#!/usr/bin/env python import sys, re, os.path, cgi, stat from optparse import OptionParser from color import getColorizer class tblCell(object): def __init__(self, text, value = None, props = None): self.text = text self.value = value self.props = props class tblColumn(object): def __init__(self, caption, title = None, props = None): self.text = caption self.title = title self.props = props class tblRow(object): def __init__(self, colsNum, props = None): self.cells = [None] * colsNum self.props = props def htmlEncode(str): return '
'.join([cgi.escape(s) for s in str]) class table(object): def_align = "left" def_valign = "middle" def_color = None def_colspan = 1 def_rowspan = 1 def_bold = False def_italic = False def_text="-" def __init__(self, caption = None): self.columns = {} self.rows = [] self.ridx = -1; self.caption = caption pass def newRow(self, **properties): if len(self.rows) - 1 == self.ridx: self.rows.append(tblRow(len(self.columns), properties)) else: self.rows[ridx + 1].props = properties self.ridx += 1 return self.rows[self.ridx] def trimLastRow(self): if self.rows: self.rows.pop() if self.ridx >= len(self.rows): self.ridx = len(self.rows) - 1 def newColumn(self, name, caption, title = None, **properties): if name in self.columns: index = self.columns[name].index else: index = len(self.columns) if isinstance(caption, tblColumn): caption.index = index self.columns[name] = caption return caption else: col = tblColumn(caption, title, properties) col.index = index self.columns[name] = col return col def getColumn(self, name): if isinstance(name, str): return self.columns.get(name, None) else: vals = [v for v in self.columns.values() if v.index == name] if vals: return vals[0] return None def newCell(self, col_name, text, value = None, **properties): if self.ridx < 0: self.newRow() col = self.getColumn(col_name) row = self.rows[self.ridx] if not col: return None if isinstance(text, tblCell): cl = text else: cl = tblCell(text, value, properties) row.cells[col.index] = cl return cl def layoutTable(self): columns = self.columns.values() columns.sort(key=lambda c: c.index) colspanned = [] rowspanned = [] self.headerHeight = 1 rowsToAppend = 0 for col in columns: self.measureCell(col) if col.height > self.headerHeight: self.headerHeight = col.height col.minwidth = col.width col.line = None for r in range(len(self.rows)): row = self.rows[r] row.minheight = 1 for i in range(len(row.cells)): cell = row.cells[i] if row.cells[i] is None: continue cell.line = None self.measureCell(cell) colspan = int(self.getValue("colspan", cell)) rowspan = int(self.getValue("rowspan", cell)) if colspan > 1: colspanned.append((r,i)) if i + colspan > len(columns): colspan = len(columns) - i cell.colspan = colspan #clear spanned cells for j in range(i+1, min(len(row.cells), i + colspan)): row.cells[j] = None elif columns[i].minwidth < cell.width: columns[i].minwidth = cell.width if rowspan > 1: rowspanned.append((r,i)) rowsToAppend2 = r + colspan - len(self.rows) if rowsToAppend2 > rowsToAppend: rowsToAppend = rowsToAppend2 cell.rowspan = rowspan #clear spanned cells for j in range(r+1, min(len(self.rows), r + rowspan)): if len(self.rows[j].cells) > i: self.rows[j].cells[i] = None elif row.minheight < cell.height: row.minheight = cell.height self.ridx = len(self.rows) - 1 for r in range(rowsToAppend): self.newRow() self.rows[len(self.rows) - 1].minheight = 1 while colspanned: colspanned_new = [] for r, c in colspanned: cell = self.rows[r].cells[c] sum([col.minwidth for col in columns[c:c + cell.colspan]]) cell.awailable = sum([col.minwidth for col in columns[c:c + cell.colspan]]) + cell.colspan - 1 if cell.awailable < cell.width: colspanned_new.append((r,c)) colspanned = colspanned_new if colspanned: r,c = colspanned[0] cell = self.rows[r].cells[c] cols = columns[c:c + cell.colspan] total = cell.awailable - cell.colspan + 1 budget = cell.width - cell.awailable spent = 0 s = 0 for col in cols: s += col.minwidth addition = s * budget / total - spent spent += addition col.minwidth += addition while rowspanned: rowspanned_new = [] for r, c in rowspanned: cell = self.rows[r].cells[c] cell.awailable = sum([row.minheight