"
+ stats.sort()
+ for i in stats:
+ lines = open(i).readlines()
+ def fixupLine(l):
+ comment = l.find("#")
+ if comment >= 0:
+ l = l[:comment-1]
+ if l.find("cmdline=") == 0:
+ l = "cmdline=..." % str(l[8:])
+ return l
+ lines = [fixupLine(l) for l in lines]
+ print >>html, "
"
+ for i in additionalImgs:
+ print >>html, self.fullImgLink(i)
+ os.chdir(cwd)
+
+ print >>html, ""
+ print >>html, "Raw data "
+ print >>html, "Script source " % (cdup+self.name+".sh.html")
+ print >>html, "Back to top " % cdup
+
+ html.close()
+
+class Space(list):
+ """List of Dimensions()s (order matters)"""
+ def __init__(self, *dimensions):
+ self.extend(list(dimensions))
+ def path2dimValues(self, path):
+ coordinates = path.split("/")
+ if len(coordinates) != len(self):
+ raise KeyError("The number coordinates do not match the number of dimensions: " + str(coordinates))
+
+ dv = DimValues([DimValue(self[i], coordinates[i]) \
+ for i in xrange(len(coordinates))])
+ return dv
+
+ def iterValues(self):
+ idx = [0 for i in xrange(len(self))]
+ done=False
+ while not done:
+ values=DimValues()
+ for i in xrange(len(self)):
+ values.append(self[i].values()[idx[i]])
+ yield values
+ done=True
+ for i in xrange(len(self)):
+ idx[i] += 1
+ if idx[i] < len(self[i]):
+ done=False
+ break
+ idx[i] = 0
+ def reorder(self, dimValues):
+ reordered = DimValues()
+ for d in self:
+ for v in dimValues:
+ if v.dim == d:
+ reordered.append(v)
+ return reordered
+ def iterDimensionPairs(self):
+ for i in xrange(len(self)):
+ for j in xrange(i+1, len(self)):
+ yield (self[i], self[j])
+ yield (self[j], self[i])
+ def iterRemainingDimensions(self, dimensionPair):
+ for d in self:
+ if d not in dimensionPair:
+ yield d
-def iterDimValues(dimensions):
- idx = [0 for i in xrange(len(dimensions))]
- done=False
- while not done:
- values=DimValues()
- for i in xrange(len(dimensions)):
- values.append(dimensions[i].values()[idx[i]])
- yield values
- done=True
- for i in xrange(len(dimensions)):
- idx[i] += 1
- if idx[i] < len(dimensions[i]):
- done=False
- break
- idx[i] = 0
class Tests(dict):
"""Represents all tests organized along several dimensions"""
- def __init__(self, rootpath, *dimensions):
+ def __init__(self, rootpath, space):
dict.__init__(self)
- self.dimensions = dimensions
+ self.space = space
if (rootpath):
self.populate(rootpath)
def getTest(self, key):
- realkey=[]
- for d in self.dimensions:
- for i in key:
- if i.dim == d:
- realkey.append(i.value)
- if len(realkey) != len(self.dimensions):
- raise KeyError("The coordinates in key do not match dimensions")
- return self[tuple(realkey)]
-
- def addTest(self, test, coordinates):
- if len(coordinates) != len(self.dimensions):
- raise KeyError("The number coordinates do not match the number of dimensions: " + str(coordinates))
- self[tuple(coordinates)] = test
- for i in xrange(len(coordinates)):
- self.dimensions[i].addValue(coordinates[i])
+ if len(key) != len(self.space):
+ raise KeyError("The coordinates in key do not match the dimension of the space")
+ realkey = self.space.reorder(key)
+ return self[realkey.key()]
+ def addTest(self, test):
+ self[test.values.key()] = test
+
def populate(self, rootpath):
for root, dirs, files in os.walk(rootpath):
if (root.find(rootpath) == 0):
- coordinates = root[len(rootpath):]
+ path = root[len(rootpath):]
else:
- coordinates = rootpath
+ path = rootpath
if Test.isOnPath(root):
- self.addTest(Test(root), coordinates.split("/"))
- def iterDimensionPairs(self):
- for i in xrange(len(self.dimensions)):
- for j in xrange(i+1, len(self.dimensions)):
- yield (self.dimensions[i], self.dimensions[j])
- yield (self.dimensions[j], self.dimensions[i])
- def iterRemainingDimensions(self, dimensionPair):
- for d in self.dimensions:
- if d not in dimensionPair:
- yield d
+ dv = self.space.path2dimValues(path)
+ self.addTest(Test(root, dv, self))
def generateHtml(self):
- for pair in self.iterDimensionPairs():
- remDims = [d for d in self.iterRemainingDimensions(pair)]
- for vals in iterDimValues(remDims):
- page = Page(pair, remDims, vals, self)
+ for pair in self.space.iterDimensionPairs():
+ remDims = Space(*tuple([d for d in self.space.iterRemainingDimensions(pair)]))
+ for vals in remDims.iterValues():
+ page = Page(pair, vals, self)
+ print page.getName()
page.generate()
try:
os.remove("index.html")
except OSError: pass
os.symlink(page.getName(), "index.html")
+ css = open("style.css", "w")
+ print >>css, """img { border: 0; }
+table { border-collapse: collapse; }
+th, td { border: 1px solid lightgray; padding: 4px;}
+h4 { margin: 0; }
+.otherview { margin: 1ex 0}
+.otherview .value { color: black; padding: 0ex 1ex; -moz-border-radius: 1ex; border-radius: 1ex;}
+.otherview .value a { color: inherit; text-decoration: none; }
+.otherview .other:hover { background: #eee; }
+.otherview .missing { color: gray; }
+.otherview .current { background: #ccc; }
+"""
+ css.close()
+ for test in self.values():
+ print test.path
+ test.generateHtml()
- #os.system("source-highlight -d --output-dir=. ../*.sh")
+ os.system("source-highlight -d --output-dir=. ../*.sh > /dev/null")
-class Page:
- def __init__(self, dimPair, dimOther, valsOther, tests):
+class Page(object):
+ def __init__(self, dimPair, valsOther, tests):
self.dimy, self.dimx = dimPair
- self.dimOther = dimOther
- self.valsOther = valsOther
+ self.dimOther = [v.dim for v in valsOther]
+ self.valsOther = tests.space.reorder(valsOther)
self.tests = tests
- def getName(self, dimy=None, dimx=None, valsOther=None):
- return "%s-vs-%s-for-%s.html"%(dimx or self.dimy.type,
- dimy or self.dimx.type,
- "-".join([v.value for v in valsOther or self.valsOther]))
+ def getName(self):
+ return "%s-vs-%s-for-%s.html"%(self.dimy.type, self.dimx.type,
+ "-".join([v.value for v in self.valsOther]))
def generate(self):
html = open(self.getName(), "w")
title = "CAN gateway timing analysis"
@@ -221,36 +343,32 @@ class Page:
%s
-
+
%s
""" % (title, title)
params = ["%s %s" % (v.dim, v) for v in self.valsOther]
- print >>html, "Results for:", ", ".join(params), ""
+ print >>html, "
Results for ", ", ".join(params), "
"
+ print >>html, "
Other views
"
+ print >>html, "
"
for d in self.dimOther:
- print >>html, "%s: " % d
- print >>html, "X axis, " % \
- self.getName(dimx=d,
- valsOther=self.valsOther - d + self.dimx.getValue(0))
- print >>html, "Y axis; " % self.getName(dimy=d)
+ print >>html, "