Python Array示例

编程语言: Python

命名空间/包名称: org.meteoinfo.ndarray

类/类型: Array

hotexamples.com的示例: 2

Python Array - 已找到2个示例。这些是从开源项目中提取的最受好评的org.meteoinfo.ndarray.Array现实Python示例。您可以评价示例，以帮助我们提高示例质量。

常用方法

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factory(2)

常用方法

factory (2)

示例#1

显示文件

    def __getitem__(self, indices):
        if self.variable.getDataType() in [DataType.STRUCTURE, DataType.SEQUENCE]:
            if isinstance(indices, str):    #metadata
                return self.member_array(indices)
            else:
                a = self.dataset.read(self.name)
                return StructureArray(a.getArrayObject())

        if indices is None:
            inds = []
            for i in range(self.ndim):
                inds.append(slice(None))
            indices = tuple(inds)
        
        if not isinstance(indices, tuple):
            inds = []
            inds.append(indices)
            indices = inds
            
        if len(indices) < self.ndim:
            indices = list(indices)
            for i in range(self.ndim - len(indices)):
                indices.append(slice(None))
            indices = tuple(indices)
        
        if len(indices) != self.ndim:
            print 'indices must be ' + str(self.ndim) + ' dimensions!'
            return None
            
        if not self.proj is None and not self.proj.isLonLat():
            xlim = None
            ylim = None
            xidx = -1
            yidx = -1
            for i in range(0, self.ndim):
                dim = self.dims[i]
                if dim.getDimType() == DimensionType.X:                    
                    k = indices[i]
                    if isinstance(k, basestring):
                        xlims = k.split(':')
                        if len(xlims) == 1:
                            xlim = [float(xlims[0])]
                        else:
                            xlim = [float(xlims[0]), float(xlims[1])]
                        xidx = i
                elif dim.getDimType() == DimensionType.Y:
                    k = indices[i]
                    if isinstance(k, basestring):
                        ylims = k.split(':')
                        if len(ylims) == 1:
                            ylim = [float(ylims[0])]
                        else:
                            ylim = [float(ylims[0]), float(ylims[1])]
                        yidx = i
            if not xlim is None and not ylim is None:                
                fromproj=KnownCoordinateSystems.geographic.world.WGS1984
                inpt = PointD(xlim[0], ylim[0])
                outpt1 = Reproject.reprojectPoint(inpt, fromproj, self.proj)
                if len(xlim) == 1:
                    xlim = [outpt1.X]
                    ylim = [outpt1.Y]
                else:
                    inpt = PointD(xlim[1], ylim[1])
                    outpt2 = Reproject.reprojectPoint(inpt, fromproj, self.proj)
                    xlim = [outpt1.X, outpt2.X]
                    ylim = [outpt1.Y, outpt2.Y]
                indices1 = []
                for i in range(0, self.ndim):
                    if i == xidx:
                        if len(xlim) == 1:
                            indices1.append(str(xlim[0]))
                        else:
                            indices1.append(str(xlim[0]) + ':' + str(xlim[1]))
                    elif i == yidx:
                        if len(ylim) == 1:
                            indices1.append(str(ylim[0]))
                        else:
                            indices1.append(str(ylim[0]) + ':' + str(ylim[1]))
                    else:
                        indices1.append(indices[i])
                indices = indices1
        
        origin = []
        size = []
        stride = []
        ranges = []
        dims = []
        flips = []
        onlyrange = True
        for i in range(0, self.ndim):  
            isrange = True
            dimlen = self.dimlen(i)
            k = indices[i]
            if isinstance(k, int):
                if k < 0:
                    k = self.dims[i].getLength() + k
                sidx = k
                eidx = k
                step = 1
            elif isinstance(k, slice):
                if isinstance(k.start, basestring):
                    sv = float(k.start)
                    sidx = self.dims[i].getValueIndex(sv)
                elif isinstance(k.start, datetime.datetime):
                    sv = miutil.date2num(k.start)
                    sidx = self.dims[i].getValueIndex(sv)
                else:
                    sidx = 0 if k.start is None else k.start
                if sidx < 0:
                    sidx = self.dimlen(i) + sidx
                    
                if isinstance(k.stop, basestring):
                    ev = float(k.stop)
                    eidx = self.dims[i].getValueIndex(ev)
                elif isinstance(k.stop, datetime.datetime):
                    ev = miutil.date2num(k.stop)
                    eidx = self.dims[i].getValueIndex(ev)
                else:
                    eidx = self.dimlen(i) if k.stop is None else k.stop
                    if eidx < 0:
                        eidx = self.dimlen(i) + eidx
                    eidx -= 1
                    
