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rust-nodemap: add binding for `nodemap_data_all`...
Georges Racinet -
r44995:b581231a default
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1 // revlog.rs
1 // revlog.rs
2 //
2 //
3 // Copyright 2019-2020 Georges Racinet <georges.racinet@octobus.net>
3 // Copyright 2019-2020 Georges Racinet <georges.racinet@octobus.net>
4 //
4 //
5 // This software may be used and distributed according to the terms of the
5 // This software may be used and distributed according to the terms of the
6 // GNU General Public License version 2 or any later version.
6 // GNU General Public License version 2 or any later version.
7
7
8 use crate::{
8 use crate::{
9 cindex,
9 cindex,
10 utils::{node_from_py_bytes, node_from_py_object},
10 utils::{node_from_py_bytes, node_from_py_object},
11 };
11 };
12 use cpython::{
12 use cpython::{
13 exc::{IndexError, ValueError},
13 exc::{IndexError, ValueError},
14 ObjectProtocol, PyBytes, PyClone, PyDict, PyErr, PyModule, PyObject,
14 ObjectProtocol, PyBytes, PyClone, PyDict, PyErr, PyModule, PyObject,
15 PyResult, PyString, PyTuple, Python, PythonObject, ToPyObject,
15 PyResult, PyString, PyTuple, Python, PythonObject, ToPyObject,
16 };
16 };
17 use hg::{
17 use hg::{
18 nodemap::{NodeMapError, NodeTree},
18 nodemap::{NodeMapError, NodeTree},
19 revlog::{nodemap::NodeMap, RevlogIndex},
19 revlog::{nodemap::NodeMap, RevlogIndex},
20 NodeError, Revision,
20 NodeError, Revision,
21 };
21 };
22 use std::cell::RefCell;
22 use std::cell::RefCell;
23
23
24 /// Return a Struct implementing the Graph trait
24 /// Return a Struct implementing the Graph trait
25 pub(crate) fn pyindex_to_graph(
25 pub(crate) fn pyindex_to_graph(
26 py: Python,
26 py: Python,
27 index: PyObject,
27 index: PyObject,
28 ) -> PyResult<cindex::Index> {
28 ) -> PyResult<cindex::Index> {
29 match index.extract::<MixedIndex>(py) {
29 match index.extract::<MixedIndex>(py) {
30 Ok(midx) => Ok(midx.clone_cindex(py)),
30 Ok(midx) => Ok(midx.clone_cindex(py)),
31 Err(_) => cindex::Index::new(py, index),
31 Err(_) => cindex::Index::new(py, index),
32 }
32 }
33 }
33 }
34
34
35 py_class!(pub class MixedIndex |py| {
35 py_class!(pub class MixedIndex |py| {
36 data cindex: RefCell<cindex::Index>;
36 data cindex: RefCell<cindex::Index>;
37 data nt: RefCell<Option<NodeTree>>;
37 data nt: RefCell<Option<NodeTree>>;
38
38
39 def __new__(_cls, cindex: PyObject) -> PyResult<MixedIndex> {
39 def __new__(_cls, cindex: PyObject) -> PyResult<MixedIndex> {
40 Self::new(py, cindex)
40 Self::new(py, cindex)
41 }
41 }
42
42
43 /// Compatibility layer used for Python consumers needing access to the C index
43 /// Compatibility layer used for Python consumers needing access to the C index
44 ///
44 ///
45 /// Only use case so far is `scmutil.shortesthexnodeidprefix`,
45 /// Only use case so far is `scmutil.shortesthexnodeidprefix`,
46 /// that may need to build a custom `nodetree`, based on a specified revset.
46 /// that may need to build a custom `nodetree`, based on a specified revset.
47 /// With a Rust implementation of the nodemap, we will be able to get rid of
47 /// With a Rust implementation of the nodemap, we will be able to get rid of
48 /// this, by exposing our own standalone nodemap class,
48 /// this, by exposing our own standalone nodemap class,
49 /// ready to accept `MixedIndex`.
49 /// ready to accept `MixedIndex`.
