• 设为首页
  • 点击收藏
  • 手机版
    手机扫一扫访问
    迪恩网络手机版
  • 关注官方公众号
    微信扫一扫关注
    公众号

Python Numeric.zeros函数代码示例

原作者: [db:作者] 来自: [db:来源] 收藏 邀请

本文整理汇总了Python中Numeric.zeros函数的典型用法代码示例。如果您正苦于以下问题:Python zeros函数的具体用法?Python zeros怎么用?Python zeros使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。



在下文中一共展示了zeros函数的20个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的Python代码示例。

示例1: __init__

    def __init__(self,**params):
        from plastk.rand import uniform
        from Numeric import zeros
        super(GNG,self).__init__(**params)

        N = self.initial_num_units
        
        self.weights = uniform(self.rmin,self.rmax,(N,self.dim))
        self.dists = zeros((N,1)) * 0.0
        self.error = zeros((N,1)) * 0.0

        self.connections = [{} for i in range(N)]
        
        self.last_input = zeros(self.dim)
        
        self.count = 0

        if self.initial_connections_per_unit > 0:
            for w in self.weights:
                self.present_input(w)
                ww = self.winners(self.initial_connections_per_unit+1)
                i = ww[0]
                for j in ww[1:]:
                    self.add_connection(i,j)

        self.nopickle += ['_activation_fn']
        self.unpickle()
开发者ID:ronaldahmed,项目名称:robot-navigation,代码行数:27,代码来源:gng.py


示例2: test_vanishing_moments

    def test_vanishing_moments(self):
        """Test that coefficients in lp satisfy the
           vanishing moments condition
        """ 

        from daubfilt import daubfilt, number_of_filters

        for i in range(number_of_filters):
            D = 2*(i+1)

            P = D/2  # Number of vanishing moments
            N = P-1  # Dimension of nullspace of the matrix A
            R = P+1  # Rank of A, R = D-N = P+1 equations
        
            lp, hp = daubfilt(D)


            # Condition number of A grows with P, so we test only
            # the first 6 (and eps is slightly larger than machine precision)

            A    = zeros((R,D), Float)  # D unknowns, D-N equations
            b    = zeros((R,1), Float)  # Right hand side
            b[0] = sqrt(2)                
  
            A[0,:] = ones(D, Float)   # Coefficients must sum to sqrt(2)
            for p in range(min(P,6)): # the p'th vanishing moment (Cond Ap)
                for k in range(D):            
                    m=D-k;
                    A[p+1,k] = (-1)**m * k**p;

            assert allclose(b, mvmul(A,lp))         
开发者ID:uniomni,项目名称:CV,代码行数:31,代码来源:test_daubfilt.py


示例3: analyze

    def analyze(self,observations):
        """use Viterbi algorithm to
        find the states corresponding to the observations"""
        B = self.B
        A = self.A
        T = len(observations)
        N = self.N
        Omega_X = self.omega_X
        obs = self._getObservationIndices(observations)
        # initialisation
        delta = []
        delta.append(B[obs[0]] * self.pi) # (32a)
        phi = [array([0]*N)]              # (32b)
        # recursion
        for O_t in obs[1:]:
            delta_t = zeros(N,Float)
            phi_t = zeros(N)
            for j in range(N):
                delta_t[j] = max(delta[-1]*A[:,j]*B[O_t][j]) # (33a)
                phi_t[j] = argmax(delta[-1]*A[:,j])          # (33b)
            delta.append(delta_t)
            phi.append(phi_t)

        # reconstruction
        i_star = [argmax(delta[-1])]                         # (34b)
        phi.reverse() # we start from the end
        for phi_t in phi[:-1]:
            i_star.append(phi_t[i_star[-1]])                 # (35)
        trajectory = [Omega_X[i] for i in i_star]
        trajectory.reverse() # put time back in the right direction
        return trajectory
开发者ID:pruan,项目名称:TestDepot,代码行数:31,代码来源:hmm.py


