Exemplo n.º 1
0
 def self_output(self, x, y):
     if (self.skill_type == 1):
         pygame.draw.rect(op.screen, [150, 0, 0], [x + 20, y, 40, 20], 0)
         op.write("摸鱼", x + 60, y + 1, 18, [255, 255, 255])
     if (self.skill_type == 2):
         pygame.draw.rect(op.screen, [0, 0, 150], [x + 20, y, 40, 20], 0)
         op.write("肝题", x + 60, y + 1, 18, [255, 255, 255])
Exemplo n.º 2
0
    def ReadOTP(self, log, plantype):
        '''Opens and parses a file in OTP DICOM format'''
        global DCMplan, Technique
        Technique = plantype
        beam_count = 0

        # define options for opening or saving DICOM file
        self.file_opt = options = {}
        options['defaultextension'] = '.DCM'
        options['filetypes'] = [('OTP DICOM', 'RP*.dcm'), ('all files', '.*')]
        options[
            'title'] = 'Select DICOM file from OTP'  # File types to select in file open dialog
        #options['initialdir'] = '..\plans'
        options['initialdir'] = 'C:\\OTP_DATA\DICOM\ExportTemp'
        #options['initialfile'] = 'myfile.txt'
        #options['parent'] = root

        OTPfile = self.askopenfilename()
        try:
            # use read_file method from dicom module to import plan into DCMplan object
            DCMplan = dicom.read_file(OTPfile)
        except:
            tkMessageBox.showwarning("Open file",
                                     "Cannot open this file\n(%s)" % filename)

        # extract patient/plan identifiers
        self.PatientsName = DCMplan.PatientsName
        self.PatientID = DCMplan.PatientID
        self.Approval = DCMplan.ApprovalStatus

        self.PlanID = DCMplan.RTPlanName
        self.NumBeams = DCMplan.FractionGroups[0].NumberofBeams
        self.NumFractions = DCMplan.FractionGroups[0].NumberofFractionsPlanned

        # Clear previous plan info from log window
        log.config(state=NORMAL)
        log.delete(1.0, END)
        log.config(state=DISABLED)

        #message = "Patient: %s\nID:      %s" % (self.PatientsName,self.PatientID)
        #output.write(message,"Heading",log)
        #message = "Plan: %s\nBeams: %i" % (self.PlanID,self.NumBeams)
        #output.write(message,"Heading",log)

        # Load Beams from DICOM file
        for beam in DCMplan.Beams:
            new_beam = DCMBeam(beam, beam_count)
            beam_count += 1
            self.Beams.append(new_beam)
            output.write(beam.BeamName, "PASS", log)

        return (self.PatientsName, self.PatientID, self.PlanID)
Exemplo n.º 3
0
def login():
    output.write(request)
    resp = make_response(
        render_template("login.jinja2",
                        hostname=conf.get("bighp", "hostname", fallback=""),
                        ip_address=conf.get("bighp", "ip_address",
                                            fallback="")))
    resp = utils.set_login_headers(resp)
    jsession_id = "".join('%02x' % random.randint(0, 255)
                          for _ in range(16)).upper()
    resp.headers.set(
        "Set-Cookie",
        "JSESSIONID=" + jsession_id + "; Path=/tmui; Secure; HttpOnly")
    return resp
Exemplo n.º 4
0
 def self_output(self, x, y):
     tot = len(pl.player_in_game)
     for i in range(1, tot + 1):
         tx = (i - (i > pl.gamer_pos and pl.gamer_pos != -1)) * 1000 / (
             tot + (pl.gamer_pos == -1))
         ty = max(130, 0.001 * tx * tx - 1 * tx + 350)
         tx -= 60
         ty -= 80
         for item in pl.player_in_game:
             if (item.seat == i - 1 and item.pos != self.pos):
                 op.write("飞雷神×" + str(0 + self.mark_pos[item.pos]),
                          tx + 95, ty + 170, 20, [200, 200, 0])
     op.write("距离-" + str(0 + max(self.mark_pos)), x + 100, y - 60, 25,
              [200, 150, 50])
Exemplo n.º 5
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    def send_frame(self):
        serial_array = []

        serial_array.append(self.START_CHAR)

        frame = self.limit_brightness()

        for x, colors in enumerate(frame):
            serial_array.append("{0:0>3}{1:0>3}{2:0>3}{3:0>3}".format(x, colors[0], colors[1], colors[2]))

        serial_array.append(self.END_CHAR)

        output.write("".join(serial_array))

        self.frame_delay()
Exemplo n.º 6
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  def send_frame(self):
    serial_array = []

    serial_array.append(self.START_CHAR)

    frame = self.limit_brightness()

    for x, colors in enumerate(frame):
      serial_array.append("{0:0>3}{1:0>3}{2:0>3}{3:0>3}".format(x, colors[0], colors[1], colors[2]))

    serial_array.append(self.END_CHAR)

    output.write("".join(serial_array))

    self.frame_delay()
Exemplo n.º 7
0
 def OnLloadBtnClick(self,plantype):
     global Technique
     Technique = plantype
     # Clear previous info from result log window 
     self.passLog.config(state=NORMAL)
     self.passLog.delete(1.0, END)
     self.passLog.config(state=DISABLED)
     self.failLog.config(state=NORMAL)
     self.failLog.delete(1.0, END)
     self.failLog.config(state=DISABLED)
     # Reset info label
     self.label.config(bg='light cyan',fg='black')            
     self.labelVariable.set("Loading LANTIS Plan")
     output.write("Loading Lantis plan","INFO",self.passLog)
     self.LPlan = data.Plan()
     LResult = self.LPlan.ReadLantis(self.RTPlog,Technique)
     self.lpatname.set(LResult[0])
     self.lpatid.set(LResult[1])
     self.lplanid.set(LResult[2]) 
     self.labelVariable.set("Lantis Plan Loaded") 
     output.write("Lantis plan loaded","INFO",self.passLog)       
Exemplo n.º 8
0
 def OnLloadBtnClick(self, plantype):
     global Technique
     Technique = plantype
     # Clear previous info from result log window
     self.passLog.config(state=NORMAL)
     self.passLog.delete(1.0, END)
     self.passLog.config(state=DISABLED)
     self.failLog.config(state=NORMAL)
     self.failLog.delete(1.0, END)
     self.failLog.config(state=DISABLED)
     # Reset info label
     self.label.config(bg='light cyan', fg='black')
     self.labelVariable.set("Loading LANTIS Plan")
     output.write("Loading Lantis plan", "INFO", self.passLog)
     self.LPlan = data.Plan()
     LResult = self.LPlan.ReadLantis(self.RTPlog, Technique)
     self.lpatname.set(LResult[0])
     self.lpatid.set(LResult[1])
     self.lplanid.set(LResult[2])
     self.labelVariable.set("Lantis Plan Loaded")
     output.write("Lantis plan loaded", "INFO", self.passLog)
Exemplo n.º 9
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	def writeIntro(self, output):
		'''Write game intro.
		