50 def get_cindex(&self) -> PyResult<PyObject> {
50 def get_cindex(&self) -> PyResult<PyObject> {
51 Ok(self.cindex(py).borrow().inner().clone_ref(py))
51 Ok(self.cindex(py).borrow().inner().clone_ref(py))
52 }
52 }
53
53
54 // Index API involving nodemap, as defined in mercurial/pure/parsers.py
54 // Index API involving nodemap, as defined in mercurial/pure/parsers.py
55
55
56 /// Return Revision if found, raises a bare `error.RevlogError`
56 /// Return Revision if found, raises a bare `error.RevlogError`
57 /// in case of ambiguity, same as C version does
57 /// in case of ambiguity, same as C version does
58 def get_rev(&self, node: PyBytes) -> PyResult<Option<Revision>> {
58 def get_rev(&self, node: PyBytes) -> PyResult<Option<Revision>> {
59 let opt = self.get_nodetree(py)?.borrow();
59 let opt = self.get_nodetree(py)?.borrow();
60 let nt = opt.as_ref().unwrap();
60 let nt = opt.as_ref().unwrap();
61 let idx = &*self.cindex(py).borrow();
61 let idx = &*self.cindex(py).borrow();
62 let node = node_from_py_bytes(py, &node)?;
62 let node = node_from_py_bytes(py, &node)?;
63 nt.find_bin(idx, (&node).into()).map_err(|e| nodemap_error(py, e))
63 nt.find_bin(idx, (&node).into()).map_err(|e| nodemap_error(py, e))
64 }
64 }
65
65
66 /// same as `get_rev()` but raises a bare `error.RevlogError` if node
66 /// same as `get_rev()` but raises a bare `error.RevlogError` if node
67 /// is not found.
67 /// is not found.
68 ///
68 ///
69 /// No need to repeat `node` in the exception, `mercurial/revlog.py`
69 /// No need to repeat `node` in the exception, `mercurial/revlog.py`
70 /// will catch and rewrap with it
70 /// will catch and rewrap with it
71 def rev(&self, node: PyBytes) -> PyResult<Revision> {
71 def rev(&self, node: PyBytes) -> PyResult<Revision> {
72 self.get_rev(py, node)?.ok_or_else(|| revlog_error(py))
72 self.get_rev(py, node)?.ok_or_else(|| revlog_error(py))
73 }
73 }
74
74
75 /// return True if the node exist in the index
75 /// return True if the node exist in the index
76 def has_node(&self, node: PyBytes) -> PyResult<bool> {
76 def has_node(&self, node: PyBytes) -> PyResult<bool> {
77 self.get_rev(py, node).map(|opt| opt.is_some())
77 self.get_rev(py, node).map(|opt| opt.is_some())
78 }
78 }
79
79
80 /// find length of shortest hex nodeid of a binary ID
80 /// find length of shortest hex nodeid of a binary ID
81 def shortest(&self, node: PyBytes) -> PyResult<usize> {
81 def shortest(&self, node: PyBytes) -> PyResult<usize> {
82 let opt = self.get_nodetree(py)?.borrow();
82 let opt = self.get_nodetree(py)?.borrow();
83 let nt = opt.as_ref().unwrap();
83 let nt = opt.as_ref().unwrap();
84 let idx = &*self.cindex(py).borrow();
84 let idx = &*self.cindex(py).borrow();
85 match nt.unique_prefix_len_node(idx, &node_from_py_bytes(py, &node)?)
85 match nt.unique_prefix_len_node(idx, &node_from_py_bytes(py, &node)?)
