Modify framebuffer and NGA framebuffer to read screen size from board model dtb file. Optimise memory usuage of frame buffer
Add example minigui application with hooks to profiler (which writes results to S:\). Modified NGA framebuffer to run its own dfc queue at high priority
from pybench import Test
class SimpleListManipulation(Test):
version = 2.0
operations = 5* (6 + 6 + 6)
rounds = 130000
def test(self):
l = []
append = l.append
for i in xrange(self.rounds):
append(2)
append(3)
append(4)
append(2)
append(3)
append(4)
l[0] = 3
l[1] = 4
l[2] = 5
l[3] = 3
l[4] = 4
l[5] = 5
x = l[0]
x = l[1]
x = l[2]
x = l[3]
x = l[4]
x = l[5]
append(2)
append(3)
append(4)
append(2)
append(3)
append(4)
l[0] = 3
l[1] = 4
l[2] = 5
l[3] = 3
l[4] = 4
l[5] = 5
x = l[0]
x = l[1]
x = l[2]
x = l[3]
x = l[4]
x = l[5]
append(2)
append(3)
append(4)
append(2)
append(3)
append(4)
l[0] = 3
l[1] = 4
l[2] = 5
l[3] = 3
l[4] = 4
l[5] = 5
x = l[0]
x = l[1]
x = l[2]
x = l[3]
x = l[4]
x = l[5]
append(2)
append(3)
append(4)
append(2)
append(3)
append(4)
l[0] = 3
l[1] = 4
l[2] = 5
l[3] = 3
l[4] = 4
l[5] = 5
x = l[0]
x = l[1]
x = l[2]
x = l[3]
x = l[4]
x = l[5]
append(2)
append(3)
append(4)
append(2)
append(3)
append(4)
l[0] = 3
l[1] = 4
l[2] = 5
l[3] = 3
l[4] = 4
l[5] = 5
x = l[0]
x = l[1]
x = l[2]
x = l[3]
x = l[4]
x = l[5]
if len(l) > 10000:
# cut down the size
del l[:]
def calibrate(self):
l = []
append = l.append
for i in xrange(self.rounds):
pass
class ListSlicing(Test):
version = 2.0
operations = 25*(3+1+2+1)
rounds = 800
def test(self):
n = range(100)
r = range(25)
for i in xrange(self.rounds):
l = n[:]
for j in r:
m = l[50:]
m = l[:25]
m = l[50:55]
l[:3] = n
m = l[:-1]
m = l[1:]
l[-1:] = n
def calibrate(self):
n = range(100)
r = range(25)
for i in xrange(self.rounds):
for j in r:
pass
class SmallLists(Test):
version = 2.0
operations = 5*(1+ 6 + 6 + 3 + 1)
rounds = 80000
def test(self):
for i in xrange(self.rounds):
l = []
append = l.append
append(2)
append(3)
append(4)
append(2)
append(3)
append(4)
l[0] = 3
l[1] = 4
l[2] = 5
l[3] = 3
l[4] = 4
l[5] = 5
l[:3] = [1,2,3]
m = l[:-1]
m = l[1:]
l[-1:] = [4,5,6]
l = []
append = l.append
append(2)
append(3)
append(4)
append(2)
append(3)
append(4)
l[0] = 3
l[1] = 4
l[2] = 5
l[3] = 3
l[4] = 4
l[5] = 5
l[:3] = [1,2,3]
m = l[:-1]
m = l[1:]
l[-1:] = [4,5,6]
l = []
append = l.append
append(2)
append(3)
append(4)
append(2)
append(3)
append(4)
l[0] = 3
l[1] = 4
l[2] = 5
l[3] = 3
l[4] = 4
l[5] = 5
l[:3] = [1,2,3]
m = l[:-1]
m = l[1:]
l[-1:] = [4,5,6]
l = []
append = l.append
append(2)
append(3)
append(4)
append(2)
append(3)
append(4)
l[0] = 3
l[1] = 4
l[2] = 5
l[3] = 3
l[4] = 4
l[5] = 5
l[:3] = [1,2,3]
m = l[:-1]
m = l[1:]
l[-1:] = [4,5,6]
l = []
append = l.append
append(2)
append(3)
append(4)
append(2)
append(3)
append(4)
l[0] = 3
l[1] = 4
l[2] = 5
l[3] = 3
l[4] = 4
l[5] = 5
l[:3] = [1,2,3]
m = l[:-1]
m = l[1:]
l[-1:] = [4,5,6]
def calibrate(self):
for i in xrange(self.rounds):
pass