def build(self):

                # create a floating layout as base
                camlayout = FloatLayout(size=(600, 600))
                cam = Camera()        #Get the camera
                cam=Camera(resolution=(1024,1024), size=(300,300))
                cam.play=True         #Start the camera
                camlayout.add_widget(cam)

                button=Button(text='Take Picture',size_hint=(0.12,0.12))
                button.bind(on_press=self.doscreenshot)
                camlayout.add_widget(button)    #Add button to Camera Layout

                # create a text input box for site name
                s1 = Scatter(size_hint=(None, None), pos_hint={'x':.01, 'y':.9})
                self.site = TextInput(size_hint=(None, None), size=(150, 50), multiline=False)

                # create a text input box for sample (flag) name
                s2 = Scatter(size_hint=(None, None), pos_hint={'x':.01, 'y':.8})
                self.sample = TextInput(size_hint=(None, None), size=(150, 50), multiline=False)

                # add the text widgets to the window
                s1.add_widget(self.site)
                camlayout.add_widget(s1) 
                s2.add_widget(self.sample)
                camlayout.add_widget(s2) 

                return camlayout
Exemple #2
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          def build(self):
              camwidget = Widget()  #Create a camera Widget
              cam = Camera(play=True, index=1) #Start the camera
              camwidget.add_widget(cam)

              button=Button(text='screenshot', size_hint=(0.12, 0.12))
              button.bind(on_press=self.doscreenshot)
              camwidget.add_widget(button)    #Add button to Camera Widget
              cam.play=True
              return camwidget
Exemple #3
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          def build(self):
                camwidget = Widget()  #Create a camera Widget
                cam = Camera()        #Get the camera
                cam=Camera(resolution=(640,480), size=(500,500))
                cam.play=True         #Start the camera
                camwidget.add_widget(cam)

                button=Button(text='screenshot',size_hint=(0.12,0.12))
                button.bind(on_press=self.doscreenshot)
                camwidget.add_widget(button)    #Add button to Camera Widget

                return camwidget
 def start(self):
     if not self._camera:
         self._camera = Camera(
             resolution=self.camera_size, size_hint=(None, None))
         self.add_widget(self._camera)
         self.bind(size=self._camera.setter('size'))
         self.bind(pos=self._camera.setter('pos'))
     else:
         self._camera._camera.init_camera()
     self._camera.play = True
     Clock.schedule_interval(self._detect_qrcode_frame, 1 / 15)
Exemple #5
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class ScannerCamera(ScannerBase):
    '''Widget that use the kivy.uix.camera.Camera and zbar to detect
    qrcode. When found, the `symbols` will be updated
    '''

    def __init__(self, **kwargs):
        super(ScannerCamera, self).__init__(**kwargs)
        self._camera = None
        # create a scanner used for detecting qrcode
        self._scanner = ImageScanner()
        self._scanner.parse_config('enable')
        #self._scanner.setConfig(Symbol.QRCODE, Config.ENABLE, 1)
        #self._scanner.setConfig(0, Config.X_DENSITY, 3)
        #self._scanner.setConfig(0, Config.Y_DENSITY, 3)

    def start(self):
        if not self._camera:
            self._camera = Camera(
                    resolution=self.camera_size,
                    size_hint=(None, None))
            self.add_widget(self._camera)
            self.bind(size=self._camera.setter('size'))
            self.bind(pos=self._camera.setter('pos'))
        else:
            self._camera._camera.init_camera()
        self._camera.play = True
        Clock.schedule_interval(self._detect_qrcode_frame, 1/15)

    def stop(self):
        if not self._camera:
            return
        self._camera.play = False
        Clock.unschedule(self._detect_qrcode_frame)
        # TODO: testing for various platforms(windows, mac)
        if platform == 'linux':
            self._camera._camera._pipeline.set_state(1)
        #self._camera = None

    def _detect_qrcode_frame(self, *args):
        # the image we got by default from a camera is using the rgba format
        # zbar only allow Y800/GREY image, so we first need to convert,
        # then start the detection on the image
        if not self.get_root_window():
            self.stop()
            return
        cam = self._camera
        tex = cam.texture
        if not tex:
            return
        im = PILImage.fromstring('RGBA', tex.size, tex.pixels)
        im = im.convert('L')
        barcode = Image(tex.size[0],
                        tex.size[1], 'Y800', im.tostring())

        result = self._scanner.scan(barcode)

        if result == 0:
            self.symbols = []
            del(barcode)
            return

