This previous change broke DoubleToIStub on armv6:
https://code.google.com/p/v8/source/detail?r=16322
The problem is that DoubleToIStub::Generate assumed that it could safely use the ip register, but on armv6 the ubfx implementation will clobber any previous value stored there. So instead, pick another register.
Test case:
for (var i=0; i<2; i++) {
v = 4294967295;
v &= -2;
print(v)
}
This should print -2 twice, but on armv6 without this patch, it prints -2 followed by 2046.
This problem causes sunspider's bitops-nsieve-bit, crypto-md5 and crypto-sha1 tests to generate incorrect results (but the results are not checked for validity in sunspider-1.0 as available in chromium, but are checked and reported as incorrect in sunspider-1.0.2).
Thanks to Tomasz Kilarski for helping out with this.
R=bmeurer@chromium.org, rmcilroy@chromium.org
Review URL: https://codereview.chromium.org/131823004
Patch from Mostyn Bramley-Moore <mostynb@opera.com>.
git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@18688 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
This patch makes String::WriteUtf8 replace invalid code points (i.e. unmatched
surrogates) with the unicode replacement character when REPLACE_INVALID_UTF8 is
set. This is done to avoid creating invalid UTF-8 output which can lead to
compatibility issues with software requiring valid UTF-8 inputs (e.g. the
WebSocket protocol requires valid UTF-8 and terminates connections when invalid
UTF-8 is encountered).
R=dcarney@chromium.org
BUG=
Review URL: https://codereview.chromium.org/121173009
Patch from Felix Geisendörfer <haimuiba@gmail.com>.
git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@18683 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
Recent changes in IC logic meant that CallStubs no longer use the Contextual bit. IsUndeclaredGlobal() needed to adjust for that.
In fact, now the CL has morphed to remove the notion of storing contextual state in the IC at all, it just becomes some extra ic state of the load ic. This took some adjustment in harmony code to use the global receiver for certain stores.
Now it's clearer that only LoadICs actually record any information about contextual or not.
R=verwaest@chromium.org
Review URL: https://codereview.chromium.org/140943002
git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@18660 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
When invoking a setter callback for a property using
JSObject::SetPropertyWithCallback(),the callback arguments includes
a correct pair of receiver and holder objects.
Such a pair of _possibly different_ arguments (receiver, holder) must
also be supplied when invoking the same setter callback from JITed
code, when the setter is invoked through the StoreCallbackProperty
stub.
An example where this matters are the accessor properties kept on the
global scope of Worker (i.e., properties kept on the global object
itself, and not on its prototype.) Conflating the receiver with the
holder leads to general confusion when attempting to fetch out the
wrapper object.
LOG=N
R=dcarney@chromium.org, dcarney
BUG=239669
Review URL: https://codereview.chromium.org/139263008
Patch from Sigbjorn Finne <sigbjornf@opera.com>.
git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@18658 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
Port r18626 (d3368a4c)
Original commit message:
The change replaces CallNamed, CallKeyed, CallConstantFunction and CallKnownGlobal hydrogen instructions with two new instructions with a more lower level semantics:
1. CallJSFunction for direct calls of JSFunction objects (no
argument adaptation)
2. CallWithDescriptor for calls of a given Code object according to
the supplied calling convention.
Details:
CallJSFunction should be straightforward, the main difference from the
existing InvokeFunction instruction is the absence of argument adaptor
handling. (As a next step, we will replace InvokeFunction with an
equivalent hydrogen code.)
For CallWithDescriptor, the calling conventions are represented by a
tweaked version of CallStubInterfaceDescriptor. In addition to the
parameter-register mapping, we also define parameter-representation
mapping there. The CallWithDescriptor instruction has variable number of
parameters now - this required some simple tweaks in Lithium, which
assumed fixed number of arguments in some places.
The calling conventions used in the calls are initialized in the
CallDescriptors class (code-stubs.h, <arch>/code-stubs-<arch>.cc), and
they live in a new table in the Isolate class. I should say I am not
quite sure about Representation::Integer32() representation for some of
the params of ArgumentAdaptorCall - it is not clear to me wether the
params could not end up on the stack and thus confuse the GC.
The change also includes an earlier small change to argument adaptor
(https://codereview.chromium.org/98463007) that avoids passing a naked
pointer to the code entry as a parameter. I am sorry for packaging that
with an already biggish change.
