Added Outlet Boundary Conditions
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16
functions.py
16
functions.py
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@ -82,8 +82,7 @@ def periodicity(project,folder,dt,T_cyc,n_cyc,save_path):
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if (peak_Pdiff[-1]<=1):
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if (peak_Pdiff[-1]<=1):
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print('The numerical simulation \'{0}\' has achieve periodicity!\nSystolic Blood Pressure (SBP):\nsecond-last cycle = {1:.2f} mmHg,\nlast cycle = {2:.2f} mmHg,\n\u0394mmHg = {3:.2f} mmHg'.format(project,peak_P[-2],peak_P[-1],peak_Pdiff[-1]))
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print('The numerical simulation \'{0}\' has achieve periodicity!\nSystolic Blood Pressure (SBP):\nsecond-last cycle = {1:.2f} mmHg,\nlast cycle = {2:.2f} mmHg,\n\u0394mmHg = {3:.2f} mmHg'.format(project,peak_P[-2],peak_P[-1],peak_Pdiff[-1]))
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# txt = ['The numerical simulation \'{0}\' has achieve periodicity!'.format(project), 'Systolic Blood Pressure (SBP):', 'Second-last cycle = {0:.2f} mmHg'.format(peak_P[-2]), 'Last cycle = {0:.2f} mmHg'.format(peak_P[-1]), 'Delta_mmHg = {0:.2f} mmHg'.format(peak_Pdiff[-1])]
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txt = ['The numerical simulation \'{0}\' has achieved periodicity.'.format(project), 'Systolic Blood Pressure (SBP):', 'Second-last cycle = {0:.2f} mmHg'.format(peak_P[-2]), 'Last cycle = {0:.2f} mmHg'.format(peak_P[-1]), 'Delta_mmHg = {0:.2f} mmHg'.format(peak_Pdiff[-1])]
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txt = ['The numerical simulation \'{0}\' has achieve periodicity!'.format(project), 'Systolic Blood Pressure (SBP):','Second-last cycle = {0:.2f} mmHg - Last cycle = {1:.2f} mmHg - Delta_mmHg = {2:.2f} mmHg'.format(peak_P[-2],peak_P[-1],peak_Pdiff[-1])]
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return txt
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return txt
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def pressure(folder,N_ts,T_cyc,dt,n_cyc,save_path):
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def pressure(folder,N_ts,T_cyc,dt,n_cyc,save_path):
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@ -172,4 +171,17 @@ def inlet_flow_waveform(project_folder,t_btw_rst,N_ts,dt,T_cyc,n_cyc,save_path):
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return txt
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return txt
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def rcr(project_folder):
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rcr_lines = []
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with open (project_folder + '/rcrt.dat', "rt") as myfile:
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for myline in myfile:
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rcr_lines.append(myline)
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n_out = int((len(rcr_lines)-1)/6)
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Rc_C_Rd = np.empty([n_out,3])
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for i in range(0,n_out):
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Rc_C_Rd[i][0] = float(rcr_lines[2+i*6][:-1])
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Rc_C_Rd[i][1] = float(rcr_lines[3+i*6][:-1])
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Rc_C_Rd[i][2] = float(rcr_lines[4+i*6][:-1])
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return Rc_C_Rd
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@ -7,7 +7,7 @@ Created on Fri Jul 17 05:34:59 2020
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from fpdf import FPDF
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from fpdf import FPDF
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def generatePDF(save_path,project,DBP,MBP,SBP,PP,Q_avg,txt1,txt2):
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def generatePDF(save_path,project,DBP,MBP,SBP,PP,Q_avg,txt1,txt2,Rc_C_Rd):
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class PDF(FPDF):
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class PDF(FPDF):
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def header(self):
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def header(self):
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# Arial bold 15
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# Arial bold 15
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@ -78,7 +78,7 @@ def generatePDF(save_path,project,DBP,MBP,SBP,PP,Q_avg,txt1,txt2):
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self.add_page()
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self.add_page()
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self.section_title(num, title)
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self.section_title(num, title)
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title = 'Project name: '+ project
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title = 'Simulation Job name: '+ project
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pdf = PDF()
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pdf = PDF()
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pdf.set_title(title)
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pdf.set_title(title)
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pdf.set_author('Aloma Blanch Granada')
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pdf.set_author('Aloma Blanch Granada')
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@ -140,4 +140,27 @@ def generatePDF(save_path,project,DBP,MBP,SBP,PP,Q_avg,txt1,txt2):