        # we detected qrcode! extract and dispatch them
        symbols = []
        for symbol in barcode.symbols:
            qrcode = ScannerCamera.Qrcode(
                type=symbol.type,
                data=symbol.data,
                quality=symbol.quality,
                count=symbol.count,
                bounds=symbol.location)
            symbols.append(qrcode)

        self.symbols = symbols
        del(barcode)
Exemple #6
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 def open_cam(self):
     cam = Camera(resolution=(320, 240), play=True)
     self.add_widget(cam)
Exemple #7
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class RootWidget(GridLayout):

    #run when done with page two
    def submit_form(self):

        fields = (
            'tech',
            'cust',
            'addy',
            'phone',
            'resp',
            'aqi',
            'temp',
            'relh',
            'hchoc',
            'tvcoc',
            'cell0',
            'cells',
            'swabs',
        )

        radios = (
            'area1',
            'area2',
            'area3',
            'hchos',
            'hchou',
            'tvcos',
            'tvcou',
        )

        file = 'per/{}_Form.txt'.format(self.fname)
        dfile = '/{}/Form.txt'.format(self.fname)

        with open(file, 'w+') as f:

            #for all the normal text inputs
            for k in fields:

                #record it
                #name
                n = eval('self.{}.text'.format(k))
                #value
                v = eval('self.{}i.text'.format(k))
                f.write(n + ' ' + v + '\n')

            #for all the radios
            for k in radios:

                #if its selected
                if eval('self.{}i.active'.format(k)):
                    #record it
                    line = eval('self.{}.text'.format(k)) + ' ' + eval(
                        'self.{}.text'.format(k))
                    f.write(line + '\n')

        with open(file, 'rb') as f:

            b = f.read()
            self.db.files_upload(b, dfile)

#page two b

    def show_camera(self):

        self.clear_widgets()
        self.rows = 3
        self.cols = 1

        def capture():

            #date
            prep = str(datetime.datetime.now()).split('.')[0].split(' ')
            prep = prep[1].replace(':', '_')

            #local img
            self.imgname = '{}/Image_{}'.format(self.fname, prep)
            self.pngnames = []
            self.camera.export_to_png('per/{}_{}'.format(
                self.fname, self.imgname))
            png = 'per/{}_{}.png'.format(self.fname, self.imgname)
            with open(lefile, 'rb') as f:
                f = f.read()
                self.db.files_upload(f, '/' + self.imgname)

        self.camera = Camera()
        self.camera.bind(on_press=lambda *x: capture())
        self.add_widget(self.camera)
        b = Button(
            text='Take Picture',
            halign='center',
            valign='middle',
        )
        b.bind(on_press=lambda *x: capture())
        self.add_widget(b)
        s = Button(
            text='Show Form',
            halign='center',
            valign='middle',
        )
        s.bind(on_press=lambda *x: self.show_form())
        self.add_widget(s)

#page two a

    def show_form(self):

        #clear old screen
        self.clear_widgets()

        #init persistent aesthetics
        self.cols = 1
        self.rows = 1
        Window.clearcolor = (1, 1, 1, 1)
        self.background_color = (1, 1, 1, 1)

        #scroll
        self.scroll = ScrollView(size_hint=(1, None),
                                 size=(Window.width, Window.height))
        self.add_widget(self.scroll)

        #to hold key/value columns and submit button
        self.archgrid = GridLayout(rows=3,
                                   cols=1,
                                   size_hint_y=None,
                                   spacing=0,
                                   height=Window.height)
        self.archgrid.bind(minimum_height=self.archgrid.setter('height'))
        self.scroll.add_widget(self.archgrid)