Performance implications:
Locally, I see a small regression (.2% or so). It is hard to say where
exactly it comes from, but I do see inefficient call sequences to the
adaptor trampoline. For example:
;;; <@78,#24> constant-t
bf85aa515a mov edi,0x5a51aa85 ;; debug: position 29
;;; <@72,#53> load-named-field
8b7717 mov esi,[edi+0x17] ;; debug: position 195
;;; <@80,#51> constant-s
b902000000 mov ecx,0x2 ;; debug: position 195
;;; <@81,#51> gap
894df0 mov [ebp+0xf0],ecx
;;; <@82,#103> constant-i
bb01000000 mov ebx,0x1
;;; <@84,#102> constant-i
b902000000 mov ecx,0x2
;;; <@85,#102> gap
89d8 mov eax,ebx
89cb mov ebx,ecx
8b4df0 mov ecx,[ebp+0xf0]
;;; <@86,#58> call-with-descriptor
e8ef57fcff call ArgumentsAdaptorTrampoline (0x2d80e6e0) ;; code: BUILTIN
Note the silly handling of ecx; the hydrogen for this code is:
0 4 s27 Constant 1 range:1_1 <|@
0 3 t30 Constant 0x5bc1aa85 <JS Function xyz (SharedFunctionInfo 0x5bc1a919)> type:object <|@
0 1 t36 LoadNamedField t30.[in-object]@24 <|@
0 1 t38 Constant 0x2300e6a1 <Code> <|@
0 1 i102 Constant 2 range:2_2 <|@
0 1 i103 Constant 1 range:1_1 <|@
0 2 t41 CallWithDescriptor t38 t30 t36 s27 i103 i102 #2 changes[*] <|@
BUG=
R=plind44@gmail.com
Review URL: https://codereview.chromium.org/137663005
git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@18630 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
call machinery. The change replaces CallNamed, CallKeyed,
CallConstantFunction and CallKnownGlobal hydrogen instructions with two
new instructions with a more lower level semantics:
1. CallJSFunction for direct calls of JSFunction objects (no
argument adaptation)
2. CallWithDescriptor for calls of a given Code object according to
the supplied calling convention.
Details:
CallJSFunction should be straightforward, the main difference from the
existing InvokeFunction instruction is the absence of argument adaptor
handling. (As a next step, we will replace InvokeFunction with an
equivalent hydrogen code.)
For CallWithDescriptor, the calling conventions are represented by a
tweaked version of CallStubInterfaceDescriptor. In addition to the
parameter-register mapping, we also define parameter-representation
mapping there. The CallWithDescriptor instruction has variable number of
parameters now - this required some simple tweaks in Lithium, which
assumed fixed number of arguments in some places.
The calling conventions used in the calls are initialized in the
CallDescriptors class (code-stubs.h, <arch>/code-stubs-<arch>.cc), and
they live in a new table in the Isolate class. I should say I am not
quite sure about Representation::Integer32() representation for some of
the params of ArgumentAdaptorCall - it is not clear to me wether the
params could not end up on the stack and thus confuse the GC.
The change also includes an earlier small change to argument adaptor
(https://codereview.chromium.org/98463007) that avoids passing a naked
pointer to the code entry as a parameter. I am sorry for packaging that
with an already biggish change.
Performance implications:
Locally, I see a small regression (.2% or so). It is hard to say where
exactly it comes from, but I do see inefficient call sequences to the
adaptor trampoline. For example:
;;; <@78,#24> constant-t
bf85aa515a mov edi,0x5a51aa85 ;; debug: position 29
;;; <@72,#53> load-named-field
8b7717 mov esi,[edi+0x17] ;; debug: position 195
;;; <@80,#51> constant-s
b902000000 mov ecx,0x2 ;; debug: position 195
;;; <@81,#51> gap
894df0 mov [ebp+0xf0],ecx
;;; <@82,#103> constant-i
bb01000000 mov ebx,0x1
;;; <@84,#102> constant-i
b902000000 mov ecx,0x2
;;; <@85,#102> gap
89d8 mov eax,ebx
89cb mov ebx,ecx
8b4df0 mov ecx,[ebp+0xf0]
;;; <@86,#58> call-with-descriptor
e8ef57fcff call ArgumentsAdaptorTrampoline (0x2d80e6e0) ;; code: BUILTIN
Note the silly handling of ecx; the hydrogen for this code is:
0 4 s27 Constant 1 range:1_1 <|@
0 3 t30 Constant 0x5bc1aa85 <JS Function xyz (SharedFunctionInfo 0x5bc1a919)> type:object <|@
0 1 t36 LoadNamedField t30.[in-object]@24 <|@
0 1 t38 Constant 0x2300e6a1 <Code> <|@
0 1 i102 Constant 2 range:2_2 <|@
0 1 i103 Constant 1 range:1_1 <|@
0 2 t41 CallWithDescriptor t38 t30 t36 s27 i103 i102 #2 changes[*] <|@
BUG=
R=verwaest@chromium.org, danno@chromium.org
Review URL: https://codereview.chromium.org/104663004
git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@18626 ce2b1a6d-e550-0410-aec6-3dcde31c8c00