示例4: test_pairs_to_array

    def test_pairs_to_array(self):
        """pairs_to_array should match hand-calculated results"""
        p2a = pairs_to_array
        p1 = [0, 1, 0.5]
        p2 = [2, 3, 0.9]
        p3 = [1, 2, 0.6]
        pairs = [p1, p2, p3]
        self.assertEqual(p2a(pairs), \
            array([[0,.5,0,0],[0,0,.6,0],[0,0,0,.9],[0,0,0,0]]))
        #try it without weights -- should assign 1
        new_pairs = [[0,1],[2,3],[1,2]]
        self.assertEqual(p2a(new_pairs), \
            array([[0,1,0,0],[0,0,1,0],[0,0,0,1],[0,0,0,0]]))
        #try it with explicit array size
        self.assertEqual(p2a(pairs, 5), \
            array([[0,.5,0,0,0],[0,0,.6,0,0],[0,0,0,.9,0],[0,0,0,0,0],\
            [0,0,0,0,0]]))
        #try it when we want to map the indices into gapped coords
        #we're effectively doing ABCD -> -A--BC-D-
        transform = array([1,4,5,7])
        result = p2a(pairs, transform=transform)
        self.assertEqual(result.shape, (8,8))
        exp = zeros((8,8), Float64)
        exp[1,4] = 0.5
        exp[4,5] = 0.6
        exp[5,7] = 0.9
        self.assertEqual(result, exp)

        result = p2a(pairs, num_items=9, transform=transform)
        self.assertEqual(result.shape, (9,9))
        exp = zeros((9,9), Float64)
        exp[1,4] = 0.5
        exp[4,5] = 0.6
        exp[5,7] = 0.9
        self.assertEqual(result, exp)
开发者ID:pombredanne,项目名称:old-cogent,代码行数:35,代码来源:test_array.py


示例5: pacbporflist2similarityarray

def pacbporflist2similarityarray(pacbps,queryorsbjct,length):
    """ """
    bea = zeros(length)
    for pacbporf in pacbps:
        spos  = pacbporf._get_original_alignment_pos_start()
        epos  = pacbporf._get_original_alignment_pos_end()
        q,m,s = pacbporf.get_unextended_aligned_protein_sequences()
        if queryorsbjct == 'query':
            start = spos.query_pos
            end   = epos.query_pos + 1
            seqa  = list(q)
            ma    = list(m)
        else:
            start = spos.sbjct_pos
            end   = epos.sbjct_pos + 1
            seqa  = list(s)
            ma    = list(m)

        for pos in range(len(seqa)-1,-1,-1):
            if seqa[pos] == '-':
                seqa.pop(pos)
                ma.pop(pos)
        # prepare replacement of match string into match score list
        matcharray = zeros(end-start)
        for pos in range(0,len(ma)):
            symbol = ma[pos]
            if symbol != ' ':
                matcharray[pos] = 1
        # update (binary) array
        bea[spos.query_pos:epos.query_pos+1] += matcharray

    # correct bea for values > 1
    bea = where(greater_equal(bea, 2), 1, bea)
    return bea
开发者ID:IanReid,项目名称:ABFGP,代码行数:34,代码来源:lib_codingarray.py


示例6: __init__

    def __init__(self, win):
        self.coords = zeros([30,3], Float)
        self.prev_coords = zeros([3,3], Float)

        self.peptide_mol = None
        self.length = 0
        self.prev_psi = 0

        PeptideGeneratorPropertyManager.__init__(self)
        GeneratorBaseClass.__init__(self, win)
开发者ID:ematvey,项目名称:NanoEngineer-1,代码行数:10,代码来源:PeptideGenerator.py


示例7: accept

 def accept(self):
   
   m = self.getPickledMesh()
   
