opencv/modules/ts/misc/chart.py

224 lines
7.4 KiB
Python

import testlog_parser, sys, os, xml, re
from table_formatter import *
from optparse import OptionParser
cvsize_re = re.compile("^\d+x\d+$")
cvtype_re = re.compile("^(CV_)(8U|8S|16U|16S|32S|32F|64F)(C\d{1,3})?$")
def keyselector(a):
if cvsize_re.match(a):
size = [int(d) for d in a.split('x')]
return size[0] * size[1]
elif cvtype_re.match(a):
if a.startswith("CV_"):
a = a[3:]
depth = 7
if a[0] == '8':
depth = (0, 1) [a[1] == 'S']
elif a[0] == '1':
depth = (2, 3) [a[2] == 'S']
elif a[2] == 'S':
depth = 4
elif a[0] == '3':
depth = 5
elif a[0] == '6':
depth = 6
cidx = a.find('C')
if cidx < 0:
channels = 1
else:
channels = int(a[a.index('C') + 1:])
#return (depth & 7) + ((channels - 1) << 3)
return ((channels-1) & 511) + (depth << 9)
return a
def getValueParams(test):
param = test.get("value_param")
if not param:
return []
if param.startswith("("):
param = param[1:]
if param.endswith(")"):
param = param[:-1]
args = []
prev_pos = 0
start = 0
balance = 0
while True:
idx = param.find(",", prev_pos)
if idx < 0:
break
idxlb = param.find("(", prev_pos, idx)
while idxlb >= 0:
balance += 1
idxlb = param.find("(", idxlb+1, idx)
idxrb = param.find(")", prev_pos, idx)
while idxrb >= 0:
balance -= 1
idxrb = param.find(")", idxrb+1, idx)
assert(balance >= 0)
if balance == 0:
args.append(param[start:idx].strip())
start = idx + 1
prev_pos = idx + 1
args.append(param[start:].strip())
return args
#return [p.strip() for p in param.split(",")]
def nextPermutation(indexes, lists, x, y):
idx = len(indexes)-1
while idx >= 0:
while idx == x or idx == y:
idx -= 1
if idx < 0:
return False
v = indexes[idx] + 1
if v < len(lists[idx]):
indexes[idx] = v;
return True;
else:
indexes[idx] = 0;
idx -= 1
return False
def getTestWideName(sname, indexes, lists, x, y):
name = sname + "::("
for i in range(len(indexes)):
if i > 0:
name += ", "
if i == x:
name += "X"
elif i == y:
name += "Y"
else:
name += lists[i][indexes[i]]
return str(name + ")")
def getTest(stests, x, y, row, col):
for pair in stests:
if pair[1][x] == row and pair[1][y] == col:
return pair[0]
return None
if __name__ == "__main__":
parser = OptionParser()
parser.add_option("-o", "--output", dest="format", help="output results in text format (can be 'txt', 'html' or 'auto' - default)", metavar="FMT", default="auto")
parser.add_option("-u", "--units", dest="units", help="units for output values (s, ms (default), mks, ns or ticks)", metavar="UNITS", default="ms")
parser.add_option("-m", "--metric", dest="metric", help="output metric", metavar="NAME", default="gmean")
parser.add_option("-x", "", dest="x", help="argument number for rows", metavar="ROW", default=1)
parser.add_option("-y", "", dest="y", help="argument number for columns", metavar="COL", default=0)
parser.add_option("-f", "--filter", dest="filter", help="regex to filter tests", metavar="REGEX", default=None)
(options, args) = parser.parse_args()
if len(args) != 1:
print >> sys.stderr, "Usage:\n", os.path.basename(sys.argv[0]), "<log_name1>.xml"
exit(1)
options.generateHtml = detectHtmlOutputType(options.format)
if options.metric not in metrix_table:
options.metric = "gmean"
if options.metric.endswith("%"):
options.metric = options.metric[:-1]
getter = metrix_table[options.metric][1]
tests = testlog_parser.parseLogFile(args[0])
if options.filter:
expr = re.compile(options.filter)
tests = [(t,getValueParams(t)) for t in tests if expr.search(str(t))]
else:
tests = [(t,getValueParams(t)) for t in tests]
args[0] = os.path.basename(args[0])
if not tests:
print >> sys.stderr, "Error - no tests matched"
exit(1)
argsnum = len(tests[0][1])
sname = tests[0][0].shortName()
arglists = []
for i in range(argsnum):
arglists.append({})
names = set()
for pair in tests:
sn = pair[0].shortName()
if len(pair[1]) > 1:
names.add(sn)
if sn == sname:
if len(pair[1]) != argsnum:
print >> sys.stderr, "Error - unable to create chart tables for functions having different argument numbers"
sys.exit(1)
for i in range(argsnum):
arglists[i][pair[1][i]] = 1
if len(names) != 1:
print >> sys.stderr, "Error - unable to create tables for functions from different test suits:"
i = 1
for name in sorted(names):
print >> sys.stderr, "%4s: %s" % (i, name)
i += 1
sys.exit(1)
if argsnum < 2:
print >> sys.stderr, "Error - tests from %s have less than 2 parameters" % sname
exit(1)
for i in range(argsnum):
arglists[i] = sorted([str(key) for key in arglists[i].iterkeys()], key=keyselector)
if options.generateHtml and options.format != "moinwiki":
htmlPrintHeader(sys.stdout, "Report %s for %s" % (args[0], sname))
indexes = [0] * argsnum
x = int(options.x)
y = int(options.y)
if x == y or x < 0 or y < 0 or x >= argsnum or y >= argsnum:
x = 1
y = 0
while True:
stests = []
for pair in tests:
t = pair[0]
v = pair[1]
for i in range(argsnum):
if i != x and i != y:
if v[i] != arglists[i][indexes[i]]:
t = None
break
if t:
stests.append(pair)
tbl = table(metrix_table[options.metric][0] + " for\n" + getTestWideName(sname, indexes, arglists, x, y))
tbl.newColumn("x", "X\Y")
for col in arglists[y]:
tbl.newColumn(col, col, align="center")
for row in arglists[x]:
tbl.newRow()
tbl.newCell("x", row)
for col in arglists[y]:
case = getTest(stests, x, y, row, col)
if case:
status = case.get("status")
if status != "run":
tbl.newCell(col, status, color = "red")
else:
val = getter(case, None, options.units)
if isinstance(val, float):
tbl.newCell(col, "%.2f %s" % (val, options.units), val)
else:
tbl.newCell(col, val, val)
else:
tbl.newCell(col, "-")
if options.generateHtml:
tbl.htmlPrintTable(sys.stdout, options.format == "moinwiki")
else:
tbl.consolePrintTable(sys.stdout)
if not nextPermutation(indexes, arglists, x, y):
break
if options.generateHtml and options.format != "moinwiki":
htmlPrintFooter(sys.stdout)