86 {
86 {
87 Ok(Some(l)) => Ok(l),
87 Ok(Some(l)) => Ok(l),
88 Ok(None) => Err(revlog_error(py)),
88 Ok(None) => Err(revlog_error(py)),
89 Err(e) => Err(nodemap_error(py, e)),
89 Err(e) => Err(nodemap_error(py, e)),
90 }
90 }
91 }
91 }
92
92
93 def partialmatch(&self, node: PyObject) -> PyResult<Option<PyBytes>> {
93 def partialmatch(&self, node: PyObject) -> PyResult<Option<PyBytes>> {
94 let opt = self.get_nodetree(py)?.borrow();
94 let opt = self.get_nodetree(py)?.borrow();
95 let nt = opt.as_ref().unwrap();
95 let nt = opt.as_ref().unwrap();
96 let idx = &*self.cindex(py).borrow();
96 let idx = &*self.cindex(py).borrow();
97
97
98 let node_as_string = if cfg!(feature = "python3-sys") {
98 let node_as_string = if cfg!(feature = "python3-sys") {
99 node.cast_as::<PyString>(py)?.to_string(py)?.to_string()
99 node.cast_as::<PyString>(py)?.to_string(py)?.to_string()
100 }
100 }
101 else {
101 else {
102 let node = node.extract::<PyBytes>(py)?;
102 let node = node.extract::<PyBytes>(py)?;
103 String::from_utf8_lossy(node.data(py)).to_string()
103 String::from_utf8_lossy(node.data(py)).to_string()
104 };
104 };
105
105
106 nt.find_hex(idx, &node_as_string)
106 nt.find_hex(idx, &node_as_string)
107 // TODO make an inner API returning the node directly
107 // TODO make an inner API returning the node directly
108 .map(|opt| opt.map(
108 .map(|opt| opt.map(
109 |rev| PyBytes::new(py, idx.node(rev).unwrap().as_bytes())))
109 |rev| PyBytes::new(py, idx.node(rev).unwrap().as_bytes())))
110 .map_err(|e| nodemap_error(py, e))
110 .map_err(|e| nodemap_error(py, e))
111
111
112 }
112 }
113
113
114 /// append an index entry
114 /// append an index entry
115 def append(&self, tup: PyTuple) -> PyResult<PyObject> {
115 def append(&self, tup: PyTuple) -> PyResult<PyObject> {
116 if tup.len(py) < 8 {
116 if tup.len(py) < 8 {
117 // this is better than the panic promised by tup.get_item()
117 // this is better than the panic promised by tup.get_item()
118 return Err(
118 return Err(
119 PyErr::new::<IndexError, _>(py, "tuple index out of range"))
119 PyErr::new::<IndexError, _>(py, "tuple index out of range"))
120 }
120 }
121 let node_bytes = tup.get_item(py, 7).extract(py)?;
121 let node_bytes = tup.get_item(py, 7).extract(py)?;
122 let node = node_from_py_object(py, &node_bytes)?;
122 let node = node_from_py_object(py, &node_bytes)?;
123
123
124 let mut idx = self.cindex(py).borrow_mut();
124 let mut idx = self.cindex(py).borrow_mut();
125 let rev = idx.len() as Revision;
125 let rev = idx.len() as Revision;
126
126
127 idx.append(py, tup)?;
127 idx.append(py, tup)?;
128 self.get_nodetree(py)?.borrow_mut().as_mut().unwrap()
128 self.get_nodetree(py)?.borrow_mut().as_mut().unwrap()
129 .insert(&*idx, &node, rev)
129 .insert(&*idx, &node, rev)
130 .map_err(|e| nodemap_error(py, e))?;
130 .map_err(|e| nodemap_error(py, e))?;
131 Ok(py.None())
131 Ok(py.None())
132 }
132 }
133
133
134 def __delitem__(&self, key: PyObject) -> PyResult<()> {
134 def __delitem__(&self, key: PyObject) -> PyResult<()> {
135 // __delitem__ is both for `del idx[r]` and `del idx[r1:r2]`
135 // __delitem__ is both for `del idx[r]` and `del idx[r1:r2]`
136 self.cindex(py).borrow().inner().del_item(py, key)?;
136 self.cindex(py).borrow().inner().del_item(py, key)?;
137 let mut opt = self.get_nodetree(py)?.borrow_mut();
137 let mut opt = self.get_nodetree(py)?.borrow_mut();
138 let mut nt = opt.as_mut().unwrap();
138 let mut nt = opt.as_mut().unwrap();
139 nt.invalidate_all();
139 nt.invalidate_all();
140 self.fill_nodemap(py, &mut nt)?;
140 self.fill_nodemap(py, &mut nt)?;
141 Ok(())
141 Ok(())
142 }
142 }
143
143
144 //
144 //
145 // Reforwarded C index API
145 // Reforwarded C index API
146 //
146 //
147
147
148 // index_methods (tp_methods). Same ordering as in revlog.c
148 // index_methods (tp_methods). Same ordering as in revlog.c
149
149
150 /// return the gca set of the given revs
150 /// return the gca set of the given revs
151 def ancestors(&self, *args, **kw) -> PyResult<PyObject> {
151 def ancestors(&self, *args, **kw) -> PyResult<PyObject> {
152 self.call_cindex(py, "ancestors", args, kw)
