ...
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lambda: |-
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it.printf(0, 0, id(my_font), "The sensor value is: %.1f", id(my_sensor).state);
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// If the sensor has the value 30.02, the result will be: "The sensor value is: 30.0"
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As you can see, when you call ``printf`` most of the string is printed as-is, but when this weird percent sign with some
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stuff after it is encountered, it is magically replaced by the argument after the format (here ``id(my_sensor).state``).
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Every time you type a percent sign ``%`` in a printf format string, it will treat the following letters as a format tag
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until a so-called "specifier" is encountered (in this case ``f``). You can read more about it
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`here <https://www.tutorialspoint.com/c_standard_library/c_function_printf.htm>`__,
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but for ESPHome there are really just a few things you need to know.
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Let's break ``%.1f`` down:
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- ``%`` - initiate the format string
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- ``.1`` - round the decimal number to ``1`` digits after the decimal point.
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- ``f`` - the specifier which tells printf the data type of the argument. Here it is a f(loat).
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For example, if you would like to print a sensor value with two digits of accuracy, you would write ``%.2f`` and with
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zero digits of accuracy (without a decimal) ``%.0f``.
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Another interesting format string is ``%7.2f``, which would become the right-justified string
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``" 20.51"`` for a value of 20.506.
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- ``%`` - initiate the format
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- ``7`` - means that the number will be right-justified and be padded on the left by spaces if
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the result would be shorter than 7 characters long.
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- ``.2`` - round the decimal number to ``2`` digits after the decimal point.
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- ``f`` - specifier: f(loat).
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You can even have as many format strings as you want in a single printf call. Just make sure the put the
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arguments after the format string in the right order.
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.. code-block:: yaml
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display:
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- platform: ...
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# ...
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lambda: |-
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// %% - literal % sign
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it.printf(0, 0, id(my_font), "Temperature: %.1f°C, Humidity: %.1f%%", id(temperature).state, id(humidity).state);
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To display a text string from a ``text_sensor``, append ``.c_str()`` to the end of your variable.
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.. code-block:: yaml
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display:
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- platform: ...
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# ...
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lambda: |-
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it.printf(0, 0, id(my_font), "Text to follow: %s", id(template_text).state.c_str());
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The last printf tip for use in displays I will discuss here is how to display binary sensor values. You
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*could* of course just check the state with an ``if`` statement as the first few lines in the example below, but if
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you want to be efficient you can use an *inline if* too. With the ``%s`` print specifier you can tell it to
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use any string you pass it, like ``"ON"`` or ``"OFF"``.
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.. code-block:: yaml
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binary_sensor:
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- platform: ...
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# ...
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id: my_binary_sensor
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display:
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- platform: ...
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# ...
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lambda: |-
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if (id(my_binary_sensor).state) {
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it.print(0, 0, id(my_font), "state: ON");
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} else {
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it.print(0, 0, id(my_font), "state: OFF");
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}
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// Shorthand:
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it.printf(0, 0, id(my_font), "State: %s", id(my_binary_sensor).state ? "ON" : "OFF");
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.. note::
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For displaying external data on the display, for example data from your Home Assistant instance,
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you can use the :doc:`/components/text_sensor/mqtt_subscribe` (see the example there for more information).
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.. _display-strftime:
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Displaying Time
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***************
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You can display current time using a time component. Please see the example :ref:`here <strftime>`.
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.. _clipping:
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Screen Clipping
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***************
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Screen clipping is a new set of methods since version 2023.2.0 of esphome. It could be useful when you just want to show
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a part of an image or make sure that what you draw on the screen does not go outside a specific region on the screen.
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With ``start_clipping(left, top, right, bottom);`` start you the clipping process and when you are done drawing in that region
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you can stop the clipping process with ``end_clipping();`` . You can nest as many ``start_clipping();`` as you want as long
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you end them as many times as well.
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.. code-block:: yaml
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binary_sensor:
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- platform: ...
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# ...
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id: my_binary_sensor
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color:
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- name: my_red
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red: 100%
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display:
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- platform: ...
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# ...
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lambda: |-
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if (id(my_binary_sensor).state) {
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it.print(0, 0, id(my_font), "state: ON");
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} else {
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it.print(0, 0, id(my_font), "state: OFF");
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}
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// Shorthand:
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it.start_clipping(40,0,140,20);
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it.printf(0, 0, id(my_font), id(my_red), "State: %s", id(my_binary_sensor).state ? "ON" : "OFF");
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it.end_clipping();
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After you started clipping you can manipulate the region with ``extend_clipping(left, top, right, bottom);``
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and ``shrink_clipping(left, top, right, bottom);`` within previous set clipping region.