   # Create some Numeric arrays for the mesh (much faster)
   triangleNumArray = m.getTriangulation()
   verticeNumArray = m.getMeshVertices()
   #QMessageBox.information(None, "DEBUG", 'Tri 0 has verts ' + str(self.triangleNumArray[0]) )
   #QMessageBox.information(None, "DEBUG", 'Vert 942 is at ' + str(self.verticeNumArray[942]) )
   triCnt = len(triangleNumArray)
   verCnt = len(verticeNumArray)
   triangleNumArray = array( triangleNumArray, Numeric.Int32 )
   #verticeNumArray = array( verticeNumArray, Numeric.Int32 )
   
   # Blank list of neighbors
   neighbors         = zeros( (triCnt, 3), Numeric.Int32 )
   linkedNeighborCnt = zeros( triCnt, Numeric.Int32 )
   
   self.progressBar.setMinimum(0)
   self.progressBar.setMaximum(triCnt)
   
   startTime = time.time()
   for T in xrange(triCnt):
     self.progressBar.setValue(T)
     if linkedNeighborCnt[T] < 3:
       me = triangleNumArray[T]
       for t in xrange(triCnt):
         if linkedNeighborCnt[t] < 3 and t != T:
           them = triangleNumArray[t]
           commonVerts = 0
           for i in xrange(3):
             if them[i] == me[0] or them[i] == me[1] or them[i] == me[2]:
               commonVerts += 1
           if commonVerts == 2:
             add = True
             for i in xrange(linkedNeighborCnt[T]):
               if neighbors[T][i] == t:
                 add = False
             if add:
               neighbors[T][linkedNeighborCnt[T]] = t
               linkedNeighborCnt[T] += 1
               """except:
                 QMessageBox.information(None, 'DEBUG', 'T is ' + str(T) )
                 QMessageBox.information(None, 'DEBUG', 'its neighbors are ' + str(neighbors[T]) )
                 QMessageBox.information(None, 'DEBUG', 'we tried to add ' + str(t) )"""
               neighbors[t][linkedNeighborCnt[t]] = T
               linkedNeighborCnt[t] += 1
   
   QMessageBox.information(None, 'DEBUG', 'Done in ' + str(time.time() - startTime) + ' seconds' )
   
   """badTriAreaCnt = 0
开发者ID:lutraconsulting,项目名称:qgis-anuga-gui-plugin,代码行数:51,代码来源:doAuditMesh.py


示例8: __init__

    def __init__(self, shp, ptlist, origin, selSense, **opts):
        """
        ptlist is a list of 3d points describing a selection.
        origin is the center of view, and normal gives the direction
        of the line of light. Form a structure for telling whether
        arbitrary points fall inside the curve from the point of view.
        """
        # bruce 041214 rewrote some of this method
        simple_shape_2d.__init__(self, shp, ptlist, origin, selSense, opts)

        # bounding rectangle, in integers (scaled 8 to the angstrom)
        ibbhi = array(map(int, ceil(8 * self.bboxhi) + 2))
        ibblo = array(map(int, floor(8 * self.bboxlo) - 2))
        bboxlo = self.bboxlo

        # draw the curve in these matrices and fill it
        # [bruce 041214 adds this comment: this might be correct but it's very
        # inefficient -- we should do it geometrically someday. #e]
        mat = zeros(ibbhi - ibblo)
        mat1 = zeros(ibbhi - ibblo)
        mat1[0, :] = 1
        mat1[-1, :] = 1
        mat1[:, 0] = 1
        mat1[:, -1] = 1
        pt2d = self.pt2d
        pt0 = pt2d[0]
        for pt in pt2d[1:]:
            l = ceil(vlen(pt - pt0) * 8)
            if l < 0.01:
                continue
            v = (pt - pt0) / l
            for i in range(1 + int(l)):
                ij = 2 + array(map(int, floor((pt0 + v * i - bboxlo) * 8)))
                mat[ij] = 1
            pt0 = pt
        mat1 += mat

        fill(mat1, array([1, 1]), 1)
        mat1 -= mat  # Which means boundary line is counted as inside the shape.
        # boolean raster of filled-in shape
        self.matrix = mat1  ## For any element inside the matrix, if it is 0, then it's inside.
        # where matrix[0, 0] is in x, y space
        self.matbase = ibblo