152 self.call_cindex(py, "ancestors", args, kw)
153 }
153 }
154
154
155 /// return the heads of the common ancestors of the given revs
155 /// return the heads of the common ancestors of the given revs
156 def commonancestorsheads(&self, *args, **kw) -> PyResult<PyObject> {
156 def commonancestorsheads(&self, *args, **kw) -> PyResult<PyObject> {
157 self.call_cindex(py, "commonancestorsheads", args, kw)
157 self.call_cindex(py, "commonancestorsheads", args, kw)
158 }
158 }
159
159
160 /// clear the index caches
160 /// clear the index caches
161 def clearcaches(&self, *args, **kw) -> PyResult<PyObject> {
161 def clearcaches(&self, *args, **kw) -> PyResult<PyObject> {
162 self.call_cindex(py, "clearcaches", args, kw)
162 self.call_cindex(py, "clearcaches", args, kw)
163 }
163 }
164
164
165 /// get an index entry
165 /// get an index entry
166 def get(&self, *args, **kw) -> PyResult<PyObject> {
166 def get(&self, *args, **kw) -> PyResult<PyObject> {
167 self.call_cindex(py, "get", args, kw)
167 self.call_cindex(py, "get", args, kw)
168 }
168 }
169
169
170 /// compute phases
170 /// compute phases
171 def computephasesmapsets(&self, *args, **kw) -> PyResult<PyObject> {
171 def computephasesmapsets(&self, *args, **kw) -> PyResult<PyObject> {
172 self.call_cindex(py, "computephasesmapsets", args, kw)
172 self.call_cindex(py, "computephasesmapsets", args, kw)
173 }
173 }
174
174
175 /// reachableroots
175 /// reachableroots
176 def reachableroots2(&self, *args, **kw) -> PyResult<PyObject> {
176 def reachableroots2(&self, *args, **kw) -> PyResult<PyObject> {
177 self.call_cindex(py, "reachableroots2", args, kw)
177 self.call_cindex(py, "reachableroots2", args, kw)
178 }
178 }
179
179
180 /// get head revisions
180 /// get head revisions
181 def headrevs(&self, *args, **kw) -> PyResult<PyObject> {
181 def headrevs(&self, *args, **kw) -> PyResult<PyObject> {
182 self.call_cindex(py, "headrevs", args, kw)
182 self.call_cindex(py, "headrevs", args, kw)
183 }
183 }
184
184
185 /// get filtered head revisions
185 /// get filtered head revisions
186 def headrevsfiltered(&self, *args, **kw) -> PyResult<PyObject> {
186 def headrevsfiltered(&self, *args, **kw) -> PyResult<PyObject> {
187 self.call_cindex(py, "headrevsfiltered", args, kw)
187 self.call_cindex(py, "headrevsfiltered", args, kw)
188 }
188 }
189
189
190 /// True if the object is a snapshot
190 /// True if the object is a snapshot
191 def issnapshot(&self, *args, **kw) -> PyResult<PyObject> {
191 def issnapshot(&self, *args, **kw) -> PyResult<PyObject> {
192 self.call_cindex(py, "issnapshot", args, kw)
192 self.call_cindex(py, "issnapshot", args, kw)
193 }
193 }
194
194
195 /// Gather snapshot data in a cache dict
195 /// Gather snapshot data in a cache dict
196 def findsnapshots(&self, *args, **kw) -> PyResult<PyObject> {
196 def findsnapshots(&self, *args, **kw) -> PyResult<PyObject> {
197 self.call_cindex(py, "findsnapshots", args, kw)
197 self.call_cindex(py, "findsnapshots", args, kw)
198 }
198 }
199
199
200 /// determine revisions with deltas to reconstruct fulltext
200 /// determine revisions with deltas to reconstruct fulltext
201 def deltachain(&self, *args, **kw) -> PyResult<PyObject> {
201 def deltachain(&self, *args, **kw) -> PyResult<PyObject> {
202 self.call_cindex(py, "deltachain", args, kw)
202 self.call_cindex(py, "deltachain", args, kw)
203 }
203 }
204
204
205 /// slice planned chunk read to reach a density threshold
205 /// slice planned chunk read to reach a density threshold
206 def slicechunktodensity(&self, *args, **kw) -> PyResult<PyObject> {
206 def slicechunktodensity(&self, *args, **kw) -> PyResult<PyObject> {
207 self.call_cindex(py, "slicechunktodensity", args, kw)
207 self.call_cindex(py, "slicechunktodensity", args, kw)
208 }
208 }
209
209
210 /// stats for the index
210 /// stats for the index
211 def stats(&self, *args, **kw) -> PyResult<PyObject> {
211 def stats(&self, *args, **kw) -> PyResult<PyObject> {
212 self.call_cindex(py, "stats", args, kw)
212 self.call_cindex(py, "stats", args, kw)
213 }
213 }
214
214
215 // index_sequence_methods and index_mapping_methods.
