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// dirstate.rs
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//
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// Copyright 2019 Raphaël Gomès <rgomes@octobus.net>
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//
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// This software may be used and distributed according to the terms of the
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// GNU General Public License version 2 or any later version.
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//! Bindings for the `hg::dirstate` module provided by the
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//! `hg-core` package.
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//!
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//! From Python, this will be seen as `mercurial.rustext.dirstate`
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use cpython::{
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exc, ObjectProtocol, PyBytes, PyDict, PyErr, PyInt, PyModule, PyObject,
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PyResult, PySequence, PyTuple, Python, PythonObject, ToPyObject,
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};
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use hg::{
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pack_dirstate, parse_dirstate, CopyVecEntry, DirsIterable, DirsMultiset,
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DirstateEntry, DirstateMapError, DirstatePackError, DirstateParents,
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DirstateParseError, DirstateVec,
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};
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use std::collections::HashMap;
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use std::ffi::CStr;
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#[cfg(feature = "python27")]
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extern crate python27_sys as python_sys;
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#[cfg(feature = "python3")]
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extern crate python3_sys as python_sys;
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use self::python_sys::PyCapsule_Import;
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use libc::{c_char, c_int};
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use std::cell::RefCell;
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use std::mem::transmute;
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/// C code uses a custom `dirstate_tuple` type, checks in multiple instances
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/// for this type, and raises a Python `Exception` if the check does not pass.
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/// Because this type differs only in name from the regular Python tuple, it
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/// would be a good idea in the near future to remove it entirely to allow
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/// for a pure Python tuple of the same effective structure to be used,
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/// rendering this type and the capsule below useless.
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type MakeDirstateTupleFn = extern "C" fn(
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state: c_char,
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mode: c_int,
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size: c_int,
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mtime: c_int,
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) -> PyObject;
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/// This is largely a copy/paste from cindex.rs, pending the merge of a
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/// `py_capsule_fn!` macro in the rust-cpython project:
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/// https://github.com/dgrunwald/rust-cpython/pull/169
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fn decapsule_make_dirstate_tuple(py: Python) -> PyResult<MakeDirstateTupleFn> {
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unsafe {
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let caps_name = CStr::from_bytes_with_nul_unchecked(
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b"mercurial.cext.parsers.make_dirstate_tuple_CAPI\0",
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);
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let from_caps = PyCapsule_Import(caps_name.as_ptr(), 0);
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if from_caps.is_null() {
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return Err(PyErr::fetch(py));
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}
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Ok(transmute(from_caps))
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}
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}
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fn parse_dirstate_wrapper(
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py: Python,
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dmap: PyDict,
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copymap: PyDict,
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st: PyBytes,
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) -> PyResult<PyTuple> {
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match parse_dirstate(st.data(py)) {
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Ok((parents, dirstate_vec, copies)) => {
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for (filename, entry) in dirstate_vec {
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dmap.set_item(
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py,
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PyBytes::new(py, &filename[..]),
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decapsule_make_dirstate_tuple(py)?(
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entry.state as c_char,
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entry.mode,
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entry.size,
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entry.mtime,
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),
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)?;
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}
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for CopyVecEntry { path, copy_path } in copies {
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copymap.set_item(
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py,
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PyBytes::new(py, path),
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PyBytes::new(py, copy_path),
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)?;
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}
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Ok((PyBytes::new(py, parents.p1), PyBytes::new(py, parents.p2))
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.to_py_object(py))
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}
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Err(e) => Err(PyErr::new::<exc::ValueError, _>(
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py,
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match e {
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DirstateParseError::TooLittleData => {
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"too little data for parents".to_string()
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}
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DirstateParseError::Overflow => {
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"overflow in dirstate".to_string()
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}
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DirstateParseError::CorruptedEntry(e) => e,
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},
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)),
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}
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}
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fn extract_dirstate_vec(
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py: Python,
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dmap: &PyDict,
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) -> Result<DirstateVec, PyErr> {
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dmap.items(py)
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.iter()
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.map(|(filename, stats)| {
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let stats = stats.extract::<PySequence>(py)?;
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let state = stats.get_item(py, 0)?.extract::<PyBytes>(py)?;
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let state = state.data(py)[0] as i8;
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let mode = stats.get_item(py, 1)?.extract(py)?;
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let size = stats.get_item(py, 2)?.extract(py)?;
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let mtime = stats.get_item(py, 3)?.extract(py)?;
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let filename = filename.extract::<PyBytes>(py)?;
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let filename = filename.data(py);
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Ok((
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filename.to_owned(),
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DirstateEntry {
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state,
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mode,
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size,
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mtime,
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},
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))
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})
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.collect()
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}
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fn pack_dirstate_wrapper(
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py: Python,
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dmap: PyDict,
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copymap: PyDict,
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pl: PyTuple,
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now: PyInt,
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) -> PyResult<PyBytes> {
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let p1 = pl.get_item(py, 0).extract::<PyBytes>(py)?;
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let p1: &[u8] = p1.data(py);
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let p2 = pl.get_item(py, 1).extract::<PyBytes>(py)?;
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let p2: &[u8] = p2.data(py);
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let dirstate_vec = extract_dirstate_vec(py, &dmap)?;
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let copies: Result<HashMap<Vec<u8>, Vec<u8>>, PyErr> = copymap
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.items(py)
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.iter()
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.map(|(key, value)| {
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Ok((
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key.extract::<PyBytes>(py)?.data(py).to_owned(),
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value.extract::<PyBytes>(py)?.data(py).to_owned(),
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))
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})