for row in self.rows[r:r + cell.rowspan]]) if cell.awailable < cell.height: rowspanned_new.append((r,c)) rowspanned = rowspanned_new if rowspanned: r,c = rowspanned[0] cell = self.rows[r].cells[c] rows = self.rows[r:r + cell.rowspan] total = cell.awailable budget = cell.height - cell.awailable spent = 0 s = 0 for row in rows: s += row.minheight addition = s * budget / total - spent spent += addition row.minheight += addition return columns def measureCell(self, cell): text = self.getValue("text", cell) cell.text = self.reformatTextValue(text) cell.height = len(cell.text) cell.width = len(max(cell.text, key = lambda line: len(line))) def reformatTextValue(self, value): if isinstance(value, str): vstr = value elif isinstance(value, unicode): vstr = str(value) else: try: vstr = '\n'.join([str(v) for v in value]) except TypeError: vstr = str(value) return vstr.splitlines() def adjustColWidth(self, cols, width): total = sum([c.minWidth for c in cols]) if total + len(cols) - 1 >= width: return budget = width - len(cols) + 1 - total spent = 0 s = 0 for col in cols: s += col.minWidth addition = s * budget / total - spent spent += addition col.minWidth += addition def getValue(self, name, *elements): for el in elements: try: return getattr(el, name) except AttributeError: pass try: val = el.props[name] if val: return val except AttributeError: pass except KeyError: pass try: return getattr(self.__class__, "def_" + name) except AttributeError: return None def consolePrintTable(self, out): columns = self.layoutTable() colrizer = getColorizer(out) if self.caption: out.write("%s%s%s" % ( os.linesep, os.linesep.join(self.reformatTextValue(self.caption)), os.linesep * 2)) headerRow = tblRow(len(columns), {"align": "center", "valign": "top", "bold": True, "header": True}) headerRow.cells = columns headerRow.minheight = self.headerHeight self.consolePrintRow2(colrizer, headerRow, columns) for i in range(0, len(self.rows)): self.consolePrintRow2(colrizer, i, columns) def consolePrintRow2(self, out, r, columns): if isinstance(r, tblRow): row = r r = -1 else: row = self.rows[r] #evaluate initial values for line numbers i = 0 while i < len(row.cells): cell = row.cells[i] colspan = self.getValue("colspan", cell) if cell is not None: cell.wspace = sum([col.minwidth for col in columns[i:i + colspan]]) + colspan - 1 if cell.line is None: if r < 0: rows = [row] else: rows = self.rows[r:r + self.getValue("rowspan", cell)] cell.line = self.evalLine(cell, rows, columns[i]) if len(rows) > 1: for rw in rows: rw.cells[i] = cell i += colspan #print content for ln in range(row.minheight): i = 0 while i < len(row.cells): if i > 0: out.write(" ") cell = row.cells[i] column = columns[i] if cell is None: out.write(" " * column.minwidth) i += 1 else: self.consolePrintLine(cell, row, column, out) i += self.getValue("colspan", cell) out.write(os.linesep) def consolePrintLine(self, cell, row, column, out): if cell.line < 0 or cell.line >= cell.height: line = "" else: line = cell.text[cell.line] width = cell.wspace align = self.getValue("align", ((None, cell)[isinstance(cell, tblCell)]), row, column) if align == "right": pattern = "%" + str(width) + "s" elif align == "center": pattern = "%" + str((width - len(line)) / 2 + len(line)) + "s" + " " * (width - len(line) - (width - len(line)) / 2) else: pattern = "%-" + str(width) + "s" out.write(pattern % line, color = self.getValue("color", cell, row, column)) cell.line += 1 def evalLine(self, cell, rows, column): height = cell.height valign = self.getValue("valign", cell, rows[0], column) space = sum([row.minheight for row in rows]) if valign == "bottom": return height - space if valign == "middle": return (height - space + 1) / 2 return 0 def htmlPrintTable(self, out, embeedcss = False): columns = self.layoutTable() if embeedcss: out.write("
\n\n") else: out.write("
\n