215 // index_sequence_methods and index_mapping_methods.
216 //
216 //
217 // Since we call back through the high level Python API,
217 // Since we call back through the high level Python API,
218 // there's no point making a distinction between index_get
218 // there's no point making a distinction between index_get
219 // and index_getitem.
219 // and index_getitem.
220
220
221 def __len__(&self) -> PyResult<usize> {
221 def __len__(&self) -> PyResult<usize> {
222 self.cindex(py).borrow().inner().len(py)
222 self.cindex(py).borrow().inner().len(py)
223 }
223 }
224
224
225 def __getitem__(&self, key: PyObject) -> PyResult<PyObject> {
225 def __getitem__(&self, key: PyObject) -> PyResult<PyObject> {
226 // this conversion seems needless, but that's actually because
226 // this conversion seems needless, but that's actually because
227 // `index_getitem` does not handle conversion from PyLong,
227 // `index_getitem` does not handle conversion from PyLong,
228 // which expressions such as [e for e in index] internally use.
228 // which expressions such as [e for e in index] internally use.
229 // Note that we don't seem to have a direct way to call
229 // Note that we don't seem to have a direct way to call
230 // PySequence_GetItem (does the job), which would be better for
230 // PySequence_GetItem (does the job), which would be better for
231 // for performance
231 // for performance
232 let key = match key.extract::<Revision>(py) {
232 let key = match key.extract::<Revision>(py) {
233 Ok(rev) => rev.to_py_object(py).into_object(),
233 Ok(rev) => rev.to_py_object(py).into_object(),
234 Err(_) => key,
234 Err(_) => key,
235 };
235 };
236 self.cindex(py).borrow().inner().get_item(py, key)
236 self.cindex(py).borrow().inner().get_item(py, key)
237 }
237 }
238
238
239 def __setitem__(&self, key: PyObject, value: PyObject) -> PyResult<()> {
239 def __setitem__(&self, key: PyObject, value: PyObject) -> PyResult<()> {
240 self.cindex(py).borrow().inner().set_item(py, key, value)
240 self.cindex(py).borrow().inner().set_item(py, key, value)
241 }
241 }
242
242
243 def __contains__(&self, item: PyObject) -> PyResult<bool> {
243 def __contains__(&self, item: PyObject) -> PyResult<bool> {
244 // ObjectProtocol does not seem to provide contains(), so
244 // ObjectProtocol does not seem to provide contains(), so
245 // this is an equivalent implementation of the index_contains()
245 // this is an equivalent implementation of the index_contains()
246 // defined in revlog.c
246 // defined in revlog.c
247 let cindex = self.cindex(py).borrow();
247 let cindex = self.cindex(py).borrow();
