Struct freya_hooks::Rope
pub struct Rope { /* private fields */ }
Expand description
A utf8 text rope.
The time complexity of nearly all edit and query operations on Rope
are
worst-case O(log N)
in the length of the rope. Rope
is designed to
work efficiently even for huge (in the gigabytes) and pathological (all on
one line) texts.
Editing Operations
The primary editing operations on Rope
are insertion and removal of text.
For example:
let mut rope = Rope::from_str("Hello みんなさん!");
rope.remove(6..11);
rope.insert(6, "world");
assert_eq!(rope, "Hello world!");
Query Operations
Rope
provides a rich set of efficient query functions, including querying
rope length in bytes/char
s/lines, fetching individual char
s or lines,
and converting between byte/char
/line indices. For example, to find the
starting char
index of a given line:
let rope = Rope::from_str("Hello みんなさん!\nHow are you?\nThis text has multiple lines!");
assert_eq!(rope.line_to_char(0), 0);
assert_eq!(rope.line_to_char(1), 13);
assert_eq!(rope.line_to_char(2), 26);
Slicing
You can take immutable slices of a Rope
using slice()
:
let mut rope = Rope::from_str("Hello みんなさん!");
let middle = rope.slice(3..8);
assert_eq!(middle, "lo みん");
Cloning
Cloning Rope
s is extremely cheap, running in O(1)
time and taking a
small constant amount of memory for the new clone, regardless of text size.
This is accomplished by data sharing between Rope
clones. The memory
used by clones only grows incrementally as the their contents diverge due
to edits. All of this is thread safe, so clones can be sent freely
between threads.
The primary intended use-case for this feature is to allow asynchronous
processing of Rope
s. For example, saving a large document to disk in a
separate thread while the user continues to perform edits.
Implementations§
§impl Rope
impl Rope
pub fn from_reader<T>(reader: T) -> Result<Rope, Error>where
T: Read,
pub fn from_reader<T>(reader: T) -> Result<Rope, Error>where T: Read,
Creates a Rope
from the output of a reader.
This is a convenience function, and provides no specific guarantees about performance or internal implementation aside from the runtime complexity listed below.
When more precise control over IO behavior, buffering, etc. is desired,
you should handle IO yourself and use [RopeBuilder
] to build the
Rope
.
Runs in O(N) time.
Errors
- If the reader returns an error,
from_reader
stops and returns that error. - If non-utf8 data is encountered, an IO error with kind
InvalidData
is returned.
Note: some data from the reader is likely consumed even if there is an error.
pub fn write_to<T>(&self, writer: T) -> Result<(), Error>where
T: Write,
pub fn write_to<T>(&self, writer: T) -> Result<(), Error>where T: Write,
Writes the contents of the Rope
to a writer.
This is a convenience function, and provides no specific guarantees about performance or internal implementation aside from the runtime complexity listed below.
When more precise control over IO behavior, buffering, etc. is
desired, you should handle IO yourself and use the [Chunks
]
iterator to iterate through the Rope
’s contents.
Runs in O(N) time.
Errors
- If the writer returns an error,
write_to
stops and returns that error.
Note: some data may have been written even if an error is returned.
pub fn len_utf16_cu(&self) -> usize
pub fn len_utf16_cu(&self) -> usize
Total number of utf16 code units that would be in Rope
if it were
encoded as utf16.
Ropey stores text internally as utf8, but sometimes it is necessary to interact with external APIs that still use utf16. This function is primarily intended for such situations, and is otherwise not very useful.
Runs in O(1) time.
pub fn capacity(&self) -> usize
pub fn capacity(&self) -> usize
Total size of the Rope
’s text buffer space, in bytes.
This includes unoccupied text buffer space. You can calculate
the unoccupied space with capacity() - len_bytes()
. In general,
there will always be some unoccupied buffer space.
Runs in O(N) time.
pub fn shrink_to_fit(&mut self)
pub fn shrink_to_fit(&mut self)
Shrinks the Rope
’s capacity to the minimum possible.
