tools/convexhull_framework/src/ScalingTest.py - avm - Git at Google

 #!/usr/bin/env python
 ## Copyright (c) 2021, Alliance for Open Media. All rights reserved
 ##
 ## This source code is subject to the terms of the BSD 3-Clause Clear License and the
 ## Alliance for Open Media Patent License 1.0. If the BSD 3-Clause Clear License was
 ## not distributed with this source code in the LICENSE file, you can obtain it
 ## at aomedia.org/license/software-license/bsd-3-c-c/.  If the Alliance for Open Media Patent
 ## License 1.0 was not distributed with this source code in the PATENTS file, you
 ## can obtain it at aomedia.org/license/patent-license/.
 ##
 __author__ = "maggie.sun@intel.com, ryanlei@fb.com"

 import os
 import xlsxwriter
 import xlrd
 import logging
 from CalculateQualityMetrics import CalculateQualityMetric, GatherQualityMetrics
 from VideoScaler import GetDownScaledOutFile, DownScaling, UpScaling,\
      GetUpScaledOutFile
 from Config import DnScaleRatio, FrameNum, QualityList, LoggerName,\
      Path_ScalingResults, ScalQty_WtCols, ScalQty_startRow, LineColors, \
      ScalSumQty_WtCols, AS_DOWNSCALE_ON_THE_FLY
 from Utils import Cleanfolder, GetShortContentName, CreateChart_Scatter, \
      AddSeriesToChart_Scatter, UpdateChart, InsertChartsToSheet, \
      CalcRowsClassAndContentDict, Clip, CreateChart_Bar, AddSeriesToChart_Bar, \
      DeleteFile
 import Utils

 subloggername = "ScalingTest"
 loggername = LoggerName + '.' + '%s' % subloggername
 logger = logging.getLogger(loggername)

 StatsMetrics = ['Max', 'Std+', 'Average', 'Std-', 'Min']

 def GetScalingResultExcelFile(method, rationum, scalAlgoNum):
     filename = "ScalingResults_RatioNum_%d_%s_AlgoNum_%d.xlsx"\
                % (rationum, method, scalAlgoNum)
     file = os.path.join(Path_ScalingResults, filename)
     return file

 def GetScalingResultExcelFile_PerContent(content, method):
     filename = GetShortContentName(content, False)
     filename = "ScalingResults_%s_%s.xlsx" % (method, filename)
     file = os.path.join(Path_ScalingResults, filename)
     return file

 def Run_Scaling_Test(clip, dnScalAlgo, upScalAlgo, path_dnscl, path_upscl,
                      path_log, path_cfg, savememory, keepupscaledyuv, ScaleMethod,
                      LogCmdOnly=False):
     logger.info("start running scaling tests with content %s"
                 % os.path.basename(clip.file_name))
     DnScaledRes = [(int(clip.width / ratio), int(clip.height / ratio))
                    for ratio in DnScaleRatio]
     for i in range(len(DnScaledRes)):
         DnScaledW = DnScaledRes[i][0]
         DnScaledH = DnScaledRes[i][1]
         if (DnScaledW == clip.width and DnScaledH == clip.height):
             continue
         logger.info("start downscaling content to %dx%d" % (DnScaledW, DnScaledH))
         JobName = '%s_Downscaling_%dx%d' % \
                   (GetShortContentName(clip.file_name, False), DnScaledW, DnScaledH)
         if LogCmdOnly:
             Utils.CmdLogger.write("============== %s Job Start =================\n"%JobName)
         # downscaling
         dnscalyuv = GetDownScaledOutFile(clip, DnScaledW, DnScaledH,
                                          path_dnscl, ScaleMethod, dnScalAlgo)
         if not os.path.isfile(dnscalyuv):
             dnscalyuv = DownScaling(ScaleMethod, clip, FrameNum['AS'], DnScaledW, DnScaledH,
                                     path_dnscl, path_cfg, dnScalAlgo, LogCmdOnly)
         dnscaled_clip = Clip(GetShortContentName(dnscalyuv, False)+'.y4m',
                              dnscalyuv, "", DnScaledW, DnScaledH,
                              clip.fmt, clip.fps_num, clip.fps_denom,
                              clip.bit_depth)
         upscaleyuv = UpScaling(ScaleMethod, dnscaled_clip, FrameNum['AS'], clip.width, clip.height,
                                path_upscl, path_cfg, upScalAlgo, LogCmdOnly)
         CalculateQualityMetric(clip.file_path, FrameNum['AS'], upscaleyuv, clip.fmt,
                                clip.width, clip.height, clip.bit_depth,
                                path_log, LogCmdOnly)
         if savememory:
             if dnscalyuv != clip.file_path:
                 DeleteFile(dnscalyuv, LogCmdOnly)
             if not keepupscaledyuv:
                 DeleteFile(upscaleyuv, LogCmdOnly)

         if LogCmdOnly:
             Utils.CmdLogger.write("============== %s Job End =================\n" % JobName)
     logger.info("finish running scaling test.")

