Exemple #1
0
def removeDuplilines(poly, type):
    p = []
    t = []
    stencil = 1000
    sbar = SubProgressBar(maxval=len(poly)).start()
    found = False
    for i in range(len(poly)):
        for j in range(len(poly))[i + 2:i + 2 + stencil]:
            if isClose(poly[i], poly[j]):
                ia = (i + 1) % len(poly)
                ib = (j - 1) % len(poly)
                if isClose(poly[ia], poly[ib]):
                    poly1, ptmp1, poly2, ptmp2, poly3 = np.split(
                        poly, [i, ia, ib, j])
                    p.append(np.concatenate((poly1, poly3), axis=0))
                    if type == 1: t.append(1)
                    p.append(poly2)
                    t.append(1)
                    found = True
            if found: break
        if found: break
        sbar.update(i)
    sbar.finish()
    if p == []:
        p.append(poly)
        t.append(type)
    return p, t
Exemple #2
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def removeDuplicates(poly,type): # /!\ does not work anymore
   found = True
   while found:
      i = 0; found = False
      while i < len(poly)-1:
         if isClose( poly[i],poly[i+1],size=10 ):
            found = True
            poly = np.delete(poly,i+1,0)
         i += 1
   if len(poly) == 1: return [],0
   elif len(poly) == 2: return [],0 #poly,0
   else:
      if type != 0:
         if isClose( poly[len(poly)-1],poly[0],size=10 ): poly = np.delete(poly,len(poly)-1,0)
      if len(poly) < 3: return [],0 #poly,0
      return poly,type
Exemple #3
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def getInS(file):
    # TODO: Read the whole header, for the time being head is copied
    #       over
    # TODO: Read variables depending on type and on a list

    # ~~ Get all ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
    core = getFileContent(file)

    # ~~ Parse head ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
    icore = 0
    while re.match(ken_header, core[icore]):
        # ~~> instruction FileType
        proc = re.match(asc_FileType, core[icore])
        if proc: fileType = proc.group('type').lower()
        # ... more instruction coming ...
        icore += 1
    head = core[0:icore]
    # /!\ icore starts the body

    # ~~ Parse body ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
    # This is also fairly fast, so you might not need a progress bar
    poly = []
    type = []
    npoin = 0
    while icore < len(core):
        # ~~> polygon head
        proc = re.match(var_1int, core[icore])
        if not proc:
            print '\nCould not parse the following polyline header: ' + core[
                icore]
            sys.exit()
        nrec = int(proc.group('number'))
        icore += 1
        xyi = []
        for irec in range(nrec):
            proc = re.match(var_2dbl, core[icore + irec])
            if not proc:
                print '\nCould not parse the following polyline record: ' + core[
                    icore + irec + 1]
                sys.exit()
            xyi.append(
                [float(proc.group('number1')),
                 float(proc.group('number2'))])
        if xyi != []:
            cls = 0
            if isClose(xyi[0], xyi[len(xyi) - 1], size=10):
                xyi.pop(len(xyi) - 1)
                cls = 1
            poly.append(np.asarray(xyi))
            type.append(cls)
        npoin += len(xyi)
        icore += nrec

    return head, fileType, npoin, poly, type
Exemple #4
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def putInS(file, head, fileType, poly, type=None):

    # ~~ Write head ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
    if head != []: core = head
    else:
        core = [
            ':FileType ' + fileType + ' ASCII EnSim 1.0',
            ':Application BlueKenue', ':Version 3.2.24',
            ':WrittenBy sebourban', ':CreationDate Thu, Dec 08, 2011 02:47 PM',
            ':Name ' + path.basename(file), ':AttributeUnits 1 m', ':EndHeader'
        ]

    # ~~ Look for closed lines ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
    if type == None:
        type = []
        for ip in poly:
            if isClose(ip[0], ip[len(ip) - 1]): type.append(True)
            else: type.append(False)

    # ~~ Write body ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
    for ip, it in zip(poly, type):
        il = len(ip)
        if il != 0 and not isClose(ip[0], ip[len(ip) - 1]): il += it
        core.append(str(il) + ' 0')  #TODO: you should use proper values
        if fileType == 'i2s':
            for xyi in ip:
                core.append(str(xyi[0]) + ' ' + str(xyi[1]))
            if il != len(ip): core.append(str(ip[0][0]) + ' ' + str(ip[0][1]))
        elif fileType == 'i3s':
            for xyi in ip:
                core.append(
                    str(xyi[0]) + ' ' + str(xyi[1]) + ' ' + str(xyi[2]))
            if il != len(ip):
                core.append(
                    str(ip[0][0]) + ' ' + str(ip[0][1]) + ' ' + str(ip[0][2]))

    # ~~ Put all ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
    putFileContent(file, core)

    return
Exemple #5
0
    def putContent(self, fileName, head=[]):

        # ~~> file extension processing
        _, tail = path.splitext(fileName)
        if tail[1:] != self.fileType:
            if head != []:
                head = [
                    '\n'.join(head).replace(':FileType ' + self.fileType,
                                            ':FileType ' + tail[1:])
                ]
            self.fileType = tail[1:]

        # ~~> write head
        if head != []: core = head
        else:
            core = [
                ':FileType ' + self.fileType + ' ASCII EnSim 1.0',
                ':Application BlueKenue',
                ':Version 3.2.24',
                ':WrittenBy sebourban',
                ':CreationDate Thu, Dec 08, 2011 02:47 PM',
                ':Name ' + path.basename(fileName),
                #':AttributeName 1 level',
                #':AttributeType 1 float',
                #':AttributeUnits 1 m',
                ':EndHeader'
            ]

