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360 lines
11 KiB
360 lines
11 KiB
from sympy.core import (S, pi, oo, symbols, Rational, Integer,
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GoldenRatio, EulerGamma, Catalan, Lambda, Dummy,
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Eq, Ne, Le, Lt, Gt, Ge, Mod)
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from sympy.functions import (Piecewise, sin, cos, Abs, exp, ceiling, sqrt,
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sign, floor)
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from sympy.logic import ITE
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from sympy.testing.pytest import raises
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from sympy.utilities.lambdify import implemented_function
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from sympy.tensor import IndexedBase, Idx
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from sympy.matrices import MatrixSymbol, SparseMatrix, Matrix
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from sympy.printing.rust import rust_code
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x, y, z = symbols('x,y,z')
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def test_Integer():
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assert rust_code(Integer(42)) == "42"
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assert rust_code(Integer(-56)) == "-56"
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def test_Relational():
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assert rust_code(Eq(x, y)) == "x == y"
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assert rust_code(Ne(x, y)) == "x != y"
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assert rust_code(Le(x, y)) == "x <= y"
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assert rust_code(Lt(x, y)) == "x < y"
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assert rust_code(Gt(x, y)) == "x > y"
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assert rust_code(Ge(x, y)) == "x >= y"
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def test_Rational():
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assert rust_code(Rational(3, 7)) == "3_f64/7.0"
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assert rust_code(Rational(18, 9)) == "2"
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assert rust_code(Rational(3, -7)) == "-3_f64/7.0"
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assert rust_code(Rational(-3, -7)) == "3_f64/7.0"
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assert rust_code(x + Rational(3, 7)) == "x + 3_f64/7.0"
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assert rust_code(Rational(3, 7)*x) == "(3_f64/7.0)*x"
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def test_basic_ops():
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assert rust_code(x + y) == "x + y"
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assert rust_code(x - y) == "x - y"
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assert rust_code(x * y) == "x*y"
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assert rust_code(x / y) == "x/y"
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assert rust_code(-x) == "-x"
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def test_printmethod():
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class fabs(Abs):
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def _rust_code(self, printer):
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return "%s.fabs()" % printer._print(self.args[0])
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assert rust_code(fabs(x)) == "x.fabs()"
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a = MatrixSymbol("a", 1, 3)
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assert rust_code(a[0,0]) == 'a[0]'
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def test_Functions():
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assert rust_code(sin(x) ** cos(x)) == "x.sin().powf(x.cos())"
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assert rust_code(abs(x)) == "x.abs()"
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assert rust_code(ceiling(x)) == "x.ceil()"
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assert rust_code(floor(x)) == "x.floor()"
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# Automatic rewrite
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assert rust_code(Mod(x, 3)) == 'x - 3*((1_f64/3.0)*x).floor()'
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def test_Pow():
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assert rust_code(1/x) == "x.recip()"
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assert rust_code(x**-1) == rust_code(x**-1.0) == "x.recip()"
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assert rust_code(sqrt(x)) == "x.sqrt()"
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assert rust_code(x**S.Half) == rust_code(x**0.5) == "x.sqrt()"
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assert rust_code(1/sqrt(x)) == "x.sqrt().recip()"
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assert rust_code(x**-S.Half) == rust_code(x**-0.5) == "x.sqrt().recip()"
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assert rust_code(1/pi) == "PI.recip()"
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assert rust_code(pi**-1) == rust_code(pi**-1.0) == "PI.recip()"
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assert rust_code(pi**-0.5) == "PI.sqrt().recip()"
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assert rust_code(x**Rational(1, 3)) == "x.cbrt()"
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assert rust_code(2**x) == "x.exp2()"
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assert rust_code(exp(x)) == "x.exp()"
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assert rust_code(x**3) == "x.powi(3)"
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assert rust_code(x**(y**3)) == "x.powf(y.powi(3))"
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assert rust_code(x**Rational(2, 3)) == "x.powf(2_f64/3.0)"
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g = implemented_function('g', Lambda(x, 2*x))