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.collect();
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match pack_dirstate(
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&dirstate_vec,
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&copies?,
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DirstateParents { p1, p2 },
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now.as_object().extract::<i32>(py)?,
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) {
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Ok((packed, new_dirstate_vec)) => {
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for (
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filename,
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DirstateEntry {
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state,
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mode,
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size,
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mtime,
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},
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) in new_dirstate_vec
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{
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dmap.set_item(
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py,
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PyBytes::new(py, &filename[..]),
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decapsule_make_dirstate_tuple(py)?(
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state as c_char,
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mode,
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size,
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mtime,
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),
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)?;
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}
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Ok(PyBytes::new(py, &packed))
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}
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Err(error) => Err(PyErr::new::<exc::ValueError, _>(
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py,
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match error {
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DirstatePackError::CorruptedParent => {
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"expected a 20-byte hash".to_string()
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}
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DirstatePackError::CorruptedEntry(e) => e,
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DirstatePackError::BadSize(expected, actual) => {
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format!("bad dirstate size: {} != {}", actual, expected)
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}
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},
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)),
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}
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}
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py_class!(pub class Dirs |py| {
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data dirs_map: RefCell<DirsMultiset>;
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// `map` is either a `dict` or a flat iterator (usually a `set`, sometimes
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// a `list`)
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def __new__(
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_cls,
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map: PyObject,
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skip: Option<PyObject> = None
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) -> PyResult<Self> {
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let mut skip_state: Option<i8> = None;
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if let Some(skip) = skip {
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skip_state = Some(skip.extract::<PyBytes>(py)?.data(py)[0] as i8);
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}
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let dirs_map;
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if let Ok(map) = map.cast_as::<PyDict>(py) {
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let dirstate_vec = extract_dirstate_vec(py, &map)?;
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dirs_map = DirsMultiset::new(
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DirsIterable::Dirstate(dirstate_vec),
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skip_state,
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)
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} else {
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let map: Result<Vec<Vec<u8>>, PyErr> = map
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.iter(py)?
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.map(|o| Ok(o?.extract::<PyBytes>(py)?.data(py).to_owned()))
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.collect();
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dirs_map = DirsMultiset::new(
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DirsIterable::Manifest(map?),
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skip_state,
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)
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}
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Self::create_instance(py, RefCell::new(dirs_map))
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}
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def addpath(&self, path: PyObject) -> PyResult<PyObject> {
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self.dirs_map(py).borrow_mut().add_path(
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path.extract::<PyBytes>(py)?.data(py),
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);
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Ok(py.None())
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}
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def delpath(&self, path: PyObject) -> PyResult<PyObject> {
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self.dirs_map(py).borrow_mut().delete_path(
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path.extract::<PyBytes>(py)?.data(py),
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)
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.and(Ok(py.None()))
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.or_else(|e| {
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match e {
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DirstateMapError::PathNotFound(_p) => {
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Err(PyErr::new::<exc::ValueError, _>(
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py,
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"expected a value, found none".to_string(),
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))
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}
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DirstateMapError::EmptyPath => {
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Ok(py.None())
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}
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}
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})
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}
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// This is really inefficient on top of being ugly, but it's an easy way
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// of having it work to continue working on the rest of the module
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// hopefully bypassing Python entirely pretty soon.
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def __iter__(&self) -> PyResult<PyObject> {
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let dict = PyDict::new(py);
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for (key, value) in self.dirs_map(py).borrow().iter() {
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dict.set_item(
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py,
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PyBytes::new(py, &key[..]),
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value.to_py_object(py),
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)?;
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}
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let locals = PyDict::new(py);
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locals.set_item(py, "obj", dict)?;
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py.eval("iter(obj)", None, Some(&locals))
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}
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def __contains__(&self, item: PyObject) -> PyResult<bool> {
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Ok(self
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.dirs_map(py)
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.borrow()
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.get(&item.extract::<PyBytes>(py)?.data(py).to_owned())
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.is_some())
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}
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});
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/// Create the module, with `__package__` given from parent
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pub fn init_module(py: Python, package: &str) -> PyResult<PyModule> {
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let dotted_name = &format!("{}.dirstate", package);
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let m = PyModule::new(py, dotted_name)?;
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m.add(py, "__package__", package)?;
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m.add(py, "__doc__", "Dirstate - Rust implementation")?;
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m.add(
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py,
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"parse_dirstate",
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py_fn!(
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py,
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parse_dirstate_wrapper(dmap: PyDict, copymap: PyDict, st: PyBytes)
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),
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)?;
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m.add(
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py,
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"pack_dirstate",
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py_fn!(
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py,
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pack_dirstate_wrapper(
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dmap: PyDict,
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copymap: PyDict,
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pl: PyTuple,
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now: PyInt
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)
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),
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)?;
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m.add_class::<Dirs>(py)?;
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let sys = PyModule::import(py, "sys")?;
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let sys_modules: PyDict = sys.get(py, "modules")?.extract(py)?;
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sys_modules.set_item(py, dotted_name, &m)?;
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Ok(m)
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}
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