Crates.io | tinytga |
lib.rs | tinytga |
version | 0.5.0 |
source | src |
created_at | 2019-06-04 19:17:00.428206 |
updated_at | 2023-05-17 09:03:34.872933 |
description | No-std, low memory footprint TGA image loader |
homepage | |
repository | https://github.com/embedded-graphics/tinytga |
max_upload_size | |
id | 138991 |
size | 2,535,515 |
A small TGA parser designed for use with embedded-graphics targeting no-std environments but usable anywhere. Beyond parsing the image header, no other allocations are made.
tinytga provides two methods of accessing the pixel data inside a TGA file. The most convenient way is to use a color type provided by embedded-graphics to define the format stored inside the TGA file. But it is also possible to directly access the raw pixel representation instead.
Tga
to draw an imageThis example demonstrates how a TGA image can be drawn to a embedded-graphics draw target.
use embedded_graphics::{image::Image, pixelcolor::Rgb888, prelude::*};
use tinytga::Tga;
// Include an image from a local path as bytes
let data = include_bytes!("../tests/chessboard_4px_rle.tga");
let tga: Tga<Rgb888> = Tga::from_slice(data).unwrap();
let image = Image::new(&tga, Point::zero());
image.draw(&mut display)?;
If embedded-graphics is not used to draw the TGA image, the color types provided by
embedded-graphics can still be used to access the pixel data using the
pixels
method.
use embedded_graphics::{prelude::*, pixelcolor::Rgb888};
use tinytga::Tga;
// Include an image from a local path as bytes
let data = include_bytes!("../tests/chessboard_4px_rle.tga");
// Create a TGA instance from a byte slice.
// The color type is set by defining the type of the `img` variable.
let img: Tga<Rgb888> = Tga::from_slice(data).unwrap();
// Check the size of the image.
assert_eq!(img.size(), Size::new(4, 4));
// Collect pixels into a vector.
let pixels: Vec<_> = img.pixels().collect();
If embedded-graphics is not used in the target application, the raw image data can be
accessed with the pixels
method on
RawTga
. The returned iterator produces a u32
for each pixel value.
use embedded_graphics::{prelude::*, pixelcolor::Rgb888};
use tinytga::{Bpp, Compression, DataType, ImageOrigin, RawPixel, RawTga, TgaHeader};
// Include an image from a local path as bytes.
let data = include_bytes!("../tests/chessboard_4px_rle.tga");
// Create a TGA instance from a byte slice.
let img = RawTga::from_slice(data).unwrap();
// Take a look at the raw image header.
assert_eq!(
img.header(),
TgaHeader {
id_len: 0,
has_color_map: false,
data_type: DataType::TrueColor,
compression: Compression::Rle,
color_map_start: 0,
color_map_len: 0,
color_map_depth: None,
x_origin: 0,
y_origin: 4,
width: 4,
height: 4,
pixel_depth: Bpp::Bits24,
image_origin: ImageOrigin::TopLeft,
alpha_channel_depth: 0,
}
);
// Collect raw pixels into a vector.
let pixels: Vec<_> = img.pixels().collect();
tinytga
uses different code paths to draw images with different ImageOrigin
s.
The performance difference between the origins will depend on the display driver, but using
images with the origin at the top left corner will generally result in the best performance.
The minimum supported Rust version for tinytga is 1.61
or greater.
Ensure you have the correct version of Rust installed, preferably through https://rustup.rs.
Licensed under either of
at your option.
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.