Commit Graph

87 Commits

Author SHA1 Message Date
Dan Halbert
d582407b06 pre-commit fixes 2023-08-14 00:59:22 -04:00
Dan Halbert
48e404ab90 wip; fix frozen; still need to fix -j1 for frozen 2023-08-12 15:44:27 -04:00
Dan Halbert
8a89a3d425 sort TRANSLATION()'s 2023-08-11 13:36:03 -04:00
Dan Halbert
fe0e2f13bc wip; fix qstr processing 2023-08-10 20:06:32 -04:00
MicroDev
d9d94eacca
run updated pre-commit 2023-02-01 13:38:41 +05:30
Scott Shawcroft
fd5ef009a4
Move compressed strings into own object file
This breaks the translation dependency to all of the other objects
and therefore speeds up subsequent builds. Now, even when the big
translate() function is inlined in the header, it only needs to be
optimized once.
2022-06-02 11:48:56 -07:00
Scott Shawcroft
9d10a3da66
Conditionalize LTO 2022-05-27 12:59:54 -07:00
Jeff Epler
d59a28db97 Compress word offset table
By storing "count of words by length", the long `wends` table can be
replaced with a short `wlencount` table.  This saves flash storage space.

Extend the range of string lengths that can be in the dictionary.
Originally it was to 2 to 9; at one point it was changed to 3 to 9.
Putting the lower bound back at 2 has a positive impact on the French
translation (a bunch of them, such as "ch", "\r\n", "%q", are used).
Increasing the maximum length gets 'mpossible', ' doit être ',
and 'CircuitPyth' at the long end.  This adds a bit of processing time
to makeqstrdata. The specific 2/11 values are again empirical based on
the French translation on the adafruit_proxlight_trinkey_m0.
2021-08-07 09:23:35 -05:00
Jeff Epler
0b8b16f6ac increase comment on accuracy of the net savings estimate function
Thanks to tyomitch for suggesting the comment could be more accurate.
2021-07-11 08:57:27 -05:00
Jeff Epler
52e75c645d makeqstrdata: Don't include strings that are a net loss! 2021-07-09 14:26:43 -05:00
Jeff Epler
8836198ff1 TextSplitter: don't mutate 'words'
I was puzzled by why the dictionary words were sorted by length.
It was because TextSplitter sorted its parameter, instead of a copy.

This doesn't affect encoding size, but does affect the encoding NUMBER
of the found words.  We'll deliberately restore sorting by length next,
for other reasons, but not by spooky action.
2021-07-09 14:02:31 -05:00
Jeff Epler
99abd03b7a makeqstrdata: use an extremely accurate dictionary heuristic
Try to accurately measure the costs of including a word in the dictionary
vs the gains from using it in messages.

This saves about 160 bytes on trinket_m0 ja, the fullest translation
for that board.  Other translations on the same board all have savings,
ranging from 24 to 228 bytes.

```
Translation     Before  After   Savings
ja              1164    1324    160
de_DE           1260    1396    136
fr              1424    1652    228
zh_Latn_pinyin  1448    1520    72
pt_BR           1584    1736    152
pl              1592    1640    48
es              1724    1816    92
ko              1724    1816    92
fil             1764    1800    36
it_IT           1896    2040    144
nl              1956    2136    180
ID              2072    2180    108
cs              2124    2148    24
sv              2340    2448    108
en_x_pirate     2644    2740    96
en_GB           2652    2752    100
el              2656    2768    112
en_US           2656    2768    112
hi              2656    2768    112
```
2021-07-09 12:45:49 -05:00
Jeff Epler
45dc0953a5 makeqstrdata.py: Remove a problematic print
.. it contained non-ASCII characters, even when building the standard
English translation.

This may help resolve the build problems reported at #4750.
2021-05-11 21:48:21 -05:00
Scott Shawcroft
b35fa44c8a
Merge MicroPython 1.12 into CircuitPython 2021-05-03 14:01:18 -07:00
Jeff Epler
dfa7c3d32d codeformat: Fix handling of **
After discussing with danh, I noticed that `a/**/b` would not match `a/b`.

