- Many changes to the "User Interaction" pane wrt key modifiers.
- Snap is now relative by default (override to absolute with the
"Snap to absolute using:" modifier).
- Midi notes now obey both snap modifiers (disable snap and absolute snap)
- Timefx drag now selects the primary region (less user confusion).
- Includes MIDI event id fix.
- probably fixes a lot of cases where note ids are assumed to be
unique (they weren't for copies and some others).
- wrong branch, but it needs testing.
- Also makes "Mod4" Appear as "Windows" and adds new combination
"Alt-Windows" to the dropdown.
- Attempt to set a pair of default snap modifiers (without
knowing what it actually is for OSX)
- Copy modifier now saves
- Snap modifier modifier problem still remains.
- Copy modifier still doesn't save
- Testers please edit the Extra section of ~/.ardourN/config to allow
defaults to "take"
- Note that the current defaults overlap.
- warning - absolute snap modifier has no default and will be always
"on" unless you set it!
Note that no defaults are set - go to prefs->user interaction to
ensure that nothing is set to "no modifer"
also - the copy modifier doesn't actually save its state yet.
- user can abs/rel modifier key in prefs->user interaction
suggested for linux - absolute->alt ignore snap->alt-shift
- Constrained mode works the same as button 2 drag (initial move
sets constraint axis).
Currently we don't do anything special on layering prefs change
(relayer only occurs when each playlist is first edited). The idea here is
that "undo" is still available to restore previous layering in case of any
surprises.
marginal improvement on x86_64 for zero, 5-10% for tiny numbers;
100% time improvement (half the time) on i686 with zero.
#/bin/sh
g++ -x c++ -O3 -ffast-math -o /tmp/a.out - << EOF
#include <stdio.h>
#include <stdlib.h>
#include <cmath>
#include <limits>
static inline float accurate_coefficient_to_dB (float coeff) {
#if 1 // try me
if (coeff < 1e-15) return -std::numeric_limits<float>::infinity();
#endif
return 20.0f * log10f (coeff);
}
int main (int argc, char **argv) {
long long int i;
float f = 0;
if (argc < 3) return -1;
long long int end = atoll (argv[1]);
for (i = 0; i < end; ++i) {
f += accurate_coefficient_to_dB (atof (argv[2]));
}
printf ("%f\n",f);
return 0;
}
EOF
time /tmp/a.out 100000000000 0.0
time /tmp/a.out 100000000000 0.0
time /tmp/a.out 100000000000 0.0