		@type	output:	Output'''
		output.write(self.description, False)
		output.write('<h1>' + self.name + '</h1>', False)
		#output.write('by <b>' + self.author + '</b>', False)
		#output.write('Version ' + self.version, False)
		output.write(self.intro, False)
		
		self.actor.newLocation(output)

		output.close()
Exemplo n.º 10
0
    def writeIntro(self, output):
        '''Write game intro.
		
		@type	output:	Output'''
        output.write(self.description, False)
        output.write('<h1>' + self.name + '</h1>', False)
        #output.write('by <b>' + self.author + '</b>', False)
        #output.write('Version ' + self.version, False)
        output.write(self.intro, False)

        self.actor.newLocation(output)

        output.close()
Exemplo n.º 11
0
# Everything sent. Now do the calculations
# ==================================
pvals, qscores, pqvals, gene_indices = cpvalcomp(slave_geno,
                                                 expr,
                                                 qcal,
                                                 shuffle=False)

pvals = comm.gather(pvals, root=0)
qscores = comm.gather(qscores, root=0)
pqvals = comm.gather(pqvals, root=0)
gene_indices = comm.gather(gene_indices, root=0)

if rank == 0:
    pvals = np.vstack(pvals)
    #np.save(out_fileprefix, pvals)
    qscores = np.concatenate(qscores)
    pqvals = np.concatenate(pqvals)
    gene_indices_list = list()
    for x in gene_indices:
        gene_indices_list += x
    output.write(out_fileprefix, snpinfo, gene_names, pvals, qscores, pqvals,
                 gene_indices_list)
    print("Job completed in {:g} seconds".format(time.time() - start_time))
else:
    assert gene_indices is None
    assert qscores is None
    assert pvals is None
    assert pqvals is None

#print ("Done")
Exemplo n.º 12
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def solve_problem(filename):
    dataset = parse(filename)
    solution = solve(dataset)
    solution_file = write(solution, SUBMISSION_FILENAME)
Exemplo n.º 13
0
# Compiler for C--
# Victor Manuel Fernandez Castro
# May 22, 2014

import cparser
import cfg
import sys
import regalloc
import output
from time import time

if __name__ == '__main__':
    cparser.init(open('examples/example.cmm', 'r').read())
    tStart = time()

    try:
        program = cparser.program()
        graphs = [cfg.gFunction(f) for f in program]
        output.write(graphs, 'examples/output.s')
        tEnd = time()
        print('Time:', tEnd - tStart, 'sec.')
    except SyntaxError as e:
        print('Syntax error at line', cparser.token0.line, 'near <', \
              cparser.token0.string, '>', e, file = sys.stderr)
        
Exemplo n.º 14
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 def self_output(self, x, y):
     if (self.limit == 1):
         pygame.draw.rect(op.screen, [150, 0, 0], [x + 20, y, 20, 20], 0)
         op.write(" 限", x + 40, y + 1, 18, [255, 255, 255])
Exemplo n.º 15
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alphas = np.array([30], dtype="float64")
#alphas = np.array([0.005,0.1,0.5,1.5,1.0])
snp_index, best_betas, best_alpha = mlpack_lasso_cv(geno, expr, alphas)

#print(snp_index)

#snp_index = list()
with open("pp.txt", "w") as output:
    for i, j in enumerate(snp_index):
        if j.shape[0] == 0:
            outputline = gene_names[i] + "\t" + "NA"
        else:
            outputline = gene_names[i] + "\t" + ",".join(
                [snpinfo[x].rsid for x in j])

        output.write(outputline + "\n")

with open("beta.txt", "w") as output1:
    for i in range(best_betas.shape[0]):
        writeline = " ".join([str(x) for x in best_betas[i, :]])
        output1.write(writeline + "\n")

print("time taken was :", time.time() - start_time)
"""
print("best lambdas were:",best_alpha)

import matplotlib.pyplot as plt
plt.figure()
m_log_alphas = -np.log10(alphas)
#ymin, ymax = 2300, 3800
plt.plot(m_log_alphas, mse_values, 'k', linewidth=2)
Exemplo n.º 16
0
def check_beams(Plan1,Plan2,passLog,failLog):
    plan_mismatch = False
    output.write('\n\nBEAM CHECK','CheckHeading',passLog)
    for x in range(Plan1.NumBeams):
        #output.write('\n********************','INFO',passLog)        
        output.write('\nBEAM \t %s' % Plan1.Beams[x].BeamName,'BeamHeading',passLog)
        output.write('Parameter\t\tLANTIS\t\tOTP','TabHeading',passLog)
        #output.write('********************\n','Heading',passLog)
                          
        # Check for mismatch in Beam dictionaries.
        for key in Plan1.Beams[x].__dict__:
            # Initialise beam mismatch flag
            beam_mismatch = False
            # Compare parameter values
            if Plan1.Beams[x].__dict__[key] != Plan2.Beams[x].__dict__[key]:
                # Segment checking
                if key == "Segments":
                    for k in range(Plan1.Beams[x].NumSegments):
                        output.write('\nSegment: %i' % (k+1),'SegHeading',passLog)
                        output.write('Parameter\t\tLANTIS\t\tOTP','TabHeading',passLog)

