pub struct Index { /* private fields */ }
Expand description
A structure to represent a git index
Implementations§
source§impl Index
impl Index
sourcepub fn new() -> Result<Index, Error>
pub fn new() -> Result<Index, Error>
Creates a new in-memory index.
This index object cannot be read/written to the filesystem, but may be used to perform in-memory index operations.
sourcepub fn open(index_path: &Path) -> Result<Index, Error>
pub fn open(index_path: &Path) -> Result<Index, Error>
Create a new bare Git index object as a memory representation of the Git index file in ‘index_path’, without a repository to back it.
Since there is no ODB or working directory behind this index, any Index methods which rely on these (e.g. add_path) will fail.
If you need an index attached to a repository, use the index()
method
on Repository
.
sourcepub fn version(&self) -> u32
pub fn version(&self) -> u32
Get index on-disk version.
Valid return values are 2, 3, or 4. If 3 is returned, an index with version 2 may be written instead, if the extension data in version 3 is not necessary.
sourcepub fn set_version(&mut self, version: u32) -> Result<(), Error>
pub fn set_version(&mut self, version: u32) -> Result<(), Error>
Set index on-disk version.
Valid values are 2, 3, or 4. If 2 is given, git_index_write may write an index with version 3 instead, if necessary to accurately represent the index.
sourcepub fn add(&mut self, entry: &IndexEntry) -> Result<(), Error>
pub fn add(&mut self, entry: &IndexEntry) -> Result<(), Error>
Add or update an index entry from an in-memory struct
If a previous index entry exists that has the same path and stage as the given ‘source_entry’, it will be replaced. Otherwise, the ‘source_entry’ will be added.
sourcepub fn add_frombuffer(
&mut self,
entry: &IndexEntry,
data: &[u8]
) -> Result<(), Error>
pub fn add_frombuffer(
&mut self,
entry: &IndexEntry,
data: &[u8]
) -> Result<(), Error>
Add or update an index entry from a buffer in memory
This method will create a blob in the repository that owns the index and then add the index entry to the index. The path of the entry represents the position of the blob relative to the repository’s root folder.
If a previous index entry exists that has the same path as the given ‘entry’, it will be replaced. Otherwise, the ‘entry’ will be added. The id and the file_size of the ‘entry’ are updated with the real value of the blob.
This forces the file to be added to the index, not looking at gitignore rules.
If this file currently is the result of a merge conflict, this file will no longer be marked as conflicting. The data about the conflict will be moved to the “resolve undo” (REUC) section.
sourcepub fn add_path(&mut self, path: &Path) -> Result<(), Error>
pub fn add_path(&mut self, path: &Path) -> Result<(), Error>
Add or update an index entry from a file on disk
The file path must be relative to the repository’s working folder and must be readable.
This method will fail in bare index instances.
This forces the file to be added to the index, not looking at gitignore rules.
If this file currently is the result of a merge conflict, this file will no longer be marked as conflicting. The data about the conflict will be moved to the “resolve undo” (REUC) section.
sourcepub fn add_all<T, I>(
&mut self,
pathspecs: I,
flag: IndexAddOption,
cb: Option<&mut IndexMatchedPath<'_>>
) -> Result<(), Error>where
T: IntoCString,
I: IntoIterator<Item = T>,
pub fn add_all<T, I>(
&mut self,
pathspecs: I,
flag: IndexAddOption,
cb: Option<&mut IndexMatchedPath<'_>>
) -> Result<(), Error>where
T: IntoCString,
I: IntoIterator<Item = T>,
Add or update index entries matching files in the working directory.
This method will fail in bare index instances.
The pathspecs
are a list of file names or shell glob patterns that
will matched against files in the repository’s working directory. Each
file that matches will be added to the index (either updating an
existing entry or adding a new entry). You can disable glob expansion
and force exact matching with the AddDisablePathspecMatch
flag.
Files that are ignored will be skipped (unlike add_path
). If a file is
already tracked in the index, then it will be updated even if it is
ignored. Pass the AddForce
flag to skip the checking of ignore rules.
To emulate git add -A
and generate an error if the pathspec contains
the exact path of an ignored file (when not using AddForce
), add the
AddCheckPathspec
flag. This checks that each entry in pathspecs
that is an exact match to a filename on disk is either not ignored or
already in the index. If this check fails, the function will return
an error.
To emulate git add -A
with the “dry-run” option, just use a callback
function that always returns a positive value. See below for details.
If any files are currently the result of a merge conflict, those files will no longer be marked as conflicting. The data about the conflicts will be moved to the “resolve undo” (REUC) section.
If you provide a callback function, it will be invoked on each matching item in the working directory immediately before it is added to / updated in the index. Returning zero will add the item to the index, greater than zero will skip the item, and less than zero will abort the scan an return an error to the caller.
Example
Emulate git add *
:
use git2::{Index, IndexAddOption, Repository};
let repo = Repository::open("/path/to/a/repo").expect("failed to open");
let mut index = repo.index().expect("cannot get the Index file");
index.add_all(["*"].iter(), IndexAddOption::DEFAULT, None);
index.write();
sourcepub fn clear(&mut self) -> Result<(), Error>
pub fn clear(&mut self) -> Result<(), Error>
Clear the contents (all the entries) of an index object.
