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isp_pipeline.py
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isp_pipeline.py
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from matplotlib import pyplot as plt
import numpy as np
import csv
from model.dpc import DPC
from model.blc import BLC
from model.aaf import AAF
from model.awb import WBGC
from model.cnf import CNF
from model.cfa import CFA
from model.gac import GC
from model.ccm import CCM
from model.csc import CSC
from model.bnf import BNF
from model.eeh import EE
from model.fcs import FCS
from model.bcc import BCC
from model.hsc import HSC
from model.nlm import NLM
raw_path = './raw/test.RAW'
config_path = './config/config.csv'
f = open(config_path, 'r', encoding='utf-8-sig')
with f:
reader = csv.reader(f, delimiter=',')
raw_h = 1280
raw_w = 720
dpc_thres = 30
dpc_mode = 'gradient'
dpc_clip = 1023
bl_r = 0
bl_gr = 0
bl_gb = 0
bl_b = 0
alpha = 0
beta = 0
blc_clip = 1023
bayer_pattern = 'rggb'
r_gain = 1.5
gr_gain = 1.0
gb_gain = 1.0
b_gain = 1.1
awb_clip = 1023
cfa_mode = 'malvar'
cfa_clip = 1023
ccm = np.zeros((3, 4))
csc = np.zeros((3, 4))
bnf_dw = np.zeros((5,5))
bnf_rw = [1, 1, 1, 1]
bnf_rthres = [32, 64, 128]
bnf_clip = 255
edge_filter = np.zeros((3, 5))
ee_gain = [32, 128]
ee_thres = [32, 64]
ee_emclip = [-64, 64]
fcs_edge = [32, 64]
fcs_gain = 32
fcs_intercept = 2
fcs_slope = 3
hue = 128
saturation = 256
hsc_clip = 255
brightness = 10 # [-255, 255]
contrast = 10 / pow(2, 5) # [-32,128]
bcc_clip = 255
nlm_h = 10
nlm_clip = 255
for row in reader:
parameter = row[0]
value = row[1]
description = row[2]
print(parameter, value, description)
if 'raw' in str(parameter):
raw_w = int(value) if '_w' in str(parameter) else raw_w
raw_h = int(value) if '_h' in str(parameter) else raw_h
elif 'dpc' in str(parameter):
dpc_thres = int(value) if '_thres' in str(parameter) else dpc_thres
dpc_mode = str(value) if '_mode' in str(parameter) else dpc_mode
dpc_clip = int(value) if '_clip' in str(parameter) else dpc_clip
elif 'bl' in str(parameter):
bl_r = int(value) if '_r' in str(parameter) else bl_r
bl_gr = int(value) if '_gr' in str(parameter) else bl_gr
bl_gb = int(value) if '_gb' in str(parameter) else bl_gb
bl_b = int(value) if '_b' in str(parameter) else bl_b
alpha = int(value) if '_alpha' in str(parameter) else alpha
beta = int(value) if '_beta' in str(parameter) else beta
blc_clip = int(value) if '_clip' in str(parameter) else beta
elif 'bayer_pattern' in str(parameter):
bayer_pattern = str(value)
elif 'awb' in str(parameter):
r_gain = int(value) if '_rgain' in str(parameter) else r_gain
gr_gain = int(value) if '_grgain' in str(parameter) else gr_gain
gb_gain = int(value) if '_gbgain' in str(parameter) else gb_gain
b_gain = int(value) if '_bgain' in str(parameter) else b_gain
awb_clip = int(value) if '_clip' in str(parameter) else awb_clip
elif 'cfa' in str(parameter):
cfa_mode = str(value) if '_mode' in str(parameter) else cfa_mode
cfa_clip = int(value) if '_clip' in str(parameter) else cfa_clip
elif 'ccm' in str(parameter):
ccm[0][0] = int(value) if '_00' in str(parameter) else ccm[0][0]
ccm[0][1] = int(value) if '_01' in str(parameter) else ccm[0][1]
ccm[0][2] = int(value) if '_02' in str(parameter) else ccm[0][2]
ccm[0][3] = int(value) if '_03' in str(parameter) else ccm[0][3]
