def test_rotation(self):
     """Test newPacker rotation argument"""
     p = packer.newPacker(rotation=False) 
     p.add_rect(100, 10)
     p.add_bin(10, 100)
     p.pack()
     self.assertEqual(len(p.rect_list()), 0)
     
     p = packer.newPacker(rotation=True) 
     p.add_rect(100, 10)
     p.add_bin(10, 100)
     p.pack()
     self.assertEqual(len(p.rect_list()), 1)
    def test_offline_sorting(self):
        """Test newPacker uses provided sort algorithm"""
        p = packer.newPacker(mode=packer.PackingMode.Offline,
                bin_algo=packer.PackingBin.BFF, 
                sort_algo=packer.SORT_RATIO)
        self.assertEqual(p._sort_algo, packer.SORT_RATIO)
        
        # Test sort_algo is ignored when not applicable
        p = packer.newPacker(mode=packer.PackingMode.Offline,
                bin_algo=packer.PackingBin.Global, 
                sort_algo=packer.SORT_RATIO)

        p = packer.newPacker(mode=packer.PackingMode.Online,
                bin_algo=packer.PackingBin.BFF, 
                sort_algo=packer.SORT_RATIO)
 def test_pack_algo(self):
     """Test NewPacker use correct PackingAlgorithm"""
     p = packer.newPacker(pack_algo=skyline.SkylineMwfl)
     p.add_rect(10, 10)
     p.add_bin(100, 100)
     p.pack()
     self.assertIsInstance(p[0], skyline.SkylineMwfl)
    def test_mode_online(self):
        """Test newPacker return correct Packer when in online mode"""
        p = packer.newPacker(mode=packer.PackingMode.Online,
                bin_algo=packer.PackingBin.BNF)
        self.assertIsInstance(p, packer.PackerOnlineBNF)

        p = packer.newPacker(mode=packer.PackingMode.Online,
                bin_algo=packer.PackingBin.BFF)
        self.assertIsInstance(p, packer.PackerOnlineBFF)

        p = packer.newPacker(mode=packer.PackingMode.Online,
                bin_algo=packer.PackingBin.BBF)
        self.assertIsInstance(p, packer.PackerOnlineBBF)

        with self.assertRaises(AttributeError):
            p = packer.newPacker(mode=packer.PackingMode.Online,
                    bin_algo=packer.PackingBin.Global)
    def test_mode_offline(self):
        """Test newPacker returns correct Packer when in offline mode"""
        p = packer.newPacker(mode=packer.PackingMode.Offline, 
                bin_algo=packer.PackingBin.BNF)
        self.assertIsInstance(p, packer.PackerBNF)

        p = packer.newPacker(mode=packer.PackingMode.Offline,
                bin_algo=packer.PackingBin.BFF)
        self.assertIsInstance(p, packer.PackerBFF)
        
        p = packer.newPacker(mode=packer.PackingMode.Offline,
                bin_algo=packer.PackingBin.BBF)
        self.assertIsInstance(p, packer.PackerBBF)
        
        p = packer.newPacker(mode=packer.PackingMode.Offline,
                bin_algo=packer.PackingBin.Global)
        self.assertIsInstance(p, packer.PackerGlobal)
Exemplo n.º 6
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 def __init__(self, _inputFileName,
              _algorithmName):  # init bacis structures
     self.resources = Resources()
     self.inputFileName = _inputFileName
     self.algorithmName = _algorithmName
     self.packer = newPacker(mode=PackingMode.Online,
                             pack_algo=self.getAlgotithmClass())
     self.packerHandler = PackerHandler()
     self.shipVisualizer = ShipVisualizer(_algorithmName)
Exemplo n.º 7
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 def _common(self, mode, bin_algo, width, height):
     # create a new packer
     p = newPacker(mode, bin_algo)
     # as many bins as rectangles should be enough
     p.add_bin(width, height, count=len(self.rectangles))
     # try to add the rectangles
     for r in self.rectangles:
         p.add_rect(*r)
     # pack them, if in offline mode
     if mode == PackingMode.Offline:
         p.pack()
     # provide the results for validation
     return p
    def test_bin_default_id(self):
        """Test default bin id is None"""
        bins   = [(100, 50, 1), (50, 50, 1), (200, 200, 10)]
        rects = [(199, 199), (100, 40), (40, 40), (20, 20), (180, 179)]