This clears the index object in memory; changes must be explicitly
written to disk for them to take effect persistently via write_*
.
sourcepub fn get(&self, n: usize) -> Option<IndexEntry>
pub fn get(&self, n: usize) -> Option<IndexEntry>
Get one of the entries in the index by its position.
sourcepub fn iter(&self) -> IndexEntries<'_> ⓘ
pub fn iter(&self) -> IndexEntries<'_> ⓘ
Get an iterator over the entries in this index.
sourcepub fn conflicts(&self) -> Result<IndexConflicts<'_>, Error>
pub fn conflicts(&self) -> Result<IndexConflicts<'_>, Error>
Get an iterator over the index entries that have conflicts
sourcepub fn get_path(&self, path: &Path, stage: i32) -> Option<IndexEntry>
pub fn get_path(&self, path: &Path, stage: i32) -> Option<IndexEntry>
Get one of the entries in the index by its path.
sourcepub fn has_conflicts(&self) -> bool
pub fn has_conflicts(&self) -> bool
Does this index have conflicts?
Returns true
if the index contains conflicts, false
if it does not.
sourcepub fn path(&self) -> Option<&Path>
pub fn path(&self) -> Option<&Path>
Get the full path to the index file on disk.
Returns None
if this is an in-memory index.
sourcepub fn read(&mut self, force: bool) -> Result<(), Error>
pub fn read(&mut self, force: bool) -> Result<(), Error>
Update the contents of an existing index object in memory by reading from the hard disk.
If force is true, this performs a “hard” read that discards in-memory changes and always reloads the on-disk index data. If there is no on-disk version, the index will be cleared.
If force is false, this does a “soft” read that reloads the index data from disk only if it has changed since the last time it was loaded. Purely in-memory index data will be untouched. Be aware: if there are changes on disk, unwritten in-memory changes are discarded.
sourcepub fn read_tree(&mut self, tree: &Tree<'_>) -> Result<(), Error>
pub fn read_tree(&mut self, tree: &Tree<'_>) -> Result<(), Error>
Read a tree into the index file with stats
The current index contents will be replaced by the specified tree.
sourcepub fn remove(&mut self, path: &Path, stage: i32) -> Result<(), Error>
pub fn remove(&mut self, path: &Path, stage: i32) -> Result<(), Error>
Remove an entry from the index
sourcepub fn remove_path(&mut self, path: &Path) -> Result<(), Error>
pub fn remove_path(&mut self, path: &Path) -> Result<(), Error>
Remove an index entry corresponding to a file on disk.
The file path must be relative to the repository’s working folder. It may exist.
If this file currently is the result of a merge conflict, this file will no longer be marked as conflicting. The data about the conflict will be moved to the “resolve undo” (REUC) section.
sourcepub fn remove_dir(&mut self, path: &Path, stage: i32) -> Result<(), Error>
pub fn remove_dir(&mut self, path: &Path, stage: i32) -> Result<(), Error>
Remove all entries from the index under a given directory.
sourcepub fn remove_all<T, I>(
&mut self,
pathspecs: I,
cb: Option<&mut IndexMatchedPath<'_>>
) -> Result<(), Error>where
T: IntoCString,
I: IntoIterator<Item = T>,
pub fn remove_all<T, I>(
&mut self,
pathspecs: I,
cb: Option<&mut IndexMatchedPath<'_>>
) -> Result<(), Error>where
T: IntoCString,
I: IntoIterator<Item = T>,
Remove all matching index entries.
If you provide a callback function, it will be invoked on each matching item in the index immediately before it is removed. Return 0 to remove the item, > 0 to skip the item, and < 0 to abort the scan.
sourcepub fn update_all<T, I>(
&mut self,
pathspecs: I,
cb: Option<&mut IndexMatchedPath<'_>>
) -> Result<(), Error>where
T: IntoCString,
I: IntoIterator<Item = T>,
pub fn update_all<T, I>(
&mut self,
pathspecs: I,
cb: Option<&mut IndexMatchedPath<'_>>
) -> Result<(), Error>where
T: IntoCString,
I: IntoIterator<Item = T>,
Update all index entries to match the working directory
This method will fail in bare index instances.
This scans the existing index entries and synchronizes them with the working directory, deleting them if the corresponding working directory file no longer exists otherwise updating the information (including adding the latest version of file to the ODB if needed).
If you provide a callback function, it will be invoked on each matching item in the index immediately before it is updated (either refreshed or removed depending on working directory state). Return 0 to proceed with updating the item, > 0 to skip the item, and < 0 to abort the scan.
sourcepub fn write(&mut self) -> Result<(), Error>
pub fn write(&mut self) -> Result<(), Error>
Write an existing index object from memory back to disk using an atomic file lock.
sourcepub fn write_tree(&mut self) -> Result<Oid, Error>
pub fn write_tree(&mut self) -> Result<Oid, Error>
Write the index as a tree.
This method will scan the index and write a representation of its current state back to disk; it recursively creates tree objects for each of the subtrees stored in the index, but only returns the OID of the root tree. This is the OID that can be used e.g. to create a commit.
The index instance cannot be bare, and needs to be associated to an existing repository.
The index must not contain any file in conflict.
sourcepub fn write_tree_to(&mut self, repo: &Repository) -> Result<Oid, Error>
pub fn write_tree_to(&mut self, repo: &Repository) -> Result<Oid, Error>
Write the index as a tree to the given repository
This is the same as write_tree
except that the destination repository
can be chosen.