                        for segkey in Plan1.Beams[x].Segments[k].__dict__:
                            segment_mismatch = False
                            if Plan1.Beams[x].Segments[k].__dict__[segkey] != Plan2.Beams[x].Segments[k].__dict__[segkey]:
                                if segkey == "MLC":
                                    #for i in range(81):
                                    for i in range(41):
                                        logstring = ("MLC Pair %i\t\t[%0.2f %0.2f]\t\t[%0.2f %0.2f]" % (i+1,Plan1.Beams[x].Segments[k].MLC[i],Plan1.Beams[x].Segments[k].MLC[i+41], Plan2.Beams[x].Segments[k].MLC[i],Plan2.Beams[x].Segments[k].MLC[i+41]))
                                        if (fabs(Plan1.Beams[x].Segments[k].MLC[i] - round(Plan2.Beams[x].Segments[k].MLC[i],2)) > 0.011) or (fabs(Plan1.Beams[x].Segments[k].MLC[i+41] - round(Plan2.Beams[x].Segments[k].MLC[i+41],2)) > 0.011) :
                                            output.write('\nBEAM \t %s' % Plan1.Beams[x].BeamName,'BeamHeading',failLog)        
                                            output.write('Parameter\t\tLANTIS\t\tOTP','TabHeading',failLog)                
                                            output.write(logstring,'MLCFAIL',failLog)
                                            segment_mismatch = True
                                        else:
                                            output.write(logstring,'MLCPASS',passLog)
                                else:
                                    segment_mismatch = True  

                            if (segkey != "MLC"):
                                logstring = ("%s\t\t%s\t\t%s") %(segkey, Plan1.Beams[x].Segments[k].__dict__[segkey], Plan2.Beams[x].Segments[k].__dict__[segkey])
                                if not(segment_mismatch):
                                    output.write(logstring,'PASS',passLog)
                                else:
                                    plan_mismatch = True
                                    output.write('\nBEAM \t %s' % Plan1.Beams[x].BeamName,'BeamHeading',failLog)
                                    output.write('Segment: %i' % (k+1),'SegHeading',failLog)
                                    output.write('Parameter\t\tLANTIS\t\tOTP','TabHeading',failLog)                                      
                                    output.write(logstring,'FAIL',failLog)                                          
                                
                # If  beam names don't fully match, but do partially match, then do nothing
                elif(key == 'BeamName' and Plan1.Beams[x].BeamName in Plan2.Beams[x].BeamName):
                    pass
                elif(key == 'MLC'):
                    for i in range(41):
                        logstring = ("MLC Pair %i\t\t[%0.2f %0.2f]\t\t[%0.2f %0.2f]" % (i+1,Plan1.Beams[x].MLC[i],Plan1.Beams[x].MLC[i+41], Plan2.Beams[x].MLC[i],Plan2.Beams[x].MLC[i+41]))
                        if (fabs(Plan1.Beams[x].MLC[i] - round(Plan2.Beams[x].MLC[i],2)) > 0.011) or (fabs(Plan1.Beams[x].MLC[i+41] - round(Plan2.Beams[x].MLC[i+41],2)) > 0.011) :            
                            #logstring = ("MLC Leaf Number %i\t\t%f\t\t%f\t\t%f" % (i,Plan1.Beams[x].Segments[k].MLC[i], Plan2.Beams[x].Segments[k].MLC[i],(fabs(Plan1.Beams[x].Segments[k].MLC[i] - round(Plan2.Beams[x].Segments[k].MLC[i],2)))))
                            output.write('\nBEAM \t %s' % Plan1.Beams[x].BeamName,'BeamHeading',failLog)        
                            output.write('Parameter\t\tLANTIS\t\tOTP','TabHeading',failLog)                
                            output.write(logstring,'MLCFAIL',failLog)
                        else:
                            output.write(logstring,'MLCPASS',passLog)
#                    for i in range(0,81):
#                        # Run through MLC positions, check for differences exceeding rounding errors
#                        if (fabs(Plan1.Beams[x].MLC[i] - round(Plan2.Beams[x].MLC[i],2)) > 0.011):            
#                            logstring = ("MLC Leaf Number %i: %f %f %f " % (i,Plan1.Beams[x].MLC[i], Plan2.Beams[x].MLC[i],(fabs(Plan1.Beams[x].MLC[i] - round(Plan2.Beams[x].MLC[i],2)))))
#                            output.write(logstring,'FAIL',passLog)                                              
                else:
                    # Flag a mismatch and record which parameter failed in which beam
                    beam_mismatch = True
                    plan_mismatch = True

            if not(beam_mismatch) and not(key == "MLC"):
                logstring = ("%s\t\t%s\t\t%s") %(key, Plan1.Beams[x].__dict__[key], Plan2.Beams[x].__dict__[key])
                output.write(logstring,'PASS',passLog)
            elif not(key =="MLC"):
                output.write('\nBEAM \t %s' % Plan1.Beams[x].BeamName,'BeamHeading',failLog)        
                output.write('Parameter\t\tLANTIS\t\tOTP','TabHeading',failLog)                
                logstring = ("%s\t\t%s\t\t%s") %(key, Plan1.Beams[x].__dict__[key], Plan2.Beams[x].__dict__[key])
                output.write(logstring,'FAIL',failLog)       

    if(plan_mismatch):
        return False
    else:
        return True
Exemplo n.º 17
0
def not_found(e):
    output.write(request)
    path = request.path
    resp = make_response(render_template("404.jinja2", path=path), 404)
    resp = utils.set_root_headers(resp)
    return resp
Exemplo n.º 18
0
def check_Px(LPlan, OTPPlan, passLog, failLog):
    Px_mismatch = False
    output.write('\nPRESCRIPTION CHECK\n', 'CheckHeading', passLog)
    LDoseFr = 0  # Lantis total dose per fraction
    OTPDoseFr = 0  # OTP total dose per fraction

    for i in range(0, LPlan.NumBeams):
        #print "Beam Number %i" %i
        LDoseFr += LPlan.Beams[i].Dose
        OTPDoseFr += OTPPlan.Beams[i].Dose

    OTPDoseTotal = OTPDoseFr * OTPPlan.NumFractions

    #print "Lantis dose/fr = %i" %LDoseFr
    #print "OTP Total dose = %i" %OTPDoseTotal