        # ~~> look for closed lines
        if self.type == []:
            for ip in self.poly:
                if isClose(ip[0][:2], ip[len(ip) - 1][:2]): self.type.append(1)
                else: self.type.append(0)

        # ~~> fill-up empty attributes
        if self.atrbut == {}:
            self.atrbut = {1: ['ArbitraryName1']}
            for _ in self.poly:
                self.atrbut[1].append(0)
            self.oatrbut = [1]

        # ~~> fill-up attribute names
        if head == []:
            for i, o in zip(range(len(self.oatrbut)), self.oatrbut):
                core.insert(-1,
                            ':AttributeName ' + repr(i + 1) + ' ' + repr(o))

        # ~~ Write body ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
        for i, ip, iv, it in zip(range(len(self.poly)), self.poly, self.vals,
                                 self.type):
            il = len(ip)
            if il != 0 and not isClose(ip[0], ip[len(ip) - 1]): il += it
            line = repr(il)
            for o in self.oatrbut:
                line = line + ' ' + str(self.atrbut[o][i])
            core.append(line)
            if self.fileType == 'i2s':
                for xyi in ip:
                    core.append(repr(xyi[0]) + ' ' + repr(xyi[1]))
                if il != len(ip):
                    core.append(repr(ip[0][0]) + ' ' + repr(ip[0][1]))
            elif self.fileType == 'i3s':
                if np.shape(iv)[1] == 0:
                    for xyi in ip:
                        core.append(repr(xyi[0]) + ' ' + repr(xyi[1]) + ' 0.0')
                    if il != len(ip):
                        core.append(
                            repr(ip[0][0]) + ' ' + repr(ip[0][1]) + ' 0.0')
                else:
                    for xyi, val in zip(ip, iv):
                        core.append(
                            repr(xyi[0]) + ' ' + repr(xyi[1]) + ' ' +
                            ' '.join([repr(v) for v in val]))
                    if il != len(ip):
                        core.append(
                            repr(ip[0][0]) + ' ' + repr(ip[0][1]) + ' ' +
                            ' '.join([repr(v) for v in iv[0]]))

        # ~~ Put all ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
        putFileContent(fileName, core)
Exemple #6
0
    def parseContent(self, fileName):
        # TODO: Read the whole header

        # ~~ Get all ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
        core = getFileContent(fileName)

        # ~~ Parse head ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
        icore = 0
        self.atrbut = {}
        self.natrbut = 0
        self.oatrbut = []
        while re.match(ken_header, core[icore].strip()):
            # ~~> instruction FileType
            proc = re.match(asc_FileType, core[icore].strip())
            if proc: self.fileType = proc.group('type').lower()
            # ~~> instruction AttributeName
            proc = re.match(asc_AttributeName, core[icore].strip())
            if proc:
                self.natrbut += 1
                if self.natrbut == int(proc.group('number')):
                    self.oatrbut.append(proc.group('after').strip())
                    self.atrbut.update({self.oatrbut[-1]: []})
                else:
                    print '... Could not read the order of your Attributes:', core[
                        icore]
                    sys.exit(1)
            # ... more instruction coming ...
            icore += 1
        self.head = core[0:icore]
        # /!\ icore starts the body

        # ~~ Parse body ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
        # This is also fairly fast, so you might not need a progress bar
        self.poly = []
        self.vals = []
        self.type = []
        self.npoin = 0
        while icore < len(core):
            if core[icore].strip() == '':
                icore += 1
                continue
            # ~~> polygon head
            proc = re.match(var_1int, core[icore].strip())
            if not proc:
                print '\nCould not parse the following polyline header: ' + core[
                    icore].strip()
                sys.exit(1)
            nrec = int(proc.group('number'))
            a = proc.group('after').strip().split()
            if len(a) != self.natrbut:
                if self.natrbut != 0:
                    print '... Could not find the correct number of attribute:', core[
                        icore].strip(), ', ', self.natrbut, ' expected'
                    sys.exit(1)
                else:
                    self.natrbut = len(a)
                    self.oatrbut = range(1, len(a) + 1)
                    self.atrbut = dict([(i + 1, [a[i]])
                                        for i in range(len(a))])
            else:
                for i in range(len(self.oatrbut)):
                    self.atrbut[self.oatrbut[i]].append(a[i])
            xyi = []
            val = []
            icore += 1
            for irec in range(nrec):
                nbres = core[icore + irec].strip().split()
                proc = re.match(var_1dbl, nbres[0])
                if not proc:
                    proc = re.match(var_1int, nbres[0])
                    if not proc:
                        print '\nCould not parse the following polyline record: ' + core[
                            icore + irec].strip()
                        sys.exit(1)
                nbres[0] = float(proc.group('number'))
                procd = re.match(var_1dbl, nbres[1])
                proci = re.match(var_1int, nbres[1])
                if procd: nbres[1] = float(procd.group('number'))
                elif proci: nbres[1] = float(procd.group('number'))
                xyi.append(nbres[:2])
                val.append(nbres[2:])
            if xyi != []:
                cls = 0
                if isClose(xyi[0], xyi[len(xyi) - 1], size=10):
                    xyi.pop(len(xyi) - 1)
                    val.pop(len(val) - 1)
                    cls = 1
                self.poly.append(np.asarray(xyi, dtype=np.float))
                self.vals.append(np.asarray(val, dtype=np.float))
                self.type.append(cls)
            self.npoin += len(xyi)
            icore += nrec

        self.npoly = len(self.poly)