Sindbad~EG File Manager
use std::fs::File;
use std::io::{BufRead, BufReader, BufWriter, Seek};
use std::path::Path;
use std::u32;
use crate::codecs::*;
use crate::dynimage::DynamicImage;
use crate::error::{ImageError, ImageFormatHint, ImageResult};
use crate::image;
use crate::image::ImageFormat;
#[allow(unused_imports)] // When no features are supported
use crate::image::{ImageDecoder, ImageEncoder};
use crate::{
color,
error::{UnsupportedError, UnsupportedErrorKind},
ImageOutputFormat,
};
pub(crate) fn open_impl(path: &Path) -> ImageResult<DynamicImage> {
let buffered_read = BufReader::new(File::open(path).map_err(ImageError::IoError)?);
load(buffered_read, ImageFormat::from_path(path)?)
}
/// Create a new image from a Reader.
///
/// Assumes the reader is already buffered. For optimal performance,
/// consider wrapping the reader with a `BufReader::new()`.
///
/// Try [`io::Reader`] for more advanced uses.
///
/// [`io::Reader`]: io/struct.Reader.html
#[allow(unused_variables)]
// r is unused if no features are supported.
pub fn load<R: BufRead + Seek>(r: R, format: ImageFormat) -> ImageResult<DynamicImage> {
load_inner(r, super::Limits::default(), format)
}
pub(crate) trait DecoderVisitor {
type Result;
fn visit_decoder<'a, D: ImageDecoder<'a>>(self, decoder: D) -> ImageResult<Self::Result>;
}
pub(crate) fn load_decoder<R: BufRead + Seek, V: DecoderVisitor>(
r: R,
format: ImageFormat,
limits: super::Limits,
visitor: V,
) -> ImageResult<V::Result> {
#[allow(unreachable_patterns)]
// Default is unreachable if all features are supported.
match format {
#[cfg(feature = "avif-decoder")]
image::ImageFormat::Avif => visitor.visit_decoder(avif::AvifDecoder::new(r)?),
#[cfg(feature = "png")]
image::ImageFormat::Png => visitor.visit_decoder(png::PngDecoder::with_limits(r, limits)?),
#[cfg(feature = "gif")]
image::ImageFormat::Gif => visitor.visit_decoder(gif::GifDecoder::new(r)?),
#[cfg(feature = "jpeg")]
image::ImageFormat::Jpeg => visitor.visit_decoder(jpeg::JpegDecoder::new(r)?),
#[cfg(feature = "webp")]
image::ImageFormat::WebP => visitor.visit_decoder(webp::WebPDecoder::new(r)?),
#[cfg(feature = "tiff")]
image::ImageFormat::Tiff => visitor.visit_decoder(tiff::TiffDecoder::new(r)?),
#[cfg(feature = "tga")]
image::ImageFormat::Tga => visitor.visit_decoder(tga::TgaDecoder::new(r)?),
#[cfg(feature = "dds")]
image::ImageFormat::Dds => visitor.visit_decoder(dds::DdsDecoder::new(r)?),
#[cfg(feature = "bmp")]
image::ImageFormat::Bmp => visitor.visit_decoder(bmp::BmpDecoder::new(r)?),
#[cfg(feature = "ico")]
image::ImageFormat::Ico => visitor.visit_decoder(ico::IcoDecoder::new(r)?),
#[cfg(feature = "hdr")]
image::ImageFormat::Hdr => visitor.visit_decoder(hdr::HdrAdapter::new(BufReader::new(r))?),
#[cfg(feature = "exr")]
image::ImageFormat::OpenExr => visitor.visit_decoder(openexr::OpenExrDecoder::new(r)?),
#[cfg(feature = "pnm")]
image::ImageFormat::Pnm => visitor.visit_decoder(pnm::PnmDecoder::new(r)?),
#[cfg(feature = "farbfeld")]
image::ImageFormat::Farbfeld => visitor.visit_decoder(farbfeld::FarbfeldDecoder::new(r)?),
_ => Err(ImageError::Unsupported(
ImageFormatHint::Exact(format).into(),
)),
}
}
pub(crate) fn load_inner<R: BufRead + Seek>(
r: R,
limits: super::Limits,
format: ImageFormat,
) -> ImageResult<DynamicImage> {
struct LoadVisitor(super::Limits);
impl DecoderVisitor for LoadVisitor {
type Result = DynamicImage;
fn visit_decoder<'a, D: ImageDecoder<'a>>(
self,
mut decoder: D,
) -> ImageResult<Self::Result> {
let mut limits = self.0;
// Check that we do not allocate a bigger buffer than we are allowed to
// FIXME: should this rather go in `DynamicImage::from_decoder` somehow?