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With ``get_clipping();`` you get a ``Rect`` object back with the latest set clipping region.
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.. code-block:: cpp
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class Rect {
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int16_t x; ///< X/Left coordinate
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int16_t y; ///< Y/Top coordinate
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int16_t w; ///< Width
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int16_t h; ///< Height
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int16_t x2(); ///< Right coordinate
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int16_t y2(); ///< bottom coordinate
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};
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With ``is_clipping();`` tells you if clipping is activated.
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.. _config-color:
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Color
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*****
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When using RGB-capable displays in ESPHome you may wish to use custom colors.
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A ``color`` component exists for just this purpose:
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.. code-block:: yaml
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color:
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- id: my_light_red
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red: 100%
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green: 20%
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blue: 25%
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white: 0%
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Alternatively, you can use ``<color>_int`` to specify the color as an int value:
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.. code-block:: yaml
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color:
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- id: my_light_red
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red_int: 255
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green_int: 51
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blue_int: 64
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white_int: 0
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Or, if you are more comforatble with hex values, you can use ``hex``:
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.. code-block:: yaml
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color:
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- id: my_light_red
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hex: FF3340
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Configuration variables:
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- **red** (*Optional*, percentage): The percentage of the red component. Defaults to ``100%``.
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- **red_int** (*Optional*, integer): The brightness of the red component on a scale of ``0`` to ``255``. Defaults to ``255``.
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- **green** (*Optional*, percentage): The percentage of the green component. Defaults to ``100%``.
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- **green_int** (*Optional*, integer): The brightness of the green component on a scale of ``0`` to ``255``. Defaults to ``255``.
|
|
- **blue** (*Optional*, percentage): The percentage of the blue component. Defaults to ``100%``.
|
|
- **blue_int** (*Optional*, integer): The brightness of the blue component on a scale of ``0`` to ``255``. Defaults to ``255``.
|
|
- **white** (*Optional*, percentage): The percentage of the white component. Defaults to ``100%``.
|
|
- **white_int** (*Optional*, integer): The brightness of the white component on a scale of ``0`` to ``255``. Defaults to ``255``.
|
|
- **hex** (*Optional*, string): The color in hexadecimal representation. Defaults to ``FFFFFF``.
|
|
|
|
RGB displays use red, green, and blue, while grayscale displays may use white.
|
|
|
|
.. _display-graphs:
|
|
|
|
Graph Component
|
|
***************
|
|
|
|
You can display a graph of a sensor value(s) using this component. The states used for the graph are stored in
|
|
memory at the time the sensor updates and will be lost when the device reboots.
|
|
|
|
Examples:
|
|
|
|
.. figure:: images/graph_screen.png
|
|
:align: center
|
|
:width: 60.0%
|
|
|
|
.. figure:: images/graph_dualtrace.png
|
|
:align: center
|
|
:width: 60.0%
|
|
|
|
Graph component with options for grids, border and line-types.
|
|
|
|
.. code-block:: yaml
|
|
|
|
graph:
|
|
# Show bare-minimum auto-ranged graph
|
|
- id: single_temperature_graph
|
|
sensor: my_temperature
|
|
duration: 1h
|
|
width: 151
|
|
height: 51
|
|
# Show multi-trace graph
|
|
- id: multi_temperature_graph
|
|
duration: 1h
|
|
x_grid: 10min
|
|
y_grid: 1.0 # degC/div
|
|
width: 151
|
|
height: 51
|
|
traces:
|
|
- sensor: my_inside_temperature
|
|
line_type: DASHED
|
|
line_thickness: 2
|
|
color: my_red
|
|
- sensor: my_outside_temperature
|
|
line_type: SOLID
|
|
line_thickness: 3
|
|
color: my_blue
|
|
- sensor: my_beer_temperature
|
|
line_type: DOTTED
|
|
line_thickness: 2
|
|
color: my_green
|
|
|
|
Configuration variables:
|
|
|
|
- **id** (**Required**, :ref:`config-id`): The ID with which you will be able to reference the graph later
|
|
in your display code.
|
|
- **width** (**Required**, int): The graph width in pixels
|
|
- **height** (**Required**, int): The graph height in pixels
|
|
- **duration** (**Required**, :ref:`config-time`): The total graph history duration.
|
|
- **border** (*Optional*, boolean): Specifies if a border will be drawn around the graph. Default is True.
|
|
- **x_grid** (*Optional*): Specifies the time per division. If not specified, no vertical grid will be drawn.
