* blobImpl references are now only kept in nsHostObjectProtocolHandler
* removes nsHostObjectProtocolHandler.idl
* Makes nsHostObjectURI no longer inherit from nsSupportsWeakReference
MozReview-Commit-ID: AC1klrfsMnn
--HG--
extra : rebase_source : 142802f9a6fa6aae5611dccf117d88f96a9985a6
* Deserialization now only happens via a mutator
* The CID for URI implementations actually returns the nsIURIMutator for each class
* The QueryInterface of mutators implementing nsISerializable will now act as a finalizer if passed the IID of an interface implemented by the URI it holds
MozReview-Commit-ID: H5MUJOEkpia
--HG--
extra : rebase_source : 01c8d16f7d31977eda6ca061e7889cedbf6940c2
* Deserialization now only happens via a mutator
* The CID for URI implementations actually returns the nsIURIMutator for each class
* The QueryInterface of mutators implementing nsISerializable will now act as a finalizer if passed the IID of an interface implemented by the URI it holds
MozReview-Commit-ID: H5MUJOEkpia
--HG--
extra : rebase_source : 8ebb459445cab23288a6c4c86e4e00c6ee611e34
Note that by not using the same context pointer for all timestamps within a single
'communication group' (that is, all things that can communication to each other
in JavaScript), it's possible to observe time going backwards.
Imagine comparing
performance.timeOrigin + performance.now() < new File([], "").lastModified
In theory this should always be true. However, if performance.now() was jittered
up (using one context pointer, because it is a relative timestamp) and File was
jittered down (using a null context pointer, because it is an absolute timestamp)
then this may evaluate to False.
I think this is okay.
MozReview-Commit-ID: BfgbmGS8XdD
--HG--
extra : rebase_source : 1d105d9b63e61561be06dbfe2a3fccf534ee68b3
We instead add a templated method NS_MutatorMethod that returns a std::function<nsresult(nsIURIMutator*)> which Apply then calls with mMutator as an argument.
The function returned by NS_MutatorMethod performs a QueryInterface, then calls the passed method with arguments on the result.
MozReview-Commit-ID: Jjqp7gGLG1D
--HG--
extra : rebase_source : f2a17aee7bb66a7ba8652817d43b9aa7ec7ef710
We instead add a templated method NS_MutatorMethod that returns a std::function<nsresult(nsIURIMutator*)> which Apply then calls with mMutator as an argument.
The function returned by NS_MutatorMethod performs a QueryInterface, then calls the passed method with arguments on the result.
MozReview-Commit-ID: Jjqp7gGLG1D
--HG--
extra : rebase_source : 592d13349a8c4627c7ce3146ec592f577b39f3cc
The change to RootAccessible.cpp fixes an obvious bug introduced in bug 741707.
The visibility changes in gfx/thebes are because NS_DECL_ISUPPORTS has a
trailing "public:" that those classes were relying on to have public
constructors.
MozReview-Commit-ID: IeB8KIJCGhU
This patch was autogenerated by my decomponents.py
It covers almost every file with the extension js, jsm, html, py,
xhtml, or xul.
It removes blank lines after removed lines, when the removed lines are
preceded by either blank lines or the start of a new block. The "start
of a new block" is defined fairly hackily: either the line starts with
//, ends with */, ends with {, <![CDATA[, """ or '''. The first two
cover comments, the third one covers JS, the fourth covers JS embedded
in XUL, and the final two cover JS embedded in Python. This also
applies if the removed line was the first line of the file.
It covers the pattern matching cases like "var {classes: Cc,
interfaces: Ci, utils: Cu, results: Cr} = Components;". It'll remove
the entire thing if they are all either Ci, Cr, Cc or Cu, or it will
remove the appropriate ones and leave the residue behind. If there's
only one behind, then it will turn it into a normal, non-pattern
matching variable definition. (For instance, "const { classes: Cc,
Constructor: CC, interfaces: Ci, utils: Cu } = Components" becomes
"const CC = Components.Constructor".)
MozReview-Commit-ID: DeSHcClQ7cG
--HG--
extra : rebase_source : d9c41878036c1ef7766ef5e91a7005025bc1d72b