248 match item.extract::<Revision>(py) {
248 match item.extract::<Revision>(py) {
249 Ok(rev) => {
249 Ok(rev) => {
250 Ok(rev >= -1 && rev < cindex.inner().len(py)? as Revision)
250 Ok(rev >= -1 && rev < cindex.inner().len(py)? as Revision)
251 }
251 }
252 Err(_) => {
252 Err(_) => {
253 cindex.inner().call_method(
253 cindex.inner().call_method(
254 py,
254 py,
255 "has_node",
255 "has_node",
256 PyTuple::new(py, &[item]),
256 PyTuple::new(py, &[item]),
257 None)?
257 None)?
258 .extract(py)
258 .extract(py)
259 }
259 }
260 }
260 }
261 }
261 }
262
262
263 def nodemap_data_all(&self) -> PyResult<PyBytes> {
264 self.inner_nodemap_data_all(py)
265 }
266
263
267
264 });
268 });
265
269
266 impl MixedIndex {
270 impl MixedIndex {
267 fn new(py: Python, cindex: PyObject) -> PyResult<MixedIndex> {
271 fn new(py: Python, cindex: PyObject) -> PyResult<MixedIndex> {
268 Self::create_instance(
272 Self::create_instance(
269 py,
273 py,
270 RefCell::new(cindex::Index::new(py, cindex)?),
274 RefCell::new(cindex::Index::new(py, cindex)?),
271 RefCell::new(None),
275 RefCell::new(None),
272 )
276 )
273 }
277 }
274
278
275 /// This is scaffolding at this point, but it could also become
279 /// This is scaffolding at this point, but it could also become
276 /// a way to start a persistent nodemap or perform a
280 /// a way to start a persistent nodemap or perform a
277 /// vacuum / repack operation
281 /// vacuum / repack operation
278 fn fill_nodemap(
282 fn fill_nodemap(
279 &self,
283 &self,
280 py: Python,
284 py: Python,
281 nt: &mut NodeTree,
285 nt: &mut NodeTree,
282 ) -> PyResult<PyObject> {
286 ) -> PyResult<PyObject> {
283 let index = self.cindex(py).borrow();
287 let index = self.cindex(py).borrow();
284 for r in 0..index.len() {
288 for r in 0..index.len() {
285 let rev = r as Revision;
289 let rev = r as Revision;
286 // in this case node() won't ever return None
290 // in this case node() won't ever return None
287 nt.insert(&*index, index.node(rev).unwrap(), rev)
291 nt.insert(&*index, index.node(rev).unwrap(), rev)
288 .map_err(|e| nodemap_error(py, e))?
292 .map_err(|e| nodemap_error(py, e))?
289 }
293 }
290 Ok(py.None())
294 Ok(py.None())
291 }
295 }
292
296
293 fn get_nodetree<'a>(
297 fn get_nodetree<'a>(
294 &'a self,
298 &'a self,
295 py: Python<'a>,
299 py: Python<'a>,
296 ) -> PyResult<&'a RefCell<Option<NodeTree>>> {
300 ) -> PyResult<&'a RefCell<Option<NodeTree>>> {
297 if self.nt(py).borrow().is_none() {
301 if self.nt(py).borrow().is_none() {
298 let readonly = Box::new(Vec::new());
302 let readonly = Box::new(Vec::new());
299 let mut nt = NodeTree::load_bytes(readonly, 0);
303 let mut nt = NodeTree::load_bytes(readonly, 0);
300 self.fill_nodemap(py, &mut nt)?;
304 self.fill_nodemap(py, &mut nt)?;
301 self.nt(py).borrow_mut().replace(nt);
305 self.nt(py).borrow_mut().replace(nt);
302 }
306 }
303 Ok(self.nt(py))
307 Ok(self.nt(py))
304 }
308 }
305
309
306 /// forward a method call to the underlying C index
310 /// forward a method call to the underlying C index
307 fn call_cindex(
311 fn call_cindex(
308 &self,
312 &self,
309 py: Python,
313 py: Python,
310 name: &str,
314 name: &str,
311 args: &PyTuple,
315 args: &PyTuple,
312 kwargs: Option<&PyDict>,
316 kwargs: Option<&PyDict>,
313 ) -> PyResult<PyObject> {
317 ) -> PyResult<PyObject> {
314 self.cindex(py)
318 self.cindex(py)
315 .borrow()
319 .borrow()
316 .inner()
320 .inner()
317 .call_method(py, name, args, kwargs)
321 .call_method(py, name, args, kwargs)
318 }
322 }
319
323
320 pub fn clone_cindex(&self, py: Python) -> cindex::Index {
324 pub fn clone_cindex(&self, py: Python) -> cindex::Index {
321 self.cindex(py).borrow().clone_ref(py)
325 self.cindex(py).borrow().clone_ref(py)
322 }
326 }
327
328 /// Returns the full nodemap bytes to be written as-is to disk