This will rarely result in capacity() == len_bytes()
. Rope
stores text in a sequence of fixed-capacity chunks, so an exact fit
only happens for texts that are both a precise multiple of that
capacity and have code point boundaries that line up exactly with
the capacity boundaries.
After calling this, the difference between capacity()
and
len_bytes()
is typically under 1KB per megabyte of text in the
Rope
.
NOTE: calling this on a Rope
clone causes it to stop sharing
all data with its other clones. In such cases you will very likely
be increasing total memory usage despite shrinking the Rope
’s
capacity.
Runs in O(N) time, and uses O(log N) additional space during shrinking.
pub fn insert(&mut self, char_idx: usize, text: &str)
pub fn insert(&mut self, char_idx: usize, text: &str)
Inserts text
at char index char_idx
.
Runs in O(M + log N) time, where N is the length of the Rope
and M
is the length of text
.
Panics
Panics if char_idx
is out of bounds (i.e. char_idx > len_chars()
).
pub fn insert_char(&mut self, char_idx: usize, ch: char)
pub fn insert_char(&mut self, char_idx: usize, ch: char)
Inserts a single char ch
at char index char_idx
.
Runs in O(log N) time.
Panics
Panics if char_idx
is out of bounds (i.e. char_idx > len_chars()
).
pub fn remove<R>(&mut self, char_range: R)where
R: RangeBounds<usize>,
pub fn remove<R>(&mut self, char_range: R)where R: RangeBounds<usize>,
Removes the text in the given char index range.
Uses range syntax, e.g. 2..7
, 2..
, etc. The range is in char
indices.
Runs in O(M + log N) time, where N is the length of the Rope
and M
is the length of the range being removed.
Example
let mut rope = Rope::from_str("Hello world!");
rope.remove(5..);
assert_eq!("Hello", rope);
Panics
Panics if the start of the range is greater than the end, or if the
end is out of bounds (i.e. end > len_chars()
).
pub fn split_off(&mut self, char_idx: usize) -> Rope
pub fn split_off(&mut self, char_idx: usize) -> Rope
Splits the Rope
at char_idx
, returning the right part of
the split.
Runs in O(log N) time.
Panics
Panics if char_idx
is out of bounds (i.e. char_idx > len_chars()
).
pub fn append(&mut self, other: Rope)
pub fn append(&mut self, other: Rope)
Appends a Rope
to the end of this one, consuming the other Rope
.
Runs in O(log N) time.
pub fn byte_to_char(&self, byte_idx: usize) -> usize
pub fn byte_to_char(&self, byte_idx: usize) -> usize
Returns the char index of the given byte.
Notes:
- If the byte is in the middle of a multi-byte char, returns the index of the char that the byte belongs to.
byte_idx
can be one-past-the-end, which will return one-past-the-end char index.
Runs in O(log N) time.
Panics
Panics if byte_idx
is out of bounds (i.e. byte_idx > len_bytes()
).
pub fn byte_to_line(&self, byte_idx: usize) -> usize
pub fn byte_to_line(&self, byte_idx: usize) -> usize
Returns the line index of the given byte.
Notes:
- Lines are zero-indexed. This is functionally equivalent to counting the line endings before the specified byte.
byte_idx
can be one-past-the-end, which will return the last line index.
Runs in O(log N) time.
Panics
Panics if byte_idx
is out of bounds (i.e. byte_idx > len_bytes()
).
pub fn char_to_byte(&self, char_idx: usize) -> usize
pub fn char_to_byte(&self, char_idx: usize) -> usize
Returns the byte index of the given char.
Notes:
char_idx
can be one-past-the-end, which will return one-past-the-end byte index.
Runs in O(log N) time.
Panics
Panics if char_idx
is out of bounds (i.e. char_idx > len_chars()
).
pub fn char_to_line(&self, char_idx: usize) -> usize
pub fn char_to_line(&self, char_idx: usize) -> usize
Returns the line index of the given char.