ccm[1][0] = int(value) if '_10' in str(parameter) else ccm[1][0]
ccm[1][1] = int(value) if '_11' in str(parameter) else ccm[1][1]
ccm[1][2] = int(value) if '_12' in str(parameter) else ccm[1][2]
ccm[1][3] = int(value) if '_13' in str(parameter) else ccm[1][3]
ccm[2][0] = int(value) if '_20' in str(parameter) else ccm[2][0]
ccm[2][1] = int(value) if '_21' in str(parameter) else ccm[2][1]
ccm[2][2] = int(value) if '_22' in str(parameter) else ccm[2][2]
ccm[2][3] = int(value) if '_23' in str(parameter) else ccm[2][3]
elif 'csc' in str(parameter):
csc[0][0] = 1024 * float(value) if '_00' in str(parameter) else csc[0][0]
csc[0][1] = 1024 * float(value) if '_01' in str(parameter) else csc[0][1]
csc[0][2] = 1024 * float(value) if '_02' in str(parameter) else csc[0][2]
csc[0][3] = 1024 * float(value) if '_03' in str(parameter) else csc[0][3]
csc[1][0] = 1024 * float(value) if '_10' in str(parameter) else csc[1][0]
csc[1][1] = 1024 * float(value) if '_11' in str(parameter) else csc[1][1]
csc[1][2] = 1024 * float(value) if '_12' in str(parameter) else csc[1][2]
csc[1][3] = 1024 * float(value) if '_13' in str(parameter) else csc[1][3]
csc[2][0] = 1024 * float(value) if '_20' in str(parameter) else csc[2][0]
csc[2][1] = 1024 * float(value) if '_21' in str(parameter) else csc[2][1]
csc[2][2] = 1024 * float(value) if '_22' in str(parameter) else csc[2][2]
csc[2][3] = 1024 * float(value) if '_23' in str(parameter) else csc[2][3]
elif 'bnf' in str(parameter):
bnf_dw[0][0] = int(value) if '_dw_00' in str(parameter) else bnf_dw[0][0]
bnf_dw[0][1] = int(value) if '_dw_01' in str(parameter) else bnf_dw[0][1]
bnf_dw[0][2] = int(value) if '_dw_02' in str(parameter) else bnf_dw[0][2]
bnf_dw[0][3] = int(value) if '_dw_03' in str(parameter) else bnf_dw[0][3]
bnf_dw[0][4] = int(value) if '_dw_04' in str(parameter) else bnf_dw[0][4]
bnf_dw[1][0] = int(value) if '_dw_10' in str(parameter) else bnf_dw[1][0]
bnf_dw[1][1] = int(value) if '_dw_11' in str(parameter) else bnf_dw[1][1]
bnf_dw[1][2] = int(value) if '_dw_12' in str(parameter) else bnf_dw[1][2]
bnf_dw[1][3] = int(value) if '_dw_13' in str(parameter) else bnf_dw[1][3]
bnf_dw[1][4] = int(value) if '_dw_14' in str(parameter) else bnf_dw[1][4]
bnf_dw[2][0] = int(value) if '_dw_20' in str(parameter) else bnf_dw[2][0]
bnf_dw[2][1] = int(value) if '_dw_21' in str(parameter) else bnf_dw[2][1]
bnf_dw[2][2] = int(value) if '_dw_22' in str(parameter) else bnf_dw[2][2]
bnf_dw[2][3] = int(value) if '_dw_23' in str(parameter) else bnf_dw[2][3]
bnf_dw[2][4] = int(value) if '_dw_24' in str(parameter) else bnf_dw[2][4]
bnf_rw[0] = int(value) if '_rw_0' in str(parameter) else bnf_rw[0]
bnf_rw[1] = int(value) if '_rw_1' in str(parameter) else bnf_rw[1]
bnf_rw[2] = int(value) if '_rw_2' in str(parameter) else bnf_rw[2]
bnf_rw[3] = int(value) if '_rw_3' in str(parameter) else bnf_rw[3]
bnf_rthres[0] = int(value) if '_rthres_0' in str(parameter) else bnf_rthres[0]
bnf_rthres[1] = int(value) if '_rthres_1' in str(parameter) else bnf_rthres[1]
bnf_rthres[2] = int(value) if '_rthres_2' in str(parameter) else bnf_rthres[2]
bnf_clip = int(value) if '_clip' in str(parameter) else bnf_clip
elif 'edge_filter' in str(parameter):
edge_filter[0][0] = int(value) if '_00' in str(parameter) else edge_filter[0][0]
edge_filter[0][1] = int(value) if '_01' in str(parameter) else edge_filter[0][1]