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pdf.image(save_path +'/inlet_waveform.jpg', x = 40, y = 50, w = 140, h = 100, type = '', link = '')
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pdf.image(save_path +'/inlet_waveform.jpg', x = 40, y = 50, w = 140, h = 100, type = '', link = '')
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pdf.set_font('Arial', '', 10)
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pdf.set_font('Arial', '', 10)
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pdf.cell(0, 5,txt2, 0, 1)
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pdf.cell(0, 5,txt2, 0, 1)
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width_cell=[30,20,110];
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pdf.print_section(5, 'Outlet Boundary Condition Applied')
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pdf.set_font('Arial', '', 10)
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pdf.cell(0, 10,'3-Element Windkessel model outlet boundary condition applied in SimVascular', 0, 1)
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pdf.cell(0, 5,' ', 0, 1)
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pdf.set_x(50)
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pdf.set_font('Times', '', 10)
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pdf.cell(width_cell[2],10,'3-Element Windkessel',1,1,'C') # First header column
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pdf.set_x(50)
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pdf.cell(width_cell[1],10,'ROI',1,0,'C') # Second header column
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pdf.cell(width_cell[0],10,'Rc [g/cm^4 s]',1,0,'C') # Second header column
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pdf.cell(width_cell[0],10,'C [cm^4 s^2/g]',1,0,'C') # Second header column
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pdf.cell(width_cell[0],10,'Rd [g/cm^4 s]',1,1,'C') # Second header
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# Rows
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for i in range(0,Rc_C_Rd.shape[0]):
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pdf.set_x(50)
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pdf.cell(width_cell[1],10,'ROI-'+ str(i+2),1,0,'C') # First column of row 1
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pdf.cell(width_cell[0],10,str(Rc_C_Rd[i][0]),1,0,'C') # Second column of row 1
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pdf.cell(width_cell[0],10,str(Rc_C_Rd[i][1]),1,0,'C') # Third column of row 1
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pdf.cell(width_cell[0],10,str(Rc_C_Rd[i][2]),1,1,'C') # Third column of row 1
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pdf.output(save_path + '/' + project + '-report.pdf', 'F')
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pdf.output(save_path + '/' + project + '-report.pdf', 'F')
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7
main.py
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main.py
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@ -20,7 +20,7 @@ import os.path
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# from fpdf import FPDF
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# from fpdf import FPDF
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from functions import error_plot, periodicity, pressure, flow, inlet_flow_waveform
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from functions import error_plot, periodicity, pressure, flow, inlet_flow_waveform, rcr
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from generatePDF import generatePDF
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from generatePDF import generatePDF
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@ -53,6 +53,9 @@ rc = float(mylines[26][18:-1])
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# Imesteps between Restarts - idx 6
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# Imesteps between Restarts - idx 6
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t_btw_rst = int(mylines[6][37:-1])
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t_btw_rst = int(mylines[6][37:-1])
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# Extracting Outlet Boundary Conditions from - rcrt.dat fle
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Rc_C_Rd = rcr(project_folder)
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# Cehcking convergency and periodicity
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# Cehcking convergency and periodicity
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error_plot(folder,dt,rc,save_path)
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error_plot(folder,dt,rc,save_path)
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txt1 = periodicity(project,folder,dt,T_cyc,n_cyc,save_path)
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txt1 = periodicity(project,folder,dt,T_cyc,n_cyc,save_path)
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@ -67,4 +70,4 @@ txt1 = periodicity(project,folder,dt,T_cyc,n_cyc,save_path)
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txt2 = inlet_flow_waveform(project_folder,t_btw_rst,N_ts,dt,T_cyc,n_cyc,save_path)
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txt2 = inlet_flow_waveform(project_folder,t_btw_rst,N_ts,dt,T_cyc,n_cyc,save_path)
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# Create PDF report
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# Create PDF report
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generatePDF(save_path,project,DBP,MBP,SBP,PP,Q_avg,txt1,txt2)
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generatePDF(save_path,project,DBP,MBP,SBP,PP,Q_avg,txt1,txt2,Rc_C_Rd)
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