Notes:
- Lines are zero-indexed. This is functionally equivalent to counting the line endings before the specified char.
char_idx
can be one-past-the-end, which will return the last line index.
Runs in O(log N) time.
Panics
Panics if char_idx
is out of bounds (i.e. char_idx > len_chars()
).
pub fn char_to_utf16_cu(&self, char_idx: usize) -> usize
pub fn char_to_utf16_cu(&self, char_idx: usize) -> usize
Returns the utf16 code unit index of the given char.
Ropey stores text internally as utf8, but sometimes it is necessary to interact with external APIs that still use utf16. This function is primarily intended for such situations, and is otherwise not very useful.
Runs in O(log N) time.
Panics
Panics if char_idx
is out of bounds (i.e. char_idx > len_chars()
).
pub fn utf16_cu_to_char(&self, utf16_cu_idx: usize) -> usize
pub fn utf16_cu_to_char(&self, utf16_cu_idx: usize) -> usize
Returns the char index of the given utf16 code unit.
Ropey stores text internally as utf8, but sometimes it is necessary to interact with external APIs that still use utf16. This function is primarily intended for such situations, and is otherwise not very useful.
Note: if the utf16 code unit is in the middle of a char, returns the index of the char that it belongs to.
Runs in O(log N) time.
Panics
Panics if utf16_cu_idx
is out of bounds
(i.e. utf16_cu_idx > len_utf16_cu()
).
pub fn line_to_byte(&self, line_idx: usize) -> usize
pub fn line_to_byte(&self, line_idx: usize) -> usize
Returns the byte index of the start of the given line.
Notes:
- Lines are zero-indexed.
line_idx
can be one-past-the-end, which will return one-past-the-end byte index.
Runs in O(log N) time.
Panics
Panics if line_idx
is out of bounds (i.e. line_idx > len_lines()
).
pub fn line_to_char(&self, line_idx: usize) -> usize
pub fn line_to_char(&self, line_idx: usize) -> usize
Returns the char index of the start of the given line.
Notes:
- Lines are zero-indexed.
line_idx
can be one-past-the-end, which will return one-past-the-end char index.
Runs in O(log N) time.
Panics
Panics if line_idx
is out of bounds (i.e. line_idx > len_lines()
).
pub fn byte(&self, byte_idx: usize) -> u8
pub fn byte(&self, byte_idx: usize) -> u8
Returns the byte at byte_idx
.
Runs in O(log N) time.
Panics
Panics if byte_idx
is out of bounds (i.e. byte_idx >= len_bytes()
).
pub fn char(&self, char_idx: usize) -> char
pub fn char(&self, char_idx: usize) -> char
Returns the char at char_idx
.
Runs in O(log N) time.
Panics
Panics if char_idx
is out of bounds (i.e. char_idx >= len_chars()
).
pub fn line(&self, line_idx: usize) -> RopeSlice<'_>
pub fn line(&self, line_idx: usize) -> RopeSlice<'_>
Returns the line at line_idx
.
Note: lines are zero-indexed.
Runs in O(log N) time.
Panics
Panics if line_idx
is out of bounds (i.e. line_idx >= len_lines()
).
pub fn chunk_at_byte(&self, byte_idx: usize) -> (&str, usize, usize, usize)
pub fn chunk_at_byte(&self, byte_idx: usize) -> (&str, usize, usize, usize)
Returns the chunk containing the given byte index.
Also returns the byte and char indices of the beginning of the chunk and the index of the line that the chunk starts on.
Note: for convenience, a one-past-the-end byte_idx
returns the last
chunk of the RopeSlice
.
The return value is organized as
(chunk, chunk_byte_idx, chunk_char_idx, chunk_line_idx)
.
Runs in O(log N) time.
Panics
Panics if byte_idx
is out of bounds (i.e. byte_idx > len_bytes()
).
pub fn chunk_at_char(&self, char_idx: usize) -> (&str, usize, usize, usize)
pub fn chunk_at_char(&self, char_idx: usize) -> (&str, usize, usize, usize)
Returns the chunk containing the given char index.
