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tests: add more tests of copy tracing with removed and re-added files...
tests: add more tests of copy tracing with removed and re-added files We had a test where the destination of a copy was removed and then added back. This patch adds similar cases where the break in history instead happens to the source file. There are three versions of this: 1. The break happens before the rename. 2. The break happens on a branch parallel to the rename (where copy tracing is done via the merge base) 3. The source is added on each side of the merge base. The break in history is thus in the form of a deletion when going backwards to the merge base and the re-add happens on the other branch. I've also added calls to `hg graft` in these cases to show the breakage in issue 6163. Another factor in these cases is matching nodeid (checked in copies._tracefile()). I've made two copies each of the cases to show the impact of that. One of these is the same as a test in test-rename-merge1.t, so I also deleted that test from there. Some of these tests currently fail, where "fail" is based on my current thinking of how things should work. I had initially thought that we should be more strict about not tracing copies across commits where the file did not exist, but issue 6163 made me reconsider. The only test case here that behaved differently in 4.9 is the exact case reported in issue 6163. Differential Revision: https://phab.mercurial-scm.org/D6599
Yuya Nishihara - - Load All Authors

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ancestors.rs
271 lines | 7.1 KiB | application/rls-services+xml | RustLexer
/ rust / hg-direct-ffi / src / ancestors.rs
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// Copyright 2018 Georges Racinet <gracinet@anybox.fr>
//
// This software may be used and distributed according to the terms of the
// GNU General Public License version 2 or any later version.
//! Bindings for CPython extension code
//!
//! This exposes methods to build and use a `rustlazyancestors` iterator
//! from C code, using an index and its parents function that are passed
//! from the caller at instantiation.
use hg::AncestorsIterator;
use hg::{Graph, GraphError, Revision, NULL_REVISION};
use libc::{c_int, c_long, c_void, ssize_t};
use std::ptr::null_mut;
use std::slice;
type IndexPtr = *mut c_void;
extern "C" {
fn HgRevlogIndex_GetParents(
op: IndexPtr,
rev: c_int,
parents: *mut [c_int; 2],
) -> c_int;
}
/// A Graph backed up by objects and functions from revlog.c
///
/// This implementation of the Graph trait, relies on (pointers to)
/// - the C index object (`index` member)
/// - the `index_get_parents()` function (`parents` member)
pub struct Index {
index: IndexPtr,
}
impl Index {
pub fn new(index: IndexPtr) -> Self {
Index {
index: index,
}
}
}
impl Graph for Index {
/// wrap a call to the C extern parents function
fn parents(&self, rev: Revision) -> Result<[Revision; 2], GraphError> {
let mut res: [c_int; 2] = [0; 2];
let code =
unsafe { HgRevlogIndex_GetParents(self.index, rev, &mut res as *mut [c_int; 2]) };
match code {
0 => Ok(res),
_ => Err(GraphError::ParentOutOfRange(rev)),
}
}
}
/// Wrapping of AncestorsIterator<Index> constructor, for C callers.
///
/// Besides `initrevs`, `stoprev` and `inclusive`, that are converted
/// we receive the index and the parents function as pointers
#[no_mangle]
pub extern "C" fn rustlazyancestors_init(
index: IndexPtr,
initrevslen: ssize_t,
initrevs: *mut c_long,
stoprev: c_long,
inclusive: c_int,
) -> *mut AncestorsIterator<Index> {
assert!(initrevslen >= 0);
unsafe {
raw_init(
Index::new(index),
initrevslen as usize,
initrevs,
stoprev,
inclusive,
)
}
}
/// Testable (for any Graph) version of rustlazyancestors_init
#[inline]
unsafe fn raw_init<G: Graph>(
graph: G,
initrevslen: usize,
initrevs: *mut c_long,
stoprev: c_long,