    # for prescription in LPlan.Prescriptions:
    #if (prescription.Site == LPlan.Site):
    # Check Lantis beam dose/fraction = Lantis Prescription dose/fraction
    if LDoseFr == LPlan.Prescription.DoseFraction:
        output.write(
            "Lantis dose/beam matches Prescription: %i %i" %
            (LDoseFr, LPlan.Prescription.DoseFraction), 'PASS', passLog)
        #print "Lantis Px dose matches %i %i" %(LDoseFr,LPlan.Prescriptions[0].DoseFraction)
    else:
        output.write(
            "Lantis dose/beam and Prescription mismatch: %i %i" %
            (LDoseFr, LPlan.Prescription.DoseFraction), 'FAIL', failLog)
        Px_mismatch = True

    # Check OTP beam dose/fraction = Lantis Prescription dose/fraction
    if OTPDoseFr == LPlan.Prescription.DoseFraction:
        output.write(
            "OTP dose/beam matches Prescription: %i %i" %
            (OTPDoseFr, LPlan.Prescription.DoseFraction), 'PASS', passLog)
        #print "OTP Px dose matches %i %i" %(OTPDoseFr,LPlan.Prescriptions[0].DoseFraction)
    else:
        output.write(
            "OTP dose/beam and Prescription mismatch: %i %i" %
            (OTPDoseFr, LPlan.Prescription.DoseFraction), 'FAIL', failLog)
        #print "OTP Px dose doesn't match %i %i" %(OTPDoseFr,LPlan.Prescriptions[0].DoseFraction)
        Px_mismatch = True

    if OTPDoseTotal == LPlan.Prescription.DoseTotal:
        output.write(
            "OTP total dose matches prescription: %i %i" %
            (OTPDoseTotal, LPlan.Prescription.DoseTotal), 'PASS', passLog)
        #print "Lantis Px dose matches %i %i" %(LDoseFr,LPlan.Prescriptions[0].DoseFraction)
    else:
        output.write(
            "OTP total dose and prescription mismatch: %i %i" %
            (OTPDoseTotal, LPlan.Prescription.DoseTotal), 'FAIL', failLog)
        Px_mismatch = True

    if (Px_mismatch):
        return False
    else:
        return True
Exemplo n.º 19
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def check_Ports(LPlan, passLog, failLog):
    output.write('\nPORTAL BEAM CHECK\n', 'CheckHeading', passLog)
    for field in LPlan.PortFields:
        output.write('\nBEAM \t %s' % field.BeamName, 'BeamHeading', passLog)
        if (field.MU == 1):
            output.write('MU: %i' % field.MU, 'PASS', passLog)
        else:
            output.write('MU: %i' % field.MU, 'FAIL', failLog)
        if (field.Energy == 6):
            output.write('Energy: %i' % field.Energy, 'PASS', passLog)
        else:
            output.write('Energy: %i' % field.Energy, 'FAIL', failLog)
        if (field.Dose == 0):
            output.write('Dose: %i' % field.Dose, 'PASS', passLog)
        else:
            output.write('Dose: %i' % field.Dose, 'FAIL', failLog)
Exemplo n.º 20
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	def std_output(self,x,y):
		if (self.pos >= len(op.player_img)):
			return
		op.write("score:"+str(pl.score[self.pos]) + "[" + str(pl.cd_score[self.pos])+"]",950,410,20)
		pygame.draw.rect(op.screen,pl.country_color.setdefault(self.country,(0,0,0)),[850,438,150,162],0)
		pygame.draw.rect(op.screen, [30, 20, 0], [874, 440, 100, 160], 0)
		if (self.dead == 0):
			op.screen.blit(op.player_img[self.pos], [874, 440])
		else:
			tmp = op.player_img[self.pos]
			tmp.set_alpha(100)
			op.screen.blit(tmp, [874, 440])

		pygame.draw.rect(op.screen, [30, 20, 0], [849, 438, 150, 162], 2)
		op.Stwrite(self.name, 872, 472, 20, [255, 255, 255])
		if (self.max_hp > 7):
			op.write(str(self.max_hp), 999, 571, 25, [90, 170, 85])
			op.write(" / ", 999, 551, 22, [90, 170, 85])
			op.write(str(self.hp), 999, 527, 25, [90, 170, 85])
		else:
			for i in range(self.max_hp):
				if (i < self.hp):
					op.screen.blit(op.hp1_g, [977, 574 - 22*i])
				else:
					op.screen.blit(op.hp0_g, [977, 574 - 22*i])
		pygame.draw.rect(op.screen,(255, 250, 200), [852,578,20,20],0)
		op.write(str(len(self.has_card)), 871, 578, 18)
		x,y = 854,440
		op.write(" " + self.country, x + 18, y + 2, 16, [255, 255, 255])
		if (self.equip[0].id != 0):
			tmp = self.equip[0]
			pygame.draw.rect(op.screen, (250, 250, 250), [x + 20, y + 95, 100, 15], 0)
			pygame.draw.rect(op.screen, (30, 0, 20), [x + 20, y + 95, 100, 15], 1)
			op.type_img[tmp.type] = pygame.transform.smoothscale(op.type_img[tmp.type], (13, 13))
			op.screen.blit(op.type_img[tmp.type], [x + 21, y + 96])
			op.write(cd.card_point[tmp.num], x + 45, y + 95, 13)
			op.write(" " + cd.card_nm[tmp.id], x + 120, y + 95, 13)
		if (self.equip[1].id != 0):
			tmp = self.equip[1]
			pygame.draw.rect(op.screen, (250, 250, 250), [x + 20, y + 110, 100, 15], 0)
			pygame.draw.rect(op.screen, (30, 0, 20), [x + 20, y + 110, 100, 15], 1)
			op.type_img[tmp.type] = pygame.transform.smoothscale(op.type_img[tmp.type], (13, 13))
			op.screen.blit(op.type_img[tmp.type], [x + 21, y + 111])
			op.write(cd.card_point[tmp.num], x + 45, y + 110, 13)
			op.write(" " + cd.card_nm[tmp.id], x + 120, y + 110, 13)
		if (self.equip[4].id != 0):
			tmp = self.equip[4]
			pygame.draw.rect(op.screen, (250, 250, 250), [x + 20, y + 125, 100, 15], 0)
			pygame.draw.rect(op.screen, (30, 0, 20), [x + 20, y + 125, 100, 15], 1)
			op.type_img[tmp.type] = pygame.transform.smoothscale(op.type_img[tmp.type], (13, 13))
			op.screen.blit(op.type_img[tmp.type], [x + 21, y + 126])
			op.write(cd.card_point[tmp.num], x + 45, y + 125, 13)
			op.write(" " + cd.card_nm[tmp.id], x + 120, y + 125, 13)
		if (self.equip[2].id != 0):
			tmp = self.equip[2]
			pygame.draw.rect(op.screen, (250, 250, 250), [x + 20, y + 140, 40, 20], 0)
			pygame.draw.rect(op.screen, (30, 0, 20), [x + 20, y + 140, 40, 20], 1)
			op.type_img[tmp.type] = pygame.transform.smoothscale(op.type_img[tmp.type], (13, 13))
			op.screen.blit(op.type_img[tmp.type], [x + 21, y + 143])
			op.write(cd.card_point[tmp.num], x + 42, y + 142, 13)
			op.write("+1", x + 55, y + 140, 17)
		if (self.equip[3].id != 0):
			tmp = self.equip[3]
			pygame.draw.rect(op.screen, (250, 250, 250), [x + 60, y + 140, 40, 20], 0)
			pygame.draw.rect(op.screen, (30, 0, 20), [x + 60, y + 140, 40, 20], 1)
			op.type_img[tmp.type] = pygame.transform.smoothscale(op.type_img[tmp.type], (13, 13))
			op.screen.blit(op.type_img[tmp.type], [x + 61, y + 143])
			op.write(cd.card_point[tmp.num], x + 82, y + 142, 13)
			op.write("-1", x + 95, y + 140, 17)