|
|
- **y_grid** (*Optional*, float): Specifies the number of units per division. If not specified, no horizontal grid will be drawn.
|
|
- **max_range** (*Optional*): Specifies the maximum Y-axis range.
|
|
- **min_range** (*Optional*): Specifies the minimum Y-axis range.
|
|
- **max_value** (*Optional*): Specifies the maximum Y-axis value.
|
|
- **min_value** (*Optional*): Specifies the minimum Y-axis value.
|
|
- **traces** (*Optional*): Use this to specify more than a single trace.
|
|
|
|
Trace specific fields:
|
|
|
|
- **sensor** (*Optional*, :ref:`config-id`): The sensor value to plot
|
|
- **line_thickness** (*Optional*): Defaults to 3
|
|
- **line_type** (*Optional*): Specifies the plot line-type. Can be one of the following: ``SOLID``, ``DOTTED``, ``DASHED``. Defaults to ``SOLID``.
|
|
- **color** (*Optional*): Sets the color of the sensor trace.
|
|
|
|
And then later in code:
|
|
|
|
.. code-block:: yaml
|
|
|
|
display:
|
|
- platform: ...
|
|
# ...
|
|
pages:
|
|
- id: page1
|
|
lambda: |-
|
|
// Draw the graph at position [x=10,y=20]
|
|
it.graph(10, 20, id(single_temperature_graph));
|
|
- id: page2
|
|
lambda: |-
|
|
// Draw the graph at position [x=10,y=20]
|
|
it.graph(10, 20, id(multi_temperature_graph), my_yellow);
|
|
|
|
color:
|
|
- id: my_red
|
|
red: 100%
|
|
green: 0%
|
|
blue: 0%
|
|
- id: my_green
|
|
red: 0%
|
|
green: 100%
|
|
blue: 0%
|
|
- id: my_blue
|
|
red: 0%
|
|
green: 0%
|
|
blue: 100%
|
|
- id: my_yellow
|
|
red: 100%
|
|
green: 100%
|
|
blue: 0%
|
|
.. note::
|
|
|
|
Here are some things to note:
|
|
- Setting ``y_grid`` will expand any specified range to the nearest multiple of grid spacings.
|
|
- Axis labels are currently not possible without manually placing them.
|
|
- The grid and border color is set with it.graph(), while the traces are defined separately.
|
|
|
|
QR Code Component
|
|
*****************
|
|
|
|
Use this component to generate a QR-code containing a string on the device, which can then be drawn on compatible displays.
|
|
|
|
.. code-block:: yaml
|
|
|
|
qr_code:
|
|
- id: homepage_qr
|
|
value: esphome.io
|
|
|
|
Configuration variables:
|
|
|
|
- **id** (**Required**, :ref:`config-id`): The ID with which you will be able to reference the QR-code later
|
|
in your display code.
|
|
- **value** (**Required**, string): The string which you want to encode in the QR-code.
|
|
- **ecc** (*Optional*, string): The error correction code level you want to use. Defaults to ``LOW``. You can use one of the following values:
|
|
|
|
- ``LOW``: The QR Code can tolerate about 7% erroneous codewords
|
|
- ``MEDIUM``: The QR Code can tolerate about 15% erroneous codewords
|
|
- ``QUARTILE``: The QR Code can tolerate about 25% erroneous codewords
|
|
- ``HIGH``: The QR Code can tolerate about 30% erroneous codewords
|
|
|
|
To draw the QR-code, call the ``it.qr_code`` function from your render lambda:
|
|
|
|
.. code-block:: yaml
|
|
|
|
display:
|
|
- platform: ...
|
|
# ...
|
|
pages:
|
|
- id: page1
|
|
lambda: |-
|
|
// Draw the QR-code at position [x=50,y=0] with white color and a 2x scale
|
|
it.qr_code(50, 0, id(homepage_qr), Color(255,255,255), 2);
|
|
|
|
Images
|
|
******
|
|
|
|
Use this component to store graphical images on the device, you can then draw the images on compatible displays.
|
|
|
|
.. code-block:: yaml
|
|
|
|
image:
|
|
- file: "image.png"
|
|
id: my_image
|
|
resize: 100x100
|
|
|
|
Configuration variables:
|
|
|
|
- **file** (**Required**, string): The path (relative to where the .yaml file is) of the image file.
|
|
- **id** (**Required**, :ref:`config-id`): The ID with which you will be able to reference the image later
|
|
in your display code.