\n") if self.caption: if embeedcss: out.write(" \n" % htmlEncode(self.reformatTextValue(self.caption))) else: out.write(" \n" % htmlEncode(self.reformatTextValue(self.caption))) out.write(" \n") headerRow = tblRow(len(columns), {"align": "center", "valign": "top", "bold": True, "header": True}) headerRow.cells = columns header_rows = [headerRow] header_rows.extend([row for row in self.rows if self.getValue("header")]) last_row = header_rows[len(header_rows) - 1] for row in header_rows: out.write(" \n") for th in row.cells: align = self.getValue("align", ((None, th)[isinstance(th, tblCell)]), row, row) valign = self.getValue("valign", th, row) cssclass = self.getValue("cssclass", th) attr = "" if align: attr += " align=\"%s\"" % align if valign: attr += " valign=\"%s\"" % valign if cssclass: attr += " class=\"%s\"" % cssclass css = "" if embeedcss: css = " style=\"border:none;color:#003399;font-size:16px;font-weight:normal;white-space:nowrap;padding:3px 10px;\"" if row == last_row: css = css[:-1] + "padding-bottom:5px;\"" out.write(" \n" % (attr, css)) if th is not None: out.write(" %s\n" % htmlEncode(th.text)) out.write(" \n") out.write(" \n") out.write(" \n \n") rows = [row for row in self.rows if not self.getValue("header")] for r in range(len(rows)): row = rows[r] rowattr = "" cssclass = self.getValue("cssclass", row) if cssclass: rowattr += " class=\"%s\"" % cssclass out.write(" \n" % (rowattr)) i = 0 while i < len(row.cells): column = columns[i] td = row.cells[i] if isinstance(td, int): i += td continue colspan = self.getValue("colspan", td) rowspan = self.getValue("rowspan", td) align = self.getValue("align", td, row, column) valign = self.getValue("valign", td, row, column) color = self.getValue("color", td, row, column) bold = self.getValue("bold", td, row, column) italic = self.getValue("italic", td, row, column) style = "" attr = "" if color: style += "color:%s;" % color if bold: style += "font-weight: bold;" if italic: style += "font-style: italic;" if align and align != "left": attr += " align=\"%s\"" % align if valign and valign != "middle": attr += " valign=\"%s\"" % valign if colspan > 1: attr += " colspan=\"%s\"" % colspan if rowspan > 1: attr += " rowspan=\"%s\"" % rowspan for q in range(r+1, min(r+rowspan, len(rows))): rows[q].cells[i] = colspan if style: attr += " style=\"%s\"" % style css = "" if embeedcss: css = " style=\"border:none;border-bottom:1px solid #CCCCCC;color:#666699;padding:6px 8px;white-space:nowrap;\"" if r == 0: css = css[:-1] + "border-top:2px solid #6678B1;\"" out.write(" \n" % (attr, css)) if th is not None: out.write(" %s\n" % htmlEncode(td.text)) out.write(" \n") i += colspan out.write(" \n") out.write(" \n
%s%s
\n
\n") def htmlPrintHeader(out, title = None): if title: titletag = "%s\n" % htmlEncode([str(title)]) else: titletag = "" out.write(""" %s """ % titletag) def htmlPrintFooter(out): out.write("\n") def getStdoutFilename(): try: if os.name == "nt": import msvcrt, ctypes handle = msvcrt.get_osfhandle(sys.stdout.fileno()) size = ctypes.c_ulong(1024) nameBuffer = ctypes.create_string_buffer(size.value) ctypes.windll.kernel32.GetFinalPathNameByHandleA(handle, nameBuffer, size, 4) return nameBuffer.value else: return os.readlink('/proc/self/fd/1') except: return "" def detectHtmlOutputType(requestedType): if requestedType == "txt": return False elif requestedType in ["html", "moinwiki"]: return True else: if sys.stdout.isatty(): return False else: outname = getStdoutFilename() if outname: if outname.endswith(".htm") or outname.endswith(".html"): return True else: return False else: return False def getRelativeVal(test, test0, metric): if not test or not test0: return None val0 = test0.get(metric, "s") if not val0: return None val = test.get(metric, "s") if not val or val == 0: return None return float(val0)/val def getCycleReduction(test, test0, metric): if not test or not test0: return None val0 = test0.get(metric, "s") if not val0 or val0 == 0: return None val = test.get(metric, "s") if not val: return None return (1.0-float(val)/val0)*100 metrix_table = \ { "name": ("Name of Test", lambda test,test0,units: str(test)), "samples": ("Number of\ncollected samples", lambda test,test0,units: test.get("samples", units)), "outliers": ("Number of\noutliers", lambda test,test0,units: test.get("outliers", units)), "gmean": ("Geometric mean", lambda test,test0,units: test.get("gmean", units)), "mean": ("Mean", lambda test,test0,units: test.get("mean", units)), "min": ("Min", lambda