Exemple #1
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def test_C99CodePrinter_custom_type():
    # We will look at __float128 (new in glibc 2.26)
    f128 = FloatType('_Float128', float128.nbits, float128.nmant,
                     float128.nexp)
    p128 = C99CodePrinter(
        dict(type_aliases={real: f128},
             type_literal_suffixes={f128: 'Q'},
             type_func_suffixes={f128: 'f128'},
             type_math_macro_suffixes={
                 real: 'f128',
                 f128: 'f128'
             },
             type_macros={f128: ('__STDC_WANT_IEC_60559_TYPES_EXT__', )}))
    assert p128.doprint(x) == 'x'
    assert not p128.headers
    assert not p128.libraries
    assert not p128.macros
    assert p128.doprint(2.0) == '2.0Q'
    assert not p128.headers
    assert not p128.libraries
    assert p128.macros == {'__STDC_WANT_IEC_60559_TYPES_EXT__'}

    assert p128.doprint(Rational(1, 2)) == '1.0Q/2.0Q'
    assert p128.doprint(sin(x)) == 'sinf128(x)'
    assert p128.doprint(cos(2., evaluate=False)) == 'cosf128(2.0Q)'

    var5 = Variable(x, {value_const}, f128)

    dcl5a = Declaration(var5)
    assert ccode(dcl5a) == 'const _Float128 x'
    dcl5b = Declaration(var5, pi)
    assert p128.doprint(dcl5b) == 'const _Float128 x = M_PIf128'
    dcl5c = Declaration(var5, Catalan.evalf(38))
    assert p128.doprint(dcl5c) == 'const _Float128 x = %sQ' % Catalan.evalf(
        f128.decimal_dig)
def test_julia_noninline():
    source = julia_code((x+y)/Catalan, assign_to='me', inline=False)
    expected = (
        "const Catalan = %s\n"
        "me = (x + y)/Catalan"
    ) % Catalan.evalf(17)
    assert source == expected
Exemple #3
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def test_octave_noninline():
    source = mcode((x+y)/Catalan, assign_to='me', inline=False)
    expected = (
        "Catalan = %s;\n"
        "me = (x + y)/Catalan;"
    ) % Catalan.evalf(17)
    assert source == expected
Exemple #4
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def test_julia_noninline():
    source = julia_code((x+y)/Catalan, assign_to='me', inline=False)
    expected = (
        "const Catalan = %s\n"
        "me = (x + y)/Catalan"
    ) % Catalan.evalf(17)
    assert source == expected
Exemple #5
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def test_octave_noninline():
    source = mcode((x+y)/Catalan, assign_to='me', inline=False)
    expected = (
        "Catalan = %s;\n"
        "me = (x + y)/Catalan;"
    ) % Catalan.evalf(17)
    assert source == expected
Exemple #6
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def test_m_numbersymbol():
    name_expr = ("test", pi**Catalan)
    (result, ) = codegen(name_expr, "Octave", header=False, empty=False)
    source = result[1]
    expected = ("function out1 = test()\n"
                "  out1 = pi^%s;\n"
                "end\n") % Catalan.evalf(17)
    assert source == expected
Exemple #7
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def test_jscode_constants_other():
    assert jscode(
        2 * GoldenRatio
    ) == "var GoldenRatio = %s;\n2*GoldenRatio" % GoldenRatio.evalf(17)
    assert jscode(
        2 * Catalan) == "var Catalan = %s;\n2*Catalan" % Catalan.evalf(17)
    assert jscode(
        2 * EulerGamma
    ) == "var EulerGamma = %s;\n2*EulerGamma" % EulerGamma.evalf(17)
def test_constants_other():
    assert rust_code(
        2 * GoldenRatio
    ) == "const GoldenRatio: f64 = %s;\n2*GoldenRatio" % GoldenRatio.evalf(17)
    assert rust_code(
        2 *
        Catalan) == "const Catalan: f64 = %s;\n2*Catalan" % Catalan.evalf(17)
    assert rust_code(
        2 * EulerGamma
    ) == "const EulerGamma: f64 = %s;\n2*EulerGamma" % EulerGamma.evalf(17)
def test_numbersymbol():
    name_expr = ("test", pi**Catalan)
    result, = codegen(name_expr, "Rust", header=False, empty=False)
    source = result[1]