		for item in self.judge:
			if (item.id == 19):
				pygame.draw.rect(op.screen, [100, 0, 100], [x + 80, y + 5, 15, 15], 0)
				op.write(" 乐", x + 95, y + 5, 15, [255, 255, 255])

			if (item.id == 20):
				pygame.draw.rect(op.screen, [100, 100, 0], [x + 100, y + 5, 15, 15], 0)
				op.write(" 兵", x + 115, y + 5, 15, [255, 255, 255])

			if (item.id == 21):
				pygame.draw.rect(op.screen, [0, 0, 100], [x + 100, y + 25, 15, 15], 0)
				op.write(" 闪", x + 114, y + 26, 15, [255, 255, 255])

		if (self.drink == 1):
			pygame.draw.rect(op.screen, [150, 50, 50], [x + 80, y + 25, 15, 15], 0)
			op.write(" 酒", x + 95, y + 26, 15, [255, 255, 255])
		if (self.connect == 1):
			pygame.draw.rect(op.screen, [100, 100, 100], [x + 20, y + 135, 25, 25], 0)
			op.write(" 连", x + 45, y + 135, 20, [255, 255, 255])

		self.self_output(x, y)


		dx = min(95, 550/(len(self.has_card)+1))
		mpos = pygame.mouse.get_pos()
		for i in range(len(self.has_card)):
			if(i >= len(self.has_card)):
				continue
			item = self.has_card[i]
			self.has_card[i].alpha = 255
			ny = 467 - self.chosen[i] * 30
			item.std_output(100+i*dx,ny,91,130)
			if(self.chosen[i] == 1):
				pygame.draw.rect(op.screen, [255, 255, 0], [100 + i * dx, ny, 91, 130], 1)
			res = self.using(item)
			if (res[0] == 0):
				pygame.draw.line(op.screen, [255, 0, 0], [100 + i * dx, ny], [191 + i * dx, ny + 130], 2)

		for i in range(len(self.has_card)):
			if(i >= len(self.has_card)):
				continue
			item = self.has_card[i]
			self.has_card[i].alpha = 255
			ny = 467 - self.chosen[i] * 30
			if (mpos[0] > 100 + i * dx and mpos[0] < 100 + (i + 1) * dx and mpos[1] > 467 and mpos[1] < 597):
				item.std_output(100 + i * dx, ny, 91, 130)
				pygame.draw.rect(op.screen,[255,255,0],[100+i*dx,ny,91,130],1)
Exemplo n.º 21
0
	def ending(self, output):
		'''Write final output before the end of the game.'''
		output.write("You have won.")
Exemplo n.º 22
0
    def std_output(self, x, y, show_score=1):
        if (self.pos >= len(op.player_img)):
            return
        if (show_score == 1):
            op.write(
                "score:" + str(self.fire_col) + "[" + str(score[self.pos]) +
                "]", x + 100, y - 25, 20)
        pygame.draw.rect(op.screen,
                         country_color.setdefault(self.country, (0, 0, 0)),
                         [x - 2, y - 2, 124, 164], 0)
        pygame.draw.rect(op.screen, (30, 20, 0), [x + 20, y, 101, 160], 0)
        op.Stwrite(self.name, x + 18, y + 20, 16, [255, 255, 255])
        tmp = op.player_img[self.pos]
        if (self.dead == 0):
            if (self.flip == 1):
                tmp = op.fliped
            tmp.set_alpha(255)
        else:
            tmp.set_alpha(100)
        op.screen.blit(tmp, [x + 21, y])
        pygame.draw.rect(op.screen, (30, 20, 0), [x - 2, y - 2, 124, 163], 2)
        if (show_score == 1):
            self.self_output(x, y)
        pygame.draw.rect(op.screen, (255, 250, 200),
                         [x + 100, y + 140, 20, 20], 0)
        pygame.draw.rect(op.screen, (30, 0, 20), [x + 100, y + 140, 21, 21], 1)
        op.write(str(len(self.has_card)), x + 120, y + 140, 18)
        if (self.max_hp > 5):
            op.write(str(self.max_hp), x + 18, y + 142, 18, [90, 170, 85])
            op.write(" / ", x + 18, y + 126, 16, [90, 170, 85])
            op.write(str(self.hp), x + 18, y + 110, 18, [90, 170, 85])
        else:
            for i in range(self.max_hp):
                if (i < self.hp):
                    op.screen.blit(op.hp1_t, [x + 3, y + 143 - i * 17])
                else:
                    op.screen.blit(op.hp0_t, [x + 3, y + 143 - i * 17])
        op.write(" " + self.country, x + 18, y + 2, 16, [255, 255, 255])