limits.reserve(decoder.total_bytes())?;
decoder.set_limits(limits)?;
DynamicImage::from_decoder(decoder)
}
}
load_decoder(r, format, limits.clone(), LoadVisitor(limits))
}
pub(crate) fn image_dimensions_impl(path: &Path) -> ImageResult<(u32, u32)> {
let format = image::ImageFormat::from_path(path)?;
let reader = BufReader::new(File::open(path)?);
image_dimensions_with_format_impl(reader, format)
}
#[allow(unused_variables)]
// fin is unused if no features are supported.
pub(crate) fn image_dimensions_with_format_impl<R: BufRead + Seek>(
buffered_read: R,
format: ImageFormat,
) -> ImageResult<(u32, u32)> {
struct DimVisitor;
impl DecoderVisitor for DimVisitor {
type Result = (u32, u32);
fn visit_decoder<'a, D: ImageDecoder<'a>>(self, decoder: D) -> ImageResult<Self::Result> {
Ok(decoder.dimensions())
}
}
load_decoder(buffered_read, format, super::Limits::default(), DimVisitor)
}
#[allow(unused_variables)]
// Most variables when no features are supported
pub(crate) fn save_buffer_impl(
path: &Path,
buf: &[u8],
width: u32,
height: u32,
color: color::ColorType,
) -> ImageResult<()> {
let format = ImageFormat::from_path(path)?;
save_buffer_with_format_impl(path, buf, width, height, color, format)
}
#[allow(unused_variables)]
// Most variables when no features are supported
pub(crate) fn save_buffer_with_format_impl(
path: &Path,
buf: &[u8],
width: u32,
height: u32,
color: color::ColorType,
format: ImageFormat,
) -> ImageResult<()> {
let buffered_file_write = &mut BufWriter::new(File::create(path)?); // always seekable
let format = match format {
#[cfg(feature = "pnm")]
image::ImageFormat::Pnm => {
let ext = path
.extension()
.and_then(|s| s.to_str())
.map_or("".to_string(), |s| s.to_ascii_lowercase());
ImageOutputFormat::Pnm(match &*ext {
"pbm" => pnm::PnmSubtype::Bitmap(pnm::SampleEncoding::Binary),
"pgm" => pnm::PnmSubtype::Graymap(pnm::SampleEncoding::Binary),
"ppm" => pnm::PnmSubtype::Pixmap(pnm::SampleEncoding::Binary),
"pam" => pnm::PnmSubtype::ArbitraryMap,
_ => {
return Err(ImageError::Unsupported(
ImageFormatHint::Exact(format).into(),
))
} // Unsupported Pnm subtype.