        #separate key from value
        elf = self.grid = GridLayout(cols=2,
                                     rows=1,
                                     size_hint_y=None,
                                     height=Window.width * 16 / 9)
        self.archgrid.add_widget(elf)

        #key column
        elf.labels = cola = GridLayout(cols=1,
                                       size_hint=(1, None),
                                       spacing=10,
                                       height=Window.width * 16 / 9)
        elf.add_widget(elf.labels)

        #value column
        elf.inputs = colb = GridLayout(cols=1,
                                       size_hint=(2, None),
                                       spacing=10,
                                       height=Window.width * 16 / 9)
        elf.add_widget(elf.inputs)

        #tech name
        self.tech = Label(text='Tech Name:', color=(.5, .5, .5, 1))
        cola.add_widget(self.tech)
        self.techg = GridLayout(cols=1, rows=3)
        self.techg.add_widget(Label())
        self.techi = TextInput(text='', foreground_color=(0, 0, 0, 1))
        self.techg.add_widget(self.techi)
        self.techg.add_widget(Label())
        colb.add_widget(self.techg)

        #customer name
        self.cust = Label(text='Customer Name:', color=(.5, .5, .5, 1))
        cola.add_widget(self.cust)
        self.custg = GridLayout(cols=1, rows=3)
        self.custg.add_widget(Label())
        self.custi = TextInput(text='', foreground_color=(0, 0, 0, 1))
        self.custg.add_widget(self.custi)
        self.custg.add_widget(Label())
        colb.add_widget(self.custg)

        #address
        self.addy = Label(text='Address:', color=(.5, .5, .5, 1))
        cola.add_widget(self.addy)
        self.addyg = GridLayout(cols=1, rows=3)
        self.addyg.add_widget(Label())
        self.addyi = TextInput(text='', foreground_color=(0, 0, 0, 1))
        self.addyg.add_widget(self.addyi)
        self.addyg.add_widget(Label())
        colb.add_widget(self.addyg)

        #phone
        self.phone = Label(text='Cust Phone #:', color=(.5, .5, .5, 1))
        cola.add_widget(self.phone)
        self.phoneg = GridLayout(cols=1, rows=3)
        self.phoneg.add_widget(Label())
        self.phonei = TextInput(text='', foreground_color=(0, 0, 0, 1))
        self.phoneg.add_widget(self.phonei)
        self.phoneg.add_widget(Label())
        colb.add_widget(self.phoneg)

        #area
        self.area = Label(text='Contaminated Area:', color=(.5, .5, .5, 1))
        cola.add_widget(self.area)
        cola.add_widget(Label())
        colb.area = GridLayout(cols=2, rows=3)
        self.areag = colb.area
        self.area1 = Label(text='Level 1', color=(0, 0, 0, 1))
        self.areag.add_widget(self.area1)
        self.area1i = CheckBox(group='area', color=(0, 0, 0, 3))
        self.areag.add_widget(self.area1i)
        self.area2 = Label(text='Level 2', color=(0, 0, 0, 1))
        self.areag.add_widget(self.area2)
        self.area2i = CheckBox(group='area', color=(0, 0, 0, 3))
        self.areag.add_widget(self.area2i)
        self.area3 = Label(text='Level 3', color=(0, 0, 0, 1))
        self.areag.add_widget(self.area3)
        self.area3i = CheckBox(group='area', color=(0, 0, 0, 3))
        self.areag.add_widget(self.area3i)
        colb.add_widget(self.areag)
        colb.add_widget(Label())

        #respirable particulates
        self.resp = Label(text='Respirable Particulates:',
                          color=(.5, .5, .5, 1))
        cola.add_widget(self.resp)
        self.respg = GridLayout(cols=1, rows=3)
        self.respg.add_widget(Label())
        self.respi = TextInput(text='', foreground_color=(0, 0, 0, 1))
        self.respg.add_widget(self.respi)
        self.respg.add_widget(Label())
        colb.add_widget(self.respg)