Also returns the byte and char indices of the beginning of the chunk and the index of the line that the chunk starts on.
Note: for convenience, a one-past-the-end char_idx
returns the last
chunk of the RopeSlice
.
The return value is organized as
(chunk, chunk_byte_idx, chunk_char_idx, chunk_line_idx)
.
Runs in O(log N) time.
Panics
Panics if char_idx
is out of bounds (i.e. char_idx > len_chars()
).
pub fn chunk_at_line_break(
&self,
line_break_idx: usize
) -> (&str, usize, usize, usize)
pub fn chunk_at_line_break( &self, line_break_idx: usize ) -> (&str, usize, usize, usize)
Returns the chunk containing the given line break.
Also returns the byte and char indices of the beginning of the chunk and the index of the line that the chunk starts on.
Note: for convenience, both the beginning and end of the rope are
considered line breaks for the purposes of indexing. For example, in
the string "Hello \n world!"
0 would give the first chunk, 1 would
give the chunk containing the newline character, and 2 would give the
last chunk.
The return value is organized as
(chunk, chunk_byte_idx, chunk_char_idx, chunk_line_idx)
.
Runs in O(log N) time.
Panics
Panics if line_break_idx
is out of bounds (i.e. line_break_idx > len_lines()
).
pub fn slice<R>(&self, char_range: R) -> RopeSlice<'_>where
R: RangeBounds<usize>,
pub fn slice<R>(&self, char_range: R) -> RopeSlice<'_>where R: RangeBounds<usize>,
Gets an immutable slice of the Rope
, using char indices.
Uses range syntax, e.g. 2..7
, 2..
, etc.
Example
let rope = Rope::from_str("Hello world!");
let slice = rope.slice(..5);
assert_eq!("Hello", slice);
Runs in O(log N) time.
Panics
Panics if the start of the range is greater than the end, or if the
end is out of bounds (i.e. end > len_chars()
).
pub fn byte_slice<R>(&self, byte_range: R) -> RopeSlice<'_>where
R: RangeBounds<usize>,
pub fn byte_slice<R>(&self, byte_range: R) -> RopeSlice<'_>where R: RangeBounds<usize>,
Gets and immutable slice of the Rope
, using byte indices.
Uses range syntax, e.g. 2..7
, 2..
, etc.
Runs in O(log N) time.
Panics
Panics if:
- The start of the range is greater than the end.
- The end is out of bounds (i.e.
end > len_bytes()
). - The range doesn’t align with char boundaries.
pub fn bytes(&self) -> Bytes<'_>
pub fn bytes(&self) -> Bytes<'_>
Creates an iterator over the bytes of the Rope
.
Runs in O(log N) time.
pub fn bytes_at(&self, byte_idx: usize) -> Bytes<'_>
pub fn bytes_at(&self, byte_idx: usize) -> Bytes<'_>
Creates an iterator over the bytes of the Rope
, starting at byte
byte_idx
.
If byte_idx == len_bytes()
then an iterator at the end of the
Rope
is created (i.e. next()
will return None
).
Runs in O(log N) time.
Panics
Panics if byte_idx
is out of bounds (i.e. byte_idx > len_bytes()
).
pub fn chars(&self) -> Chars<'_>
pub fn chars(&self) -> Chars<'_>
Creates an iterator over the chars of the Rope
.
Runs in O(log N) time.
pub fn chars_at(&self, char_idx: usize) -> Chars<'_>
pub fn chars_at(&self, char_idx: usize) -> Chars<'_>
Creates an iterator over the chars of the Rope
, starting at char
char_idx
.
If char_idx == len_chars()
then an iterator at the end of the
Rope
is created (i.e. next()
will return None
).
Runs in O(log N) time.
Panics
Panics if char_idx
is out of bounds (i.e. char_idx > len_chars()
).
pub fn lines(&self) -> Lines<'_>
pub fn lines(&self) -> Lines<'_>
Creates an iterator over the lines of the Rope
.
