blob: 8936c2df9f527679ac51a0d749ff7c55d6ebf5d7 [file] [log] [blame]
#!/usr/bin/env python
## Copyright (c) 2019, Alliance for Open Media. All rights reserved
##
## This source code is subject to the terms of the BSD 2 Clause License and
## the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
## was not distributed with this source code in the LICENSE file, you can
## obtain it at www.aomedia.org/license/software. 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 www.aomedia.org/license/patent.
##
__author__ = "maggie.sun@intel.com, ryan.lei@intel.com"
import os
import platform
import AV2CTCVideo
#TEST_CONFIGURATIONS = ["RA","LD", "AS"]
TEST_CONFIGURATIONS = ["LD", "RA", "AI"]
######################################
# configuration settings
######################################
RootPath = "..\\"
BinPath = os.path.join(RootPath, 'bin')
WorkPath = os.path.join(RootPath, 'test')
SMOKE_TEST = False # override some parameters to do a quick smoke test
FrameNum = {
"LD" : 130,
"RA" : 130,
"AI" : 30,
"AS" : 130,
}
EnableTimingInfo = True
Platform = platform.system()
############ test contents #######################################
ContentPath = "D:\\YUVs\\AV2-CTC"
############## Scaling settings ############################################
# down scaling ratio
DnScaleRatio = [1.0, 1.5, 2.0, 3.0, 4.0, 6.0] # downscale ratio
#down and up scaling algorithm, the 2 lists should be of same size
DnScalingAlgos = ['lanczos'] #['bicubic', 'bilinear', 'gauss', 'lanczos', 'sinc']
UpScalingAlgos = ['lanczos'] #['bicubic', 'bilinear', 'gauss', 'lanczos', 'sinc']
if SMOKE_TEST:
DnScalingAlgos = ['bicubic', 'lanczos', 'sinc']
UpScalingAlgos = ['bicubic', 'lanczos', 'sinc']
HDRToolsConfigFileTemplate = os.path.join(BinPath, 'HDRConvScalerY4MFile.cfg')
HDRConvert = os.path.join(BinPath, 'HDRConvert.exe')
##################### Encode Config ########################################
EncodeMethods = ["aom", "svt"]
CodecNames = ["av1"]
SUFFIX = {"av1": ".ivf"}
FFMPEG = os.path.join(BinPath, 'ffmpeg.exe')
AOMENC = os.path.join(BinPath, 'aomenc.exe')
SVTAV1 = os.path.join(BinPath, 'SvtAv1EncApp.exe')
AOMDEC = os.path.join(BinPath, 'aomdec.exe')
QPs = {
"LD" : [23, 31, 39, 47, 55, 63],
"RA" : [23, 31, 39, 47, 55, 63],
"AI" : [18, 27, 36, 45, 54, 63],
"AS" : [23, 31, 39, 47, 55, 63],
}
######################## quality evalution config #############################
QualityList = ['PSNR_Y','PSNR_U','PSNR_V','SSIM_Y(dB)','MS-SSIM_Y(dB)','VMAF_Y',
'VMAF_Y-NEG','PSNR-HVS','CIEDE2000','APSNR_Y','APSNR_U','APSNR_V']
VMAF = os.path.join(BinPath, 'vmaf.exe')
CalcBDRateInExcel = True
EnablePreInterpolation = True
######################## config for exporting data to excel #################
#https://xlsxwriter.readthedocs.io/working_with_colors.html#colors
# line color used, number of colors >= len(DnScaledRes)
LineColors = ['blue', 'red', 'green', 'orange', 'pink', 'yellow']
ConvexHullColor = 'white'
Int_ConvexHullColor = 'cyan'
# find out QP/Resolution with specified qty metrics
TargetQtyMetrics = {'VMAF_Y': [60, 70, 80, 90],
'PSNR_Y': [30, 35, 38, 40, 41]}
# format for exported excel of convexhull test
# if to modify below 3 variables, need to modify function
# SaveConvexHullResultsToExcel accordingly
CvxH_startCol = 1; CvxH_startRow = 2; CvxH_colInterval = 2
CvxH_WtCols = [(CvxH_colInterval + 1 + len(QualityList)) * i + CvxH_startCol
for i in range(len(DnScaleRatio))]
CvxH_WtRows = [CvxH_startRow + i for i in range(len(QPs['AS']))]
CvxH_WtLastCol = CvxH_WtCols[-1] + len(QualityList)
CvxH_WtLastRow = CvxH_WtRows[-1]
# format for writing convexhull curve data
CvxHDataStartRow = CvxH_WtRows[-1] + 2; CvxHDataStartCol = 0
CvxHDataNum = 7 # qty, bitrate, qp, resolution, int_qty, int_bitrate, 1 empty row as internal
CvxHDataRows = [CvxHDataStartRow + 1 + CvxHDataNum * i for i in range(len(QualityList))]
######################## post analysis #########################################
PostAnalysis_Path = os.path.join(RootPath, 'analysis')
Path_RDResults = os.path.join(PostAnalysis_Path, 'rdresult')
SummaryOutPath = os.path.join(PostAnalysis_Path, 'summary')
Path_ScalingResults = os.path.join(PostAnalysis_Path, 'scalingresult')
# vba file needed when to calculate bdrate
#VbaBinFile = os.path.join(BinPath, 'vbaProject_JVET-L0242.bin')
VbaBinFile = os.path.join(BinPath, 'vbaProject-AV2.bin')
# format for exported excel of scaling quality test
# if to modify below 3 variables, need to modify function SaveScalingResultsToExcel
# accordingly
ScalQty_startCol = 6; ScalQty_startRow = 2; ScalQty_colInterval = 1
ScalSumQty_startCol = 7
ScalQty_WtCols = [(ScalQty_colInterval +
len(QualityList)) * i + ScalQty_startCol
for i in range(len(DnScalingAlgos))]
ScalSumQty_WtCols = [(ScalQty_colInterval +
len(QualityList)) * i + ScalQty_startCol + 1
for i in range(len(DnScalingAlgos))]
######################## logging #########################################
LoggerName = "AV2CTC"
LogLevels = ['NONE', 'CRITICAL', 'ERROR', 'WARNING', 'INFO', 'DEBUG']