test,test0,units: test.get("min", units)), "median": ("Median", lambda test,test0,units: test.get("median", units)), "stddev": ("Standard deviation", lambda test,test0,units: test.get("stddev", units)), "gstddev": ("Standard deviation of Ln(time)", lambda test,test0,units: test.get("gstddev")), "gmean%": ("Geometric mean (relative)", lambda test,test0,units: getRelativeVal(test, test0, "gmean")), "mean%": ("Mean (relative)", lambda test,test0,units: getRelativeVal(test, test0, "mean")), "min%": ("Min (relative)", lambda test,test0,units: getRelativeVal(test, test0, "min")), "median%": ("Median (relative)", lambda test,test0,units: getRelativeVal(test, test0, "median")), "stddev%": ("Standard deviation (relative)", lambda test,test0,units: getRelativeVal(test, test0, "stddev")), "gstddev%": ("Standard deviation of Ln(time) (relative)", lambda test,test0,units: getRelativeVal(test, test0, "gstddev")), "gmean$": ("Geometric mean (cycle reduction)", lambda test,test0,units: getCycleReduction(test, test0, "gmean")), "mean$": ("Mean (cycle reduction)", lambda test,test0,units: getCycleReduction(test, test0, "mean")), "min$": ("Min (cycle reduction)", lambda test,test0,units: getCycleReduction(test, test0, "min")), "median$": ("Median (cycle reduction)", lambda test,test0,units: getCycleReduction(test, test0, "median")), "stddev$": ("Standard deviation (cycle reduction)", lambda test,test0,units: getCycleReduction(test, test0, "stddev")), "gstddev$": ("Standard deviation of Ln(time) (cycle reduction)", lambda test,test0,units: getCycleReduction(test, test0, "gstddev")), } def formatValue(val, metric, units = None): if val is None: return "-" if metric.endswith("%"): return "%.2f" % val if metric.endswith("$"): return "%.2f%%" % val return "%.3f %s" % (val, units) if __name__ == "__main__": if len(sys.argv) < 2: print "Usage:\n", os.path.basename(sys.argv[0]), ".xml" exit(0) 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("-m", "--metric", dest="metric", help="output metric", metavar="NAME", default="gmean") parser.add_option("-u", "--units", dest="units", help="units for output values (s, ms (default), mks, ns or ticks)", metavar="UNITS", default="ms") (options, args) = parser.parse_args() options.generateHtml = detectHtmlOutputType(options.format) if options.metric not in metrix_table: options.metric = "gmean" #print options #print args # tbl = table() # tbl.newColumn("first", "qqqq", align = "left") # tbl.newColumn("second", "wwww\nz\nx\n") # tbl.newColumn("third", "wwasdas") # # tbl.newCell(0, "ccc111", align = "right") # tbl.newCell(1, "dddd1") # tbl.newCell(2, "8768756754") # tbl.newRow() # tbl.newCell(0, "1\n2\n3\n4\n5\n6\n7", align = "center", colspan = 2, rowspan = 2) # tbl.newCell(2, "xxx\nqqq", align = "center", colspan = 1, valign = "middle") # tbl.newRow() # tbl.newCell(2, "+", align = "center", colspan = 1, valign = "middle") # tbl.newRow() # tbl.newCell(0, "vcvvbasdsadassdasdasv", align = "right", colspan = 2) # tbl.newCell(2, "dddd1") # tbl.newRow() # tbl.newCell(0, "vcvvbv") # tbl.newCell(1, "3445324", align = "right") # tbl.newCell(2, None) # tbl.newCell(1, "0000") # if sys.stdout.isatty(): # tbl.consolePrintTable(sys.stdout) # else: # htmlPrintHeader(sys.stdout) # tbl.htmlPrintTable(sys.stdout) # htmlPrintFooter(sys.stdout) import testlog_parser if options.generateHtml: htmlPrintHeader(sys.stdout, "Tables demo") getter = metrix_table[options.metric][1] for arg in args: tests = testlog_parser.parseLogFile(arg) tbl = table(arg) tbl.newColumn("name", "Name of Test", align = "left") tbl.newColumn("value", metrix_table[options.metric][0], align = "center", bold = "true") for t in sorted(tests): tbl.newRow() tbl.newCell("name", str(t)) status = t.get("status") if status != "run": tbl.newCell("value", status) else: val = getter(t, None, options.units) if val: if options.metric.endswith("%"): tbl.newCell("value", "%.2f" % val, val) else: tbl.newCell("value", "%.3f %s" % (val, options.units), val) else: tbl.newCell("value", "-") if options.generateHtml: tbl.htmlPrintTable(sys.stdout) else: tbl.consolePrintTable(sys.stdout) if options.generateHtml: htmlPrintFooter(sys.stdout)