test_bnf.py

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'
# decomment for testing
# config_path = './config/config.csv' 
config_path = './config/config_test.csv' # shrink the size of raw img for accelerating test result.

f = open(config_path, 'r', encoding='utf-8-sig')
with f:
    reader = csv.reader(f, delimiter=',')
    raw_h = 128 #for testing, original:1280
    raw_w = 72  #for testing, original: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='')
print(rawimg.shape)
# rawimg = rawimg.reshape([raw_h, raw_w])
# for testing
rawimg = rawimg.reshape([raw_h*10, raw_w*10])
rawimg = rawimg[: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)
# change yuvimg_nlm to rawimg
bnf = BNF(rawimg, bnf_dw, bnf_rw, bnf_rthres, bnf_clip)
# yuvimg_bnf = bnf.execute()
# change yuvimg to rawimg
rawimg_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()