edge_filter[0][2] = int(value) if '_02' in str(parameter) else edge_filter[0][2]
edge_filter[0][3] = int(value) if '_03' in str(parameter) else edge_filter[0][3]
edge_filter[0][4] = int(value) if '_04' in str(parameter) else edge_filter[0][4]
edge_filter[1][0] = int(value) if '_10' in str(parameter) else edge_filter[1][0]
edge_filter[1][1] = int(value) if '_11' in str(parameter) else edge_filter[1][1]
edge_filter[1][2] = int(value) if '_12' in str(parameter) else edge_filter[1][2]
edge_filter[1][3] = int(value) if '_13' in str(parameter) else edge_filter[1][3]
edge_filter[1][4] = int(value) if '_14' in str(parameter) else edge_filter[1][4]
edge_filter[2][0] = int(value) if '_20' in str(parameter) else edge_filter[2][0]
edge_filter[2][1] = int(value) if '_21' in str(parameter) else edge_filter[2][1]
edge_filter[2][2] = int(value) if '_22' in str(parameter) else edge_filter[2][2]
edge_filter[2][3] = int(value) if '_23' in str(parameter) else edge_filter[2][3]
edge_filter[2][4] = int(value) if '_24' in str(parameter) else edge_filter[2][4]
elif 'ee' in str(parameter):
ee_gain[0] = int(value) if 'gain_min' in str(parameter) else ee_gain[0]
ee_gain[1] = int(value) if 'gain_max' in str(parameter) else ee_gain[1]
ee_thres[0] = int(value) if 'thres_min' in str(parameter) else ee_thres[0]
ee_thres[1] = int(value) if 'thres_max' in str(parameter) else ee_thres[1]
ee_emclip[0] = int(value) if 'emclip_min' in str(parameter) else ee_emclip[0]
ee_emclip[1] = int(value) if 'emclip_max' in str(parameter) else ee_emclip[1]
elif 'fcs' in str(parameter):
fcs_edge[0] = int(value) if 'edge_min' in str(parameter) else fcs_edge[0]
fcs_edge[1] = int(value) if 'edge_min' in str(parameter) else fcs_edge[1]
fcs_gain = int(value) if '_gain' in str(parameter) else fcs_gain
fcs_intercept = int(value) if '_intercept' in str(parameter) else fcs_intercept
fcs_slope = int(value) if '_slope' in str(parameter) else fcs_slope
elif 'nlm' in str(parameter):
nlm_h = int(value) if '_h' in str(parameter) else nlm_h
nlm_clip = int(value) if '_clip' in str(parameter) else nlm_clip
else:
hue = int(value) if 'hue' in str(parameter) else hue
saturation = int(value) if 'saturation' in str(parameter) else saturation
hsc_clip = int(value) if 'hsc_clip' in str(parameter) else hsc_clip
brightness = int(value) if 'brightness' in str(parameter) else brightness
contrast = int(value) if 'contrast' in str(parameter) else contrast
bcc_clip = int(value) if 'bcc_clip' in str(parameter) else bcc_clip
rawimg = np.fromfile(raw_path, dtype='uint16', sep='')
rawimg = rawimg.reshape([raw_h, raw_w])
print(50*'-' + '\nLoading RAW Image Done......')
#plt.imshow(rawimg, cmap='gray')
#plt.show()
# dead pixel correction
dpc = DPC(rawimg, dpc_thres, dpc_mode, dpc_clip)
rawimg_dpc = dpc.execute()
print(50*'-' + '\nDead Pixel Correction Done......')
#plt.imshow(rawimg_dpc, cmap='gray')
#plt.show()
# black level compensation
parameter = [bl_r, bl_gr, bl_gb, bl_b, alpha, beta]
blc = BLC(rawimg_dpc, parameter, bayer_pattern, blc_clip)
rawimg_blc = blc.execute()
print(50*'-' + '\nBlack Level Compensation Done......')
#plt.imshow(rawimg_blc, cmap='gray')
#plt.show()
# lens shading correction
# anti-aliasing filter
aaf = AAF(rawimg_blc)
rawimg_aaf = aaf.execute()
print(50*'-' + '\nAnti-aliasing Filtering Done......')