|
|
- **resize** (*Optional*, string): If set, this will resize the image to fit inside the given dimensions ``WIDTHxHEIGHT``
|
|
and preserve the aspect ratio.
|
|
- **type** (*Optional*): Specifies how to encode image internally. Defaults to ``BINARY``.
|
|
|
|
- ``BINARY``: Two colors, suitable for 1 color displays or 2 color image in color displays. Uses 1 bit
|
|
per pixel, 8 pixels per byte.
|
|
- ``GRAYSCALE``: Full scale grey. Uses 8 bits per pixel, 1 pixel per byte.
|
|
- ``RGB24``: Full RGB color stored. Uses 3 bytes per pixel.
|
|
- ``RGB565``: Lossy RGB color stored. Uses 2 bytes per pixel.
|
|
- ``TRANSPARENT_BINARY``: One color, any pixel that is fully transparent will not be drawn, and any other pixel
|
|
will be the on color. Uses 1 bit per pixel, 8 pixels per byte.
|
|
|
|
- **dither** (*Optional*): Specifies which dither method used to process the image, only used in GRAYSCALE and BINARY type image. Defaults to ``NONE``. You can read more about it `here <https://pillow.readthedocs.io/en/stable/reference/Image.html?highlight=Dither#PIL.Image.Image.convert>`__ and `here <https://en.wikipedia.org/wiki/Dither>`__.
|
|
|
|
- ``NONE``: Every pixel convert to its nearest color.
|
|
- ``FLOYDSTEINBERG``: Uses Floyd-Steinberg dither to approximate the original image luminosity levels.
|
|
|
|
.. note::
|
|
|
|
To use images you will need to have the python ``pillow`` package installed.
|
|
If you're running this as a Home Assistant add-on or with the official ESPHome docker image, it should already be
|
|
installed. Otherwise you need to install it using ``pip install pillow``.
|
|
|
|
And then later in code:
|
|
|
|
.. code-block:: yaml
|
|
|
|
display:
|
|
- platform: ...
|
|
# ...
|
|
lambda: |-
|
|
// Draw the image my_image at position [x=0,y=0]
|
|
it.image(0, 0, id(my_image));
|
|
|
|
For binary images the ``image`` method accepts two additional color parameters which can
|
|
be supplied to modify the color used to represent the on and off bits respectively. e.g.
|
|
|
|
.. code-block:: yaml
|
|
|
|
display:
|
|
- platform: ...
|
|
# ...
|
|
lambda: |-
|
|
// Draw the image my_image at position [x=0,y=0]
|
|
// with front color red and back color blue
|
|
it.image(0, 0, id(my_image), id(red), id(blue));
|
|
|
|
You can also use this to invert images in two colors display, use ``COLOR_OFF`` then ``COLOR_ON``
|
|
as the additional parameters.
|
|
|
|
Animation
|
|
*********
|
|
|
|
Allows to use animated images on displays. Animation inherits all options from the image component.
|
|
It adds additional lambda methods: ``next_frame()``, ``prev_frame()`` and ``set_frame()`` to change the shown picture of a gif.
|
|
|
|
.. code-block:: yaml
|
|
|
|
animation:
|
|
- file: "animation.gif"
|
|
id: my_animation
|
|
resize: 100x100
|
|
|
|
The animation can be rendered just like the image component with the ``image()`` function of the display component.
|
|
|
|
To show the next frame of the animation call ``id(my_animation).next_frame()``, to show the previous picture use ``id(my_animation).prev_frame()``. To show a specific picture use ``id(my_animation).set_frame(int frame)``.
|
|
This can be combined with all Lambdas:
|
|
|
|
.. code-block:: yaml
|
|
|
|
display:
|
|
- platform: ...
|
|
# ...
|
|
lambda: |-
|
|
//Ingress shown animation Frame.
|
|
id(my_animation).next_frame();
|
|
// Draw the animation my_animation at position [x=0,y=0]
|
|
it.image(0, 0, id(my_animation), COLOR_ON, COLOR_OFF);
|
|
|
|
.. note::
|
|
|
|
To draw the next animation independent of Display draw cycle use an interval:
|
|
|
|
.. code-block:: yaml
|
|
|
|
interval:
|
|
- interval: 5s
|
|
then:
|
|
lambda: |-
|
|
id(my_animation).next_frame();
|
|
|
|
|
|
Configuration variables:
|
|
^^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
- **file** (**Required**, string): The path (relative to where the .yaml file is) of the gif file.
|
|
- **id** (**Required**, :ref:`config-id`): The ID with which you will be able to reference the animation later
|
|
in your display code.