 def GeneratePerClipExcelFile(ScaleMethod, dnScalAlgos, upScalAlgos, clip, path_log):
     logger.info("start generate excel file for content :%s" % clip.file_name)
     excFile = GetScalingResultExcelFile_PerContent(clip.file_name, ScaleMethod)
     wb = xlsxwriter.Workbook(excFile)
     shtname = GetShortContentName(clip.file_name)
     sht = wb.add_worksheet(shtname)

     scaleRatios = DnScaleRatio
     if (1.0 in scaleRatios):
         scaleRatios.remove(1.0)

     sht.write(1, 0, 'Content Name')
     sht.write(2, 0, clip.file_name)
     sht.write(1, 1, 'Scaling Ratio')
     sht.write_column(2, 1, scaleRatios)
     pre_title = ['Width', 'Height', 'DnScaledWidth', 'DnScaledHeight']
     sht.write_row(1, 2, pre_title)
     for dn_algo, up_algo, col in zip(dnScalAlgos, upScalAlgos, ScalQty_WtCols):
         algos = dn_algo + '--' + up_algo
         sht.write(0, col, algos)
         sht.write_row(1, col, QualityList)

     rows = [ScalQty_startRow + i for i in range(len(scaleRatios))]
     continfos = []
     for ratio, row in zip(scaleRatios, rows):
         dw = int(clip.width / ratio)
         dh = int(clip.height / ratio)
         info = [clip.width, clip.height, dw, dh]
         sht.write_row(row, 2, info)
         continfos.append(info)

     charts = []; y_mins = {}; y_maxs = {}
     for qty, x in zip(QualityList, range(len(QualityList))):
         chart_title = 'Scaling Quality - %s' % qty
         xaxis_name = 'scaling ratio'
         chart = CreateChart_Scatter(wb, chart_title, xaxis_name, qty)
         charts.append(chart)
         y_mins[x] = []; y_maxs[x] = []

     for dn_algo, up_algo, col, i in zip(dnScalAlgos, upScalAlgos, ScalQty_WtCols,
                                         range(len(dnScalAlgos))):
         qualities = []
         seriname = dn_algo + '--' + up_algo
         for ratio, row, idx in zip(scaleRatios, rows, range(len(scaleRatios))):
             w = continfos[idx][0]
             h = continfos[idx][1]
             dw = continfos[idx][2]
             dh = continfos[idx][3]
             dnScalOut = GetDownScaledOutFile(clip, dw, dh, path_log, ScaleMethod, dn_algo)
             ds_clip = Clip(GetShortContentName(dnScalOut, False) + '.y4m',
                  dnScalOut, "", dw, dh, clip.fmt, clip.fps_num, clip.fps_denom,
                  clip.bit_depth)
             upScalOut = GetUpScaledOutFile(ds_clip, clip.width, clip.height,
                                            ScaleMethod, up_algo, path_log)
             qtys, perframe_vmaf_log = GatherQualityMetrics(upScalOut, path_log)
             sht.write_row(row, col, qtys)
             qualities.append(qtys)
         for x in range(len(QualityList)):
             AddSeriesToChart_Scatter(shtname, rows, col + x, 1, charts[x],
                                      seriname, LineColors[i])

         # get min and max of y-axis for a certain dn up scaling algo
         for qty, x in zip(QualityList, range(len(QualityList))):
             qs = [row[x] for row in qualities]
             y_mins[x].append(min(qs))
             y_maxs[x].append(max(qs))

     for qty, x in zip(QualityList, range(len(QualityList))):
         ymin = min(y_mins[x])
         ymax = max(y_maxs[x])
         margin = 0.1  # add 10% on min and max value for y_axis range
         num_precsn = 5 if 'MS-SSIM' in qty else 3
         UpdateChart(charts[x], ymin, ymax, margin, qty, num_precsn)

     startrow = rows[-1] + 2; startcol = 1
     InsertChartsToSheet(sht, startrow, startcol, charts)

     wb.close()
     logger.info("finish export scaling quality results to excel file.")

