pub struct Decoder<R>where
R: Read,{
version: CrateVersion,
compression: Compression,
read: Reader<R>,
uncompressed: Vec<u8>,
compressed: Vec<u8>,
size_bytes: u64,
}
Fields§
§version: CrateVersion
§compression: Compression
§read: Reader<R>
§uncompressed: Vec<u8>
§compressed: Vec<u8>
§size_bytes: u64
Implementations§
source§impl<R> Decoder<R>where
R: Read,
impl<R> Decoder<R>where
R: Read,
sourcepub fn new(
version_policy: VersionPolicy,
read: R
) -> Result<Decoder<R>, DecodeError>
pub fn new( version_policy: VersionPolicy, read: R ) -> Result<Decoder<R>, DecodeError>
Instantiates a new decoder.
This does not support concatenated streams (i.e. streams of bytes where multiple RRD files – not recordings, RRD files! – follow each other).
If you’re not familiar with concatenated RRD streams, then this is probably the function that you want to be using.
See also:
sourcepub fn new_concatenated(
version_policy: VersionPolicy,
read: BufReader<R>
) -> Result<Decoder<R>, DecodeError>
pub fn new_concatenated( version_policy: VersionPolicy, read: BufReader<R> ) -> Result<Decoder<R>, DecodeError>
Instantiates a new concatenated decoder.
This will gracefully handle concatenated RRD streams (i.e. streams of bytes where multiple
RRD files – not recordings, RRD files! – follow each other), at the cost of extra
performance overhead, by looking ahead for potential FileHeader
s in the stream.
The CrateVersion
of the final, deconcatenated stream will correspond to the most recent
version among all the versions found in the stream.
This is particularly useful when working with stdio streams.
If you’re not familiar with concatenated RRD streams, then you probably want to use
Decoder::new
instead.
See also:
sourcepub fn version(&self) -> CrateVersion
pub fn version(&self) -> CrateVersion
Returns the Rerun version that was used to encode the data in the first place.
sourcepub fn size_bytes(&self) -> u64
pub fn size_bytes(&self) -> u64
Returns the size in bytes of the data that has been decoded up to now.
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source§impl<R> Iterator for Decoder<R>where
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§type Item = Result<LogMsg, DecodeError>
type Item = Result<LogMsg, DecodeError>
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impl<R> Freeze for Decoder<R>where
R: Freeze,
impl<R> RefUnwindSafe for Decoder<R>where
R: RefUnwindSafe,
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§fn powerset(self) -> Powerset<Self>
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§fn pad_using<F>(self, min: usize, f: F) -> PadUsing<Self, F>
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§fn next_tuple<T>(&mut self) -> Option<T>
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§fn collect_tuple<T>(self) -> Option<T>
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§fn find_position<P>(&mut self, pred: P) -> Option<(usize, Self::Item)>
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§fn find_or_last<P>(self, predicate: P) -> Option<Self::Item>
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§fn find_or_first<P>(self, predicate: P) -> Option<Self::Item>
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§fn contains<Q>(&mut self, query: &Q) -> bool
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§fn dropping(self, n: usize) -> Selfwhere
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§fn set_from<'a, A, J>(&mut self, from: J) -> usize
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§fn sorted_unstable(self) -> IntoIter<Self::Item> ⓘ
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§fn sorted_unstable_by_key<K, F>(self, f: F) -> IntoIter<Self::Item> ⓘ
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§fn tail(self, n: usize) -> IntoIter<Self::Item>where
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§fn min_set_by_key<K, F>(self, key: F) -> Vec<Self::Item>
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§fn max_set_by<F>(self, compare: F) -> Vec<Self::Item>
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§fn minmax(self) -> MinMaxResult<Self::Item>
fn minmax(self) -> MinMaxResult<Self::Item>
§fn minmax_by_key<K, F>(self, key: F) -> MinMaxResult<Self::Item>
fn minmax_by_key<K, F>(self, key: F) -> MinMaxResult<Self::Item>
§fn minmax_by<F>(self, compare: F) -> MinMaxResult<Self::Item>
fn minmax_by<F>(self, compare: F) -> MinMaxResult<Self::Item>
§fn position_max(self) -> Option<usize>
fn position_max(self) -> Option<usize>
§fn position_max_by_key<K, F>(self, key: F) -> Option<usize>
fn position_max_by_key<K, F>(self, key: F) -> Option<usize>
§fn position_max_by<F>(self, compare: F) -> Option<usize>
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§fn position_min(self) -> Option<usize>
fn position_min(self) -> Option<usize>
§fn position_min_by_key<K, F>(self, key: F) -> Option<usize>
fn position_min_by_key<K, F>(self, key: F) -> Option<usize>
§fn position_min_by<F>(self, compare: F) -> Option<usize>
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§fn position_minmax(self) -> MinMaxResult<usize>
fn position_minmax(self) -> MinMaxResult<usize>
§fn position_minmax_by_key<K, F>(self, key: F) -> MinMaxResult<usize>
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§fn position_minmax_by<F>(self, compare: F) -> MinMaxResult<usize>
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§fn exactly_one(self) -> Result<Self::Item, ExactlyOneError<Self>>where
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§fn at_most_one(self) -> Result<Option<Self::Item>, ExactlyOneError<Self>>where
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will be returned. If the iterator yields
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fn counts(self) -> HashMap<Self::Item, usize>
HashMap
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HashMap
which
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of times it appears,
determining identity using a keying function. Read more