This was causing a panic in the reflect package
since type.* pointers with their low bits set are
assumed to have certain flags set that disallow
the use of reflection.
Thanks to Pavel and Taru for help tracking down
this bug.
R=rsc, paulzhol, taruti
CC=golang-dev
https://golang.org/cl/4511041
There were a couple issues:
-- HEAD requests were attempting to be ungzipped,
despite having no content. That was fixed in
the previous patch version, but ultimately was
fixed as a result of other refactoring:
-- persist.go's ClientConn "lastbody" field was
remembering the wrong body, since we were
mucking with it later. Instead, ditch
ClientConn's readRes func field and add a new
method passing it in, so we can use a closure
and do all our bodyEOFSignal + gunzip stuff
in one place, simplifying a lot of code and
not requiring messing with ClientConn's innards.
-- closing the gzip reader didn't consume its
contents. if the caller wasn't done reading
all the response body and ClientConn closed it
(thinking it'd move past those bytes in the
TCP stream), it actually wouldn't. so introduce
a new wrapper just for gzip reader to have its
Close method do an ioutil.Discard on its body
first, before the close.
Fixes#1725Fixes#1804
R=rsc, eivind
CC=golang-dev
https://golang.org/cl/4523058
RFC 6265 requires that user agents MUST NOT send more than
one Cookie header in a request.
Note, this change also fixes an issue when sending requests
with more than one cookie header line to a php script served
by an apache web server. Apache concatenates the cookies
with ", ", but php tries to split them only at ";". E.g.
two cookies: "a=b, c=d" are seen by php as one cookie "a"
with the value "b, c=d".
Fixes#1801
R=bradfitz
CC=golang-dev
https://golang.org/cl/4535048
An optimization in Transport which re-uses TCP
connections early in the case where there is
no response body interacted poorly with
ErrBodyReadAfterClose. Upon recycling the TCP
connection early we would Close the Response.Body
(in case the user forgot to), but in the case
of a zero-lengthed body, the user's handler might
not have run yet.
This CL makes sure the Transport doesn't try
to Close requests when we're about to immediately
re-use the TCP connection.
This also includes additional tests I wrote
while debugging.
R=rsc, bradfitzgoog
CC=golang-dev
https://golang.org/cl/4529050
crl parses CRLs and exposes their details. In the future, Verify
should be able to use this for revocation checking.
R=bradfitz
CC=golang-dev
https://golang.org/cl/4485045
So far, only top-level names where considered when trimming ASTs
using a filter function. For instance, "godoc reflect Implements"
didn't show the "Implements" method of the type Interface because
the local method name was not considered (on the other hand, "top-
level" declared methods associated with types were considered).
With this CL, AST filter functions look also at struct fields
and interface methods.
R=rsc, r
CC=golang-dev
https://golang.org/cl/4518050
writing the idct result directly to the image buffer instead of
storing it in an intermediate d.blocks field.
Writing to d.blocks was necessary when decoding to an image.RGBA image,
but now that we decode to a ycbcr.YCbCr we can write each component
directly to the image buffer.
Crude "time ./6.out" scores to decode a specific 2592x1944 JPEG 20
times show a 16% speed-up:
BEFORE
user 0m10.410s
user 0m10.400s
user 0m10.480s
user 0m10.480s
user 0m10.460s
AFTER
user 0m9.050s
user 0m9.050s
user 0m9.050s
user 0m9.070s
user 0m9.020s
R=r
CC=golang-dev
https://golang.org/cl/4523052
When traversing parameter lists (e.g. for type checking), we want the
invariant that all identifers have associated objects (even _ idents),
so that we can associate a type with each object.
R=rsc
CC=golang-dev
https://golang.org/cl/4490042
At least, as I understand it. The spec is unclear about what happens
with a local color map.
R=nigeltao, r2
CC=golang-dev
https://golang.org/cl/4515045
This change fixes generation of "shadow" variables for bool parameters.
Before the change, it was naming all bool variables with the same name of _p0.
Now it calls them _p0, _p1, ... So the code could compile.
R=golang-dev, r
CC=golang-dev
https://golang.org/cl/4479047
It's incomplete but sufficient to decode 8-bit GIFs without interlacing
or transparency. More to come.
I'll put in more tests as the feature set grows.
R=nigeltao, r2
CC=golang-dev
https://golang.org/cl/4522041
This means that the -x flag can work, which could enable
support for other languages (e.g. objective-C).
R=iant, rsc
CC=golang-dev
https://golang.org/cl/4476049
The current iteration can decode 8-bit images in
grayscale, paletted, RGB, RGBA and NRGBA mode. LZW compression
is implemented but does not work on my test images.
Deflate (i.e. zlib) compression with or without a horizontal
predictor is supported.
R=nigeltao, nigeltao_gnome
CC=golang-dev, mpl
https://golang.org/cl/4240051
Encoder now writes tRNS chunk for non-opaque paletted images.
CL includes new test images (basn3a08-trns.[ps]ng).
R=nigeltao, rsc, r
CC=golang-dev
https://golang.org/cl/4432078
On my laptop, I had an 800x600 jpeg and an 800x600 png (with
transparency). I timed how long it took to draw each image onto an
equivalently sized, zeroed RGBA image.
Previously, the jpeg took 75ms and the png took 70ms, going through
the medium-fast path, i.e. func drawRGBA in draw.go.
After this CL, the jpeg took 14ms, and the png took 21ms with the
Over operator and 12ms with the Src operator.
It's only a rough estimate basd on one image file, but it should
give an idea of the order of magnitude of improvement.
R=rsc, r
CC=adg, golang-dev
https://golang.org/cl/4468044