    expected = ("fn test() -> f64 {\n"
                "    const Catalan: f64 = %s;\n"
                "    let out1 = PI.powf(Catalan);\n"
                "    out1\n"
                "}\n") % Catalan.evalf(17)
    assert source == expected
def test_m_numbersymbol():
    name_expr = ("test", pi**Catalan)
    result, = codegen(name_expr, "Octave", header=False, empty=False)
    source = result[1]
    expected = (
        "function out1 = test()\n"
        "  out1 = pi^%s;\n"
        "end\n"
    ) % Catalan.evalf(17)
    assert source == expected
Exemple #11
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def test_ccode_constants_other():
    assert ccode(
        2 * GoldenRatio
    ) == "const double GoldenRatio = %s;\n2*GoldenRatio" % GoldenRatio.evalf(17)
    assert ccode(
        2 * Catalan
    ) == "const double Catalan = %s;\n2*Catalan" % Catalan.evalf(17)
    assert ccode(
        2 * EulerGamma
    ) == "const double EulerGamma = %s;\n2*EulerGamma" % EulerGamma.evalf(17)
Exemple #12
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def test_numbersymbol():
    name_expr = ("test", pi**Catalan)
    result, = codegen(name_expr, "Rust", header=False, empty=False)
    source = result[1]
    expected = (
        "fn test() -> f64 {\n"
        "    const Catalan: f64 = %s;\n"
        "    let out1 = PI.powf(Catalan);\n"
        "    out1\n"
        "}\n"
    ) % Catalan.evalf(17)
    assert source == expected
Exemple #13
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def test_ccode_inline_function():
    x = symbols("x")
    g = implemented_function("g", Lambda(x, 2 * x))
    assert ccode(g(x)) == "2*x"
    g = implemented_function("g", Lambda(x, 2 * x / Catalan))
    assert ccode(g(x)) == "const double Catalan = %s;\n2*x/Catalan" % Catalan.evalf(17)
    A = IndexedBase("A")
    i = Idx("i", symbols("n", integer=True))
    g = implemented_function("g", Lambda(x, x * (1 + x) * (2 + x)))
    assert ccode(g(A[i]), assign_to=A[i]) == (
        "for (int i=0; i<n; i++){\n" "   A[i] = (A[i] + 1)*(A[i] + 2)*A[i];\n" "}"
    )
Exemple #14
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def test_jscode_inline_function():
    x = symbols('x')
    g = implemented_function('g', Lambda(x, 2 * x))
    assert jscode(g(x)) == "2*x"
    g = implemented_function('g', Lambda(x, 2 * x / Catalan))
    assert jscode(g(x)) == "var Catalan = %s;\n2*x/Catalan" % Catalan.evalf(17)
    A = IndexedBase('A')
    i = Idx('i', symbols('n', integer=True))
    g = implemented_function('g', Lambda(x, x * (1 + x) * (2 + x)))
    assert jscode(g(A[i]),
                  assign_to=A[i]) == ("for (var i=0; i<n; i++){\n"
                                      "   A[i] = (A[i] + 1)*(A[i] + 2)*A[i];\n"
                                      "}")
Exemple #15
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def test_C99CodePrinter_custom_type():
    # We will look at __float128 (new in glibc 2.26)
    f128 = FloatType('_Float128', float128.nbits, float128.nmant, float128.nexp)
    p128 = C99CodePrinter(dict(
        type_aliases={real: f128},
        type_literal_suffixes={f128: 'Q'},
        type_func_suffixes={f128: 'f128'},
        type_math_macro_suffixes={
            real: 'f128',
            f128: 'f128'
        },
        type_macros={
            f128: ('__STDC_WANT_IEC_60559_TYPES_EXT__',)
        }
    ))
    assert p128.doprint(x) == 'x'
    assert not p128.headers
    assert not p128.libraries
    assert not p128.macros
    assert p128.doprint(2.0) == '2.0Q'
    assert not p128.headers
    assert not p128.libraries
    assert p128.macros == {'__STDC_WANT_IEC_60559_TYPES_EXT__'}

    assert p128.doprint(Rational(1, 2)) == '1.0Q/2.0Q'
    assert p128.doprint(sin(x)) == 'sinf128(x)'
    assert p128.doprint(cos(2., evaluate=False)) == 'cosf128(2.0Q)'

    var5 = Variable(x, f128, attrs={value_const})