inclusive: c_int,
) -> *mut AncestorsIterator<G> {
let inclb = match inclusive {
0 => false,
1 => true,
_ => {
return null_mut();
}
};
let slice = slice::from_raw_parts(initrevs, initrevslen);
Box::into_raw(Box::new(match AncestorsIterator::new(
graph,
slice.into_iter().map(|&r| r as Revision),
stoprev as Revision,
inclb,
) {
Ok(it) => it,
Err(_) => {
return null_mut();
}
}))
}
/// Deallocator to be called from C code
#[no_mangle]
pub extern "C" fn rustlazyancestors_drop(raw_iter: *mut AncestorsIterator<Index>) {
raw_drop(raw_iter);
}
/// Testable (for any Graph) version of rustlazayancestors_drop
#[inline]
fn raw_drop<G: Graph>(raw_iter: *mut AncestorsIterator<G>) {
unsafe {
Box::from_raw(raw_iter);
}
}
/// Iteration main method to be called from C code
///
/// We convert the end of iteration into NULL_REVISION,
/// it will be up to the C wrapper to convert that back into a Python end of
/// iteration
#[no_mangle]
pub extern "C" fn rustlazyancestors_next(raw: *mut AncestorsIterator<Index>) -> c_long {
raw_next(raw)
}
/// Testable (for any Graph) version of rustlazayancestors_next
#[inline]
fn raw_next<G: Graph>(raw: *mut AncestorsIterator<G>) -> c_long {
let as_ref = unsafe { &mut *raw };
let rev = match as_ref.next() {
Some(Ok(rev)) => rev,
Some(Err(_)) | None => NULL_REVISION,
};
rev as c_long
}
#[no_mangle]
pub extern "C" fn rustlazyancestors_contains(
raw: *mut AncestorsIterator<Index>,
target: c_long,
) -> c_int {
raw_contains(raw, target)
}
/// Testable (for any Graph) version of rustlazayancestors_next
#[inline]
fn raw_contains<G: Graph>(
raw: *mut AncestorsIterator<G>,
target: c_long,
) -> c_int {
let as_ref = unsafe { &mut *raw };
match as_ref.contains(target as Revision) {
Ok(r) => r as c_int,
Err(_) => -1,
}
}
#[cfg(test)]
mod tests {
use super::*;
use std::thread;
#[derive(Clone, Debug)]
struct Stub;
impl Graph for Stub {
fn parents(&self, r: Revision) -> Result<[Revision; 2], GraphError> {
match r {
25 => Err(GraphError::ParentOutOfRange(25)),
_ => Ok([1, 2]),
}
}
}
/// Helper for test_init_next()
fn stub_raw_init(
initrevslen: usize,
initrevs: usize,
stoprev: c_long,
inclusive: c_int,
) -> usize {
unsafe {
raw_init(
Stub,
initrevslen,
initrevs as *mut c_long,
stoprev,
inclusive,
) as usize
}
}
fn stub_raw_init_from_vec(
mut initrevs: Vec<c_long>,
stoprev: c_long,
inclusive: c_int,
) -> *mut AncestorsIterator<Stub> {
unsafe {
raw_init(
Stub,
initrevs.len(),
initrevs.as_mut_ptr(),
stoprev,
inclusive,
)
}
}
#[test]
// Test what happens when we init an Iterator as with the exposed C ABI
// and try to use it afterwards
// We spawn new threads, in order to make memory consistency harder
// but this forces us to convert the pointers into shareable usizes.
fn test_init_next() {
let mut initrevs: Vec<c_long> = vec![11, 13];
let initrevs_len = initrevs.len();
let initrevs_ptr = initrevs.as_mut_ptr() as usize;
let handler = thread::spawn(move || stub_raw_init(initrevs_len, initrevs_ptr, 0, 1));
let raw = handler.join().unwrap() as *mut AncestorsIterator<Stub>;
assert_eq!(raw_next(raw), 13);
assert_eq!(raw_next(raw), 11);
assert_eq!(raw_next(raw), 2);
assert_eq!(raw_next(raw), 1);
assert_eq!(raw_next(raw), NULL_REVISION as c_long);
raw_drop(raw);
}
#[test]
fn test_init_wrong_bool() {
assert_eq!(stub_raw_init_from_vec(vec![11, 13], 0, 2), null_mut());
}
#[test]
fn test_empty() {
let raw = stub_raw_init_from_vec(vec![], 0, 1);
assert_eq!(raw_next(raw), NULL_REVISION as c_long);
raw_drop(raw);
}
#[test]
fn test_init_err_out_of_range() {
assert!(stub_raw_init_from_vec(vec![25], 0, 0).is_null());
}
#[test]
fn test_contains() {
let raw = stub_raw_init_from_vec(vec![5, 6], 0, 1);
assert_eq!(raw_contains(raw, 5), 1);
assert_eq!(raw_contains(raw, 2), 1);
}
#[test]
fn test_contains_exclusive() {
let raw = stub_raw_init_from_vec(vec![5, 6], 0, 0);
assert_eq!(raw_contains(raw, 5), 0);
assert_eq!(raw_contains(raw, 2), 1);
}
}