image/io/reader.rs
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use std::fs::File;
use std::io::{self, BufRead, BufReader, Cursor, Read, Seek, SeekFrom};
use std::path::Path;
use crate::dynimage::DynamicImage;
use crate::error::{ImageFormatHint, UnsupportedError, UnsupportedErrorKind};
use crate::image::ImageFormat;
use crate::{ImageError, ImageResult};
use super::free_functions;
/// A multi-format image reader.
///
/// Wraps an input reader to facilitate automatic detection of an image's format, appropriate
/// decoding method, and dispatches into the set of supported [`ImageDecoder`] implementations.
///
/// ## Usage
///
/// Opening a file, deducing the format based on the file path automatically, and trying to decode
/// the image contained can be performed by constructing the reader and immediately consuming it.
///
/// ```no_run
/// # use image::ImageError;
/// # use image::io::Reader;
/// # fn main() -> Result<(), ImageError> {
/// let image = Reader::open("path/to/image.png")?
/// .decode()?;
/// # Ok(()) }
/// ```
///
/// It is also possible to make a guess based on the content. This is especially handy if the
/// source is some blob in memory and you have constructed the reader in another way. Here is an
/// example with a `pnm` black-and-white subformat that encodes its pixel matrix with ascii values.
///
/// ```
/// # use image::ImageError;
/// # use image::io::Reader;
/// # fn main() -> Result<(), ImageError> {
/// use std::io::Cursor;
/// use image::ImageFormat;
///
/// let raw_data = b"P1 2 2\n\
/// 0 1\n\
/// 1 0\n";
///
/// let mut reader = Reader::new(Cursor::new(raw_data))
/// .with_guessed_format()
/// .expect("Cursor io never fails");
/// assert_eq!(reader.format(), Some(ImageFormat::Pnm));
///
/// # #[cfg(feature = "pnm")]
/// let image = reader.decode()?;
/// # Ok(()) }
/// ```
///
/// As a final fallback or if only a specific format must be used, the reader always allows manual
/// specification of the supposed image format with [`set_format`].
///
/// [`set_format`]: #method.set_format
/// [`ImageDecoder`]: ../trait.ImageDecoder.html
pub struct Reader<R: Read> {
/// The reader. Should be buffered.
inner: R,
/// The format, if one has been set or deduced.
format: Option<ImageFormat>,
/// Decoding limits
limits: super::Limits,
}
impl<R: Read> Reader<R> {
/// Create a new image reader without a preset format.
///
/// Assumes the reader is already buffered. For optimal performance,
/// consider wrapping the reader with a `BufReader::new()`.
///
/// It is possible to guess the format based on the content of the read object with
/// [`with_guessed_format`], or to set the format directly with [`set_format`].
///
/// [`with_guessed_format`]: #method.with_guessed_format
/// [`set_format`]: method.set_format
pub fn new(buffered_reader: R) -> Self {
Reader {
inner: buffered_reader,
format: None,
limits: super::Limits::default(),
}
}
/// Construct a reader with specified format.
///
/// Assumes the reader is already buffered. For optimal performance,
/// consider wrapping the reader with a `BufReader::new()`.
pub fn with_format(buffered_reader: R, format: ImageFormat) -> Self {
Reader {
inner: buffered_reader,
format: Some(format),
limits: super::Limits::default(),
}
}
/// Get the currently determined format.
pub fn format(&self) -> Option<ImageFormat> {
self.format
}
/// Supply the format as which to interpret the read image.
pub fn set_format(&mut self, format: ImageFormat) {
self.format = Some(format);
}
/// Remove the current information on the image format.
///
/// Note that many operations require format information to be present and will return e.g. an
/// `ImageError::Unsupported` when the image format has not been set.
pub fn clear_format(&mut self) {
self.format = None;
}
/// Disable all decoding limits.
pub fn no_limits(&mut self) {
self.limits = super::Limits::no_limits();
}
/// Set a custom set of decoding limits.
pub fn limits(&mut self, limits: super::Limits) {
self.limits = limits;
}
/// Unwrap the reader.
pub fn into_inner(self) -> R {
self.inner
}
}
impl Reader<BufReader<File>> {
/// Open a file to read, format will be guessed from path.
///
/// This will not attempt any io operation on the opened file.
///
/// If you want to inspect the content for a better guess on the format, which does not depend
/// on file extensions, follow this call with a call to [`with_guessed_format`].
///
/// [`with_guessed_format`]: #method.with_guessed_format
pub fn open<P>(path: P) -> io::Result<Self>
where
P: AsRef<Path>,
{
Self::open_impl(path.as_ref())
}
fn open_impl(path: &Path) -> io::Result<Self> {
Ok(Reader {
inner: BufReader::new(File::open(path)?),
format: ImageFormat::from_path(path).ok(),
limits: super::Limits::default(),
})
}
}
impl<R: BufRead + Seek> Reader<R> {
/// Make a format guess based on the content, replacing it on success.
///
/// Returns `Ok` with the guess if no io error occurs. Additionally, replaces the current
/// format if the guess was successful. If the guess was unable to determine a format then
/// the current format of the reader is unchanged.
///
/// Returns an error if the underlying reader fails. The format is unchanged. The error is a
/// `std::io::Error` and not `ImageError` since the only error case is an error when the
/// underlying reader seeks.
///
/// When an error occurs, the reader may not have been properly reset and it is potentially
/// hazardous to continue with more io.
///
/// ## Usage
///
/// This supplements the path based type deduction from [`open`](Reader::open) with content based deduction.
/// This is more common in Linux and UNIX operating systems and also helpful if the path can
/// not be directly controlled.
///
/// ```no_run
/// # use image::ImageError;
/// # use image::io::Reader;
/// # fn main() -> Result<(), ImageError> {
/// let image = Reader::open("image.unknown")?
/// .with_guessed_format()?
/// .decode()?;
/// # Ok(()) }
/// ```
pub fn with_guessed_format(mut self) -> io::Result<Self> {
let format = self.guess_format()?;
// Replace format if found, keep current state if not.
self.format = format.or(self.format);
Ok(self)
}
fn guess_format(&mut self) -> io::Result<Option<ImageFormat>> {
let mut start = [0; 16];
// Save current offset, read start, restore offset.
let cur = self.inner.stream_position()?;
let len = io::copy(
// Accept shorter files but read at most 16 bytes.
&mut self.inner.by_ref().take(16),
&mut Cursor::new(&mut start[..]),
)?;
self.inner.seek(SeekFrom::Start(cur))?;
Ok(free_functions::guess_format_impl(&start[..len as usize]))
}
/// Read the image dimensions.
///
/// Uses the current format to construct the correct reader for the format.
///
/// If no format was determined, returns an `ImageError::Unsupported`.
pub fn into_dimensions(mut self) -> ImageResult<(u32, u32)> {
let format = self.require_format()?;
free_functions::image_dimensions_with_format_impl(self.inner, format)
}
/// Read the image (replaces `load`).
///
/// Uses the current format to construct the correct reader for the format.
///
/// If no format was determined, returns an `ImageError::Unsupported`.
pub fn decode(mut self) -> ImageResult<DynamicImage> {
let format = self.require_format()?;
free_functions::load_inner(self.inner, self.limits, format)
}
fn require_format(&mut self) -> ImageResult<ImageFormat> {
self.format.ok_or_else(|| {
ImageError::Unsupported(UnsupportedError::from_format_and_kind(
ImageFormatHint::Unknown,
UnsupportedErrorKind::Format(ImageFormatHint::Unknown),
))
})
}
}