On 06/01/17 17:37, Adam Dershowitz wrote:
On Jan 6, 2017, at 9:49 AM, Russell Jones
<russell.jo...@physics.ox.ac.uk
<mailto:russell.jo...@physics.ox.ac.uk>> wrote:
On 06/01/17 14:28, Adam Dershowitz wrote:
> On Jan 6, 2017, at 9:04 AM, Russell Jones
<russell.jo...@physics.ox.ac.uk> wrote:
>
> On 06/01/17 13:22, Adam Dershowitz wrote:
>> On Jan 6, 2017, at 2:20 AM, Ryan Schmidt
<ryandes...@macports.org> wrote:
>>> On Jan 5, 2017, at 09:26, Adam Dershowitz wrote:
>>>> I just tried what you suggested for py27-numpy and it just
activated without any error.
>>> Yes, there will not be an error at activation time. However, if
you have anything installed that required py27-numpy to be
universal, it will now be broken.
>>>> So, myports.txt has
>>>> py27-numpy @1.11.3_0+gfortran (active) platform='darwin 15'
archs='x86_64'
>>>>
>>>> And, after the migration it had installed both that and the
+universal variant.
>>>> Yet, when I tried to activate the non-universal version it did
it without complaint. So, I really don’t understand why the
+universal got built at all.
>>>> Any suggestions?
>>> I don't have any answers for you, beyond the usual reasons why a
port is installed universal, which are:
>>>
>>> - you explicitly asked for it to be installed universal
>>> - you installed another port universal that depends on this port
>>> - you installed another port that is 32-bit only, and you are on
a 64-bit machine, and the other port depends on this port (You can
check if the other port says "supported_archs i386 ppc" (or the
other way around))
>>> - it enables the universal by default, and possibly requires the
universal variant to be used (You can check the portfile to see if
"default_variants +universal" appears)
>> What seems really odd to me that I took I moved my myports.txt
from one machine to another. So, I used one machine to generate
that list, and brought it to another machine to build.
>> Both are MacBook pros (one new and one old) and that same list,
on the new machine, added a bunch of universal ports. So, I don’t
see how any of the items in the list above could do that. If it was
not universal on the old machine, why would it end up universal on
the new machine?
>> Could going from 10.11 to 10.12 make something required to be
universal? Or could going from Xcode 7 to 8 make a port universal?
Because otherwise, I just don’t see why they should be different.
>> If anything, I would expect that the newer OS and newer hardware
should be able to do more things as 64 bit, so would require less
universal stuff.
>>
>> —Adam
> Could you gzip and attach the list of ports from the old machine
and the output of "port installed requested"?
>
> The approach I suggested can't work, I now realize, as variants
aren't used for working out dependencies (
https://trac.macports.org/wiki/FAQ#dependonvariant )
>
> Russell
>
Here are the two files.
I don’t believe that I have ever intentionally installed anything
+universal. So, I’m fairly sure that anything in this list that is
universal is because of 3, or 4 above. But, when I then moved to
the new machine, it proceeded to make a bunch more things universal.
As far as I’m concerned pretty much all of my ports should just be
installed with default variants, so few, if any, should be
universal. As everything is now working, this is not a big deal.
But, it does mean that upgrades often must be built, instead of
using the binary, which would be much faster and use less drive space.
thanks,
—Adam
It looks like the extra +universal stuff comes from the things that
were marked +universal installing all their dependencies +universal,
which is expected behaviour. It looks like the restore script just
installs the things listed in the order given, so doesn't preserve
the variants exactly (+universal satisfies a request to install with
no variants, I think, though I'm unsure). You could search and
replace +universal (i.e. remove all instances of it) in myports, then
tear-down and redo the install, I guess.
Russell
But, this list is from the old machine. My question is why the new
machine ended up with a lot more +universal. For example, the list
that I sent does not have +universal for py27-numpy, while the new
machine, that I used the above list to install, did end up with
+universal.
If the prior machine did not require +universal, based on the
dependency tree, why would the new machine require it? Or was
something broken on the old machine, where it really did require
+universal, but never actually installed it that way, and I happened
never to hit that bug?
—Adam
Well, in the scenario I'm thinking of, it would be because something was
built +universal that depended on py27-numpy before py27-numpy was
checked for whether it's installed by itself. It's possible to install
programs -universal that are depended on by others that are +universal
without error or warning, as you've seen. It also seems that link
checking doesn't pick it up. I'm not sure how one goes about using the
32-bit portions of programs (as opposed to linking 32-bit binaries
against them, which you do with the -m32 flag, IIRC) where the program
is not 32-bit only. So it's possible you only ever used the 64-bit
portions of the binaries and so didn't see any problems. I'll happily
concede something else may be going on.
Russell