After correcting this and re-running "pre-commit run --all", additional
files were reindented, including the codeformat script itself.
2021-04-30 15:30:13 -05:00
Scott Shawcroft
76033d5115
Merge MicroPython v1.11 into CircuitPython 2021-04-26 15:47:41 -07:00
Scott Shawcroft
e54e5e3575
Merge pull request #4564 from tyomitch/patch-1
[build] simplify makeqstrdata heuristic
2021-04-19 14:50:42 -07:00
Artyom Skrobov
dcee89ade7 build: simplify compute_huffman_coding()
No functional change.
2021-04-09 08:36:26 -04:00
Artyom Skrobov
68920682b6 [build] simplify makeqstrdata heuristic
The simpler one saves, on average, 51 more bytes per translation;
the biggest translation per board is reduced, on average, by 85 bytes.
2021-04-09 07:18:40 -04:00
Artyom Skrobov
c3e40d50ab [qstr] Separate hash and len from string data
This allows the compiler to merge strings: e.g. "update",
"difference_update" and "symmetric_difference_update"
will all point to the same memory.

Shaves ~1KB off the image size, and potentially allows
bigger savings if qstr attrs are initialized in qstr_init(),
and not stored in the image.
2021-04-06 12:58:42 -04:00
microDev
a52eb88031
run code formatting script 2021-03-15 19:27:36 +05:30
Jeff Epler
0318eb359f makeqstrdata: Work around python3.6 compatibility problem
Discord user Folknology encountered a problem building with Python 3.6.9,
`TypeError: ord() expected a character, but string of length 0 found`.

I was able to reproduce the problem using Python3.5*, and discovered that
the meaning of the regular expression `"|."` had changed in 3.7.  Before,
```
>>> [m.group(0) for m in re.finditer("|.", "hello")]
['', '', '', '', '', '']
```
After:
```
>>> [m.group(0) for m in re.finditer("|.", "hello")]
['', 'h', '', 'e', '', 'l', '', 'l', '', 'o', '']
```
Check if `words` is empty and if so use `"."` as the regular expression
instead.  This gives the same result on both versions:
```
['h', 'e', 'l', 'l', 'o']
```
and fixes the generation of the huffman dictionary.

Folknology verified that this fix worked for them.

 * I could easily install 3.5 but not 3.6.  3.5 reproduced the same problem
2020-09-21 10:03:07 -05:00
Jeff Epler
bfbbbd6c5c makeqstrdata: Work with older Python
This construct (which I added without sufficient testing,
apparently) is only supported in Python 3.7 and newer.  Make it
optional so that this script works on other Python versions.  This
means that if you have a system with non-UTF-8 encoding you will
need to use Python 3.7.

In particular, this affects a problem building circuitpython in
github's ubuntu-18.04 virtual environment when Python 3.7 is not
explicitly installed.  cookie-cuttered libraries call for Python
3.6:
```
    - name: Set up Python 3.6
      uses: actions/setup-python@v1
      with:
        python-version: 3.6
```
Since CircuitPython's own build calls for 3.8, this problem was not
detected.

This problem was also encountered by discord user mdroberts1243.

The failure I encountered was here:
https://github.com/jepler/Jepler_CircuitPython_udecimal/runs/1138045020?check_suite_focus=true
.. while my step of "clone and build circuitpython unix port" is
unusual, I think the same problem would have affected "build assets"
if that step had been reached.
2020-09-19 10:16:13 -05:00
Jeff Epler
a8e98cda83 makeqstrdata: comment my understanding of @ciscorn's code 2020-09-16 08:28:15 -05:00
Taku Fukada
d18d79ac47 Small improvements to the dictionary compression 2020-09-14 01:50:01 +09:00
Jeff Epler
15964a4750 makeqstrdata: Avoid encoding problems
Most users and the CI system are running in configurations where Python
configures stdout and stderr in UTF-8 mode.  However, Windows is different,
setting values like CP1252.  This led to a build failure on Windows, because
makeqstrdata printed Unicode strings to its stdout, expecting them to be
encoded as UTF-8.

This script is writing (stdout) to a compiler input file and potentially
printing messages (stderr) to a log or console.  Explicitly configure stdout to
use utf-8 to get consistent behavior on all platforms, and configure stderr so
that if any log/diagnostic messages are printed that cannot be displayed
correctly, they are still displayed instead of creating an error while trying
to print the diagnostic information.

I considered setting the encodings both to ascii, but this would just be
occasionally inconvenient to developers like me who want to show diagnostic
info on stderr and in comments while working with the compression code.