        # axes of the plane; only used for debugging
        self.x = self.right
        self.y = self.up
        self.z = self.normal
开发者ID:octopus89,项目名称:NanoEngineer-1,代码行数:48,代码来源:shape.py


示例9: getSegyTraceHeader

def getSegyTraceHeader(SH,THN='cdp',data='none'):
        """
        getSegyTraceHeader(SH,TraceHeaderName)
        """

        bps=getBytePerSample(SH)

        if (data=='none'):
                data = open(SH["filename"]).read()
                

        # MAKE SOME LOOKUP TABLE THAT HOLDS THE LOCATION OF HEADERS
#       THpos=TraceHeaderPos[THN]
        THpos=STH_def[THN]["pos"]
        THformat=STH_def[THN]["type"]
        ntraces=SH["ntraces"]
        thv = zeros(ntraces)
        for itrace in range(1,ntraces+1,1):
                i=itrace

                pos=THpos+3600+(SH["ns"]*bps+240)*(itrace-1);

                txt="getSegyTraceHeader : Reading trace header " + THN + " " + str(itrace)  + " of " + str(ntraces) + " " +str(pos)

                printverbose(txt,20);
                thv[itrace-1],index = getValue(data,pos,THformat,endian,1)
                txt="getSegyTraceHeader : " + THN + "=" + str(thv[itrace-1])
                printverbose(txt,30);
        
开发者ID:pawbz,项目名称:pxfwi,代码行数:28,代码来源:segypy.py


示例10: writemb

def writemb(index, data, dxsize, dysize, bands, mb_db):
    """
    Write raster 'data' (of the size 'dataxsize' x 'dataysize') read from
    'dataset' into the mbtiles document 'mb_db' with size 'tilesize' pixels.
    Later this should be replaced by new <TMS Tile Raster Driver> from GDAL.
    """
    if bands == 3 and tileformat == 'png':
        tmp = tempdriver.Create('', tilesize, tilesize, bands=4)
        alpha = tmp.GetRasterBand(4)
        #from Numeric import zeros
        alphaarray = (zeros((dysize, dxsize)) + 255).astype('b')
        alpha.WriteArray( alphaarray, 0, tilesize-dysize )
    else:
        tmp = tempdriver.Create('', tilesize, tilesize, bands=bands)

    tmp.WriteRaster( 0, tilesize-dysize, dxsize, dysize, data, band_list=range(1, bands+1))
    tiledriver.CreateCopy('tmp.png', tmp, strict=0)
    query = """insert into tiles 
        (zoom_level, tile_column, tile_row, tile_data) 
        values (%d, %d, %d, ?)""" % (index[0], index[1], index[2])
    cur = mb_db.cursor()
    d = open('tmp.png', 'rb').read()
    cur.execute(query, (sqlite3.Binary(d),))
    mb_db.commit()
    cur.close()
    return 0
开发者ID:openhistorymap,项目名称:tiffany,代码行数:26,代码来源:gdal2tiles.py


示例11: insert_n_rows

 def insert_n_rows(self, i, n=1):
     " Insert `n` rows into each column at row `i`. "
     rows = list()
     for tc in self.typecodes:
         rows.append( zeros((n,),typecode=tc) )
     self.insert_rows(i, rows)
     self.update_rows()
开发者ID:BackupTheBerlios,项目名称:sloppyplot-svn,代码行数:7,代码来源:table.py


示例12: epsilon_greedy

    def epsilon_greedy(self,sensation,applicable_actions):
        """
        Given self.epsilon() and self.Q(), return a distribution over
        applicable_actions as an array where each element contains the
        a probability mass for the corresponding action.  I.e.  The
        action with the highest Q gets p = self.epsilon() and the
        others get the remainder of the mass, uniformly distributed.
        """
        Q = array([self.Q(sensation,action) for action in applicable_actions])

