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unstable: do not consider internal phases when computing unstable...
unstable: do not consider internal phases when computing unstable The revisions that are not part of the "working" set by other means should not be considered for the evolution related computation. This impact the test introduced in 5f9af8422b31 as this is actually a more semantic fix of the issue.
Raphaël Gomès - - Load All Authors

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r50809:58074252 default
r52017:80bda425 default
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item.rs
251 lines | 6.7 KiB | application/rls-services+xml | RustLexer
/ rust / hg-cpython / src / dirstate / item.rs
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use cpython::exc;
use cpython::ObjectProtocol;
use cpython::PyBytes;
use cpython::PyErr;
use cpython::PyNone;
use cpython::PyObject;
use cpython::PyResult;
use cpython::Python;
use cpython::PythonObject;
use hg::dirstate::DirstateEntry;
use hg::dirstate::DirstateV2Data;
use hg::dirstate::TruncatedTimestamp;
use std::cell::Cell;
py_class!(pub class DirstateItem |py| {
data entry: Cell<DirstateEntry>;
def __new__(
_cls,
wc_tracked: bool = false,
p1_tracked: bool = false,
p2_info: bool = false,
has_meaningful_data: bool = true,
has_meaningful_mtime: bool = true,
parentfiledata: Option<(u32, u32, Option<(u32, u32, bool)>)> = None,
fallback_exec: Option<bool> = None,
fallback_symlink: Option<bool> = None,
) -> PyResult<DirstateItem> {
let mut mode_size_opt = None;
let mut mtime_opt = None;
if let Some((mode, size, mtime)) = parentfiledata {
if has_meaningful_data {
mode_size_opt = Some((mode, size))
}
if has_meaningful_mtime {
if let Some(m) = mtime {
mtime_opt = Some(timestamp(py, m)?);
}
}
}
let entry = DirstateEntry::from_v2_data(DirstateV2Data {
wc_tracked,
p1_tracked,
p2_info,
mode_size: mode_size_opt,
mtime: mtime_opt,
fallback_exec,
fallback_symlink,
});
DirstateItem::create_instance(py, Cell::new(entry))
}
@property
def state(&self) -> PyResult<PyBytes> {
let state_byte: u8 = self.entry(py).get().state().into();
Ok(PyBytes::new(py, &[state_byte]))
}
@property
def mode(&self) -> PyResult<i32> {
Ok(self.entry(py).get().mode())
}
@property
def size(&self) -> PyResult<i32> {
Ok(self.entry(py).get().size())
}
@property
def mtime(&self) -> PyResult<i32> {
Ok(self.entry(py).get().mtime())
}
@property
def has_fallback_exec(&self) -> PyResult<bool> {
match self.entry(py).get().get_fallback_exec() {
Some(_) => Ok(true),
None => Ok(false),
}
}
@property
def fallback_exec(&self) -> PyResult<Option<bool>> {
match self.entry(py).get().get_fallback_exec() {
Some(exec) => Ok(Some(exec)),
None => Ok(None),
}
}
@fallback_exec.setter
def set_fallback_exec(&self, value: Option<PyObject>) -> PyResult<()> {
match value {
None => {self.entry(py).get().set_fallback_exec(None);},
Some(value) => {
if value.is_none(py) {
self.entry(py).get().set_fallback_exec(None);
} else {
self.entry(py).get().set_fallback_exec(
Some(value.is_true(py)?)
);
}},
}
Ok(())
}
@property
def has_fallback_symlink(&self) -> PyResult<bool> {
match self.entry(py).get().get_fallback_symlink() {
Some(_) => Ok(true),
None => Ok(false),
}
}
@property
def fallback_symlink(&self) -> PyResult<Option<bool>> {
match self.entry(py).get().get_fallback_symlink() {
Some(symlink) => Ok(Some(symlink)),
None => Ok(None),
}
}
@fallback_symlink.setter
def set_fallback_symlink(&self, value: Option<PyObject>) -> PyResult<()> {
match value {
None => {self.entry(py).get().set_fallback_symlink(None);},
Some(value) => {
if value.is_none(py) {
self.entry(py).get().set_fallback_symlink(None);
} else {
self.entry(py).get().set_fallback_symlink(
Some(value.is_true(py)?)
);
}},
}
Ok(())
}
@property
def tracked(&self) -> PyResult<bool> {
Ok(self.entry(py).get().tracked())
}
@property
def p1_tracked(&self) -> PyResult<bool> {
Ok(self.entry(py).get().p1_tracked())
}
@property
def added(&self) -> PyResult<bool> {
Ok(self.entry(py).get().added())
}
@property
def modified(&self) -> PyResult<bool> {
Ok(self.entry(py).get().modified())
}
@property
def p2_info(&self) -> PyResult<bool> {
Ok(self.entry(py).get().p2_info())
}
@property
def removed(&self) -> PyResult<bool> {
Ok(self.entry(py).get().removed())
}
@property
def maybe_clean(&self) -> PyResult<bool> {
Ok(self.entry(py).get().maybe_clean())
}
@property
def any_tracked(&self) -> PyResult<bool> {
Ok(self.entry(py).get().any_tracked())
}
def mtime_likely_equal_to(&self, other: (u32, u32, bool))
-> PyResult<bool> {
if let Some(mtime) = self.entry(py).get().truncated_mtime() {
Ok(mtime.likely_equal(timestamp(py, other)?))
} else {
Ok(false)
}
}
def drop_merge_data(&self) -> PyResult<PyNone> {
self.update(py, |entry| entry.drop_merge_data());
Ok(PyNone)
}
def set_clean(
&self,
mode: u32,
size: u32,
mtime: (u32, u32, bool),
) -> PyResult<PyNone> {
let mtime = timestamp(py, mtime)?;
self.update(py, |entry| entry.set_clean(mode, size, mtime));
Ok(PyNone)
}
def set_possibly_dirty(&self) -> PyResult<PyNone> {
self.update(py, |entry| entry.set_possibly_dirty());
Ok(PyNone)
}
def set_tracked(&self) -> PyResult<PyNone> {
self.update(py, |entry| entry.set_tracked());
Ok(PyNone)
}
def set_untracked(&self) -> PyResult<PyNone> {
self.update(py, |entry| entry.set_untracked());
Ok(PyNone)
}
});
impl DirstateItem {
pub fn new_as_pyobject(
py: Python<'_>,
entry: DirstateEntry,
) -> PyResult<PyObject> {
Ok(DirstateItem::create_instance(py, Cell::new(entry))?.into_object())
}
pub fn get_entry(&self, py: Python<'_>) -> DirstateEntry {
self.entry(py).get()
}
// TODO: Use https://doc.rust-lang.org/std/cell/struct.Cell.html#method.update instead when it’s stable
pub fn update(&self, py: Python<'_>, f: impl FnOnce(&mut DirstateEntry)) {
let mut entry = self.entry(py).get();
f(&mut entry);
self.entry(py).set(entry)
}
}
pub(crate) fn timestamp(
py: Python<'_>,
(s, ns, second_ambiguous): (u32, u32, bool),
) -> PyResult<TruncatedTimestamp> {
TruncatedTimestamp::from_already_truncated(s, ns, second_ambiguous)
.map_err(|_| {
PyErr::new::<exc::ValueError, _>(
py,
"expected mtime truncated to 31 bits",
)
})
}