import numpy as np import pyerrors as pe import pytest def test_rwms(): path = './tests//data/openqcd_test/' prefix = 'sfqcd' postfix = 'rwms' # sfqcd-1.6: Trajectories instead of confignumbers are printed to file. rwfo = pe.input.openQCD.read_rwms(path, prefix, version='1.6', postfix=postfix) repname = list(rwfo[0].idl.keys())[0] assert(rwfo[0].idl[repname] == range(1, 13)) rwfo = pe.input.openQCD.read_rwms(path, prefix, version='1.6', postfix=postfix, r_start=[1], r_stop=[12]) assert(rwfo[0].idl[repname] == range(1, 13)) rwfo = pe.input.openQCD.read_rwms(path, prefix, version='1.6', postfix=postfix, r_start=[3], r_stop=[8]) assert(rwfo[0].idl[repname] == range(3, 9)) rwfo = pe.input.openQCD.read_rwms(path, prefix, version='1.6', postfix=postfix, r_start=[2], r_stop=[6]) assert(rwfo[0].idl[repname] == range(2, 7)) rwfs = pe.input.openQCD.read_rwms(path, prefix, version='1.6', postfix=postfix, r_start=[1], r_stop=[12], r_step=2) assert(rwfs[0].idl[repname] == range(1, 12, 2)) rwfs = pe.input.openQCD.read_rwms(path, prefix, version='1.6', postfix=postfix, r_start=[2], r_stop=[12], r_step=2) assert(rwfs[0].idl[repname] == range(2, 13, 2)) rwfo = pe.input.openQCD.read_rwms(path, prefix, version='1.6', postfix=postfix) assert((rwfo[0].r_values[repname] + rwfo[0].deltas[repname][1]) == (rwfs[0].r_values[repname] + rwfs[0].deltas[repname][0])) o = pe.pseudo_Obs(1., .01, repname, samples=12) pe.reweight(rwfo[0], [o]) o = pe.pseudo_Obs(1., .01, repname, samples=6) pe.reweight(rwfo[0], [o]) o.idl[repname] = range(2, 13, 2) pe.reweight(rwfo[0], [o]) pe.reweight(rwfs[0], [o]) files = ['openqcd2r1.ms1.dat'] names = ['openqcd2|r1'] # TM with 2 Hasenbusch factors and 2 sources each + RHMC with one source, openQCD 2.0 rwfo = pe.input.openQCD.read_rwms(path, prefix, version='2.0', files=files, names=names) assert(len(rwfo) == 2) assert(rwfo[0].value == 0.9999974970236312) assert(rwfo[1].value == 1.184681251089919) repname = list(rwfo[0].idl.keys())[0] assert(rwfo[0].idl[repname] == range(1, 10)) rwfo = pe.input.openQCD.read_rwms(path, prefix, version='2.0', files=files, names=names, r_start=[1], r_stop=[8], print_err=True) assert(rwfo[0].idl[repname] == range(1, 9)) # t0 prefix = 'openqcd' t0 = pe.input.openQCD.extract_t0(path, prefix, dtr_read=3, xmin=0, spatial_extent=4) files = ['openqcd2r1.ms.dat'] names = ['openqcd2|r1'] t0 = pe.input.openQCD.extract_t0(path, '', dtr_read=3, xmin=0, spatial_extent=4, files=files, names=names, fit_range=2) assert(np.isclose(t0.value, 0.3816208266076627)) t0 = pe.input.openQCD.extract_t0(path, prefix, dtr_read=3, xmin=0, spatial_extent=4, r_start=[1]) repname = list(rwfo[0].idl.keys())[0] assert(t0.idl[repname] == range(1, 10)) t0 = pe.input.openQCD.extract_t0(path, prefix, dtr_read=3, xmin=0, spatial_extent=4, r_start=[2], r_stop=[8]) repname = list(rwfo[0].idl.keys())[0] assert(t0.idl[repname] == range(2, 