 def GenerateSummarySheet(wb, ScaleMethod, dnScalAlgos, upScalAlgos, ratio, path_log):
     logger.info("start generate summary sheet for ratio %2.2f" % ratio)

     shts = []
     shtname = "Ratio=%1.2f" % ratio
     sht = wb.add_worksheet(shtname)
     shts.append(sht)
     sht.write(1, 0, 'Content Class')
     sht.write(1, 1, 'Content NO.')
     sht.write(1, 2, 'Content Name')
     pre_title = ['Width', 'Height', 'DnScaledWidth', 'DnScaledHeight']
     sht.write_row(1, 3, pre_title)

     for dn_algo, up_algo, col in zip(dnScalAlgos, upScalAlgos, ScalSumQty_WtCols):
         algos = dn_algo + '--' + up_algo
         sht.write(0, col, algos)
         sht.write_row(1, col, QualityList)

     content_infos = {}; totalnum_contents = 0
     for (clss, clip_list), row_clss in zip(ClipDict.items(), Rows_Class):
         sht.write(row_clss, 0, clss)
         totalnum_contents = totalnum_contents + len(clip_list)
         for clip, row_cont in zip(clip_list, range(len(clip_list))):
             dw = int(clip.width / ratio)
             dh = int(clip.height / ratio)
             shortcntname = GetShortContentName(clip.file_name, False)
             sht.write(row_clss + row_cont, 2, shortcntname)
             infos = [clip.width, clip.height, dw, dh]
             sht.write_row(row_clss + row_cont, 3, infos)
             content_infos[shortcntname] = infos

     charts = []; y_mins = {}; y_maxs = {}
     for qty, x in zip(QualityList, range(len(QualityList))):
         chart_title = '%s of %s' % (qty, shtname)
         chart = CreateChart_Bar(wb, chart_title, 'Contents', qty)
         charts.append(chart)
         y_mins[x] = []; y_maxs[x] = []

     rows_all = [ScalQty_startRow + i for i in range(totalnum_contents)]
     sht.write_column(ScalQty_startRow, 1, range(totalnum_contents))
     for dn_algo, up_algo, col, i in zip(dnScalAlgos, upScalAlgos,
                                         ScalSumQty_WtCols,
                                         range(len(dnScalAlgos))):
         qualities = []
         seriname = dn_algo + '--' + up_algo
         for (clss, clip_list), row_clss in zip(ClipDict.items(), Rows_Class):
             for clip, row_cont in zip(clip_list, range(len(clip_list))):
                 key = GetShortContentName(clip.file_name, False)
                 w = content_infos[key][0]
                 h = content_infos[key][1]
                 dw = content_infos[key][2]
                 dh = content_infos[key][3]
                 dnScalOut = GetDownScaledOutFile(clip, dw, dh, path_log, ScaleMethod, dn_algo)
                 ds_clip = Clip(GetShortContentName(dnScalOut, False) + '.y4m',
                                dnScalOut, clss, dw, dh, clip.fmt, clip.fps_num,
                                clip.fps_denom, clip.bit_depth)
                 upScalOut = GetUpScaledOutFile(ds_clip, w, h, ScaleMethod, up_algo, path_log)
                 qtys, perframe_vmaf_log = GatherQualityMetrics(upScalOut, path_log)
                 sht.write_row(row_clss + row_cont, col, qtys)
                 qualities.append(qtys)

         for x in range(len(QualityList)):
             AddSeriesToChart_Bar(shtname, rows_all, col + x, 1, charts[x], seriname)

         # get min and max of y-axis for a certain dn up scaling algo
         for qty, x in zip(QualityList, range(len(QualityList))):
             qs = [row[x] for row in qualities]
             y_mins[x].append(min(qs))
             y_maxs[x].append(max(qs))

     for qty, x in zip(QualityList, range(len(QualityList))):
         ymin = min(y_mins[x])
         ymax = max(y_maxs[x])
         margin = 0.1  # add 10% on min and max value for y_axis range
         num_precsn = 5 if 'MS-SSIM' in qty else 3
         UpdateChart(charts[x], ymin, ymax, margin, qty, num_precsn)

     startrow = rows_all[-1] + 2; startcol = 1
     InsertChartsToSheet(sht, startrow, startcol, charts)
     logger.info("finish average sheet for ratio:%2.2f." % ratio)

     return sht

 def GenerateAverageSheet(wb, sumsht, dnScalAlgos, upScalAlgos, ratio):
     logger.info("start generate average sheet for ratio %2.2f" % ratio)

     rdsht = sumsht
     rdshtname = rdsht.get_name()
     shtname = "AverageForRatio=%1.2f" % ratio
     sht = wb.add_worksheet(shtname)
     sht.write(1, 0, 'QualityMetrics')
     sht.write(1, 1, 'Content Class')
     sht.write(1, 2, 'Content Number')

     interval = 1
     step = len(StatsMetrics) + interval
     startcol = 3
     cols_avg = [startcol + step * i for i in range(len(dnScalAlgos))]
     for col, dn_algo, up_algo in zip(cols_avg, dnScalAlgos, upScalAlgos):
         algos = dn_algo + '--' + up_algo
         sht.write(0, col, algos)
         sht.write_row(1, col, StatsMetrics)

     step = len(ClipDict) + 1  # 1 extra row for total of each class
     startrow = 2
     rows_qtymtr = [startrow + step * i for i in range(len(QualityList))]
     for qty, row_qm, y in zip(QualityList, rows_qtymtr, range(len(QualityList))):
         sht.write(row_qm, 0, qty)