        #aqi
        self.aqi = Label(text='A.Q.I.:', color=(.5, .5, .5, 1))
        cola.add_widget(self.aqi)
        self.aqig = GridLayout(cols=1, rows=3)
        self.aqig.add_widget(Label())
        self.aqii = TextInput(text='', foreground_color=(0, 0, 0, 1))
        self.aqig.add_widget(self.aqii)
        self.aqig.add_widget(Label())
        colb.add_widget(self.aqig)

        #temp
        self.temp = Label(text='Temperature:', color=(.5, .5, .5, 1))
        cola.add_widget(self.temp)
        self.tempg = GridLayout(cols=1, rows=3)
        self.tempg.add_widget(Label())
        self.tempi = TextInput(text='', foreground_color=(0, 0, 0, 1))
        self.tempg.add_widget(self.tempi)
        self.tempg.add_widget(Label())
        colb.add_widget(self.tempg)

        #relative humidity
        self.relh = Label(text='Relative Humidity:', color=(.5, .5, .5, 1))
        cola.add_widget(self.relh)
        self.relhg = GridLayout(cols=1, rows=3)
        self.relhg.add_widget(Label())
        self.relhi = TextInput(text='', foreground_color=(0, 0, 0, 1))
        self.relhg.add_widget(self.relhi)
        self.relhg.add_widget(Label())
        colb.add_widget(self.relhg)

        #hcho
        self.hcho = Label(text='HCHO:', color=(.5, .5, .5, 1))
        cola.add_widget(self.hcho)
        #some spacer labels have been removed for aesthetic testing
        #cola.add_widget(Label())
        self.hchog = GridLayout(cols=2, rows=2)
        self.hchos = Label(text='Safe', color=(0, 0, 0, 1))
        self.hchosi = CheckBox(group='hcho', color=(0, 0, 0, 3))
        self.hchou = Label(text='Unsafe', color=(0, 0, 0, 1))
        self.hchoui = CheckBox(group='hcho', color=(0, 0, 0, 3))
        self.hchog.add_widget(self.hchos)
        self.hchog.add_widget(self.hchosi)
        self.hchog.add_widget(self.hchou)
        self.hchog.add_widget(self.hchoui)
        colb.add_widget(self.hchog)
        #colb.add_widget(Label())

        #hcho count
        self.hchoc = Label(text='HCHO Count:', color=(.5, .5, .5, 1))
        cola.add_widget(self.hchoc)
        self.hchocg = GridLayout(cols=1, rows=3)
        self.hchocg.add_widget(Label())
        self.hchoci = TextInput(text='', foreground_color=(0, 0, 0, 1))
        self.hchocg.add_widget(self.hchoci)
        self.hchocg.add_widget(Label())
        colb.add_widget(self.hchocg)

        #tvco
        self.tvco = Label(text='TVCO:', color=(.5, .5, .5, 1))
        cola.add_widget(self.tvco)
        #cola.add_widget(Label())
        self.tvcog = GridLayout(cols=2, rows=2)
        self.tvcos = Label(text='Safe', color=(0, 0, 0, 1))
        self.tvcosi = CheckBox(group='tvco', color=(0, 0, 0, 3))
        self.tvcou = Label(text='Unsafe', color=(0, 0, 0, 1))
        self.tvcoui = CheckBox(group='tvco', color=(0, 0, 0, 3))
        self.tvcog.add_widget(self.tvcos)
        self.tvcog.add_widget(self.tvcosi)
        self.tvcog.add_widget(self.tvcou)
        self.tvcog.add_widget(self.tvcoui)
        colb.add_widget(self.tvcog)
        #colb.add_widget(Label())

        #tvco count
        self.tvcoc = Label(text='TVCO Count:', color=(.5, .5, .5, 1))
        cola.add_widget(self.tvcoc)
        self.tvcocg = GridLayout(cols=1, rows=3)
        self.tvcocg.add_widget(Label())
        self.tvcoci = TextInput(text='', foreground_color=(0, 0, 0, 1))
        self.tvcocg.add_widget(self.tvcoci)
        self.tvcocg.add_widget(Label())
        colb.add_widget(self.tvcocg)