    dcl5a = Declaration(var5)
    assert ccode(dcl5a) == 'const _Float128 x'
    var5b = Variable(x, f128, pi, attrs={value_const})
    dcl5b = Declaration(var5b)
    assert p128.doprint(dcl5b) == 'const _Float128 x = M_PIf128'
    var5b = Variable(x, f128, value=Catalan.evalf(38), attrs={value_const})
    dcl5c = Declaration(var5b)
    assert p128.doprint(dcl5c) == 'const _Float128 x = %sQ' % Catalan.evalf(f128.decimal_dig)
Exemple #16
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def test_jscode_inline_function():
    x = symbols('x')
    g = implemented_function('g', Lambda(x, 2*x))
    assert jscode(g(x)) == "2*x"
    g = implemented_function('g', Lambda(x, 2*x/Catalan))
    assert jscode(g(x)) == "var Catalan = %s;\n2*x/Catalan" % Catalan.evalf(17)
    A = IndexedBase('A')
    i = Idx('i', symbols('n', integer=True))
    g = implemented_function('g', Lambda(x, x*(1 + x)*(2 + x)))
    assert jscode(g(A[i]), assign_to=A[i]) == (
        "for (var i=0; i<n; i++){\n"
        "   A[i] = (A[i] + 1)*(A[i] + 2)*A[i];\n"
        "}"
    )
Exemple #17
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def test_C99CodePrinter_custom_type():
    # We will look at __float128 (new in glibc 2.26)
    f128 = FloatType("_Float128", float128.nbits, float128.nmant, float128.nexp)
    p128 = C99CodePrinter(
        dict(
            type_aliases={real: f128},
            type_literal_suffixes={f128: "Q"},
            type_func_suffixes={f128: "f128"},
            type_math_macro_suffixes={real: "f128", f128: "f128"},
            type_macros={f128: ("__STDC_WANT_IEC_60559_TYPES_EXT__",)},
        )
    )
    assert p128.doprint(x) == "x"
    assert not p128.headers
    assert not p128.libraries
    assert not p128.macros
    assert p128.doprint(2.0) == "2.0Q"
    assert not p128.headers
    assert not p128.libraries
    assert p128.macros == {"__STDC_WANT_IEC_60559_TYPES_EXT__"}

    assert p128.doprint(Rational(1, 2)) == "1.0Q/2.0Q"
    assert p128.doprint(sin(x)) == "sinf128(x)"
    assert p128.doprint(cos(2.0, evaluate=False)) == "cosf128(2.0Q)"

    var5 = Variable(x, f128, attrs={value_const})

    dcl5a = Declaration(var5)
    assert ccode(dcl5a) == "const _Float128 x"
    var5b = Variable(x, f128, pi, attrs={value_const})
    dcl5b = Declaration(var5b)
    assert p128.doprint(dcl5b) == "const _Float128 x = M_PIf128"
    var5b = Variable(x, f128, value=Catalan.evalf(38), attrs={value_const})
    dcl5c = Declaration(var5b)
    assert p128.doprint(dcl5c) == "const _Float128 x = %sQ" % Catalan.evalf(
        f128.decimal_dig
    )
Exemple #18
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def test_fcode_NumberSymbol():
    prec = 17
    p = FCodePrinter()
    assert fcode(
        Catalan
    ) == '      parameter (Catalan = %sd0)\n      Catalan' % Catalan.evalf(
        prec)
    assert fcode(
        EulerGamma
    ) == '      parameter (EulerGamma = %sd0)\n      EulerGamma' % EulerGamma.evalf(
        prec)
    assert fcode(E) == '      parameter (E = %sd0)\n      E' % E.evalf(prec)
    assert fcode(
        GoldenRatio
    ) == '      parameter (GoldenRatio = %sd0)\n      GoldenRatio' % GoldenRatio.evalf(
        prec)
    assert fcode(
        pi) == '      parameter (pi = %sd0)\n      pi' % pi.evalf(prec)
    assert fcode(
        pi,
        precision=5) == '      parameter (pi = %sd0)\n      pi' % pi.evalf(5)
    assert fcode(Catalan,
                 human=False) == ({(Catalan, p._print(Catalan.evalf(prec)))},
                                  set(), '      Catalan')
    assert fcode(EulerGamma, human=False) == ({
        (EulerGamma, p._print(EulerGamma.evalf(prec)))
    }, set(), '      EulerGamma')
    assert fcode(E, human=False) == ({(E, p._print(E.evalf(prec)))}, set(),
                                     '      E')
    assert fcode(GoldenRatio, human=False) == ({
        (GoldenRatio, p._print(GoldenRatio.evalf(prec)))
    }, set(), '      GoldenRatio')
    assert fcode(pi, human=False) == ({(pi, p._print(pi.evalf(prec)))}, set(),
                                      '      pi')
    assert fcode(pi,
                 precision=5, human=False) == ({(pi, p._print(pi.evalf(5)))},
                                               set(), '      pi')
Exemple #19
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def test_inline_function():
    x = symbols('x')
    g = implemented_function('g', Lambda(x, 2*x))
    assert rust_code(g(x)) == "2*x"

    g = implemented_function('g', Lambda(x, 2*x/Catalan))
    assert rust_code(g(x)) == (
        "const Catalan: f64 = %s;\n2*x/Catalan" % Catalan.evalf(17))