         #charts = []
         #titlename = 'Quality Statistics %s' % qty
         #chart = CreateChart_Line(wb, titlename, qty)
         #charts.append(chart)

         totalnum_contents = 0
         for (cls, clip_list), idx, rdrow_cls in zip(ClipDict.items(),
                                                    range(len(ClipDict)),
                                                    Rows_Class):
             sht.write(row_qm + idx, 1, cls)
             num_content = len(clip_list)
             totalnum_contents = totalnum_contents + num_content
             sht.write(row_qm + idx, 2, num_content)
             for rdcol, wtcol in zip(ScalSumQty_WtCols, cols_avg):
                 startcell = xlrd.cellname(rdrow_cls, rdcol + y)
                 endcell = xlrd.cellname(rdrow_cls + num_content - 1, rdcol + y)
                 formula = '=MAX(\'%s\'!%s:%s)' % (rdshtname, startcell, endcell)
                 sht.write(row_qm + idx, wtcol, formula)

                 formula = '=SUM(\'%s\'!%s:%s)/%d' % (rdshtname, startcell,
                                                      endcell, num_content)
                 sht.write(row_qm + idx, wtcol + 2, formula)

                 formula = '=MIN(\'%s\'!%s:%s)' % (rdshtname, startcell, endcell)
                 sht.write(row_qm + idx, wtcol + 4, formula)

                 avgcell = xlrd.cellname(row_qm + idx, wtcol + 2)
                 formula = '= %s + _xlfn.STDEV.P(\'%s\'!%s:%s)'\
                           % (avgcell, rdshtname, startcell, endcell)
                 sht.write(row_qm + idx, wtcol + 1, formula)

                 formula = '= %s - _xlfn.STDEV.P(\'%s\'!%s:%s)'\
                           % (avgcell, rdshtname, startcell, endcell)
                 sht.write(row_qm + idx, wtcol + 3, formula)

         #write total contents statistics
         wtrow = row_qm + len(ClipDict)
         sht.write(wtrow, 1, 'Total')
         sht.write(wtrow, 2, totalnum_contents)
         for rdcol, wtcol in zip(ScalSumQty_WtCols, cols_avg):
             startcell = xlrd.cellname(ScalQty_startRow, rdcol + y)
             endcell = xlrd.cellname(ScalQty_startRow + totalnum_contents - 1,
                                     rdcol + y)
             formula = '=MAX(\'%s\'!%s:%s)' % (rdshtname, startcell, endcell)
             sht.write(wtrow, wtcol, formula)

             formula = '=SUM(\'%s\'!%s:%s)/%d'\
                       % (rdshtname, startcell, endcell, totalnum_contents)
             sht.write(wtrow, wtcol + 2, formula)

             formula = '=MIN(\'%s\'!%s:%s)' % (rdshtname, startcell, endcell)
             sht.write(wtrow, wtcol + 4, formula)

             avgcell = xlrd.cellname(wtrow, wtcol + 2)
             formula = '= %s + _xlfn.STDEV.P(\'%s\'!%s:%s)'\
                       % (avgcell, rdshtname, startcell, endcell)
             sht.write(wtrow, wtcol + 1, formula)

             formula = '= %s - _xlfn.STDEV.P(\'%s\'!%s:%s)'\
                       % (avgcell, rdshtname, startcell, endcell)
             sht.write(wtrow, wtcol + 3, formula)

     logger.info("finish average sheet for ratio:%2.2f." % ratio)

 def SaveScalingResultsToExcel(ScaleMethod, dnScalAlgos, upScalAlgos, clip_list, path_log):
     logger.info("start saving scaling quality results to excel files.......")
     if not os.path.exists(Path_ScalingResults):
         os.makedirs(Path_ScalingResults)

     logger.info("start generating per content scaling quality excel file.......")
     for clip in clip_list:
         GeneratePerClipExcelFile(ScaleMethod, dnScalAlgos, upScalAlgos, clip, path_log)

     scaleRatios = DnScaleRatio
     if (1.0 in scaleRatios):
         scaleRatios.remove(1.0)
     logger.info("start generating scaling quality summary excel file.......")
     sumexcFile = GetScalingResultExcelFile(ScaleMethod, len(scaleRatios), len(dnScalAlgos))
     wb = xlsxwriter.Workbook(sumexcFile)
     # to generate rows number of starting of each class: Rows_Class
     global ClipDict, Rows_Class
     ClipDict, Rows_Class = CalcRowsClassAndContentDict(ScalQty_startRow,  clip_list)
     sumShts = []
     for ratio in scaleRatios:
         sht = GenerateSummarySheet(wb, ScaleMethod, dnScalAlgos, upScalAlgos, ratio, path_log)
         sumShts.append(sht)
     for ratio, sumsht in zip(scaleRatios, sumShts):
         GenerateAverageSheet(wb, sumsht, dnScalAlgos, upScalAlgos, ratio)

