view design.txt @ 16:254078595653

Print manifest nodeid
author Artem Tikhomirov <tikhomirov.artem@gmail.com>
date Mon, 27 Dec 2010 01:00:53 +0100
parents 865bf07f381f
children 571e1b2cc3f7
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FileStructureWalker (pass HgFile, HgFolder to callable; which can ask for VCS data from any file)
External uses: user browses files, selects one and asks for its history 
Params: tip/revision; 
Implementation: manifest

Log --rev
Log <file>
HgDataFile.history() or Changelog.history(file)?


Changelog.all() to return list with placeholder, not-parsed elements (i.e. read only compressedLen field and skip to next record), so that
total number of elements in the list is correct

hg cat
Implementation: logic to find file by name in the repository is the same with Log and other commands


Revlog
What happens when big entry is added to a file - when it detects it can't longer fit into .i and needs .d? Inline flag and .i format changes?


----------
+ support patch from baseRev + few deltas (although done in a way patches are applied one by one instead of accumulated)
+ command-line samples (-R, filenames) (Log & Cat) to show on any repo
+buildfile + run samples
*input stream impl + lifecycle. Step forward with FileChannel and ByteBuffer, although questionable accomplishment (looks bit complicated, cumbersome)
+ dirstate.mtime

calculate sha1 digest for file to see I can deal with nodeid
DataAccess - collect debug info (buffer misses, file size/total read operations) to find out better strategy to buffer size detection.
delta merge
Changeset to get index (local revision number)
.hgignored processing
RevisionWalker (on manifest) and WorkingCopyWalker (io.File) talking to ? and/or dirstate 


??? encodings of fncache, .hgignore, dirstate
??? http://mercurial.selenic.com/wiki/Manifest says "Multiple changesets may refer to the same manifest revision". To me, each changeset 
changes repository, hence manifest should update nodeids of the files it lists, effectively creating new manifest revision.

>>>> Effective file read/data access
ReadOperation, Revlog does: repo.getFileSystem().run(this.file, new ReadOperation(), long start=0, long end = -1)
ReadOperation gets buffer (of whatever size, as decided by FS impl), parses it and then  reports if needs more data.
This helps to ensure streams are closed after reading, allows caching (if the same file (or LRU) is read few times in sequence)
and allows buffer management (i.e. reuse. Single buffer for all reads). 
Scheduling multiple operations (in future, to deal with writes - single queue for FS operations - no locks?)

File access:
* NIO and mapped files - should be fast. Although seems to give less control on mem usage. 
* Regular InputStreams and  chunked stream on top - allocate List<byte[]>, each (but last) chunk of fixed size (depending on initial file size) 

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