9)) t0 = pe.input.openQCD.extract_t0(path, prefix, dtr_read=3, xmin=0, spatial_extent=4, fit_range=2, plaquette=True, assume_thermalization=True) pe.input.openQCD.extract_t0(path, '', dtr_read=3, xmin=0, spatial_extent=4, files=files, names=names, fit_range=2, plot_fit=True) with pytest.raises(Exception): pe.input.openQCD.extract_t0(path, '', dtr_read=3, xmin=0, spatial_extent=4, files=files, names=names, fit_range=2, c=14) # w0 w0 = pe.input.openQCD.extract_w0(path, '', dtr_read=3, xmin=0, spatial_extent=4, files=files, names=names, fit_range=2, plot_fit=True) assert(np.isclose(w0.value, 0.5220124285820434)) with pytest.raises(Exception): pe.input.openQCD.extract_w0(path, '', dtr_read=3, xmin=0, spatial_extent=4, files=files, names=names, fit_range=2, c=14) def test_Qtop(): path = './tests//data/openqcd_test/' prefix = 'sfqcd' qtop = pe.input.openQCD.read_qtop(path, prefix, c=0.3, version='sfqcd') repname = list(qtop.idl.keys())[0] qtop = pe.input.openQCD.read_qtop(path, prefix, c=0.3, version='sfqcd', Zeuthen_flow=True, L=4) qi = pe.input.openQCD.read_qtop(path, prefix, c=0.3, version='sfqcd', integer_charge=True) for conf in range(len(qi.idl[repname])): assert(0 == qi.r_values[repname] + qi.deltas[repname][conf]) qtop = pe.input.openQCD.read_qtop(path, prefix, c=0.0, version='sfqcd') assert (np.isclose(-4.572999e-02, qtop.r_values[repname] + qtop.deltas[repname][0])) qtop = pe.input.openQCD.read_qtop(path, prefix, c=0.28, version='sfqcd') assert (np.isclose(3.786893e-02, qtop.r_values[repname] + qtop.deltas[repname][0])) qtop = pe.input.openQCD.read_qtop(path, prefix, c=0.08, version='sfqcd', Zeuthen_flow=True) assert (np.isclose(3.653140e-02, qtop.r_values[repname] + qtop.deltas[repname][1])) qtop = pe.input.openQCD.read_qtop(path, prefix, c=0.40, version='sfqcd', Zeuthen_flow=True) assert (np.isclose(2.745865e-01, qtop.r_values[repname] + qtop.deltas[repname][1])) qtop = pe.input.openQCD.read_qtop(path, prefix, c=0.40, version='sfqcd', Zeuthen_flow=True, r_start=[2]) assert (qtop.idl[repname] == range(2, 7)) assert (np.isclose(2.745865e-01, qtop.r_values[repname] + qtop.deltas[repname][0])) qtop = pe.input.openQCD.read_qtop(path, prefix, c=0.40, version='sfqcd', Zeuthen_flow=True, r_stop=[5]) assert(qtop.idl[repname] == range(1, 6)) names = ['sfqcd|r1'] files = ['sfqcdr1.gfms.dat'] qs = pe.input.openQCD.read_qtop_sector(path, '', 0.3, target=0, Zeuthen_flow=True, version='sfqcd') assert ((pe.input.openQCD.qtop_projection(qi, target=0) - qs).is_zero()) def test_gf_coupling(): path = './tests//data/openqcd_test/' prefix = 'sfqcd' gf = pe.input.openQCD.read_gf_coupling(path, prefix, c=0.3) with pytest.raises(Exception): pe.input.openQCD.read_gf_coupling(path, prefix, c=0.35) with pytest.raises(Exception): pe.input.openQCD.read_gf_coupling(path, prefix, c=0.3, Zeuthen_flow=False) def