# Copyright (c) 2018, Intel Corporation.
from __future__ import division
+from __future__ import print_function
+
import os
import sys
import struct
for i, j in enumerate(f):
m = re.split('-|:',j,2)
if m[2].strip() == 'System RAM':
- system_ram.append(long(m[0], 16))
- system_ram.append(long(m[1], 16))
+ system_ram.append(int(m[0], 16))
+ system_ram.append(int(m[1], 16))
if m[2].strip() == 'Persistent Memory':
- pmem.append(long(m[0], 16))
- pmem.append(long(m[1], 16))
+ pmem.append(int(m[0], 16))
+ pmem.append(int(m[1], 16))
def print_memory_type():
- print "Event: %s" % (event_name)
- print "%-40s %10s %10s\n" % ("Memory type", "count", "percentage"),
- print "%-40s %10s %10s\n" % ("----------------------------------------", \
+ print("Event: %s" % (event_name))
+ print("%-40s %10s %10s\n" % ("Memory type", "count", "percentage"), end='')
+ print("%-40s %10s %10s\n" % ("----------------------------------------",
"-----------", "-----------"),
+ end='');
total = sum(load_mem_type_cnt.values())
for mem_type, count in sorted(load_mem_type_cnt.most_common(), \
- key = lambda(k, v): (v, k), reverse = True):
- print "%-40s %10d %10.1f%%\n" % (mem_type, count, 100 * count / total),
+ key = lambda kv: (kv[1], kv[0]), reverse = True):
+ print("%-40s %10d %10.1f%%\n" % (mem_type, count, 100 * count / total),
+ end='')
def trace_begin():
parse_iomem()
f.seek(0, 0)
for j in f:
m = re.split('-|:',j,2)
- if long(m[0], 16) <= phys_addr <= long(m[1], 16):
+ if int(m[0], 16) <= phys_addr <= int(m[1], 16):
return m[2]
return "N/A"