        if (self.equip[0].id != 0):
            tmp = self.equip[0]
            pygame.draw.rect(op.screen, (250, 250, 250),
                             [x + 20, y + 95, 100, 15], 0)
            pygame.draw.rect(op.screen, (30, 0, 20), [x + 20, y + 95, 100, 15],
                             1)
            op.type_img[tmp.type] = pygame.transform.smoothscale(
                op.type_img[tmp.type], (13, 13))
            op.screen.blit(op.type_img[tmp.type], [x + 21, y + 96])
            op.write(cd.card_point[tmp.num], x + 45, y + 95, 13)
            op.write(" " + cd.card_nm[tmp.id], x + 120, y + 95, 13)
        if (self.equip[1].id != 0):
            tmp = self.equip[1]
            pygame.draw.rect(op.screen, (250, 250, 250),
                             [x + 20, y + 110, 100, 15], 0)
            pygame.draw.rect(op.screen, (30, 0, 20),
                             [x + 20, y + 110, 100, 15], 1)
            op.type_img[tmp.type] = pygame.transform.smoothscale(
                op.type_img[tmp.type], (13, 13))
            op.screen.blit(op.type_img[tmp.type], [x + 21, y + 111])
            op.write(cd.card_point[tmp.num], x + 45, y + 110, 13)
            op.write(" " + cd.card_nm[tmp.id], x + 120, y + 110, 13)
        if (self.equip[4].id != 0):
            tmp = self.equip[4]
            pygame.draw.rect(op.screen, (250, 250, 250),
                             [x + 20, y + 125, 100, 15], 0)
            pygame.draw.rect(op.screen, (30, 0, 20),
                             [x + 20, y + 125, 100, 15], 1)
            op.type_img[tmp.type] = pygame.transform.smoothscale(
                op.type_img[tmp.type], (13, 13))
            op.screen.blit(op.type_img[tmp.type], [x + 21, y + 126])
            op.write(cd.card_point[tmp.num], x + 45, y + 125, 13)
            op.write(" " + cd.card_nm[tmp.id], x + 120, y + 125, 13)
        if (self.equip[2].id != 0):
            tmp = self.equip[2]
            pygame.draw.rect(op.screen, (250, 250, 250),
                             [x + 20, y + 140, 40, 20], 0)
            pygame.draw.rect(op.screen, (30, 0, 20), [x + 20, y + 140, 40, 20],
                             1)
            op.type_img[tmp.type] = pygame.transform.smoothscale(
                op.type_img[tmp.type], (13, 13))
            op.screen.blit(op.type_img[tmp.type], [x + 21, y + 143])
            op.write(cd.card_point[tmp.num], x + 42, y + 142, 13)
            op.write("+1", x + 55, y + 140, 17)
        if (self.equip[3].id != 0):
            tmp = self.equip[3]
            pygame.draw.rect(op.screen, (250, 250, 250),
                             [x + 60, y + 140, 40, 20], 0)
            pygame.draw.rect(op.screen, (30, 0, 20), [x + 60, y + 140, 40, 20],
                             1)
            op.type_img[tmp.type] = pygame.transform.smoothscale(
                op.type_img[tmp.type], (13, 13))
            op.screen.blit(op.type_img[tmp.type], [x + 61, y + 143])
            op.write(cd.card_point[tmp.num], x + 82, y + 142, 13)
            op.write("-1", x + 95, y + 140, 17)

        for item in self.judge:
            if (item.id == 19):
                pygame.draw.rect(op.screen, [100, 0, 100],
                                 [x + 80, y + 5, 15, 15], 0)
                op.write(" 乐", x + 95, y + 5, 15, [255, 255, 255])

            if (item.id == 20):
                pygame.draw.rect(op.screen, [100, 100, 0],
                                 [x + 100, y + 5, 15, 15], 0)
                op.write(" 兵", x + 115, y + 5, 15, [255, 255, 255])

            if (item.id == 21):
                pygame.draw.rect(op.screen, [0, 0, 100],
                                 [x + 100, y + 25, 15, 15], 0)
                op.write(" 闪", x + 114, y + 26, 15, [255, 255, 255])

        if (self.drink == 1):
            pygame.draw.rect(op.screen, [150, 50, 50],
                             [x + 80, y + 25, 15, 15], 0)
            op.write(" 酒", x + 95, y + 26, 15, [255, 255, 255])
        if (self.connect == 1):
            pygame.draw.rect(op.screen, [100, 100, 100],
                             [x + 20, y + 135, 25, 25], 0)
            op.write(" 连", x + 45, y + 135, 20, [255, 255, 255])
Exemplo n.º 23
0
        def LoadBeams():
            Pxselect.destroy()
            #pdb.set_trace()
            self.Site = selected.get()
            beam_index = -1
            beam_load = False
            ''' Second pass through file.
			Load Beam, Control Point and Prescription data for selected prescription.'''
            with open(RTPfile, 'rb') as f:
                reader = csv.reader(f)  # use csv module to parse file
                for row in reader:
                    if ((row[0] == "FIELD_DEF")
                            and (prescriptions.__contains__(row[1]))):
                        # Check if beam number field is a number or string (ISO check)
                        try:
                            beam_num = int(row[3])
                            # Flag used to load next CONTROL_PT_DEF data
                            beam_load = True
                            beam_index += 1
                            beam = RTPBeam(row)  # create new beam object
                            self.Beams.append(
                                beam)  # append beam to list of beam objects
                            output.write(str(row[2]), "PASS", log)
                        except ValueError:
                            if (tkMessageBox.askyesno(
                                    "ISO Check field?",
                                    "Is %s an ISO check field?" %
                                    str(row[2]))):
                                beam = RTPPortField(row)
                                self.PortFields.append(beam)
                                beam_load = False
                            else:
                                tkMessageBox.showwarning(
                                    "Error",
                                    "Can't proces beam %s\nCheck that beam ID is a number."
                                    % str(row[2]),
                                )
                                self.NumBeams = beam_index + 1
                                return