        # simple epsilon-greedy policy
        # get a vector with a 1 where each max element is, zero elsewhere
        mask = (Q == mmax(Q))

        num_maxes = len(nonzero(mask))
        num_others = len(mask) - num_maxes

        if num_others == 0: return mask
        
        e0 = self.epsilon()/num_maxes
        e1 = self.epsilon()/num_others

        result = zeros(len(mask))+0.0
        putmask(result,mask,1-e0)
        putmask(result,mask==0,e1)
        return result
开发者ID:ronaldahmed,项目名称:robot-navigation,代码行数:26,代码来源:td.py


示例13: absoluteProfile

 def absoluteProfile(alignment,char_order):
     f = a.columnFrequencies()
     res = zeros([len(f),len(char_order)])
     for row, freq in enumerate(f):
         for i in freq:
             res[row, i] = freq[i]
     return res
开发者ID:pombredanne,项目名称:old-cogent,代码行数:7,代码来源:test_profile.py


示例14: pos_char_weights

def pos_char_weights(alignment, order=DNA_ORDER):
    """Returns the contribution of each character at each position.

    alignment: Alignemnt object
    order: the order of characters in the profile (all observed chars
        in the alignment
    
    This function is used by the function position_based
    
    For example: 
    GYVGS
    GFDGF
    GYDGF
    GYQGG
    
        0       1       2       3       4       5   
    G   1/1*4                           1/1*4   1/3*1
    Y           1/2*3
    F           1/2*1                           1/3*2
    V                   1/3*1
    D                   1/3*2
    Q                   1/3*1
    S                                           1/3*1
    """
    counts = alignment.columnFrequencies()
    a = zeros([len(order), alignment.SeqLen],Float64)
    for col, c in enumerate(counts):
        for char in c:
            a[order.index(char),col] = 1/(len(c)*c[char])
    return Profile(a,Alphabet=order)
开发者ID:pycogent,项目名称:old-cogent,代码行数:30,代码来源:methods.py


示例15: __call__

 def __call__(self,input,error=False):
     X = self.scale_input(input)
     if not error:
         Y = dot(self.w,X)
     else:
         Y = dot(self.w,X), zeros(self.num_outputs)
     return self.scale_output(Y)
开发者ID:ronaldahmed,项目名称:robot-navigation,代码行数:7,代码来源:linear.py


示例16: inertia_eigenvectors

def inertia_eigenvectors(basepos, already_centered = False):
    """
    Given basepos (an array of positions),
    compute and return (as a 2-tuple) the lists of eigenvalues and
    eigenvectors of the inertia tensor (computed as if all points had the same
    mass). These lists are always length 3, even for len(basepos) of 0,1, or 2,
    overlapping or colinear points, etc, though some evals will be 0 in these cases.
       Optional small speedup: if caller knows basepos is centered at the origin, it can say so.
    """
    #bruce 060119 split this out of shakedown_poly_evals_evecs_axis() in chunk.py
    basepos = A(basepos) # make sure it's a Numeric array
    if not already_centered and len(basepos):
        center = add.reduce(basepos)/len(basepos)
        basepos = basepos - center
    # compute inertia tensor
    tensor = zeros((3,3),Float)
    for p in basepos:
        rsq = dot(p, p)
        m= - multiply.outer(p, p)
        m[0,0] += rsq
        m[1,1] += rsq
        m[2,2] += rsq
        tensor += m
    evals, evecs = eigenvectors(tensor)
    assert len(evals) == len(evecs) == 3
    return evals, evecs
开发者ID:pmetzger,项目名称:nanoengineer,代码行数:26,代码来源:geometryUtilities.py


示例17: fitsin

def fitsin(x,y,tau=1,delta=0,A=1,C=1,sig=1):
    """Fit data in x and y to a sin function"""
    data=zeros((len(x),3),typecode='d')
    data[:,2]=sig
    data[:,0]=x
    data[:,1]=y
    return LS(sinus,(tau,delta,A,C),data)
开发者ID:martindurant,项目名称:misc,代码行数:7,代码来源:lr.py