        #control cell
        self.cell0 = Label(text='Control Cell:', color=(.5, .5, .5, 1))
        cola.add_widget(self.cell0)
        self.cell0g = GridLayout(cols=1, rows=3)
        self.cell0g.add_widget(Label())
        self.cell0i = TextInput(text='', foreground_color=(0, 0, 0, 1))
        self.cell0g.add_widget(self.cell0i)
        self.cell0g.add_widget(Label())
        colb.add_widget(self.cell0g)

        #number of cells
        self.cells = Label(text='Number of Cells:', color=(.5, .5, .5, 1))
        cola.add_widget(self.cells)
        self.cellsg = GridLayout(cols=1, rows=3)
        self.cellsg.add_widget(Label())
        self.cellsi = TextInput(text='', foreground_color=(0, 0, 0, 1))
        self.cellsg.add_widget(self.cellsi)
        self.cellsg.add_widget(Label())
        colb.add_widget(self.cellsg)

        #number of swabs
        self.swabs = Label(text='Number of swabs:', color=(.5, .5, .5, 1))
        cola.add_widget(self.swabs)
        self.swabsg = GridLayout(cols=1, rows=3)
        self.swabsg.add_widget(Label())
        self.swabsi = TextInput(text='', foreground_color=(0, 0, 0, 1))
        self.swabsg.add_widget(self.swabsi)
        self.swabsg.add_widget(Label())
        colb.add_widget(self.swabsg)

        #camera button
        submit = self.scroll.submit = Button(
            text='Take Pictures',
            size_hint=(1, None),
            height=Window.width / 6,
            background_color=(2, 2, 2, 1),
            color=(.2, .2, .2, 1),
        )
        submit.bind(on_press=lambda *x: self.show_camera())
        self.archgrid.add_widget(submit)

        #done button
        done = self.scroll.done = Button(
            text='Done',
            size_hint=(1, None),
            height=Window.width / 6,
            background_color=(2, 2, 2, 1),
            color=(.2, .2, .2, 1),
        )
        done.bind(on_press=lambda *x: self.submit_form())
        self.archgrid.add_widget(done)

#run when done w page one

    def sign_contract(self):

        #init
        self.fname = (self.n.i.text.split(' ')[1].capitalize() + ',' +
                      self.n.i.text.split(' ')[0].capitalize())
        if self.a.i.text:
            self.fname += ('-' + self.a.i.text)

        self.fields = {
            'n': 'Print Name Owner/Agent: ',
            'a': 'Address: ',
            'd': 'Date: ',
            'p': 'Customer Phone: ',
            'l': 'Claim #: ',
            'ni': 'Insurance Name: ',
            'np': 'Insurance Phone: ',
        }

        def find_start(key):
            return self.txt.index(key) + len(key)

        #populate contract
        with open('per/contract.txt', 'r') as f:
            self.txt = f.read()

        for k in self.fields.keys():
            start = find_start(self.fields[k])
            self.txt = list(self.txt)
            for i, char in enumerate(list('self.{}.i.text'.format(k))):
                self.txt[start + i] = char
            self.txt = ''.join(self.txt)

        with open('per/newcontract.txt', 'w') as f:
            f.write(self.txt)

        #change to pdf
        os.system(
            'python per/txt2pdf/txt2pdf.py per/newcontract.txt -o per/newcontract.pdf'
        )

        #display loading
        self.clear_widgets()
        self.add_widget(Label(text="Uploading...", width=Window.width))

        #upload to dropbox
        token = 'tmb24v3GWVAAAAAAAAAACo39DcRf542tDsVBKRuYwPrCFE1zBQ_VeoImypDesKxR'
        print(self.fname)
        dest_file = '/{}/Contract.pdf'.format(self.fname)
        self.db = dropbox.Dropbox(token)
        with open('per/newcontract.pdf', 'rb') as f:
            f = f.read()
            self.db.files_upload(f, dest_file)

        #show page two
        self.show_form()

#page one

    def show_contract(self):

        #start fresh
        self.clear_widgets()
        self.cols = 1
        self.rows = 1