Runs in O(log N) time.
pub fn lines_at(&self, line_idx: usize) -> Lines<'_>
pub fn lines_at(&self, line_idx: usize) -> Lines<'_>
Creates an iterator over the lines of the Rope
, starting at line
line_idx
.
If line_idx == len_lines()
then an iterator at the end of the
Rope
is created (i.e. next()
will return None
).
Runs in O(log N) time.
Panics
Panics if line_idx
is out of bounds (i.e. line_idx > len_lines()
).
pub fn chunks(&self) -> Chunks<'_>
pub fn chunks(&self) -> Chunks<'_>
Creates an iterator over the chunks of the Rope
.
Runs in O(log N) time.
pub fn chunks_at_byte(
&self,
byte_idx: usize
) -> (Chunks<'_>, usize, usize, usize)
pub fn chunks_at_byte( &self, byte_idx: usize ) -> (Chunks<'_>, usize, usize, usize)
Creates an iterator over the chunks of the Rope
, with the
iterator starting at the chunk containing byte_idx
.
Also returns the byte and char indices of the beginning of the first chunk to be yielded, and the index of the line that chunk starts on.
If byte_idx == len_bytes()
an iterator at the end of the Rope
(yielding None
on a call to next()
) is created.
The return value is organized as
(iterator, chunk_byte_idx, chunk_char_idx, chunk_line_idx)
.
Runs in O(log N) time.
Panics
Panics if byte_idx
is out of bounds (i.e. byte_idx > len_bytes()
).
pub fn chunks_at_char(
&self,
char_idx: usize
) -> (Chunks<'_>, usize, usize, usize)
pub fn chunks_at_char( &self, char_idx: usize ) -> (Chunks<'_>, usize, usize, usize)
Creates an iterator over the chunks of the Rope
, with the
iterator starting at the chunk containing char_idx
.
Also returns the byte and char indices of the beginning of the first chunk to be yielded, and the index of the line that chunk starts on.
If char_idx == len_chars()
an iterator at the end of the Rope
(yielding None
on a call to next()
) is created.
The return value is organized as
(iterator, chunk_byte_idx, chunk_char_idx, chunk_line_idx)
.
Runs in O(log N) time.
Panics
Panics if char_idx
is out of bounds (i.e. char_idx > len_chars()
).
pub fn chunks_at_line_break(
&self,
line_break_idx: usize
) -> (Chunks<'_>, usize, usize, usize)
pub fn chunks_at_line_break( &self, line_break_idx: usize ) -> (Chunks<'_>, usize, usize, usize)
Creates an iterator over the chunks of the Rope
, with the
iterator starting at the chunk containing line_break_idx
.
Also returns the byte and char indices of the beginning of the first chunk to be yielded, and the index of the line that chunk starts on.
Note: for convenience, both the beginning and end of the Rope
are
considered line breaks for the purposes of indexing. For example, in
the string "Hello \n world!"
0 would create an iterator starting on
the first chunk, 1 would create an iterator starting on the chunk
containing the newline character, and 2 would create an iterator at
the end of the Rope
(yielding None
on a call to next()
).
The return value is organized as
(iterator, chunk_byte_idx, chunk_char_idx, chunk_line_idx)
.
Runs in O(log N) time.
Panics
Panics if line_break_idx
is out of bounds (i.e. line_break_idx > len_lines()
).
pub fn is_instance(&self, other: &Rope) -> bool
pub fn is_instance(&self, other: &Rope) -> bool
Returns true if this rope and other
point to precisely the same
in-memory data.
This happens when one of the ropes is a clone of the other and neither have been modified since then. Because clones initially share all the same data, it can be useful to check if they still point to precisely the same memory as a way of determining whether they are both still unmodified.
Note: this is distinct from checking for equality: two ropes can have the same contents (equal) but be stored in different memory locations (not instances). Importantly, two clones that post-cloning are modified identically will not be instances anymore, even though they will have equal contents.
Runs in O(1) time.
