def test_apod_tri(self): spec = fromBruker(self.filename, False, False) # Loc < 1 results in dimension reduction of the apodization vector with self.assertRaises(NMRShapeError): apod(spec, w=lambda s: TRI(s, 0.5, 0.7, 0.5)) spec = fromBruker(self.filename, False, False) spec = apod(spec, w=lambda s: TRI(s, 5000, 0.7, 0.5)) C = converter() u = guess_udic(self.dic,self.data) C.from_bruker(self.dic, self.data, u) pipe_dic, pipe_data = C.to_pipe() test_data = pipep.tri(pipe_dic, pipe_data, loc=5000, lHi=0.7, rHi=0.5)[1] ts.assert_allclose(spec, test_data, 1e-7,1e-3, 'TRI apodization not equal to NMRPipe processed one.')
#! /usr/bin/env python import nmrglue.fileio.pipe as pipe import nmrglue.process.pipe_proc as p d,a = pipe.read("time_complex.fid") d,a = p.tri(d,a,loc=500,lHi=0.5,rHi=0.8,inv=True) pipe.write("tri.glue",d,a,overwrite=True) d,a = pipe.read("time_complex.fid") d,a = p.tri(d,a,loc=750,lHi=0.1,rHi=0.5) pipe.write("tri2.glue",d,a,overwrite=True)
#! /usr/bin/env python """ Create files for tri unit test """ import nmrglue.fileio.pipe as pipe import nmrglue.process.pipe_proc as p d, a = pipe.read("time_complex.fid") d, a = p.tri(d, a, loc=500, lHi=0.5, rHi=0.8, inv=True) pipe.write("tri1.glue", d, a, overwrite=True) d, a = pipe.read("time_complex.fid") d, a = p.tri(d, a, loc=750, lHi=0.1, rHi=0.5) pipe.write("tri2.glue", d, a, overwrite=True)