generate_automake_test_programs.py 3.83 KB
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#!/usr/bin/env python
from __future__ import print_function
from itertools import product

domain_flag = {
        "real"   : "-DTEST_REAL",
        "complex": "-DTEST_COMPLEX",
}
prec_flag = {
        "double" : "-DTEST_DOUBLE",
        "single" : "-DTEST_SINGLE",
}
solver_flag = {
        "1stage" : "-DTEST_SOLVER_1STAGE",
        "2stage" : "-DTEST_SOLVER_2STAGE",
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        "scalapack_all" : "-DTEST_SCALAPACK_ALL",
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}
gpu_flag = {
        0 : "-DTEST_GPU=0",
        1 : "-DTEST_GPU=1",
}
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matrix_flag = {
        "random" : "-DTEST_MATRIX_RANDOM",
        "analytic" : "-DTEST_MATRIX_ANALYTIC",
}
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test_type_flag = {
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        "eigenvectors" : "-DTEST_EIGENVECTORS",
        "eigenvalues"  : "-DTEST_EIGENVALUES",
        "solve_tridiagonal"  : "-DTEST_SOLVE_TRIDIAGONAL",
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        "cholesky"  : "-DTEST_CHOLESKY",
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        "hermitian_multiply"  : "-DTEST_HERMITIAN_MULTIPLY",
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}

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layout_flag = {
        "all_layouts" : "-DTEST_ALL_LAYOUTS",
        "square" : ""
}

for m, g, t, p, d, s, l in product(
                             sorted(matrix_flag.keys()),
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                             sorted(gpu_flag.keys()),
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                             sorted(test_type_flag.keys()),
                             sorted(prec_flag.keys()),
                             sorted(domain_flag.keys()),
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                             sorted(solver_flag.keys()),
                             sorted(layout_flag.keys())):
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    #todo: decide what tests we actually want
    if(m == "analytic" and (g == 1 or t != "eigenvectors" or p == "single" or d == "complex")):
        continue

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    if(s == "scalapack_all" and (g == 1 or t != "eigenvectors" or p == "single" or d == "complex" or m != "analytic")):
        continue

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    if (t == "solve_tridiagonal" and (s == "2stage" or d == "complex")):
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        continue

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    if (t == "cholesky" and (s == "2stage")):
        continue

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    if (t == "hermitian_multiply" and (s == "2stage")):
        continue

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    for kernel in ["all_kernels", "default_kernel"] if s == "2stage" else ["nokernel"]:
        endifs = 0
        extra_flags = []
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        if (t == "eigenvalues" and kernel == "all_kernels"):
           continue

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        if (g == 1):
            print("if WITH_GPU_VERSION")
            endifs += 1
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        if (l == "all_layouts"):
            print("if WITH_MPI")
            endifs += 1

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        if (s == "scalapack_all"):
            print("if WITH_SCALAPACK_TESTS")
            endifs += 1

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        if kernel == "default_kernel":
            extra_flags.append("-DTEST_KERNEL=ELPA_2STAGE_{0}_DEFAULT".format(d.upper()))
        elif kernel == "all_kernels":
            extra_flags.append("-DTEST_ALL_KERNELS")
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        if layout_flag[l]:
            extra_flags.append(layout_flag[l])

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        if (p == "single"):
            if (d == "real"):
                print("if WANT_SINGLE_PRECISION_REAL")
            elif (d == "complex"):
                print("if WANT_SINGLE_PRECISION_COMPLEX")
            else:
                raise Exception("Oh no!")
            endifs += 1

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        name = "test_{0}_{1}_{2}_{3}{4}{5}{6}{7}".format(
                    d, p, t, s,
                    "" if kernel == "nokernel" else "_" + kernel,
                    "_gpu" if g else "",
                    "_analytic" if m == "analytic" else "",
                    "_all_layouts" if l == "all_layouts" else "")
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        print("noinst_PROGRAMS += " + name)
        print("check_SCRIPTS += " + name + ".sh")
        print(name + "_SOURCES = test/Fortran/test.F90")
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        print(name + "_LDADD = $(test_program_ldadd)")
        print(name + "_FCFLAGS = $(test_program_fcflags) \\")
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        print("  -DTEST_CASE=\\\"{0}\\\" \\".format(name))
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        print("  " + " \\\n  ".join([
            domain_flag[d],
            prec_flag[p],
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            test_type_flag[t],
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            solver_flag[s],
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            gpu_flag[g],
            matrix_flag[m]] + extra_flags))
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        print("endif\n" * endifs)