329 fn inner_nodemap_data_all(&self, py: Python) -> PyResult<PyBytes> {
330 let nodemap = self.get_nodetree(py)?.borrow_mut().take().unwrap();
331 let (readonly, bytes) = nodemap.into_readonly_and_added_bytes();
332
333 // If there's anything readonly, we need to build the data again from
334 // scratch
335 let bytes = if readonly.len() > 0 {
336 let mut nt = NodeTree::load_bytes(Box::new(vec![]), 0);
337 self.fill_nodemap(py, &mut nt)?;
338
339 let (readonly, bytes) = nt.into_readonly_and_added_bytes();
340 assert_eq!(readonly.len(), 0);
341
342 bytes
343 } else {
344 bytes
345 };
346
347 let bytes = PyBytes::new(py, &bytes);
348 Ok(bytes)
349 }
323 }
350 }
324
351
325 fn revlog_error(py: Python) -> PyErr {
352 fn revlog_error(py: Python) -> PyErr {
326 match py
353 match py
327 .import("mercurial.error")
354 .import("mercurial.error")
328 .and_then(|m| m.get(py, "RevlogError"))
355 .and_then(|m| m.get(py, "RevlogError"))
329 {
356 {
330 Err(e) => e,
357 Err(e) => e,
331 Ok(cls) => PyErr::from_instance(py, cls),
358 Ok(cls) => PyErr::from_instance(py, cls),
332 }
359 }
333 }
360 }
334
361
335 fn rev_not_in_index(py: Python, rev: Revision) -> PyErr {
362 fn rev_not_in_index(py: Python, rev: Revision) -> PyErr {
336 PyErr::new::<ValueError, _>(
363 PyErr::new::<ValueError, _>(
337 py,
364 py,
338 format!(
365 format!(
339 "Inconsistency: Revision {} found in nodemap \
366 "Inconsistency: Revision {} found in nodemap \
340 is not in revlog index",
367 is not in revlog index",
341 rev
368 rev
342 ),
369 ),
343 )
370 )
344 }
371 }
345
372
346 /// Standard treatment of NodeMapError
373 /// Standard treatment of NodeMapError
347 fn nodemap_error(py: Python, err: NodeMapError) -> PyErr {
374 fn nodemap_error(py: Python, err: NodeMapError) -> PyErr {
348 match err {
375 match err {
349 NodeMapError::MultipleResults => revlog_error(py),
376 NodeMapError::MultipleResults => revlog_error(py),
350 NodeMapError::RevisionNotInIndex(r) => rev_not_in_index(py, r),
377 NodeMapError::RevisionNotInIndex(r) => rev_not_in_index(py, r),
351 NodeMapError::InvalidNodePrefix(s) => invalid_node_prefix(py, &s),
378 NodeMapError::InvalidNodePrefix(s) => invalid_node_prefix(py, &s),
352 }
379 }
353 }
380 }
354
381
355 fn invalid_node_prefix(py: Python, ne: &NodeError) -> PyErr {
382 fn invalid_node_prefix(py: Python, ne: &NodeError) -> PyErr {
356 PyErr::new::<ValueError, _>(
383 PyErr::new::<ValueError, _>(
357 py,
384 py,
358 format!("Invalid node or prefix: {:?}", ne),
385 format!("Invalid node or prefix: {:?}", ne),
359 )
386 )
360 }
387 }
361
388
362 /// Create the module, with __package__ given from parent
389 /// Create the module, with __package__ given from parent
363 pub fn init_module(py: Python, package: &str) -> PyResult<PyModule> {
390 pub fn init_module(py: Python, package: &str) -> PyResult<PyModule> {
364 let dotted_name = &format!("{}.revlog", package);
391 let dotted_name = &format!("{}.revlog", package);
365 let m = PyModule::new(py, dotted_name)?;
392 let m = PyModule::new(py, dotted_name)?;
366 m.add(py, "__package__", package)?;
393 m.add(py, "__package__", package)?;
367 m.add(py, "__doc__", "RevLog - Rust implementations")?;
394 m.add(py, "__doc__", "RevLog - Rust implementations")?;
368
395
369 m.add_class::<MixedIndex>(py)?;
396 m.add_class::<MixedIndex>(py)?;
370
397
371 let sys = PyModule::import(py, "sys")?;
398 let sys = PyModule::import(py, "sys")?;
372 let sys_modules: PyDict = sys.get(py, "modules")?.extract(py)?;
399 let sys_modules: PyDict = sys.get(py, "modules")?.extract(py)?;
373 sys_modules.set_item(py, dotted_name, &m)?;
400 sys_modules.set_item(py, dotted_name, &m)?;
374
401
375 Ok(m)
402 Ok(m)
376 }
403 }
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