Ejemplo n.º 1
0
 def testSort(self):
     attr = {
         'refdes': 'R10',
         'value': '10k',
         'device': 'RESISTOR',
         'vendor-number': '1234567A'
     }
     comp = gs.SchematicComponent(**attr)
     self.bomComp.addComponent(comp)
     attr = {
         'refdes': 'R4',
         'value': '10k',
         'device': 'RESISTOR',
         'vendor-number': '1234567A'
     }
     comp = gs.SchematicComponent(**attr)
     self.bomComp.addComponent(comp)
     #print "Before sort: %s"%(self.bomComp.refdes)
     self.bomComp.sort()
     self.assertEqual(self.bomComp.refdes[0], 'R1',
                      'Wrong first refdes after sort')
     self.assertEqual(self.bomComp.refdes[1], 'R4',
                      'Wrong second refdes after sort')
     self.assertEqual(self.bomComp.refdes[2], 'R10',
                      'Wrong third refdes after sort')
Ejemplo n.º 2
0
    def testComponentInit(self):
        attr = self.attr
        c = gs.SchematicComponent(**attr)
        for (attribute, value) in attr.items():

            self.assertEqual(
                c.getAttribute(attribute), value,
                'Component Attribute Init Fail: %s\nExpecting: %s' %
                (attribute, value))
Ejemplo n.º 3
0
 def testEq(self):
     attr = {
         'refdes': 'R10',
         'value': '10k',
         'device': 'RESISTOR',
         'vendor-number': '1234567A'
     }
     comp = gs.SchematicComponent(**attr)
     result = (self.bomComp == comp)
     self.assertTrue(result, "Equal components not being recognized")
     attr = {
         'refdes': 'R10',
         'value': '10k',
         'device': 'RESISTOR',
         'vendor-number': '123234567A'
     }
     comp = gs.SchematicComponent(**attr)
     result = (self.bomComp == comp)
     self.assertFalse(result, "Unqual components not being recognized")
Ejemplo n.º 4
0
    def _createDummyComponentList(self):
        '''
        Create SchematicComponentList and populate with components
        '''
        attr = {
            'refdes': 'R1',
            'value': '10k',
            'device': 'RESISTOR',
            'vendor-number': '1234567'
        }
        c1 = gs.SchematicComponent(**attr)
        attr = {
            'refdes': 'R3',
            'value': '10k',
            'device': 'RESISTOR',
            'vendor-number': '1234567'
        }
        c2 = gs.SchematicComponent(**attr)
        attr = {
            'refdes': 'R2',
            'value': '100k',
            'device': 'RESISTOR',
            'vendor-number': '1234567A'
        }
        c3 = gs.SchematicComponent(**attr)
        attr = {
            'refdes': 'C2',
            'value': '10uF',
            'device': 'CAPACITOR',
            'vendor-number': '1234567B'
        }
        c4 = gs.SchematicComponent(**attr)
        attr = {
            'refdes': 'C4',
            'value': '1uF',
            'device': 'CAPACITOR',
            'vendor-number': '1234567C'
        }
        c5 = gs.SchematicComponent(**attr)
        attr = {
            'refdes': 'C1',
            'value': '1uF',
            'device': 'CAPACITOR',
            'vendor-number': '1234567B'
        }
        c6 = gs.SchematicComponent(**attr)
        attr = {
            'refdes': 'L1',
            'value': '22nH',
            'device': 'INDUCTOR',
            'vendor-number': '1234567D'
        }
        c7 = gs.SchematicComponent(**attr)

        cl = gs.SchematicComponentList()
        for component in [c1, c2, c3, c4, c5, c6, c7]:
            cl.append(component)
        return cl
Ejemplo n.º 5
0
 def testAddComponent(self):
     attr = {
         'refdes': 'R10',
         'value': '10k',
         'device': 'RESISTOR',
         'vendor-number': '1234567A'
     }
     comp = gs.SchematicComponent(**attr)
     self.bomComp.addComponent(comp)
     self.assertEqual(self.bomComp.getQuantity(), 2,
                      "Quantity attribute not being updated")
Ejemplo n.º 6
0
 def setUp(self):
     attr = {
         'refdes': 'R1',
         'value': '50k',
         'device': 'RESISTOR',
         'symbol': 'test.sym'
     }
     c1 = gs.SchematicComponent(**attr)
     attr = {
         'refdes': 'R3',
         'value': '10k',
         'device': 'RESISTOR',
         'symbol': 'test.sym'
     }
     c2 = gs.SchematicComponent(**attr)
     attr = {
         'refdes': 'R2',
         'value': '100k',
         'device': 'RESISTOR',
         'symbol': 'test.sym'
     }
     c3 = gs.SchematicComponent(**attr)
     attr = {
         'refdes': 'C2',
         'value': '10uF',
         'device': 'CAPACITOR',
         'symbol': 'test.sym'
     }
     c4 = gs.SchematicComponent(**attr)
     attr = {
         'refdes': 'C1',
         'value': '100uF',
         'device': 'CAPACITOR',
         'symbol': 'test.sym'
     }
     c5 = gs.SchematicComponent(**attr)
     self.cl = gs.SchematicComponentList()
     for component in [c1, c2, c3, c4, c5]:
         self.cl.append(component)
Ejemplo n.º 7
0
    def testInit(self):
        self.assertIsInstance(self.bomComp, gs.SchematicComponent,
                              "Improper subclass of BomComponent")
        self.assertIsNotNone(self.bomComp.getAttribute('refdes'),
                             'Empty Refdes')
        self.assertIsNotNone(self.bomComp.getAttribute('vendor-number'),
                             'Empty vendor-number')