Closes: #3408
2020-09-12 19:43:08 -05:00
Jeff Epler
40ab5c6b21 compression: Implement ciscorn's dictionary approach
Massive savings.  Thanks so much @ciscorn for providing the initial
code for choosing the dictionary.

This adds a bit of time to the build, both to find the dictionary
but also because (for reasons I don't fully understand), the binary
search in the compress() function no longer worked and had to be
replaced with a linear search.

I think this is because the intended invariant is that for codebook
entries that encode to the same number of bits, the entries are ordered
in ascending value.  However, I mis-placed the transition from "words"
to "byte/char values" so the codebook entries for words are in word-order
rather than their code order.

Because this price is only paid at build time, I didn't care to determine
exactly where the correct fix was.

I also commented out a line to produce the "estimated total memory size"
-- at least on the unix build with TRANSLATION=ja, this led to a build
time KeyError trying to compute the codebook size for all the strings.
I think this occurs because some single unicode code point ('ァ') is
no longer present as itself in the compressed strings, due to always
being replaced by a word.

As promised, this seems to save hundreds of bytes in the German translation
on the trinket m0.

Testing performed:
 - built trinket_m0 in several languages
 - built and ran unix port in several languages (en, de_DE, ja) and ran
   simple error-producing codes like ./micropython -c '1/0'
2020-09-12 10:10:45 -05:00
Jeff Epler
bdb07adfcc translations: Make decompression clearer
Now this gets filled in with values e.g., 128 (0x80) and 159 (0x9f).
2020-09-08 19:07:53 -05:00
Jeff Epler
cbfd38d1ce Rename functions to encode_ngrams / decode_ngrams 2020-09-02 19:09:23 -05:00
Jeff Epler
c34cb82ecb makeqstrdata: correct range of low code points to 0x80..0x9f inclusive
The previous range was unintentionally big and overlaps some characters
we'd like to use (and also 0xa0, which we don't intentionally use)
2020-09-02 15:52:02 -05:00
Jeff Epler
07740d19f3 add bigram compression to makeqstrdata
Compress common unicode bigrams by making code points in the range
0x80 - 0xbf (inclusive) represent them.  Then, they can be greedily
encoded and the substituted code points handled by the existing Huffman
compression.  Normally code points in the range 0x80-0xbf are not used
in Unicode, so we stake our own claim.  Using the more arguably correct
"Private Use Area" (PUA) would mean that for scripts that only use
code points under 256 we would use more memory for the "values" table.

bigram means "two letters", and is also sometimes called a "digram".
It's nothing to do with "big RAM".  For our purposes, a bigram represents
two successive unicode code points, so for instance in our build on
trinket m0 for english the most frequent are:
['t ', 'e ', 'in', 'd ', ...].

The bigrams are selected based on frequency in the corpus, but the
selection is not necessarily optimal, for these reasons I can think of:
 * Suppose the corpus was just "tea" repeated 100 times.  The
   top bigrams would be "te", and "ea".  However,
   overlap, "te" could never be used.  Thus, some bigrams might actually
   waste space
    * I _assume_ this has to be why e.g., bigram 0x86 "s " is more
      frequent than bigram 0x85 " a" in English for Trinket M0, because
      sequences like "can't add" would get the "t " digram and then
      be unable to use the " a" digram.

 * And generally, if a bigram is frequent then so are its constituents.
   Say that "i" and "n" both encode to just 5 or 6 bits, then the huffman
   code for "in" had better compress to 10 or fewer bits or it's a net
   loss!
    * I checked though!  "i" is 5 bits, "n" is 6 bits (lucky guess)
      but the bigram 0x83 also just 6 bits, so this one is a win of
      5 bits for every "it" minus overhead.  Yay, this round goes to team
      compression.
    * On the other hand, the least frequent bigram 0x9d " n" is 10 bits
      long and its constituent code points are 4+6 bits so there's no
      savings, but there is the cost of the table entry.
    * and somehow 0x9f 'an' is never used at all!

With or without accounting for overlaps, there is some optimum number
of bigrams.  Adding one more bigram uses at least 2 bytes (for the
entry in the bigram table; 4 bytes if code points >255 are in the
source text) and also needs a slot in the Huffman dictionary, so
adding bigrams beyond the optimim number makes compression worse again.