        #scroll
        s = ScrollView(size_hint=(1, None), size=(Window.width, Window.height))
        self.add_widget(s)

        #main grid
        g = GridLayout(cols=1,
                       rows=3,
                       size_hint=(1, None),
                       height=Window.height)
        g.bind(minimum_height=g.setter('height'))
        s.add_widget(g)

        #contract
        c = Label(
            size_hint=(1, None),
            halign='center',
        )
        with open('per/contract.txt', 'r') as f:
            c.text = f.read().split('Print Name Owner')[0]
        c.bind(width=lambda *x: c.setter('text_size')(c, (c.width, None)))
        c.bind(
            texture_size=lambda *x: c.setter('height')(c, c.texture_size[1]))
        g.add_widget(c)

        #standing divisor
        r = GridLayout(cols=2,
                       rows=2,
                       size_hint=(1, None),
                       height=Window.height)
        r.bind(minimum_height=r.setter('height'))
        g.add_widget(r)

        #keys
        k = GridLayout(cols=1,
                       rows=7,
                       size_hint=(1, None),
                       height=Window.height)
        k.bind(minimum_height=k.setter('height'))
        r.add_widget(k)

        #values
        v = GridLayout(cols=1,
                       rows=7,
                       size_hint=(1, None),
                       height=Window.height)
        v.bind(minimum_height=v.setter('height'))
        r.add_widget(v)

        #name
        n = self.n = Label(text='Customer Name:', color=(.5, .5, .5, 1))

        n.g = GridLayout(cols=1, rows=3)

        n.i = TextInput(text='', foreground_color=(0, 0, 0, 1))

        n.g.add_widget(Label())
        n.g.add_widget(n.i)
        n.g.add_widget(Label())

        k.add_widget(n)
        v.add_widget(n.g)

        #addy
        a = self.a = Label(text='Customer Address:', color=(.5, .5, .5, 1))

        a.g = GridLayout(cols=1, rows=3)

        a.i = TextInput(text='', foreground_color=(0, 0, 0, 1))

        a.g.add_widget(Label())
        a.g.add_widget(a.i)
        a.g.add_widget(Label())

        k.add_widget(a)
        v.add_widget(a.g)

        #phone
        p = self.p = Label(text='Customer Phone #:', color=(.5, .5, .5, 1))

        p.g = GridLayout(cols=1, rows=3)

        p.i = TextInput(text='', foreground_color=(0, 0, 0, 1))

        p.g.add_widget(Label())
        p.g.add_widget(p.i)
        p.g.add_widget(Label())

        k.add_widget(p)
        v.add_widget(p.g)

        #claim
        l = self.l = Label(text='Insurance Claim #:', color=(.5, .5, .5, 1))

        l.g = GridLayout(cols=1, rows=3)

        l.i = TextInput(text='', foreground_color=(0, 0, 0, 1))

        l.g.add_widget(Label())
        l.g.add_widget(l.i)
        l.g.add_widget(Label())

        k.add_widget(l)
        v.add_widget(l.g)

        #insurance name
        ni = self.ni = Label(text='Insurance Name:', color=(.5, .5, .5, 1))

        ni.g = GridLayout(cols=1, rows=3)

        ni.i = TextInput(text='', foreground_color=(0, 0, 0, 1))

        ni.g.add_widget(Label())
        ni.g.add_widget(ni.i)
        ni.g.add_widget(Label())

        k.add_widget(ni)
        v.add_widget(ni.g)

        #insurance phone
        np = self.np = Label(text='Insurance Phone #:', color=(.5, .5, .5, 1))

        np.g = GridLayout(cols=1, rows=3)

        np.i = TextInput(text='', foreground_color=(0, 0, 0, 1))

        np.g.add_widget(Label())
        np.g.add_widget(np.i)
        np.g.add_widget(Label())

        k.add_widget(np)
        v.add_widget(np.g)