     wb.close()
     logger.info("finish saving scaling quality results to excel files.......")
	#!/usr/bin/env python
	## Copyright (c) 2021, Alliance for Open Media. All rights reserved
	##
	## This source code is subject to the terms of the BSD 3-Clause Clear License and the
	## Alliance for Open Media Patent License 1.0. If the BSD 3-Clause Clear License was
	## not distributed with this source code in the LICENSE file, you can obtain it
	## at aomedia.org/license/software-license/bsd-3-c-c/. If the Alliance for Open Media Patent
	## License 1.0 was not distributed with this source code in the PATENTS file, you
	## can obtain it at aomedia.org/license/patent-license/.
	##
	__author__ = "maggie.sun@intel.com, ryanlei@fb.com"

	import os
	import xlsxwriter
	import xlrd
	import logging
	from CalculateQualityMetrics import CalculateQualityMetric, GatherQualityMetrics
	from VideoScaler import GetDownScaledOutFile, DownScaling, UpScaling,\
	GetUpScaledOutFile
	from Config import DnScaleRatio, FrameNum, QualityList, LoggerName,\
	Path_ScalingResults, ScalQty_WtCols, ScalQty_startRow, LineColors, \
	ScalSumQty_WtCols, AS_DOWNSCALE_ON_THE_FLY
	from Utils import Cleanfolder, GetShortContentName, CreateChart_Scatter, \
	AddSeriesToChart_Scatter, UpdateChart, InsertChartsToSheet, \
	CalcRowsClassAndContentDict, Clip, CreateChart_Bar, AddSeriesToChart_Bar, \
	DeleteFile
	import Utils

	subloggername = "ScalingTest"
	loggername = LoggerName + '.' + '%s' % subloggername
	logger = logging.getLogger(loggername)

	StatsMetrics = ['Max', 'Std+', 'Average', 'Std-', 'Min']

	def GetScalingResultExcelFile(method, rationum, scalAlgoNum):
	filename = "ScalingResults_RatioNum_%d_%s_AlgoNum_%d.xlsx"\
	% (rationum, method, scalAlgoNum)
	file = os.path.join(Path_ScalingResults, filename)
	return file

	def GetScalingResultExcelFile_PerContent(content, method):
	filename = GetShortContentName(content, False)
	filename = "ScalingResults_%s_%s.xlsx" % (method, filename)
	file = os.path.join(Path_ScalingResults, filename)
	return file

	def Run_Scaling_Test(clip, dnScalAlgo, upScalAlgo, path_dnscl, path_upscl,
	path_log, path_cfg, savememory, keepupscaledyuv, ScaleMethod,
	LogCmdOnly=False):
	logger.info("start running scaling tests with content %s"
	% os.path.basename(clip.file_name))
	DnScaledRes = [(int(clip.width / ratio), int(clip.height / ratio))
	for ratio in DnScaleRatio]
	for i in range(len(DnScaledRes)):
	DnScaledW = DnScaledRes[i][0]
	DnScaledH = DnScaledRes[i][1]
	if (DnScaledW == clip.width and DnScaledH == clip.height):
	continue
	logger.info("start downscaling content to %dx%d" % (DnScaledW, DnScaledH))
	JobName = '%s_Downscaling_%dx%d' % \
	(GetShortContentName(clip.file_name, False), DnScaledW, DnScaledH)
	if LogCmdOnly:
	Utils.CmdLogger.write("============== %s Job Start =================\n"%JobName)
	# downscaling
	dnscalyuv = GetDownScaledOutFile(clip, DnScaledW, DnScaledH,
	path_dnscl, ScaleMethod, dnScalAlgo)
	if not os.path.isfile(dnscalyuv):
	dnscalyuv = DownScaling(ScaleMethod, clip, FrameNum['AS'], DnScaledW, DnScaledH,
	path_dnscl, path_cfg, dnScalAlgo, LogCmdOnly)
	dnscaled_clip = Clip(GetShortContentName(dnscalyuv, False)+'.y4m',
	dnscalyuv, "", DnScaledW, DnScaledH,
	clip.fmt, clip.fps_num, clip.fps_denom,
	clip.bit_depth)
	upscaleyuv = UpScaling(ScaleMethod, dnscaled_clip, FrameNum['AS'], clip.width, clip.height,
	path_upscl, path_cfg, upScalAlgo, LogCmdOnly)
	CalculateQualityMetric(clip.file_path, FrameNum['AS'], upscaleyuv, clip.fmt,
	clip.width, clip.height, clip.bit_depth,
	path_log, LogCmdOnly)
	if savememory:
	if dnscalyuv != clip.file_path:
	DeleteFile(dnscalyuv, LogCmdOnly)
	if not keepupscaledyuv:
	DeleteFile(upscaleyuv, LogCmdOnly)

	if LogCmdOnly:
	Utils.CmdLogger.write("============== %s Job End =================\n" % JobName)
	logger.info("finish running scaling test.")