§impl Rope
impl Rope
Non-Panicking
The methods in this impl block provide non-panicking versions of
Rope
’s panicking methods. They return either Option::None
or
Result::Err()
when their panicking counterparts would have panicked.
pub fn try_insert(&mut self, char_idx: usize, text: &str) -> Result<(), Error>
pub fn try_insert(&mut self, char_idx: usize, text: &str) -> Result<(), Error>
Non-panicking version of insert()
.
pub fn try_insert_char(
&mut self,
char_idx: usize,
ch: char
) -> Result<(), Error>
pub fn try_insert_char( &mut self, char_idx: usize, ch: char ) -> Result<(), Error>
Non-panicking version of insert_char()
.
pub fn try_remove<R>(&mut self, char_range: R) -> Result<(), Error>where
R: RangeBounds<usize>,
pub fn try_remove<R>(&mut self, char_range: R) -> Result<(), Error>where R: RangeBounds<usize>,
Non-panicking version of remove()
.
pub fn try_split_off(&mut self, char_idx: usize) -> Result<Rope, Error>
pub fn try_split_off(&mut self, char_idx: usize) -> Result<Rope, Error>
Non-panicking version of split_off()
.
pub fn try_byte_to_char(&self, byte_idx: usize) -> Result<usize, Error>
pub fn try_byte_to_char(&self, byte_idx: usize) -> Result<usize, Error>
Non-panicking version of byte_to_char()
.
pub fn try_byte_to_line(&self, byte_idx: usize) -> Result<usize, Error>
pub fn try_byte_to_line(&self, byte_idx: usize) -> Result<usize, Error>
Non-panicking version of byte_to_line()
.
pub fn try_char_to_byte(&self, char_idx: usize) -> Result<usize, Error>
pub fn try_char_to_byte(&self, char_idx: usize) -> Result<usize, Error>
Non-panicking version of char_to_byte()
.
pub fn try_char_to_line(&self, char_idx: usize) -> Result<usize, Error>
pub fn try_char_to_line(&self, char_idx: usize) -> Result<usize, Error>
Non-panicking version of char_to_line()
.
pub fn try_char_to_utf16_cu(&self, char_idx: usize) -> Result<usize, Error>
pub fn try_char_to_utf16_cu(&self, char_idx: usize) -> Result<usize, Error>
Non-panicking version of char_to_utf16_cu()
.
pub fn try_utf16_cu_to_char(&self, utf16_cu_idx: usize) -> Result<usize, Error>
pub fn try_utf16_cu_to_char(&self, utf16_cu_idx: usize) -> Result<usize, Error>
Non-panicking version of utf16_cu_to_char()
.
pub fn try_line_to_byte(&self, line_idx: usize) -> Result<usize, Error>
pub fn try_line_to_byte(&self, line_idx: usize) -> Result<usize, Error>
Non-panicking version of line_to_byte()
.
pub fn try_line_to_char(&self, line_idx: usize) -> Result<usize, Error>
pub fn try_line_to_char(&self, line_idx: usize) -> Result<usize, Error>
Non-panicking version of line_to_char()
.
pub fn get_chunk_at_byte(
&self,
byte_idx: usize
) -> Option<(&str, usize, usize, usize)>
pub fn get_chunk_at_byte( &self, byte_idx: usize ) -> Option<(&str, usize, usize, usize)>
Non-panicking version of chunk_at_byte()
.
pub fn get_chunk_at_char(
&self,
char_idx: usize
) -> Option<(&str, usize, usize, usize)>
pub fn get_chunk_at_char( &self, char_idx: usize ) -> Option<(&str, usize, usize, usize)>
Non-panicking version of chunk_at_char()
.
pub fn get_chunk_at_line_break(
&self,
line_break_idx: usize
) -> Option<(&str, usize, usize, usize)>
pub fn get_chunk_at_line_break( &self, line_break_idx: usize ) -> Option<(&str, usize, usize, usize)>
Non-panicking version of chunk_at_line_break()
.