        p = packer.newPacker(mode=packer.PackingMode.Offline,
                bin_algo=packer.PackingBin.BFF)
        
        for b in bins:
            p.add_bin(b[0], b[1], count=b[2])
        
        for r in rects:
            p.add_rect(r[0], r[1])

        p.pack()

        # verify bin ids correctly assigned
        for abin in p:
            self.assertEqual(abin.bid, None)
    def test_default_options(self):
        """Test newPacker default options"""
        # Test default options
        p = packer.newPacker()
        
        # Default mode Online BBF
        self.assertIsInstance(p, packer.PackerBBF)

        # Default rotations True
        self.assertEqual(p._rotation, True)

        # Default packing algorithm SkylineBlWm
        p.add_rect(100, 10)
        p.add_bin(10, 100)
        p.pack()
        self.assertIsInstance(p[0], maxrects.MaxRectsBssf)
        self.assertEqual(len(p[0]), 1)

        # Default sortin algorithm SORT_LSIDE
        self.assertEqual(p._sort_algo, packer.SORT_AREA)
    def test_bin_id(self):
        """Test correct bin id is assigned to each bin"""

        # width, height, count, bid
        bins   = [(100, 50, 1, "first"), (50, 50, 1, "second"), (200, 200, 10, "many")]
        binIdx = {(b[0], b[1]): b[3] for b in bins} 
        rects = [(199, 199), (100, 40), (40, 40), (20, 20), (180, 179)]

        p = packer.newPacker(mode=packer.PackingMode.Offline,
                bin_algo=packer.PackingBin.BFF)
        
        for b in bins:
            p.add_bin(b[0], b[1], count=b[2], bid=b[3])
        
        for r in rects:
            p.add_rect(r[0], r[1])

        p.pack()

        # verify bin ids correctly assigned
        for abin in p:
            self.assertEqual(binIdx[(abin.width, abin.height)], abin.bid)
Exemplo n.º 11
0
	def __init__(self, width, height):
		self.width = width
		self.height = height
		self.p = packer.newPacker(mode=packer.PackingMode.Online, 
				bin_algo=packer.PackingBin.BFF)
		self.p.add_bin(self.width, self.height)
Exemplo n.º 12
0
def checkName1(name):	
	wb = open_workbook(name)
	f_dr='E:/Junks/Chinmay/New folder/Rectangles/';
	sheet=wb.sheets()[0]
	
	number_of_rows = sheet.nrows
	number_of_columns = sheet.ncols
	
	length=(sheet.cell(1,1).value)
	breadth=(sheet.cell(2,1).value)
	blade=(sheet.cell(3,1).value)
	
	rectangles=[];
	for k in range(6,number_of_rows):
		quantity=int((sheet.cell(k,3).value))
		if(quantity>1):
			for n in range(0,quantity):
				r=(int((sheet.cell(k,1).value))+blade,int((sheet.cell(k,2).value))+blade,str((sheet.cell(k,0).value))+'_'+str(n));
				rectangles.append(r)
		else:
			r=(int((sheet.cell(k,1).value))+blade,int((sheet.cell(k,2).value))+blade,str((sheet.cell(k,0).value)));
			rectangles.append(r)
	
	packerr = packer.newPacker(bin_algo=packer.PackingBin.Global,rotation=True,pack_algo = guillotine.GuillotineBssfSas)
	for r in rectangles:
		packerr.add_rect(*r)
		
	packerr.add_bin(length,breadth,count=float("inf"))
	packerr.pack()
	all_rects = packerr.rect_list()
	for rect in all_rects:
		b, x, y, w, h, rid = rect
	for sheet in range(0,len(packerr)):
            h = packerr[sheet].height + 400
            w = packerr[sheet].width + 400
            