示例18: setIds

    def setIds(self, id_fun=lambda x: x.Data.split("_")[-1]):
        """
        Sets "LeafLabel", "LeafCts", and "ContainsAll" attributes

        id_fun: function that takes node and generate a unique id (label)
            for each node. By default will create a label consisting of 
            the string to the right of the last underscore in the data
            attribute. E.g. if the node has data label of 1234_HSA, the
            function will return a unique lable of "HSA". the idea being
            that if your tree has multiple human (HSA) sequences, the
            result of the function will be multiple nodes w/the same
            label. 

        The LeafLabel attribute is the the result of the id_fun function.

        The LeafCts attribute is an array with counts of the leaves with the 
            same label.

        The ContainsAll attribute is True when it contains every instance 
            of the LeafLabels of its terminal descendants. E.g. the set
            of LeafLabels of its terminal descendants occur nowhere else
            in the tree. 

        This is used by the uniqueIds function to remove duplicate species
        from the tree but can be used for any label you choose.
        """
        labels =  [id_fun(x)  for x in self.TerminalDescendants]
        u_labels = list(set(labels))
        len_u_labels = len(u_labels)
        labels_dict =  dict(zip(u_labels, range(len_u_labels)))
        all_cts = zeros(len(u_labels))

        for label in labels: 
            all_cts[labels_dict[label]] += 1
      
        for n in self.traverse(self_before=False, self_after=True):
            if not n.Children:
                setattr(n, "LeafLabel", id_fun(n))
                setattr(n, "LeafCts", zeros(len_u_labels))
                n.LeafCts[labels_dict[n.LeafLabel]] = 1
            else:
                n.LeafCts = zeros(len_u_labels)
                for c in n.Children:
                    n.LeafCts += c.LeafCts 
            nzero = nonzero(n.LeafCts)
            total = sum(take(all_cts, nzero)- take(n.LeafCts, nzero))
            setattr(n, "ContainsAll", (total == 0))
开发者ID:pombredanne,项目名称:old-cogent,代码行数:47,代码来源:tree.py


示例19: __call__

 def __call__(self,sensation,reward=None):
     if is_terminal(sensation):
         new_sensation = sensation
     else:
         new_sensation = zeros(self.num_features,'f')
         for f in sensation:
             new_sensation[f] = 1
     return super(LinearListAgent,self).__call__(new_sensation,reward)
开发者ID:ronaldahmed,项目名称:robot-navigation,代码行数:8,代码来源:td.py


示例20: table_to_array

def table_to_array(tbl, typecode='f'):
    shape = (tbl.ncols, tbl.nrows)
    
    a = zeros( (tbl.ncols, tbl.nrows), typecode)
    for j in range(tbl.ncols):
        a[j] = tbl[j].astype(typecode)

    return transpose(a)
开发者ID:BackupTheBerlios,项目名称:sloppyplot-svn,代码行数:8,代码来源:table.py



注:本文中的Numeric.zeros函数示例整理自Github/MSDocs等源码及文档管理平台,相关代码片段筛选自各路编程大神贡献的开源项目,源码版权归原作者所有,传播和使用请参考对应项目的License;未经允许,请勿转载。


鲜花

握手

雷人

路过

鸡蛋
该文章已有0人参与评论

请发表评论

全部评论

专题导读
上一篇:
Python SimpleGui.init_display函数代码示例发布时间:2022-05-24
下一篇:
Python Numeric.sqrt函数代码示例发布时间:2022-05-24
热门推荐
阅读排行榜

扫描微信二维码

查看手机版网站

随时了解更新最新资讯

139-2527-9053

在线客服(服务时间 9:00~18:00)

在线QQ客服
地址:深圳市南山区西丽大学城创智工业园
电邮:jeky_zhao#qq.com
移动电话:139-2527-9053

Powered by 互联科技 X3.4© 2001-2213 极客世界.|Sitemap