If it's an improvement, the fact that it's not guaranteed optimal
doesn't seem to matter too much.  It just leaves a little more fruit
for the next sweep to pick up.  Perhaps try adding the most frequent
bigram not yet present, until it doesn't improve compression overall.

Right now, de_DE is again the "fullest" build on trinket_m0.  (It's
reclaimed that spot from the ja translation somehow)  This change saves
104 bytes there, increasing free space about 6.8%.  In the larger
(but not critically full) pyportal build it saves 324 bytes.

The specific number of bigrams used (32) was chosen as it is the max
number that fit within the 0x80..0xbf range.  Larger tables would
require the use of 16 bit code points in the de_DE build, losing savings
overall.

(Side note: The most frequent letters in English have been said
to be: ETA OIN SHRDLU; but we have UAC EIL MOPRST in our corpus)
2020-09-01 17:12:22 -05:00
Taku Fukada
79a3796b1c Calculate the Huffman codebook without MP_QSTRs 2020-08-18 23:21:14 +09:00
Jeff Epler
08ed09acc6 makeqstrdata: don't print "compression incrased length" messages
This check as implemented is misleading, because it compares the
compressed size in bytes (including the length indication) with the source
string length in Unicode code points.  For English this is approximately
fair, but for Japanese this is quite unfair and produces an excess of
"increased length" messages.

This message might have existed for one of two reasons:
 * to alert to an improperly function huffman compression
 * to call attention to a need for a "string is stored uncompressed" case
We know by now that the huffman compression is functioning as designed and
effective in general.

Just to be on the safe side, I did some back-of-the-envelope estimates.
I considered these three replacements for "the true source string size, in bytes":
+    decompressed_len_utf8 = len(decompressed.encode('utf-8'))
+    decompressed_len_utf16 = len(decompressed.encode('utf-16be'))
+    decompressed_len_bitsize = ((1+len(decompressed)) * math.ceil(math.log(1+len(values), 2)) + 7) // 8

The third counts how many bits each character requires (fewer than 128
characters in the source character set = 7, fewer than 256 = 8, fewer than 512
= 9, etc, adding a string-terminating value) and is in some way representative
of the best way we would be able to store "uncompressed strings".  The Japanese
translation (largest as of writing) has just a few strings which increase by
this metric.  However, the amount of loss due to expansion in those cases is
outweighed by the cost of adding 1 bit per string to indicate whether it's
compressed or not.  For instance, in the BOARD=trinket_m0 TRANSLATION=ja build
the loss is 47 bytes over 300 strings.  Adding 1 bit to each of 300 strings will
cost about 37 bytes, leaving just 5 Thumb instructions to implement the code to
check and decode "uncompressed" strings in order to break even.
2020-08-16 20:50:48 -05:00
Jeff Epler
d0f9b5901e translations: document the compressed format 2020-05-28 11:30:46 -05:00
Jeff Epler
fe3e8d1589 string compression: save a few bits per string
Length was stored as a 16-bit number always.  Most translations have
a max length far less.  For example, US English translation lengths
always fit in just 8 bits.  probably all languages fit in 9 bits.

This also has the side effect of reducing the alignment of
compressed_string_t from 2 bytes to 1.

testing performed: ran in german and english on pyruler, printed messages
looked right.

Firmware size, en_US
Before: 3044 bytes free in flash
After: 3408 bytes free in flash

Firmware size, de_DE (with #2967 merged to restore translations)
Before: 1236 bytes free in flash
After: 1600 bytes free in flash
2020-05-28 08:36:08 -05:00
Jeff Epler
1a0dcb5caa makeqstrdata: reclaim some more bytes on some translations
If a translation only has unicode code points 255 and below, the "values"
array can be 8 bits instead of 16 bits.  This reclaims some code size,
e.g., in a local build, trinket_m0 / en_US reclaimed 112 bytes and de_DE
reclaimed 104 bytes.  However, languages like zh_Latn_pinyin, which use
code points above 255, did not benefit.
2019-12-02 14:49:23 -06:00
Jeff Epler
879e1041c9 makeqstrdata: fix printing of 'increased length' message 2019-12-02 10:18:48 -06:00
Jeff Epler
e06a3bbceb translation: Compress as unicode, not bytes
By treating each unicode code-point as a single entity for huffman
compression, the overall compression rate can be somewhat improved
without changing the algorithm.  On the decompression side, when
compressed values above 127 are encountered, they need to be
converted from a 16-bit Unicode code point into a UTF-8 byte
sequence.