            txt = Image.new('RGB', (int(w),int(h)), (255,255,255))
            fnt = ImageFont.truetype("arial.ttf",50)

            d = ImageDraw.Draw(txt)
            d.line([200,200,int(w)-200,200], fill=(0,0,0), width=5)
            d.line([200,200,200,int(h)-200], fill=(0,0,0), width=5)
            d.line([200,int(h)-200,int(w)-200,int(h)-200], fill=(0,0,0), width=5)
            d.line([int(w)-200,200,int(w)-200,int(h)-200], fill=(0,0,0), width=5)
            for i in range(0,int(w)-400+1,200):

                d.line([i+200,185,i+200,215], fill=(0,0,0), width=5)
                wi,hi = fnt.getsize(str(i))
                d.text((i+200-wi/2,185-5-hi), str(i), font=fnt, fill=(50,55,25))

                d.line([i+200,h-185,i+200,h-215], fill=(0,0,0), width=5)
                wi,hi = fnt.getsize(str(i))
                d.text((i+200-wi/2,h-180), str(i), font=fnt, fill=(50,55,25))

            for i in range(0,int(h)-400+1,200):
                d.line([185,i+200,215,i+200], fill=(0,0,0), width=5)
                wi,hi = fnt.getsize(str(i))
                d.text((185-wi-5,i+200-hi/2), str(i), font=fnt, fill=(50,55,25))

                d.line([w-185,i+200,w-215,i+200], fill=(0,0,0), width=5)
                wi,hi = fnt.getsize(str(i))
                d.text((w-180,i+200-hi/2), str(i), font=fnt, fill=(50,55,25))

            for r in packerr[sheet]:
                rect_draw(r.x+200,r.y+200,r.x+r.width+200,r.y+r.height+200,d)
                wi,hi = fnt.getsize(r.rid)
                d.text((r.x+r.width/2-wi/2+200,r.y+r.height/2-hi/2+200),r.rid,font=fnt, fill=(50,55,25))
        #     rect_draw(900,900,1200,1250,d)
            txt.save(f_dr+str(sheet)+'.jpg')
            path.append(f_dr+str(sheet)+'.jpg')

	
	text_file = open("E:/Junks/Chinmay/New folder/cutting.txt", "w")
	text_file.write(str(packerr.rect_list()))
	path.append("E:/Junks/Chinmay/New folder/cutting.txt")
	text_file.close()
	dst='E:/Junks/Chinmay/New folder/temp.zip';
	zip(dst)
	del path[:]
	return send_file(dst,attachment_filename='Cutting_Plan.zip',as_attachment=True)
Exemplo n.º 13
0
    detailsArray = req_data['details']
    detailsArraylength = len(detailsArray)
	
	
	rectangles=[];
	for k in range(detailsArraylength):
		quantity=int(detailsArray[k]['quantity'])
		if(quantity>1):
			for n in range(0,quantity):
				r=(int((detailsArray[k]['length']))+blade,int((detailsArray[k]['height']))+blade,str((detailsArray[k]['unique_id']))+'_'+str(n));
				rectangles.append(r)
		else:
			r=(int((detailsArray[k]['length']))+blade,int((detailsArray[k]['height']))+blade,str((detailsArray[k]['unique_id'])));
			rectangles.append(r)
	
	packerr = packer.newPacker(bin_algo=packer.PackingBin.Global,rotation=True,pack_algo = guillotine.GuillotineBssfSas)
	for r in rectangles:
		packerr.add_rect(*r)
		
	packerr.add_bin(length,breadth,count=float("inf"))
	packerr.pack()
	all_rects = packerr.rect_list()
	for rect in all_rects:
		b, x, y, w, h, rid = rect
	for sheet in range(0,len(packerr)):
            h = packerr[sheet].height + 400
            w = packerr[sheet].width + 400
            
            txt = Image.new('RGB', (int(w),int(h)), (255,255,255))
            fnt = ImageFont.truetype("arial.ttf",50)