})
}
// #[cfg(feature = "hdr")]
// image::ImageFormat::Hdr => hdr::HdrEncoder::new(fout).encode(&[Rgb<f32>], width, height), // usize
format => format.into(),
};
write_buffer_impl(buffered_file_write, buf, width, height, color, format)
}
#[allow(unused_variables)]
// Most variables when no features are supported
pub(crate) fn write_buffer_impl<W: std::io::Write + Seek>(
buffered_write: &mut W,
buf: &[u8],
width: u32,
height: u32,
color: color::ColorType,
format: ImageOutputFormat,
) -> ImageResult<()> {
match format {
#[cfg(feature = "png")]
ImageOutputFormat::Png => {
png::PngEncoder::new(buffered_write).write_image(buf, width, height, color)
}
#[cfg(feature = "jpeg")]
ImageOutputFormat::Jpeg(quality) => {
jpeg::JpegEncoder::new_with_quality(buffered_write, quality)
.write_image(buf, width, height, color)
}
#[cfg(feature = "pnm")]
ImageOutputFormat::Pnm(subtype) => pnm::PnmEncoder::new(buffered_write)
.with_subtype(subtype)
.write_image(buf, width, height, color),
#[cfg(feature = "gif")]
ImageOutputFormat::Gif => {
gif::GifEncoder::new(buffered_write).encode(buf, width, height, color)
}
#[cfg(feature = "ico")]
ImageOutputFormat::Ico => {
ico::IcoEncoder::new(buffered_write).write_image(buf, width, height, color)
}
#[cfg(feature = "bmp")]
ImageOutputFormat::Bmp => {
bmp::BmpEncoder::new(buffered_write).write_image(buf, width, height, color)
}
#[cfg(feature = "farbfeld")]
ImageOutputFormat::Farbfeld => {
farbfeld::FarbfeldEncoder::new(buffered_write).write_image(buf, width, height, color)
}
#[cfg(feature = "tga")]
ImageOutputFormat::Tga => {
tga::TgaEncoder::new(buffered_write).write_image(buf, width, height, color)
}
#[cfg(feature = "exr")]
ImageOutputFormat::OpenExr => {
openexr::OpenExrEncoder::new(buffered_write).write_image(buf, width, height, color)
}
#[cfg(feature = "tiff")]
ImageOutputFormat::Tiff => {
tiff::TiffEncoder::new(buffered_write).write_image(buf, width, height, color)
}
#[cfg(feature = "avif-encoder")]
ImageOutputFormat::Avif => {
avif::AvifEncoder::new(buffered_write).write_image(buf, width, height, color)
}
#[cfg(feature = "webp-encoder")]
ImageOutputFormat::WebP => {
webp::WebPEncoder::new(buffered_write).write_image(buf, width, height, color)
}
image::ImageOutputFormat::Unsupported(msg) => Err(ImageError::Unsupported(
UnsupportedError::from_format_and_kind(
ImageFormatHint::Unknown,
UnsupportedErrorKind::Format(ImageFormatHint::Name(msg)),
),
)),
}
}
static MAGIC_BYTES: [(&[u8], ImageFormat); 22] = [
(b"\x89PNG\r\n\x1a\n", ImageFormat::Png),
(&[0xff, 0xd8, 0xff], ImageFormat::Jpeg),
(b"GIF89a", ImageFormat::Gif),
(b"GIF87a", ImageFormat::Gif),
(b"RIFF", ImageFormat::WebP), // TODO: better magic byte detection, see https://github.com/image-rs/image/issues/660
(b"MM\x00*", ImageFormat::Tiff),
(b"II*\x00", ImageFormat::Tiff),
(b"DDS ", ImageFormat::Dds),
(b"BM", ImageFormat::Bmp),
(&[0, 0, 1, 0], ImageFormat::Ico),
(b"#?RADIANCE", ImageFormat::Hdr),
(b"P1", ImageFormat::Pnm),
(b"P2", ImageFormat::Pnm),
(b"P3", ImageFormat::Pnm),
(b"P4", ImageFormat::Pnm),
(b"P5", ImageFormat::Pnm),
(b"P6", ImageFormat::Pnm),
(b"P7", ImageFormat::Pnm),
(b"farbfeld", ImageFormat::Farbfeld),
(b"\0\0\0 ftypavif", ImageFormat::Avif),
(b"\0\0\0\x1cftypavif", ImageFormat::Avif),
(&[0x76, 0x2f, 0x31, 0x01], ImageFormat::OpenExr), // = &exr::meta::magic_number::BYTES
];
/// Guess image format from memory block
///
/// Makes an educated guess about the image format based on the Magic Bytes at the beginning.
/// TGA is not supported by this function.
/// This is not to be trusted on the validity of the whole memory block
pub fn guess_format(buffer: &[u8]) -> ImageResult<ImageFormat> {
match guess_format_impl(buffer) {
Some(format) => Ok(format),
None => Err(ImageError::Unsupported(ImageFormatHint::Unknown.into())),
}
}
pub(crate) fn guess_format_impl(buffer: &[u8]) -> Option<ImageFormat> {
for &(signature, format) in &MAGIC_BYTES {
if buffer.starts_with(signature) {
return Some(format);
}
}
None
}
Sindbad File Manager Version 1.0, Coded By Sindbad EG ~ The Terrorists