#plt.imshow(rawimg_aaf, cmap='gray')
#plt.show()
#rawimg_diff = rawimg_blc - rawimg_aaf
#plt.imshow(rawimg_diff, cmap='gray')
#plt.show()
# white balance gain control
parameter = [r_gain, gr_gain, gb_gain, b_gain]
awb = WBGC(rawimg_aaf, parameter, bayer_pattern, awb_clip)
rawimg_awb = awb.execute()
print(50*'-' + '\nWhite Balance Gain Done......')
#plt.imshow(rawimg_awb, cmap='gray')
#plt.show()
# chroma noise filtering
cnf = CNF(rawimg_awb, bayer_pattern, 0, parameter, 1023)
rawimg_cnf = cnf.execute()
print(50*'-' + '\nChroma Noise Filtering Done......')
#plt.imshow(rawimg_cnf/4, cmap='gray')
#plt.show()
# color filter array interpolation
cfa = CFA(rawimg_cnf, cfa_mode, bayer_pattern, cfa_clip)
rgbimg_cfa = cfa.execute()
print(50*'-' + '\nDemosaicing Done......')
#plt.imshow(rgbimg_cfa/4)
#plt.show()
# color correction matrix
ccm = CCM(rgbimg_cfa, ccm)
rgbimg_ccm = ccm.execute()
print(50*'-' + '\nColor Correction Done......')
#plt.imshow(rgbimg_ccm)
#plt.show()
# gamma correction
# look up table
bw = 10
gamma = 0.5
mode = 'rgb'
maxval = pow(2,bw)
ind = range(0, maxval)
val = [round(pow(float(i)/maxval, gamma) * maxval) for i in ind]
lut = dict(zip(ind, val))
#print(ind, val, lut)
gc = GC(rgbimg_ccm, lut, mode)
rgbimg_gc = gc.execute()
print(50*'-' + '\nGamma Correction Done......')
#plt.imshow(rgbimg_gc)
#plt.show()
# color space conversion
csc = CSC(rgbimg_ccm, csc)
yuvimg_csc = csc.execute()
print(50*'-' + '\nColor Space Conversion Done......')
#plt.imshow(yuvimg_csc[:,:,0], cmap='gray')
#plt.show()
# non-local means denoising
nlm = NLM(yuvimg_csc[:,:,0], 1, 4, nlm_h, nlm_clip)
yuvimg_nlm = nlm.execute()
print(50*'-' + '\nNon Local Means Denoising Done......')
#plt.imshow(yuvimg_nlm, cmap='gray')
#plt.show()
# bilateral filter
bnf = BNF(yuvimg_nlm, bnf_dw, bnf_rw, bnf_rthres, bnf_clip)
yuvimg_bnf = bnf.execute()
print(50*'-' + '\nBilateral Filtering Done......')
#plt.imshow(yuvimg_bnf, cmap='gray')
#plt.show()
# edge enhancement
ee = EE(yuvimg_bnf[:,:], edge_filter, ee_gain, ee_thres, ee_emclip)
yuvimg_ee, yuvimg_edgemap = ee.execute()
print(50*'-' + '\nEdge Enhancement Done......')
#plt.imshow(yuvimg_ee)
#plt.show()
#plt.imshow(yuvimg_edgemap)
#plt.show()
# false color suppresion
fcs = FCS(yuvimg_csc[:,:,1:3], yuvimg_edgemap, fcs_edge, fcs_gain, fcs_intercept, fcs_slope)
yuvimg_fcs = fcs.execute()
print(50*'-' + '\nFalse Color Suppresion Done......')
#plt.imshow(yuvimg_fcs)
#plt.show()
# hue/saturation control
hsc = HSC(yuvimg_fcs, hue, saturation, hsc_clip)
yuvimg_hsc = hsc.execute()
print(50*'-' + '\nHue/Saturation Adjustment Done......')
#plt.imshow(yuvimg_hsc)
#plt.show()
# brighyness/contrast control
contrast = contrast / pow(2,5) #[-32,128]
bcc = BCC(yuvimg_ee, brightness, contrast, bcc_clip)
yuvimg_bcc = bcc.execute()
print(50*'-' + '\nBrightness/Contrast Adjustment Done......')
#plt.imshow(yuvimg_bcc)
#plt.show()
yuvimg_out = np.empty((raw_h, raw_w, 3), dtype=np.uint8)
yuvimg_out[:,:,0] = yuvimg_bcc
yuvimg_out[:,:,1:3] = yuvimg_hsc
#plt.imshow(yuvimg_out)
#plt.show()