	def GeneratePerClipExcelFile(ScaleMethod, dnScalAlgos, upScalAlgos, clip, path_log):
	logger.info("start generate excel file for content :%s" % clip.file_name)
	excFile = GetScalingResultExcelFile_PerContent(clip.file_name, ScaleMethod)
	wb = xlsxwriter.Workbook(excFile)
	shtname = GetShortContentName(clip.file_name)
	sht = wb.add_worksheet(shtname)

	scaleRatios = DnScaleRatio
	if (1.0 in scaleRatios):
	scaleRatios.remove(1.0)

	sht.write(1, 0, 'Content Name')
	sht.write(2, 0, clip.file_name)
	sht.write(1, 1, 'Scaling Ratio')
	sht.write_column(2, 1, scaleRatios)
	pre_title = ['Width', 'Height', 'DnScaledWidth', 'DnScaledHeight']
	sht.write_row(1, 2, pre_title)
	for dn_algo, up_algo, col in zip(dnScalAlgos, upScalAlgos, ScalQty_WtCols):
	algos = dn_algo + '--' + up_algo
	sht.write(0, col, algos)
	sht.write_row(1, col, QualityList)

	rows = [ScalQty_startRow + i for i in range(len(scaleRatios))]
	continfos = []
	for ratio, row in zip(scaleRatios, rows):
	dw = int(clip.width / ratio)
	dh = int(clip.height / ratio)
	info = [clip.width, clip.height, dw, dh]
	sht.write_row(row, 2, info)
	continfos.append(info)

	charts = []; y_mins = {}; y_maxs = {}
	for qty, x in zip(QualityList, range(len(QualityList))):
	chart_title = 'Scaling Quality - %s' % qty
	xaxis_name = 'scaling ratio'
	chart = CreateChart_Scatter(wb, chart_title, xaxis_name, qty)
	charts.append(chart)
	y_mins[x] = []; y_maxs[x] = []

	for dn_algo, up_algo, col, i in zip(dnScalAlgos, upScalAlgos, ScalQty_WtCols,
	range(len(dnScalAlgos))):
	qualities = []
	seriname = dn_algo + '--' + up_algo
	for ratio, row, idx in zip(scaleRatios, rows, range(len(scaleRatios))):
	w = continfos[idx][0]
	h = continfos[idx][1]
	dw = continfos[idx][2]
	dh = continfos[idx][3]
	dnScalOut = GetDownScaledOutFile(clip, dw, dh, path_log, ScaleMethod, dn_algo)
	ds_clip = Clip(GetShortContentName(dnScalOut, False) + '.y4m',
	dnScalOut, "", dw, dh, clip.fmt, clip.fps_num, clip.fps_denom,
	clip.bit_depth)
	upScalOut = GetUpScaledOutFile(ds_clip, clip.width, clip.height,
	ScaleMethod, up_algo, path_log)
	qtys, perframe_vmaf_log = GatherQualityMetrics(upScalOut, path_log)
	sht.write_row(row, col, qtys)
	qualities.append(qtys)
	for x in range(len(QualityList)):
	AddSeriesToChart_Scatter(shtname, rows, col + x, 1, charts[x],
	seriname, LineColors[i])

	# get min and max of y-axis for a certain dn up scaling algo
	for qty, x in zip(QualityList, range(len(QualityList))):
	qs = [row[x] for row in qualities]
	y_mins[x].append(min(qs))
	y_maxs[x].append(max(qs))

	for qty, x in zip(QualityList, range(len(QualityList))):
	ymin = min(y_mins[x])
	ymax = max(y_maxs[x])
	margin = 0.1 # add 10% on min and max value for y_axis range
	num_precsn = 5 if 'MS-SSIM' in qty else 3
	UpdateChart(charts[x], ymin, ymax, margin, qty, num_precsn)

	startrow = rows[-1] + 2; startcol = 1
	InsertChartsToSheet(sht, startrow, startcol, charts)

	wb.close()
	logger.info("finish export scaling quality results to excel file.")