pub fn get_slice<R>(&self, char_range: R) -> Option<RopeSlice<'_>>where
R: RangeBounds<usize>,
pub fn get_slice<R>(&self, char_range: R) -> Option<RopeSlice<'_>>where R: RangeBounds<usize>,
Non-panicking version of slice()
.
pub fn get_byte_slice<R>(&self, byte_range: R) -> Option<RopeSlice<'_>>where
R: RangeBounds<usize>,
pub fn get_byte_slice<R>(&self, byte_range: R) -> Option<RopeSlice<'_>>where R: RangeBounds<usize>,
Non-panicking version of byte_slice()
.
pub fn get_bytes_at(&self, byte_idx: usize) -> Option<Bytes<'_>>
pub fn get_bytes_at(&self, byte_idx: usize) -> Option<Bytes<'_>>
Non-panicking version of bytes_at()
.
pub fn get_chars_at(&self, char_idx: usize) -> Option<Chars<'_>>
pub fn get_chars_at(&self, char_idx: usize) -> Option<Chars<'_>>
Non-panicking version of chars_at()
.
pub fn get_lines_at(&self, line_idx: usize) -> Option<Lines<'_>>
pub fn get_lines_at(&self, line_idx: usize) -> Option<Lines<'_>>
Non-panicking version of lines_at()
.
pub fn get_chunks_at_byte(
&self,
byte_idx: usize
) -> Option<(Chunks<'_>, usize, usize, usize)>
pub fn get_chunks_at_byte( &self, byte_idx: usize ) -> Option<(Chunks<'_>, usize, usize, usize)>
Non-panicking version of chunks_at_byte()
.
pub fn get_chunks_at_char(
&self,
char_idx: usize
) -> Option<(Chunks<'_>, usize, usize, usize)>
pub fn get_chunks_at_char( &self, char_idx: usize ) -> Option<(Chunks<'_>, usize, usize, usize)>
Non-panicking version of chunks_at_char()
.
pub fn get_chunks_at_line_break(
&self,
line_break_idx: usize
) -> Option<(Chunks<'_>, usize, usize, usize)>
pub fn get_chunks_at_line_break( &self, line_break_idx: usize ) -> Option<(Chunks<'_>, usize, usize, usize)>
Non-panicking version of chunks_at_line_break()
.
Trait Implementations§
§impl<'a> FromIterator<&'a str> for Rope
impl<'a> FromIterator<&'a str> for Rope
§impl<'a> FromIterator<Cow<'a, str>> for Rope
impl<'a> FromIterator<Cow<'a, str>> for Rope
§impl FromIterator<String> for Rope
impl FromIterator<String> for Rope
§impl Ord for Rope
impl Ord for Rope
§impl<'a> PartialEq<Cow<'a, str>> for Rope
impl<'a> PartialEq<Cow<'a, str>> for Rope
§impl<'a> PartialEq<RopeSlice<'a>> for Rope
impl<'a> PartialEq<RopeSlice<'a>> for Rope
§impl PartialOrd<Rope> for Rope
impl PartialOrd<Rope> for Rope
§fn partial_cmp(&self, other: &Rope) -> Option<Ordering>
fn partial_cmp(&self, other: &Rope) -> Option<Ordering>
1.0.0 · source§fn le(&self, other: &Rhs) -> bool
fn le(&self, other: &Rhs) -> bool
self
and other
) and is used by the <=
operator. Read moreimpl Eq for Rope
Auto Trait Implementations§
impl RefUnwindSafe for Rope
impl Send for Rope
impl Sync for Rope
impl Unpin for Rope
impl UnwindSafe for Rope
Blanket Implementations§
source§impl<Q, K> Equivalent<K> for Qwhere
Q: Eq + ?Sized,
K: Borrow<Q> + ?Sized,
impl<Q, K> Equivalent<K> for Qwhere Q: Eq + ?Sized, K: Borrow<Q> + ?Sized,
source§fn equivalent(&self, key: &K) -> bool
fn equivalent(&self, key: &K) -> bool
key
and return true
if they are equal.