                    if (beam_load and Technique == "CRT"):
                        if ((row[0] == "CONTROL_PT_DEF") and (int(
                                row[1]) == self.Beams[beam_index].BeamNumber)):
                            for i in range(32, 73):
                                self.Beams[beam_index].MLC.append(
                                    round(float(row[i]), 3))
                            for i in range(132, 173):
                                self.Beams[beam_index].MLC.append(
                                    round(float(row[i]), 3))
                        else:
                            pass
                    elif (beam_load and (Technique == "IMRT")):
                        if ((row[0] == "CONTROL_PT_DEF") and (int(
                                row[1]) == self.Beams[beam_index].BeamNumber)):
                            self.Beams[beam_index].NumSegments = int(
                                row[4]) / 2
                            if (int(row[5]) % 2 == 0):
                                segMLC = []
                                for i in range(32, 73):
                                    segMLC.append(round(float(row[i]), 3))
                                for i in range(132, 173):
                                    segMLC.append(round(float(row[i]), 3))
                                segYjaws = [float(row[23]), float(row[24])]
                            else:
                                # Get actual segment cumulative MUs by multiplying fractional
                                # cumulative MU from Lantis control point data by total beam MU
                                CumulativeMU = float(
                                    row[7]) * self.Beams[beam_index].MU
                                NewSegment = Segment(segMLC, segYjaws,
                                                     CumulativeMU)
                                self.Beams[beam_index].Segments.append(
                                    NewSegment)
                                NumCtrlPnts = row[4]

                    if ((row[0] == "RX_DEF")
                            and (prescriptions.__contains__(row[2]))):
                        self.Prescription = RTPPrescription(row)

            self.NumBeams = beam_index + 1
Exemplo n.º 24
0
def logmein():
    output.write(request)
    return flask.redirect("/tmui/login.jsp?msgcode=1&")
Exemplo n.º 25
0
def check_Pt(LPlan, OTPPlan, passLog):
    output.write('\nPATIENT DATA CHECK\n', 'CheckHeading', passLog)
Exemplo n.º 26
0
def check_Pt(LPlan,OTPPlan,passLog):
    output.write('\nPATIENT DATA CHECK\n','CheckHeading',passLog)
Exemplo n.º 27
0
def check_beams(Plan1, Plan2, passLog, failLog):
    plan_mismatch = False
    output.write('\n\nBEAM CHECK', 'CheckHeading', passLog)
    for x in range(Plan1.NumBeams):
        #output.write('\n********************','INFO',passLog)
        output.write('\nBEAM \t %s' % Plan1.Beams[x].BeamName, 'BeamHeading',
                     passLog)
        output.write('Parameter\t\tLANTIS\t\tOTP', 'TabHeading', passLog)
        #output.write('********************\n','Heading',passLog)

        # Check for mismatch in Beam dictionaries.
        for key in Plan1.Beams[x].__dict__:
            # Initialise beam mismatch flag
            beam_mismatch = False
            # Compare parameter values
            if Plan1.Beams[x].__dict__[key] != Plan2.Beams[x].__dict__[key]:
                # Segment checking
                if key == "Segments":
                    for k in range(Plan1.Beams[x].NumSegments):
                        output.write('\nSegment: %i' % (k + 1), 'SegHeading',
                                     passLog)
                        output.write('Parameter\t\tLANTIS\t\tOTP',
                                     'TabHeading', passLog)

                        for segkey in Plan1.Beams[x].Segments[k].__dict__:
                            segment_mismatch = False
                            if Plan1.Beams[x].Segments[k].__dict__[
                                    segkey] != Plan2.Beams[x].Segments[
                                        k].__dict__[segkey]:
                                if segkey == "MLC":
                                    #for i in range(81):
                                    for i in range(41):
                                        logstring = (
                                            "MLC Pair %i\t\t[%0.2f %0.2f]\t\t[%0.2f %0.2f]"
                                            %
                                            (i + 1,
                                             Plan1.Beams[x].Segments[k].MLC[i],
                                             Plan1.Beams[x].Segments[k].MLC[
                                                 i + 41],
                                             Plan2.Beams[x].Segments[k].MLC[i],
                                             Plan2.Beams[x].Segments[k].MLC[
                                                 i + 41]))
                                        if (fabs(Plan1.Beams[x].Segments[k].
                                                 MLC[i] - round(
                                                     Plan2.Beams[x].Segments[k]
                                                     .MLC[i], 2)) > 0.011
                                            ) or (fabs(
                                                Plan1.Beams[x].Segments[k].
                                                MLC[i + 41] - round(
                                                    Plan2.Beams[x].Segments[k].
                                                    MLC[i + 41], 2)) > 0.011):
                                            output.write(
                                                '\nBEAM \t %s' %
                                                Plan1.Beams[x].BeamName,
                                                'BeamHeading', failLog)
                                            output.write(
                                                'Parameter\t\tLANTIS\t\tOTP',
                                                'TabHeading', failLog)
                                            output.write(
                                                logstring, 'MLCFAIL', failLog)
                                            segment_mismatch = True
                                        else:
                                            output.write(
                                                logstring, 'MLCPASS', passLog)
                                else:
                                    segment_mismatch = True

                            if (segkey != "MLC"):
                                logstring = ("%s\t\t%s\t\t%s") % (
                                    segkey, Plan1.Beams[x].Segments[k].
                                    __dict__[segkey], Plan2.Beams[x].
                                    Segments[k].__dict__[segkey])
                                if not (segment_mismatch):
                                    output.write(logstring, 'PASS', passLog)
                                else:
                                    plan_mismatch = True
                                    output.write(
                                        '\nBEAM \t %s' %
                                        Plan1.Beams[x].BeamName, 'BeamHeading',
                                        failLog)
                                    output.write('Segment: %i' % (k + 1),
                                                 'SegHeading', failLog)
                                    output.write('Parameter\t\tLANTIS\t\tOTP',
                                                 'TabHeading', failLog)
                                    output.write(logstring, 'FAIL', failLog)

                # If  beam names don't fully match, but do partially match, then do nothing
                elif (key == 'BeamName'
                      and Plan1.Beams[x].BeamName in Plan2.Beams[x].BeamName):
                    pass
                elif (key == 'MLC'):
                    for i in range(41):
                        logstring = (
                            "MLC Pair %i\t\t[%0.2f %0.2f]\t\t[%0.2f %0.2f]" %
                            (i + 1, Plan1.Beams[x].MLC[i],
                             Plan1.Beams[x].MLC[i + 41], Plan2.Beams[x].MLC[i],
                             Plan2.Beams[x].MLC[i + 41]))
                        if (fabs(Plan1.Beams[x].MLC[i] -
                                 round(Plan2.Beams[x].MLC[i], 2)) > 0.011) or (
                                     fabs(Plan1.Beams[x].MLC[i + 41] -
                                          round(Plan2.Beams[x].MLC[i + 41], 2))
                                     > 0.011):
                            #logstring = ("MLC Leaf Number %i\t\t%f\t\t%f\t\t%f" % (i,Plan1.Beams[x].Segments[k].MLC[i], Plan2.Beams[x].Segments[k].MLC[i],(fabs(Plan1.Beams[x].Segments[k].MLC[i] - round(Plan2.Beams[x].Segments[k].MLC[i],2)))))
                            output.write(
                                '\nBEAM \t %s' % Plan1.Beams[x].BeamName,
                                'BeamHeading', failLog)
                            output.write('Parameter\t\tLANTIS\t\tOTP',
                                         'TabHeading', failLog)
                            output.write(logstring, 'MLCFAIL', failLog)
                        else:
                            output.write(logstring, 'MLCPASS', passLog)