        #date
        d = self.d = Label(text='Date:', color=(.5, .5, .5, 1))

        d.g = GridLayout(cols=1, rows=3)

        d.i = TextInput(foreground_color=(0, 0, 0, 1))
        x = str(datetime.datetime.now()).split(' ')[0].split('-')
        self.rightdate = '/'.join(['/'.join(x[1:]), str(x[0])])
        d.i.text = self.rightdate

        d.g.add_widget(Label())
        d.g.add_widget(d.i)
        d.g.add_widget(Label())

        k.add_widget(d)
        v.add_widget(d.g)

        #button
        b = Button(size_hint=(1, None), text='Sign Contract')
        b.bind(on_press=lambda *x: self.sign_contract())
        g.add_widget(b)


#start the app at page one

    def __init__(self, **kwargs):

        #safe init
        super(RootWidget, self).__init__(**kwargs)
        self.show_contract()
Exemple #8
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 def camera(self):
     return Camera(index=0, resolution=(640, 480))
Exemple #9
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 def __init__(self, **kwargs):
     super(MainScreen, self).__init__(**kwargs)
     self.orientation = VERTICAL
     self.add_widget(Camera(id="camera", resolution=(640, 480), play=True))
     self.add_widget(Button(text="check", on_press=lambda x: self.capture()))
Exemple #10
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class CamApp(App):
    def build(self):
        layout = RelativeLayout(size=(500, 500))
        self.cam = Camera(play=True, resolution=(1500, 1500))
        self.button = Button(text='Detect a face!',
                             size_hint=(.5, .07),
                             pos=(450, 100))
        self.button.bind(on_press=self.on_press_button)
        self.button_sketch = Button(text='Create a sketch!',
                                    size_hint=(.5, .07),
                                    pos=(450, 10))
        self.button_paint = Button(text='Create a painting',
                                   size_hint=(.5, 0.07),
                                   pos=(450, 190))
        self.button_sketch.bind(on_press=self.on_press_sketch_button)
        self.button_paint.bind(on_press=self.on_press_paint_button)
        layout.add_widget(self.cam)
        layout.add_widget(self.button)
        layout.add_widget(self.button_sketch)
        layout.add_widget(self.button_paint)
        return layout

    def on_press_button(self, instance):
        #       try:
        self.imagePath = os.path.join('Selfies', 'Selfie.png')
        self.cam.export_to_png(self.imagePath)
        haarCascade = cv2.CascadeClassifier(
            "haarcascade_frontalface_default.xml")
        # Read the image
        image = cv2.imread(self.imagePath)

        # Detect faces in the image
        faces = haarCascade.detectMultiScale(cv2.cvtColor(
            image, cv2.COLOR_BGR2GRAY),
                                             scaleFactor=1.1,
                                             minNeighbors=5,
                                             minSize=(30, 30),
                                             flags=cv2.CASCADE_SCALE_IMAGE)
        # Draw a rectangle around the faces
        for (x, y, w, h) in faces:
            cv2.rectangle(image, (x, y), (x + w, y + h), (0, 255, 0), 2)

        cv2.imwrite(os.path.join('Selfies', 'Selfie_detected.jpg'), image)

        return 0

    def on_press_sketch_button(self, instance):
        self.imagePath = os.path.join('Sketch', 'Selfie_sketch.png')
        self.cam.export_to_png(self.imagePath)
        image = cv2.imread(self.imagePath)
        img_gray = cv2.cvtColor(image, cv2.COLOR_BGR2GRAY)
        img_gray_inv = 255 - img_gray
        img_blur = cv2.GaussianBlur(img_gray_inv,
                                    ksize=(21, 21),
                                    sigmaX=0,
                                    sigmaY=0)
        img_blend = cv2.divide(img_gray, 255 - img_blur, scale=256)
        cv2.imwrite(os.path.join('Sketch', 'transformed.png'), img_blend)

        return 0

    def on_press_paint_button(self, instance):
        self.imagePath = os.path.join('Paint', 'Selfie.png')
        self.cam.export_to_png(self.imagePath)
        img = cv2.imread(self.imagePath)
        res = cv2.stylization(img, sigma_s=30, sigma_r=0.3)
        cv2.imwrite(os.path.join('Paint', 'painting.png'), res)

        return 0