	def GenerateSummarySheet(wb, ScaleMethod, dnScalAlgos, upScalAlgos, ratio, path_log):
	logger.info("start generate summary sheet for ratio %2.2f" % ratio)

	shts = []
	shtname = "Ratio=%1.2f" % ratio
	sht = wb.add_worksheet(shtname)
	shts.append(sht)
	sht.write(1, 0, 'Content Class')
	sht.write(1, 1, 'Content NO.')
	sht.write(1, 2, 'Content Name')
	pre_title = ['Width', 'Height', 'DnScaledWidth', 'DnScaledHeight']
	sht.write_row(1, 3, pre_title)

	for dn_algo, up_algo, col in zip(dnScalAlgos, upScalAlgos, ScalSumQty_WtCols):
	algos = dn_algo + '--' + up_algo
	sht.write(0, col, algos)
	sht.write_row(1, col, QualityList)

	content_infos = {}; totalnum_contents = 0
	for (clss, clip_list), row_clss in zip(ClipDict.items(), Rows_Class):
	sht.write(row_clss, 0, clss)
	totalnum_contents = totalnum_contents + len(clip_list)
	for clip, row_cont in zip(clip_list, range(len(clip_list))):
	dw = int(clip.width / ratio)
	dh = int(clip.height / ratio)
	shortcntname = GetShortContentName(clip.file_name, False)
	sht.write(row_clss + row_cont, 2, shortcntname)
	infos = [clip.width, clip.height, dw, dh]
	sht.write_row(row_clss + row_cont, 3, infos)
	content_infos[shortcntname] = infos

	charts = []; y_mins = {}; y_maxs = {}
	for qty, x in zip(QualityList, range(len(QualityList))):
	chart_title = '%s of %s' % (qty, shtname)
	chart = CreateChart_Bar(wb, chart_title, 'Contents', qty)
	charts.append(chart)
	y_mins[x] = []; y_maxs[x] = []

	rows_all = [ScalQty_startRow + i for i in range(totalnum_contents)]
	sht.write_column(ScalQty_startRow, 1, range(totalnum_contents))
	for dn_algo, up_algo, col, i in zip(dnScalAlgos, upScalAlgos,
	ScalSumQty_WtCols,
	range(len(dnScalAlgos))):
	qualities = []
	seriname = dn_algo + '--' + up_algo
	for (clss, clip_list), row_clss in zip(ClipDict.items(), Rows_Class):
	for clip, row_cont in zip(clip_list, range(len(clip_list))):
	key = GetShortContentName(clip.file_name, False)
	w = content_infos[key][0]
	h = content_infos[key][1]
	dw = content_infos[key][2]
	dh = content_infos[key][3]
	dnScalOut = GetDownScaledOutFile(clip, dw, dh, path_log, ScaleMethod, dn_algo)
	ds_clip = Clip(GetShortContentName(dnScalOut, False) + '.y4m',
	dnScalOut, clss, dw, dh, clip.fmt, clip.fps_num,
	clip.fps_denom, clip.bit_depth)
	upScalOut = GetUpScaledOutFile(ds_clip, w, h, ScaleMethod, up_algo, path_log)
	qtys, perframe_vmaf_log = GatherQualityMetrics(upScalOut, path_log)
	sht.write_row(row_clss + row_cont, col, qtys)
	qualities.append(qtys)

	for x in range(len(QualityList)):
	AddSeriesToChart_Bar(shtname, rows_all, col + x, 1, charts[x], seriname)

	# get min and max of y-axis for a certain dn up scaling algo
	for qty, x in zip(QualityList, range(len(QualityList))):
	qs = [row[x] for row in qualities]
	y_mins[x].append(min(qs))
	y_maxs[x].append(max(qs))

	for qty, x in zip(QualityList, range(len(QualityList))):
	ymin = min(y_mins[x])
	ymax = max(y_maxs[x])
	margin = 0.1 # add 10% on min and max value for y_axis range
	num_precsn = 5 if 'MS-SSIM' in qty else 3
	UpdateChart(charts[x], ymin, ymax, margin, qty, num_precsn)

	startrow = rows_all[-1] + 2; startcol = 1
	InsertChartsToSheet(sht, startrow, startcol, charts)
	logger.info("finish average sheet for ratio:%2.2f." % ratio)

	return sht

	def GenerateAverageSheet(wb, sumsht, dnScalAlgos, upScalAlgos, ratio):
	logger.info("start generate average sheet for ratio %2.2f" % ratio)

	rdsht = sumsht
	rdshtname = rdsht.get_name()
	shtname = "AverageForRatio=%1.2f" % ratio
	sht = wb.add_worksheet(shtname)
	sht.write(1, 0, 'QualityMetrics')
	sht.write(1, 1, 'Content Class')
	sht.write(1, 2, 'Content Number')

	interval = 1
	step = len(StatsMetrics) + interval
	startcol = 3
	cols_avg = [startcol + step * i for i in range(len(dnScalAlgos))]
	for col, dn_algo, up_algo in zip(cols_avg, dnScalAlgos, upScalAlgos):
	algos = dn_algo + '--' + up_algo
	sht.write(0, col, algos)
	sht.write_row(1, col, StatsMetrics)

	step = len(ClipDict) + 1 # 1 extra row for total of each class
	startrow = 2
	rows_qtymtr = [startrow + step * i for i in range(len(QualityList))]
	for qty, row_qm, y in zip(QualityList, rows_qtymtr, range(len(QualityList))):
	sht.write(row_qm, 0, qty)