Doing this returns approximately 1.5kB of flash storage with the
zh_Latn_pinyin translation. (292 -> 1768 bytes remaining in my build
of trinket_m0)

Other "more ASCII" translations benefit less, and in fact
zh_Latn_pinyin is no longer the most constrained translation!
(de_DE 1156 -> 1384 bytes free in flash, I didn't check others
before pushing for CI)

English is slightly pessimized, 2840 -> 2788 bytes, probably mostly
because the "values" array was changed from uint8_t to uint16_t,
which is strictly not required for an all-ASCII translation.  This
could probably be avoided in this case, but as English is not the
most constrained translation it doesn't really matter.

Testing performed: built for feather nRF52840 express and trinket m0
in English and zh_Latn_pinyin; ran and verified the localized
messages such as
    Àn xià rènhé jiàn jìnrù REPL. Shǐyòng CTRL-D chóngxīn jiāzài.
and
    Press any key to enter the REPL. Use CTRL-D to reload.
were properly displayed.
2019-12-02 09:46:46 -06:00
Jeff Epler
c4f3a02b3b makeqstrdata: permit longer "compressed" outputs
It is possible for this routine to expand some inputs, and in fact
it does for certan strings in the proposed Korean translation of
CircuitPython (#1858).  I did not determine what the maximum
expansion is -- it's probably modest, like len()/7+2 bytes or
something -- so I tried to just make enc[] an adequate
over-allocation, and then ensured that all the strings in the
proposed ko.po now worked.  The worst actual expansion seems to be a
string that goes from 65 UTF-8-encoded bytes to 68 compressed bytes
(+4.6%).  Only a few out of all strings are reported as
non-compressed.
2019-08-06 07:39:09 -05:00
Scott Shawcroft
355abc835e
Fix output overflow and make help translatable 2018-11-09 16:41:08 -08:00
Scott Shawcroft
137a30ad75
fix mpy-cross 2018-08-16 17:40:57 -07:00
Scott Shawcroft
de5a9d72dc
Compress all translated strings with Huffman coding.
This saves code space in builds which use link-time optimization.
The optimization drops the untranslated strings and replaces them
with a compressed_string_t struct. It can then be decompressed to
a c string.

Builds without LTO work as well but include both untranslated
strings and compressed strings.

This work could be expanded to include QSTRs and loaded strings if
a compress method is added to C. Its tracked in #531.
2018-08-16 17:40:57 -07:00
Scott Shawcroft
4513bd6ea3
Fix translation newlines
Escape table was incorrect
2018-08-10 16:17:03 -07:00
Scott Shawcroft
24e53ad591
Rework escaping and fix ESP build. 2018-08-09 15:58:45 -07:00
Scott Shawcroft
96ebf5bc3f
Two fixes and translate more strings.
* Fix finding translations with escaped characters.
* Add back \r to translations since its needed by screen.
2018-08-09 13:29:30 -07:00
Scott Shawcroft
933add6cd8
Support internationalisation. 2018-08-07 14:58:57 -07:00
Damien George
3678a6bdc6 py/modbuiltins: Make built-in dir support the __dir__ special method.
If MICROPY_PY_ALL_SPECIAL_METHODS is enabled then dir() will now delegate
to the special method __dir__ if the object it is listing has this method.
2018-05-10 23:14:23 +10:00
Paul Sokolovsky
9956fd0710 py/objtype: Fit qstrs for special methods in byte type.
Update makeqstrdata.py to sort strings starting with "__" to the beginning
of qstr list, so they get low qstr id's, guaranteedly fitting in 8 bits.
Then use this property to further compact op_id => qstr mapping arrays.
2017-10-21 11:06:32 +03:00
Damien George
f127bef3e4 py/makeqstrdata.py: Compute the qstr hash from bytes, not characters. 2016-09-02 14:32:47 +10:00
Damien George
202d5acd06 py/makeqstrdata.py: Allow to have double-quote characters in qstrs.
When rendering the qstr for a C header file, the double-quate character
must be escaped.
2016-05-23 15:18:55 +01:00