    A = IndexedBase('A')
    i = Idx('i', symbols('n', integer=True))
    g = implemented_function('g', Lambda(x, x*(1 + x)*(2 + x)))
    assert rust_code(g(A[i]), assign_to=A[i]) == (
        "for i in 0..n {\n"
        "    A[i] = (A[i] + 1)*(A[i] + 2)*A[i];\n"
        "}")
Exemple #20
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def test_numbersymbol_inline():
    # FIXME: how to pass inline to the RustCodePrinter?
    name_expr = ("test", [pi**Catalan, EulerGamma])
    result, = codegen(name_expr, "Rust", header=False,
                      empty=False, inline=True)
    source = result[1]
    expected = (
        "fn test() -> (f64, f64) {\n"
        "    const Catalan: f64 = %s;\n"
        "    const EulerGamma: f64 = %s;\n"
        "    let out1 = PI.powf(Catalan);\n"
        "    let out2 = EulerGamma);\n"
        "    (out1, out2)\n"
        "}\n"
    ) % (Catalan.evalf(17), EulerGamma.evalf(17))
    assert source == expected
Exemple #21
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def test_inline_function():
    x = symbols('x')
    g = implemented_function('g', Lambda(x, 2*x))
    assert rust_code(g(x)) == "2*x"

    g = implemented_function('g', Lambda(x, 2*x/Catalan))
    assert rust_code(g(x)) == (
        "const Catalan: f64 = %s;\n2*x/Catalan" % Catalan.evalf(17))

    A = IndexedBase('A')
    i = Idx('i', symbols('n', integer=True))
    g = implemented_function('g', Lambda(x, x*(1 + x)*(2 + x)))
    assert rust_code(g(A[i]), assign_to=A[i]) == (
        "for i in 0..n {\n"
        "    A[i] = (A[i] + 1)*(A[i] + 2)*A[i];\n"
        "}")
def test_numbersymbol_inline():
    # FIXME: how to pass inline to the RustCodePrinter?
    name_expr = ("test", [pi**Catalan, EulerGamma])
    result, = codegen(name_expr, "Rust", header=False,
                      empty=False, inline=True)
    source = result[1]
    expected = (
        "fn test() -> (f64, f64) {\n"
        "    const Catalan: f64 = %s;\n"
        "    const EulerGamma: f64 = %s;\n"
        "    let out1 = PI.powf(Catalan);\n"
        "    let out2 = EulerGamma);\n"
        "    (out1, out2)\n"
        "}\n"
    ) % (Catalan.evalf(17), EulerGamma.evalf(17))
    assert source == expected
Exemple #23
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def test_constants_other():
    assert rust_code(2*GoldenRatio) == "const GoldenRatio: f64 = %s;\n2*GoldenRatio" % GoldenRatio.evalf(17)
    assert rust_code(
            2*Catalan) == "const Catalan: f64 = %s;\n2*Catalan" % Catalan.evalf(17)
    assert rust_code(2*EulerGamma) == "const EulerGamma: f64 = %s;\n2*EulerGamma" % EulerGamma.evalf(17)
Exemple #24
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def test_ccode_constants_other():
    assert ccode(2*GoldenRatio) == "const double GoldenRatio = %s;\n2*GoldenRatio" % GoldenRatio.evalf(17)
    assert ccode(
        2*Catalan) == "const double Catalan = %s;\n2*Catalan" % Catalan.evalf(17)
    assert ccode(2*EulerGamma) == "const double EulerGamma = %s;\n2*EulerGamma" % EulerGamma.evalf(17)
Exemple #25
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def test_constants_other():
    assert mcode(2*GoldenRatio) == "2*(1+sqrt(5))/2"
    assert mcode(2*Catalan) == "2*%s" % Catalan.evalf(17)
    assert mcode(2*EulerGamma) == "2*%s" % EulerGamma.evalf(17)
Exemple #26
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def test_constants_other():
    assert mcode(2 * GoldenRatio) == "2*(1+sqrt(5))/2"
    assert mcode(2 * Catalan) == "2*%s" % Catalan.evalf(17)
    assert mcode(2 * EulerGamma) == "2*%s" % EulerGamma.evalf(17)
Exemple #27
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def test_jscode_constants_other():
    assert jscode(
        2*GoldenRatio) == "var GoldenRatio = %s;\n2*GoldenRatio" % GoldenRatio.evalf(17)
    assert jscode(2*Catalan) == "var Catalan = %s;\n2*Catalan" % Catalan.evalf(17)
    assert jscode(
        2*EulerGamma) == "var EulerGamma = %s;\n2*EulerGamma" % EulerGamma.evalf(17)