Ejemplo n.º 1
0
def dict_to_colfile(c):
    titles = list(c.keys())
    nrows = len(c[titles[0]])
    for t in titles:
        assert len(c[t]) == nrows, t
    colf = columnfile.newcolumnfile(titles=titles)
    colf.nrows = nrows
    colf.set_bigarray([c[t] for t in titles])
    return colf
Ejemplo n.º 2
0
 def tocolumnfile(self):
     """
     Return a columnfile
     """
     cof = columnfile.newcolumnfile(self.alltitles)
     dlist = [self.data[t] for t in self.alltitles]
     cof.bigarray = numpy.array(dlist, numpy.float)
     cof.nrows = len(self.data[self.alltitles[0]])
     cof.ncols = len(self.alltitles)
     cof.set_attributes()
     return cof
Ejemplo n.º 3
0
                allpeaks[key] = mytransformer.colfile.bigarray[:,i]
                nold = nold + 1
        else:
            nnew = nnew + 1
            allpeaks[key] = mytransformer.colfile.bigarray[:,i]
            
    print("total peaks",len(list(allpeaks.keys())), "ignored", nignore, "new",nnew, "replacements",nold)
    assert nignore + nold + nnew == mytransformer.colfile.nrows

                                                        

keys = list(allpeaks.keys())

keys.sort()

c = newcolumnfile( titles )

assert len(titles) == len(allpeaks[keys[0]])

bigarray = [allpeaks[k] for k in keys]

c.bigarray = numpy.array(bigarray).T
print(c.bigarray.shape)
c.nrows = len(keys)
c.set_attributes()
c.setcolumn(numpy.array(list(range(len(keys)))),"spot3d_id")
c.writefile( outf )

mytransformer = transformer.transformer()
mytransformer.loadfileparameters( pars )
Ejemplo n.º 4
0
    U12.append(U[0, 1])
    U13.append(U[0, 2])
    U21.append(U[1, 0])
    U22.append(U[1, 1])
    U23.append(U[1, 2])
    U31.append(U[2, 0])
    U32.append(U[2, 1])
    U33.append(U[2, 2])
    eps11.append(eps[0])
    eps12.append(eps[1])
    eps13.append(eps[2])
    eps22.append(eps[3])
    eps23.append(eps[4])
    eps33.append(eps[5])

gff = ic.newcolumnfile(titles)
gff.ncols = len(titles)
gff.nrows = len(grainno)
gff.bigarray = n.zeros((gff.ncols, gff.nrows))
gff.set_attributes()
gff.addcolumn(grainno, "grainno")
gff.addcolumn(x, "x")
gff.addcolumn(y, "y")
gff.addcolumn(z, "z")
gff.addcolumn(rodx, "rodx")
gff.addcolumn(rody, "rody")
gff.addcolumn(rodz, "rodz")
gff.addcolumn(U11, "U11")
gff.addcolumn(U12, "U12")
gff.addcolumn(U13, "U13")
gff.addcolumn(U21, "U21")
Ejemplo n.º 5
0
def ubi_to_gff(ubi,par):
    from ImageD11 import grain as ig
    from ImageD11 import parameters as ip
    from string import split
    from xfab import tools
    from six.moves import range
    
    list_of_grains = ig.read_grain_file(ubi)
    p = ip.parameters()
    p.loadparameters(par)
    uc = [p.parameters['cell__a'],p.parameters['cell__b'],p.parameters['cell__c'],p.parameters['cell_alpha'],p.parameters['cell_beta'],p.parameters['cell_gamma']]
    #print(uc)
    
    grainno = []
    x = []
    y = []
    z = []
    rodx = []
    rody = []
    rodz = []
    unitcell_a = []
    unitcell_b = []
    unitcell_c = []
    unitcell_alpha = []
    unitcell_beta = []
    unitcell_gamma = []
    U11 = []
    U12 = []
    U13 = []
    U21 = []
    U22 = []
    U23 = []
    U31 = []
    U32 = []
    U33 = []
    eps11 = []
    eps22 = []
    eps33 = []
    eps23 = []
    eps13 = []
    eps12 = []
    titles = ["grainno","x","y","z","rodx","rody","rodz","U11","U12","U13","U21","U22","U23","U31","U32","U33","unitcell_a","unitcell_b","unitcell_c","unitcell_alpha","unitcell_beta","unitcell_gamma","eps11","eps22","eps33","eps23","eps13","eps12"]
    for i in range(len(list_of_grains)):
        if hasattr(list_of_grains,'name') == False:
            grainno.append(i)
        elif hasattr(list_of_grains,'name') == True:
            grainno.append(eval(split(list_of_grains[i].name,':')[0]))
        x.append(list_of_grains[i].translation[0]/1000.)
        y.append(list_of_grains[i].translation[1]/1000.)
        z.append(list_of_grains[i].translation[2]/1000.)
        ubi = list_of_grains[i].ubi
        (U,eps) = tools.ubi_to_u_and_eps(ubi,uc)
        uc_a, uc_b, uc_c, uc_alpha, uc_beta, uc_gamma = tools.ubi_to_cell(ubi)
        unitcell_a.append(uc_a)
        unitcell_b.append(uc_b)
        unitcell_c.append(uc_c)
        unitcell_alpha.append(uc_alpha)
        unitcell_beta.append(uc_beta)
        unitcell_gamma.append(uc_gamma)
        rod = tools.u_to_rod(U)
        rodx.append(rod[0])
        rody.append(rod[1])
        rodz.append(rod[2])
        U11.append(U[0,0])
        U12.append(U[0,1])
        U13.append(U[0,2])
        U21.append(U[1,0])
        U22.append(U[1,1])
        U23.append(U[1,2])
        U31.append(U[2,0])
        U32.append(U[2,1])
        U33.append(U[2,2])
        eps11.append(eps[0])
        eps12.append(eps[1])
        eps13.append(eps[2])
        eps22.append(eps[3])
        eps23.append(eps[4])
        eps33.append(eps[5])
    
    gff = cl.newcolumnfile(titles)
    gff.ncols = len(titles)
    gff.nrows = len(grainno)
    gff.bigarray = np.zeros((gff.ncols,gff.nrows))
    gff.set_attributes()
    gff.addcolumn(grainno,"grainno")
    gff.addcolumn(x,"x")
    gff.addcolumn(y,"y")
    gff.addcolumn(z,"z")
    gff.addcolumn(rodx,"rodx")
    gff.addcolumn(rody,"rody")
    gff.addcolumn(rodz,"rodz")
    gff.addcolumn(U11,"U11")
    gff.addcolumn(U12,"U12")
    gff.addcolumn(U13,"U13")
    gff.addcolumn(U21,"U21")
    gff.addcolumn(U22,"U22")
    gff.addcolumn(U23,"U23")
    gff.addcolumn(U31,"U31")
    gff.addcolumn(U32,"U32")
    gff.addcolumn(U33,"U33")
    gff.addcolumn(unitcell_a,"unitcell_a")
    gff.addcolumn(unitcell_b,"unitcell_b")
    gff.addcolumn(unitcell_c,"unitcell_c")
    gff.addcolumn(unitcell_alpha,"unitcell_alpha")
    gff.addcolumn(unitcell_beta,"unitcell_beta")
    gff.addcolumn(unitcell_gamma,"unitcell_gamma")    
    gff.addcolumn(eps11,"eps11")
    gff.addcolumn(eps22,"eps22")
    gff.addcolumn(eps33,"eps33")
    gff.addcolumn(eps23,"eps23")
    gff.addcolumn(eps13,"eps13")
    gff.addcolumn(eps12,"eps12")
    return gff, uc