        attr = {
            'refdes': 'R1',
            'value': '10k',
            'device': 'RESISTOR',
            'vendor-number': '1234567A'
        }
        comp = gs.SchematicComponent(**attr)
        self.bomComp = bo.BOMComponent(comp)
        self.assertEqual(self.bomComp, comp,
                         "Component in init argument not being processed")
Ejemplo n.º 8
0
    def parse(self):
        skip_counter = 0
        self.logger.info("skipping %i lines" % (self.skip_lines))
        while skip_counter < self.skip_lines:
            skip_counter += 1
            self.csvreader.next()
        if self.header:
            self.logger.info("Reading header")
            header = self.csvreader.next()

            #clean up header's in case of leading periods
            dummy_header = []
            for attribute in header:
                dummy_header.append(attribute.strip('.'))
            header = dummy_header
            del dummy_header

        else:
            header = self.attributes
        print header
        attributeLength = len(header)
        for row in self.csvreader:
            #ignore rows beginning with a .
            if row[0][0] == '.':
                continue
            #check that the row length equals attributeLength
            if len(row) != attributeLength:
                self.logger.error("incorrect data length in row: %i" %
                                  (self.csvreader.line_num))
                continue
            #print row

            dummy_attributes = []
            for i in range(attributeLength):
                dummy_attributes.append((header[i], row[i]))

            comp = gschemSchematic.SchematicComponent(dummy_attributes)

            self.componentList.append(comp)
            del comp

        return self.componentList
Ejemplo n.º 9
0
 def parse(self):
     '''
     Parses schematic file.  Returns a list of Schematic Components
     '''
     f = open(self.file, 'r')
     file_data = f.read()
     f.close()
     #get components
     components = self.component_re.findall(file_data)
     
     if not components:
         raise SchematicParserError("Invalid regexp match")
     
     else:
         self.logger.debug("A total of %i components were found"%(len(components)))
     
     for component in components:
         header_data = component[0]
         attribute_data = component[1]
         symbol_file = header_data.split()[-1]
         
         #search for attributes
         attributes  = self.attribute_re.findall(attribute_data)
         
         if not attributes:
             raise SchematicParserError("No attributes found for component: %s"%(symbol_file))
         
         #Create dictionary for component creation
         attributes = dict(attributes)
         #add symbol file to attributes
         attributes['symbol'] = symbol_file
         comp = gs.SchematicComponent(**attributes)
         if not comp.getAttribute('device') or not comp.getAttribute('refdes'):
             self.logger.warning('Ignoring component: %s'%(comp.getAttribute('symbol')))
             continue
         if (comp.getAttribute('device') in self.restrictedDevices):
             self.logger.warning( "Ignoring restricted device: %s"%(comp))
             continue
         
         #rename refdes for slotting
         if comp.hasAttribute('num_slots') or comp.hasAttribute('slot'):
             refdes = comp.getAttribute('refdes')+"."+str(comp.getAttribute('slot'))
             comp.setAttribute('refdes', refdes)
             del refdes
             
         #Catch identical refdes components
         refdesMatches = self.componentList.find('refdes', comp.getAttribute('refdes'))
         if refdesMatches:
             self.logger.warning('%i identical refdes match(es) found! %s'%(len(refdesMatches), comp.getAttribute('refdes')))
             if self.ignoreMultipleRefdes:
                 self.logger.info('Ignoring component: %s'%(comp.getAttribute('refdes')))
                 continue
             #Identical refdes found, is num_slots defined
             
                 
                 
             
         #create components and attach to component list
         #dummy = SchematicComponent(attributes)
         self.componentList.append(comp)
         del comp
         #del dummy
     self.logger.info('Schematic parse returned %i valid components'%(len(self.componentList)))
     
     #Sort list
     self.componentList.sort()
     return self.componentList