test_read_ms5_xsf(): path = './tests/data/openqcd_test/' prefix = "ms5_xsf_T24L16" corr = "gA" qc = 'dd' c = pe.input.openQCD.read_ms5_xsf(path, prefix, qc, corr) assert c.real[12].names == ['ms5_xsf_T24L16|r1', 'ms5_xsf_T24L16|r2', 'ms5_xsf_T24L16|r3'] assert (c.real[12].shape['ms5_xsf_T24L16|r1'] == 10) assert (c.real[12].shape['ms5_xsf_T24L16|r2'] == 10) assert (c.real[12].shape['ms5_xsf_T24L16|r3'] == 10) assert (c.real[12].value == -3.0000000000001923) fqc = "rq" with pytest.raises(Exception): pe.input.openQCD.read_ms5_xsf(path, prefix, fqc, corr) fcorr = "gX" with pytest.raises(Exception): pe.input.openQCD.read_ms5_xsf(path, prefix, qc, fcorr) def test_read_ms5_xsf_idl(): path = './tests/data/openqcd_test/' prefix = "ms5_xsf_T24L16" corr = "gA" qc = 'dd' c = pe.input.openQCD.read_ms5_xsf(path, prefix, qc, corr, idl=[range(1, 6), range(1, 7), range(1, 8)]) assert c.real[12].names == ['ms5_xsf_T24L16|r1', 'ms5_xsf_T24L16|r2', 'ms5_xsf_T24L16|r3'] assert (c.real[12].shape['ms5_xsf_T24L16|r1'] == 5) assert (c.real[12].shape['ms5_xsf_T24L16|r2'] == 6) assert (c.real[12].shape['ms5_xsf_T24L16|r3'] == 7) assert (c.real[12].idl['ms5_xsf_T24L16|r1'] == range(1, 6)) assert (c.real[12].idl['ms5_xsf_T24L16|r2'] == range(1, 7)) assert (c.real[12].idl['ms5_xsf_T24L16|r3'] == range(1, 8)) c = pe.input.openQCD.read_ms5_xsf(path, prefix, qc, corr, idl=[range(1, 11, 2), range(1, 11, 2), range(1, 11, 2)]) assert c.real[12].names == ['ms5_xsf_T24L16|r1', 'ms5_xsf_T24L16|r2', 'ms5_xsf_T24L16|r3'] assert (c.real[12].shape['ms5_xsf_T24L16|r1'] == 5) assert (c.real[12].shape['ms5_xsf_T24L16|r2'] == 5) assert (c.real[12].shape['ms5_xsf_T24L16|r3'] == 5) assert (c.real[12].idl['ms5_xsf_T24L16|r1'] == range(1, 11, 2)) assert (c.real[12].idl['ms5_xsf_T24L16|r2'] == range(1, 11, 2)) assert (c.real[12].idl['ms5_xsf_T24L16|r3'] == range(1, 11, 2)) def test_find_files(): path = './tests/data/openqcd_test/' prefix = "ms5_xsf_T24L16" qc = 'dd' files = pe.input.openQCD._find_files(path, prefix, "ms5_xsf_" + qc, "dat") assert (len(files) == 3) files = pe.input.openQCD._find_files(path, prefix, ".ms5_xsf_" + qc, "dat") assert (len(files) == 3) files = pe.input.openQCD._find_files(path, prefix, "ms5_xsf_" + qc + ".", "dat") assert (len(files) == 3) files = pe.input.openQCD._find_files(path, prefix, ".ms5_xsf_" + qc + ".", "dat") assert (len(files) == 3) files = pe.input.openQCD._find_files(path, prefix, ".ms5_xsf_" + qc + ".", ".dat") assert (len(files) == 3) with pytest.raises(FileNotFoundError): pe.input.openQCD._find_files(path, prefix, "ms5_xsf_" + qc, "dat", known_files="egg") fpath = './tests//data/openqc_test/' with pytest.raises(FileNotFoundError): pe.input.openQCD._find_files(fpath, prefix, "ms5_xsf_" + qc, "dat") fpre = "tune62" with pytest.raises(Exception): pe.input.openQCD._find_files(path, fpre, "ms5_xsf_" + qc, "dat")