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lvgl/docs/widgets/img.rst
2023-04-27 19:47:13 +02:00

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Image (lv_img)
==============
Overview
********
Images are the basic object to display images from flash (as arrays) or
from files. Images can display symbols (``LV_SYMBOL_...``) too.
Using the `Image decoder interface </overview/image.html#image-decoder>`__ custom image formats
can be supported as well.
Parts and Styles
****************
- :cpp:enumerator:`LV_PART_MAIN` A background rectangle that uses the typical
background style properties and the image itself using the image
style properties.
Usage
*****
Image source
------------
To provide maximum flexibility, the source of the image can be:
- a variable in code (a C array with the pixels).
- a file stored externally (e.g. on an SD card).
- a text with `Symbols </overview/font>`__.
To set the source of an image, use :cpp:expr:`lv_img_set_src(img, src)`.
To generate a pixel array from a PNG, JPG or BMP image, use the `Online image converter tool <https://lvgl.io/tools/imageconverter>`__
and set the converted image with its pointer :cpp:expr:`lv_img_set_src(img1, &converted_img_var)`
To make the variable visible in the C file, you need to declare it with
:cpp:expr:`LV_IMG_DECLARE(converted_img_var)`.
To use external files, you also need to convert the image files using
the online converter tool but now you should select the binary output
format. You also need to use LVGL's file system module and register a
driver with some functions for the basic file operation. Go to the
`File system </overview/file-system>`__ to learn more. To set an image sourced
from a file, use :cpp:expr:`lv_img_set_src(img, "S:folder1/my_img.bin")`.
You can also set a symbol similarly to `Labels </widgets/label>`__. In
this case, the image will be rendered as text according to the *font*
specified in the style. It enables to use of light-weight monochrome
"letters" instead of real images. You can set symbol like
:cpp:expr:`lv_img_set_src(img1, LV_SYMBOL_OK)`.
Label as an image
-----------------
Images and labels are sometimes used to convey the same thing. For
example, to describe what a button does. Therefore, images and labels
are somewhat interchangeable, that is the images can display texts by
using :c:macro:`LV_SYMBOL_DUMMY` as the prefix of the text. For example,
:cpp:expr:`lv_img_set_src(img, LV_SYMBOL_DUMMY, "Some text")`.
Transparency
------------
The internal (variable) and external images support 2 transparency
handling methods:
- **Chroma-keying** - Pixels with :c:macro:`LV_COLOR_CHROMA_KEY` (*lv_conf.h*)
color will be transparent.
- **Alpha byte** - An alpha byte is added to every pixel that contains
the pixel's opacity
Palette and Alpha index
-----------------------
Besides the *True color* (RGB) color format, the following formats are
supported:
- **Indexed**: Image has a palette.
- **Alpha indexed**: Only alpha values are stored.
These options can be selected in the image converter. To learn more
about the color formats, read the `Images </overview/image>`__ section.
Recolor
-------
A color can be mixed with every pixel of an image with a given
intensity. This can be useful to show different states (checked,
inactive, pressed, etc.) of an image without storing more versions of
the same image. This feature can be enabled in the style by setting
``img_recolor_opa`` between :cpp:enumerator:`LV_OPA_TRANSP` (no recolor, value: 0) and
:cpp:enumerator:`LV_OPA_COVER` (full recolor, value: 255). The default value is
:cpp:enumerator:`LV_OPA_TRANSP` so this feature is disabled.
The color to mix is set by ``img_recolor``.
Auto-size
---------
If the width or height of the image object is set to :c:macro:`LV_SIZE_CONTENT`
the object's size will be set according to the size of the image source
in the respective direction.
Mosaic
------
If the object's size is greater than the image size in any directions,
then the image will be repeated like a mosaic. This allows creation a
large image from only a very narrow source. For example, you can have a
*300 x 5* image with a special gradient and set it as a wallpaper using
the mosaic feature.
Offset
------
With :cpp:expr:`lv_img_set_offset_x(img, x_ofs)` and
:cpp:expr:`lv_img_set_offset_y(img, y_ofs)`, you can add some offset to the
displayed image. Useful if the object size is smaller than the image
source size. Using the offset parameter a `Texture atlas <https://en.wikipedia.org/wiki/Texture_atlas>`__
or a "running image" effect can be created by `Animating </overview/animation>`__ the x or y offset.
Transformations
***************
Using the :cpp:expr:`lv_img_set_zoom(img, factor)` the images will be zoomed.
Set ``factor`` to ``256`` or :c:macro:`LV_ZOOM_NONE` to disable zooming. A
larger value enlarges the images (e.g. ``512`` double size), a smaller
value shrinks it (e.g. ``128`` half size). Fractional scale works as
well. E.g. ``281`` for 10% enlargement.
To rotate the image use :cpp:expr:`lv_img_set_angle(img, angle)`. Angle has 0.1
degree precision, so for 45.8° set 458.
The ``transform_zoom`` and ``transform_angle`` style properties are also
used to determine the final zoom and angle.
By default, the pivot point of the rotation is the center of the image.
It can be changed with :cpp:expr:`lv_img_set_pivot(img, pivot_x, pivot_y)`.
``0;0`` is the top left corner.
The quality of the transformation can be adjusted with
:cpp:expr:`lv_img_set_antialias(img, true)`. With enabled anti-aliasing
the transformations are higher quality but slower.
The transformations require the whole image to be available. Therefore
indexed images (``LV_IMG_CF_INDEXED_...``), alpha only images
(``LV_IMG_CF_ALPHA_...``) or images from files can not be transformed.
In other words transformations work only on true color images stored as
C array, or if a custom `Image decoder </overview/images#image-edecoder>`__
returns the whole image.
Note that the real coordinates of image objects won't change during
transformation. That is ``lv_obj_get_width/height/x/y()`` will return
the original, non-zoomed coordinates.
**IMPORTANT** The transformation of the image is independent of the
transformation properties coming from styles. (See
`here </overview/style#opacity-and-transformations>`__). The main
differences are that pure image widget transformation
- doesn't transform the children of the image widget
- image is transformed directly without creating an intermediate layer (buffer) to snapshot the widget
Size mode
---------
By default, when the image is zoomed or rotated the real coordinates of
the image object are not changed. The larger content simply overflows
the object's boundaries. It also means the layouts are not affected the
by the transformations.
If you need the object size to be updated to the transformed size set
:cpp:expr:`lv_img_set_size_mode(img, LV_IMG_SIZE_MODE_REAL)`. (The previous mode
is the default and called :cpp:enumerator:`LV_IMG_SIZE_MODE_VIRTUAL`). In this case if
the width/height of the object is set to :c:macro:`LV_SIZE_CONTENT` the
object's size will be set to the zoomed and rotated size. If an explicit
size is set then the overflowing content will be cropped.
Rounded image
-------------
You can use :cpp:func:`lv_obj_set_style_radius` to set radius to an image, and
enable :cpp:func:`lv_obj_set_style_clip_corner` to clip the content to rounded
rectangle or circular shape. Please note this will have some negative
performance impact to CPU based renderers.
Events
******
No special events are sent by image objects.
See the events of the `Base object </widgets/obj>`__ too.
Learn more about :ref:`events`.
Keys
****
No *Keys* are processed by the object type.
Learn more about :ref:`indev_keys`.
Example
*******
.. include:: ../examples/widgets/img/index.rst
API
***