	#charts = []
	#titlename = 'Quality Statistics %s' % qty
	#chart = CreateChart_Line(wb, titlename, qty)
	#charts.append(chart)

	totalnum_contents = 0
	for (cls, clip_list), idx, rdrow_cls in zip(ClipDict.items(),
	range(len(ClipDict)),
	Rows_Class):
	sht.write(row_qm + idx, 1, cls)
	num_content = len(clip_list)
	totalnum_contents = totalnum_contents + num_content
	sht.write(row_qm + idx, 2, num_content)
	for rdcol, wtcol in zip(ScalSumQty_WtCols, cols_avg):
	startcell = xlrd.cellname(rdrow_cls, rdcol + y)
	endcell = xlrd.cellname(rdrow_cls + num_content - 1, rdcol + y)
	formula = '=MAX(\'%s\'!%s:%s)' % (rdshtname, startcell, endcell)
	sht.write(row_qm + idx, wtcol, formula)

	formula = '=SUM(\'%s\'!%s:%s)/%d' % (rdshtname, startcell,
	endcell, num_content)
	sht.write(row_qm + idx, wtcol + 2, formula)

	formula = '=MIN(\'%s\'!%s:%s)' % (rdshtname, startcell, endcell)
	sht.write(row_qm + idx, wtcol + 4, formula)

	avgcell = xlrd.cellname(row_qm + idx, wtcol + 2)
	formula = '= %s + _xlfn.STDEV.P(\'%s\'!%s:%s)'\
	% (avgcell, rdshtname, startcell, endcell)
	sht.write(row_qm + idx, wtcol + 1, formula)

	formula = '= %s - _xlfn.STDEV.P(\'%s\'!%s:%s)'\
	% (avgcell, rdshtname, startcell, endcell)
	sht.write(row_qm + idx, wtcol + 3, formula)

	#write total contents statistics
	wtrow = row_qm + len(ClipDict)
	sht.write(wtrow, 1, 'Total')
	sht.write(wtrow, 2, totalnum_contents)
	for rdcol, wtcol in zip(ScalSumQty_WtCols, cols_avg):
	startcell = xlrd.cellname(ScalQty_startRow, rdcol + y)
	endcell = xlrd.cellname(ScalQty_startRow + totalnum_contents - 1,
	rdcol + y)
	formula = '=MAX(\'%s\'!%s:%s)' % (rdshtname, startcell, endcell)
	sht.write(wtrow, wtcol, formula)

	formula = '=SUM(\'%s\'!%s:%s)/%d'\
	% (rdshtname, startcell, endcell, totalnum_contents)
	sht.write(wtrow, wtcol + 2, formula)

	formula = '=MIN(\'%s\'!%s:%s)' % (rdshtname, startcell, endcell)
	sht.write(wtrow, wtcol + 4, formula)

	avgcell = xlrd.cellname(wtrow, wtcol + 2)
	formula = '= %s + _xlfn.STDEV.P(\'%s\'!%s:%s)'\
	% (avgcell, rdshtname, startcell, endcell)
	sht.write(wtrow, wtcol + 1, formula)

	formula = '= %s - _xlfn.STDEV.P(\'%s\'!%s:%s)'\
	% (avgcell, rdshtname, startcell, endcell)
	sht.write(wtrow, wtcol + 3, formula)

	logger.info("finish average sheet for ratio:%2.2f." % ratio)

	def SaveScalingResultsToExcel(ScaleMethod, dnScalAlgos, upScalAlgos, clip_list, path_log):
	logger.info("start saving scaling quality results to excel files.......")
	if not os.path.exists(Path_ScalingResults):
	os.makedirs(Path_ScalingResults)

	logger.info("start generating per content scaling quality excel file.......")
	for clip in clip_list:
	GeneratePerClipExcelFile(ScaleMethod, dnScalAlgos, upScalAlgos, clip, path_log)

	scaleRatios = DnScaleRatio
	if (1.0 in scaleRatios):
	scaleRatios.remove(1.0)
	logger.info("start generating scaling quality summary excel file.......")
	sumexcFile = GetScalingResultExcelFile(ScaleMethod, len(scaleRatios), len(dnScalAlgos))
	wb = xlsxwriter.Workbook(sumexcFile)
	# to generate rows number of starting of each class: Rows_Class
	global ClipDict, Rows_Class
	ClipDict, Rows_Class = CalcRowsClassAndContentDict(ScalQty_startRow, clip_list)
	sumShts = []
	for ratio in scaleRatios:
	sht = GenerateSummarySheet(wb, ScaleMethod, dnScalAlgos, upScalAlgos, ratio, path_log)
	sumShts.append(sht)
	for ratio, sumsht in zip(scaleRatios, sumShts):
	GenerateAverageSheet(wb, sumsht, dnScalAlgos, upScalAlgos, ratio)

	wb.close()
	logger.info("finish saving scaling quality results to excel files.......")