#                    for i in range(0,81):
#                        # Run through MLC positions, check for differences exceeding rounding errors
#                        if (fabs(Plan1.Beams[x].MLC[i] - round(Plan2.Beams[x].MLC[i],2)) > 0.011):
#                            logstring = ("MLC Leaf Number %i: %f %f %f " % (i,Plan1.Beams[x].MLC[i], Plan2.Beams[x].MLC[i],(fabs(Plan1.Beams[x].MLC[i] - round(Plan2.Beams[x].MLC[i],2)))))
#                            output.write(logstring,'FAIL',passLog)
                else:
                    # Flag a mismatch and record which parameter failed in which beam
                    beam_mismatch = True
                    plan_mismatch = True

            if not (beam_mismatch) and not (key == "MLC"):
                logstring = ("%s\t\t%s\t\t%s") % (key,
                                                  Plan1.Beams[x].__dict__[key],
                                                  Plan2.Beams[x].__dict__[key])
                output.write(logstring, 'PASS', passLog)
            elif not (key == "MLC"):
                output.write('\nBEAM \t %s' % Plan1.Beams[x].BeamName,
                             'BeamHeading', failLog)
                output.write('Parameter\t\tLANTIS\t\tOTP', 'TabHeading',
                             failLog)
                logstring = ("%s\t\t%s\t\t%s") % (key,
                                                  Plan1.Beams[x].__dict__[key],
                                                  Plan2.Beams[x].__dict__[key])
                output.write(logstring, 'FAIL', failLog)

    if (plan_mismatch):
        return False
    else:
        return True
Exemplo n.º 28
0
def check_Ports(LPlan,passLog,failLog):
    output.write('\nPORTAL BEAM CHECK\n','CheckHeading',passLog)
    for field in LPlan.PortFields:
        output.write('\nBEAM \t %s' % field.BeamName,'BeamHeading',passLog)        
        if (field.MU == 1):
            output.write('MU: %i' %field.MU,'PASS',passLog)
        else:
            output.write('MU: %i' %field.MU,'FAIL',failLog)
        if (field.Energy == 6):
            output.write('Energy: %i' %field.Energy,'PASS',passLog)
        else:
            output.write('Energy: %i' %field.Energy,'FAIL',failLog)
        if (field.Dose == 0):
            output.write('Dose: %i' %field.Dose,'PASS',passLog)
        else:
            output.write('Dose: %i' %field.Dose,'FAIL',failLog)        
Exemplo n.º 29
0
def check_Px(LPlan,OTPPlan,passLog,failLog):
    Px_mismatch = False
    output.write('\nPRESCRIPTION CHECK\n','CheckHeading',passLog)
    LDoseFr = 0         # Lantis total dose per fraction
    OTPDoseFr = 0       # OTP total dose per fraction

    for i in range(0,LPlan.NumBeams):
        #print "Beam Number %i" %i
        LDoseFr += LPlan.Beams[i].Dose
        OTPDoseFr += OTPPlan.Beams[i].Dose

    OTPDoseTotal = OTPDoseFr * OTPPlan.NumFractions
    
    #print "Lantis dose/fr = %i" %LDoseFr
    #print "OTP Total dose = %i" %OTPDoseTotal 

   # for prescription in LPlan.Prescriptions:
        #if (prescription.Site == LPlan.Site):                    
            # Check Lantis beam dose/fraction = Lantis Prescription dose/fraction
    if LDoseFr == LPlan.Prescription.DoseFraction:
        output.write("Lantis dose/beam matches Prescription: %i %i" %(LDoseFr,LPlan.Prescription.DoseFraction),'PASS',passLog)
        #print "Lantis Px dose matches %i %i" %(LDoseFr,LPlan.Prescriptions[0].DoseFraction)
    else:
        output.write("Lantis dose/beam and Prescription mismatch: %i %i" %(LDoseFr,LPlan.Prescription.DoseFraction),'FAIL',failLog)
        Px_mismatch = True

    # Check OTP beam dose/fraction = Lantis Prescription dose/fraction
    if OTPDoseFr == LPlan.Prescription.DoseFraction:
        output.write("OTP dose/beam matches Prescription: %i %i" %(OTPDoseFr,LPlan.Prescription.DoseFraction),'PASS',passLog)
        #print "OTP Px dose matches %i %i" %(OTPDoseFr,LPlan.Prescriptions[0].DoseFraction)
    else:
        output.write("OTP dose/beam and Prescription mismatch: %i %i" %(OTPDoseFr,LPlan.Prescription.DoseFraction),'FAIL',failLog)
        #print "OTP Px dose doesn't match %i %i" %(OTPDoseFr,LPlan.Prescriptions[0].DoseFraction)
        Px_mismatch = True        

    if OTPDoseTotal == LPlan.Prescription.DoseTotal:
        output.write("OTP total dose matches prescription: %i %i" %(OTPDoseTotal,LPlan.Prescription.DoseTotal),'PASS',passLog)
        #print "Lantis Px dose matches %i %i" %(LDoseFr,LPlan.Prescriptions[0].DoseFraction)
    else:
        output.write("OTP total dose and prescription mismatch: %i %i" %(OTPDoseTotal,LPlan.Prescription.DoseTotal),'FAIL',failLog)
        Px_mismatch = True
   
    if(Px_mismatch):
        return False
    else:
        return True 
Exemplo n.º 30
0
 def ending(self, output):
     '''Write final output before the end of the game.'''
     output.write("You have won.")