                if isinstance(k.step, basestring):
                    nv = float(k.step) + self.dims[i].getDimValue()[0]
                    nidx = self.dims[i].getValueIndex(nv)
                    step = nidx - sidx
                elif isinstance(k.step, datetime.timedelta):
                    nv = miutil.date2num(k.start + k.step)
                    nidx = self.dims[i].getValueIndex(nv)
                    step = nidx - sidx
                else:
                    step = 1 if k.step is None else k.step
                if sidx > eidx:
                    iidx = eidx
                    eidx = sidx
                    sidx = iidx
            elif isinstance(k, list):
                onlyrange = False
                isrange = False
                if not isinstance(k[0], datetime.datetime):
                    ranges.append(k)
                else:
                    tlist = []
                    for tt in k:
                        sv = miutil.date2num(tt)
                        idx = self.dims[i].getValueIndex(sv)
                        tlist.append(idx)
                    ranges.append(tlist)
                    k = tlist
            elif isinstance(k, basestring):
                dim = self.variable.getDimension(i)
                kvalues = k.split(':')
                sv = float(kvalues[0])
                sidx = dim.getValueIndex(sv)
                if len(kvalues) == 1:
                    eidx = sidx
                    step = 1
                else:                    
                    ev = float(kvalues[1])
                    eidx = dim.getValueIndex(ev)
                    if len(kvalues) == 2:
                        step = 1
                    else:
                        step = int(float(kvalues[2]) / dim.getDeltaValue())
                    if sidx > eidx:
                        iidx = eidx
                        eidx = sidx
                        sidx = iidx
            else:
                print k
                return None
            if isrange:
                if eidx >= dimlen:
                    print 'Index out of range!'
                    return None
                origin.append(sidx)
                n = eidx - sidx + 1
                size.append(n)                   
                if n > 1:
                    dim = self.variable.getDimension(i)
                    if dim.isReverse():
                        step = -step      
                    dim = dim.extract(sidx, eidx, step)
                    dim.setReverse(False)
                    dims.append(dim)
                stride.append(step) 
                if step < 0:
                    step = abs(step)
                    flips.append(i)
                rr = Range(sidx, eidx, step)
                ranges.append(rr)
            else:
                if len(k) > 1:
                    dim = self.variable.getDimension(i)
                    dim = dim.extract(k)
                    dim.setReverse(False)
                    dims.append(dim)
        #rr = self.dataset.read(self.name, origin, size, stride).reduce()
        if onlyrange:
            rr = self.dataset.dataset.read(self.name, ranges)
        else:
            rr = self.dataset.dataset.take(self.name, ranges)
        if rr.getSize() == 1:
            iter = rr.getIndexIterator()
            return iter.getObjectNext()
        else:
            for i in flips:
                rr = rr.flip(i)
            rr = rr.reduce()
            ArrayMath.missingToNaN(rr, self.fill_value)
            if len(flips) > 0:
                rrr = Array.factory(rr.getDataType(), rr.getShape())
                MAMath.copy(rrr, rr)
                array = np.array(rrr)
            else:
                array = np.array(rr)
            data = np.DimArray(array, dims, self.fill_value, self.dataset.proj)
            return data

示例#2

显示文件

文件： multiarray.py 项目： songnku/MeteoInfo

    def __getitem__(self, indices):
        if not isinstance(indices, tuple):
            inds = []
            inds.append(indices)
            indices = inds

        if len(indices) < self.ndim:
            if isinstance(indices, tuple):
                indices = list(indices)
            for i in range(self.ndim - len(indices)):
                indices.append(slice(None))

        allint = True
        aindex = self._array.getIndex()
        i = 0
        for ii in indices:
            if isinstance(ii, int):
                if ii < 0:
                    ii = self.shape[i] + ii
                aindex.setDim(i, ii)
            else:
                allint = False
                break
            i += 1
        if allint:
            return self._array.getObject(aindex)

        if self.ndim == 0:
            return self

        newaxisn = 0
        newaxis = False
        if len(indices) > self.ndim:
            newaxisn = len(indices) - self.ndim
            newaxis = True
            for i in range(newaxisn):
                if not indices[-i - 1] is None:
                    newaxis = False
            if newaxis:
                indices = list(indices)
                indices = indices[:-newaxisn]

        if len(indices) != self.ndim:
            print 'indices must be ' + str(self.ndim) + ' dimensions!'
            raise IndexError()

        ranges = []
        flips = []
        onlyrange = True
        alllist = True
        isempty = False
        nshape = []
        for i in range(0, self.ndim):
            k = indices[i]
            if isinstance(k, int):
                if k < 0:
                    k = self._shape[i] + k
                sidx = k
                eidx = k
                step = 1
                alllist = False
            elif isinstance(k, slice):
                sidx = 0 if k.start is None else k.start
                if sidx < 0:
                    sidx = self._shape[i] + sidx
                eidx = self._shape[i] if k.stop is None else k.stop
                if eidx < 0:
                    eidx = self._shape[i] + eidx
                eidx -= 1
                step = 1 if k.step is None else k.step
                alllist = False
            elif isinstance(k, (list, tuple, NDArray)):
                if isinstance(k, NDArray):
                    k = k.aslist()
                if isinstance(k[0], bool):
                    kk = []
                    for i in range(len(k)):
                        if k[i]:
                            kk.append(i)
                    k = kk
                onlyrange = False
                ranges.append(k)
                continue
            else:
                print k
                return None
            if step < 0:
                step = abs(step)
                flips.append(i)
                if eidx < sidx:
                    tempidx = sidx
                    sidx = eidx + 2
                    eidx = tempidx
            if sidx >= self.shape[i]:
                isempty = True
            if eidx < sidx:
                isempty = True
            else:
                rr = Range(sidx, eidx, step)
                ranges.append(rr)
            nshape.append(eidx - sidx + 1 if eidx - sidx >= 0 else 0)

        if isempty:
            r = ArrayUtil.empty([0], self.dtype._dtype)
            return NDArray(r)

        if onlyrange:
            r = ArrayMath.section(self._array, ranges)
        else:
            if alllist:
                r = ArrayMath.takeValues(self._array, ranges)
            else:
                r = ArrayMath.take(self._array, ranges)

        if newaxis:
            for i in flips:
                r = r.flip(i)
            rr = Array.factory(r.getDataType(), r.getShape())
            MAMath.copy(rr, r)
            rr = NDArray(rr)
            newshape = list(rr.shape)
            for i in range(newaxisn):
                newshape.append(1)
            return rr.reshape(newshape)

        if r.getSize() == 1:
            iter = r.getIndexIterator()
            r = iter.getObjectNext()
            if isinstance(r, Complex):
                return complex(r.getReal(), r.getImaginary())
            else:
                return r
        else:
            for i in flips:
                r = r.flip(i)
            r = NDArray(r)
            if onlyrange:
                r.base = self.get_base()
            return r