|
|
- **resize** (*Optional*, string): If set, this will resize all the frames to fit inside the given dimensions ``WIDTHxHEIGHT``
|
|
and preserve the aspect ratio.
|
|
- **type** (*Optional*): Specifies how to encode each frame internally. Defaults to ``BINARY``.
|
|
|
|
- ``BINARY``: Two colors, suitable for 1 color displays or 2 color image in color displays. Uses 1 bit
|
|
per pixel, 8 pixels per byte.
|
|
- ``GRAYSCALE``: Full scale grey. Uses 8 bits per pixel, 1 pixel per byte.
|
|
- ``RGB24``: Full RGB color stored. Uses 3 bytes per pixel.
|
|
- ``RGB565``: Lossy RGB color stored. Uses 2 bytes per pixel.
|
|
|
|
.. _display-pages:
|
|
|
|
Display Pages
|
|
-------------
|
|
|
|
Certain display types also allow you to show "pages". With pages you can create drawing lambdas
|
|
that you can switch between. For example with pages you can set up 3 screens, each with
|
|
different content, and switch between them on a timer.
|
|
|
|
.. code-block:: yaml
|
|
|
|
display:
|
|
- platform: ...
|
|
# ...
|
|
id: my_display
|
|
pages:
|
|
- id: page1
|
|
lambda: |-
|
|
it.print(0, 10, id(my_font), "This is page 1!");
|
|
- id: page2
|
|
lambda: |-
|
|
it.print(0, 10, id(my_font), "This is page 2!");
|
|
|
|
You can then switch between these with three different actions:
|
|
|
|
**show_next** / **show_previous**: Shows the next or previous page, wraps around at the end.
|
|
|
|
.. code-block:: yaml
|
|
|
|
on_...:
|
|
- display.page.show_next: my_display
|
|
- display.page.show_previous: my_display
|
|
|
|
# For example cycle through pages on a timer
|
|
interval:
|
|
- interval: 5s
|
|
then:
|
|
- display.page.show_next: my_display
|
|
- component.update: my_display
|
|
|
|
**display.page.show**: Show a specific page
|
|
|
|
.. code-block:: yaml
|
|
|
|
on_...:
|
|
- display.page.show: page1
|
|
|
|
# Templated
|
|
- display.page.show: !lambda |-
|
|
if (id(my_binary_sensor).state) {
|
|
return id(page1);
|
|
} else {
|
|
return id(page2);
|
|
}
|
|
|
|
.. note::
|
|
|
|
To trigger a redraw right after the page show use a :ref:`component.update <component-update_action>`
|
|
action:
|
|
|
|
.. code-block:: yaml
|
|
|
|
# For example cycle through pages on a timer
|
|
interval:
|
|
- interval: 5s
|
|
then:
|
|
- display.page.show_next: my_display
|
|
- component.update: my_display
|
|
|
|
.. _display-is_displaying_page-condition:
|
|
|
|
**display.is_displaying_page**: This condition returns true while the specified page is being shown.
|
|
|
|
.. code-block:: yaml
|
|
|
|
# In some trigger:
|
|
on_...:
|
|
- if:
|
|
condition:
|
|
display.is_displaying_page: page1
|
|
then:
|
|
...
|
|
- if:
|
|
condition:
|
|
display.is_displaying_page:
|
|
id: my_display
|
|
page_id: page2
|
|
then:
|
|
...
|
|
|
|
.. _display-on_page_change-trigger:
|
|
|
|
**on_page_change**: This automation will be triggered when the page that is shown changes.
|
|
|
|
.. code-block:: yaml
|
|
|
|
display:
|
|
- platform: ...
|
|
# ...
|
|
on_page_change:
|
|
- from: page1
|
|
to: page2
|
|
then:
|
|
lambda: |-
|
|
ESP_LOGD("display", "Page changed from 1 to 2");
|
|
|
|
- **from** (*Optional*, :ref:`config-id`): A page id. If set the automation is only triggered if changing from this page. Defaults to all pages.
|
|
- **to** (*Optional*, :ref:`config-id`): A page id. If set the automation is only triggered if changing to this page. Defaults to all pages.
|
|
|
|
Additionally the old page will be given as the variable ``from`` and the new one as the variable ``to``.
|
|
|
|
See Also
|
|
--------
|
|
|
|
- :apiref:`display/display_buffer.h`
|
|
- :ghedit:`Edit`
|
|
|
|
.. toctree::
|
|
:maxdepth: 1
|
|
:glob:
|
|
|
|
*
|