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assert rust_code(1/(g(x)*3.5)**(x - y**x)/(x**2 + y)) == \
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"(3.5*2*x).powf(-x + y.powf(x))/(x.powi(2) + y)"
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_cond_cfunc = [(lambda base, exp: exp.is_integer, "dpowi", 1),
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(lambda base, exp: not exp.is_integer, "pow", 1)]
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assert rust_code(x**3, user_functions={'Pow': _cond_cfunc}) == 'x.dpowi(3)'
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assert rust_code(x**3.2, user_functions={'Pow': _cond_cfunc}) == 'x.pow(3.2)'
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def test_constants():
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assert rust_code(pi) == "PI"
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assert rust_code(oo) == "INFINITY"
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assert rust_code(S.Infinity) == "INFINITY"
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assert rust_code(-oo) == "NEG_INFINITY"
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assert rust_code(S.NegativeInfinity) == "NEG_INFINITY"
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assert rust_code(S.NaN) == "NAN"
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assert rust_code(exp(1)) == "E"
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assert rust_code(S.Exp1) == "E"
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def test_constants_other():
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assert rust_code(2*GoldenRatio) == "const GoldenRatio: f64 = %s;\n2*GoldenRatio" % GoldenRatio.evalf(17)
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assert rust_code(
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2*Catalan) == "const Catalan: f64 = %s;\n2*Catalan" % Catalan.evalf(17)
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assert rust_code(2*EulerGamma) == "const EulerGamma: f64 = %s;\n2*EulerGamma" % EulerGamma.evalf(17)
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def test_boolean():
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assert rust_code(True) == "true"
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assert rust_code(S.true) == "true"
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assert rust_code(False) == "false"
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assert rust_code(S.false) == "false"
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assert rust_code(x & y) == "x && y"
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assert rust_code(x | y) == "x || y"
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assert rust_code(~x) == "!x"
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assert rust_code(x & y & z) == "x && y && z"
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assert rust_code(x | y | z) == "x || y || z"
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assert rust_code((x & y) | z) == "z || x && y"
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assert rust_code((x | y) & z) == "z && (x || y)"
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def test_Piecewise():
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expr = Piecewise((x, x < 1), (x + 2, True))
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assert rust_code(expr) == (
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"if (x < 1) {\n"
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" x\n"
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"} else {\n"
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" x + 2\n"
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"}")
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assert rust_code(expr, assign_to="r") == (
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"r = if (x < 1) {\n"
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" x\n"
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"} else {\n"
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" x + 2\n"
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"};")
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assert rust_code(expr, assign_to="r", inline=True) == (
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"r = if (x < 1) { x } else { x + 2 };")
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expr = Piecewise((x, x < 1), (x + 1, x < 5), (x + 2, True))
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assert rust_code(expr, inline=True) == (
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"if (x < 1) { x } else if (x < 5) { x + 1 } else { x + 2 }")
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assert rust_code(expr, assign_to="r", inline=True) == (
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"r = if (x < 1) { x } else if (x < 5) { x + 1 } else { x + 2 };")
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assert rust_code(expr, assign_to="r") == (
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"r = if (x < 1) {\n"
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" x\n"
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"} else if (x < 5) {\n"
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" x + 1\n"
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"} else {\n"
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" x + 2\n"
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"};")
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expr = 2*Piecewise((x, x < 1), (x + 1, x < 5), (x + 2, True))
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assert rust_code(expr, inline=True) == (
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"2*if (x < 1) { x } else if (x < 5) { x + 1 } else { x + 2 }")
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expr = 2*Piecewise((x, x < 1), (x + 1, x < 5), (x + 2, True)) - 42
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assert rust_code(expr, inline=True) == (
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"2*if (x < 1) { x } else if (x < 5) { x + 1 } else { x + 2 } - 42")
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# Check that Piecewise without a True (default) condition error
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expr = Piecewise((x, x < 1), (x**2, x > 1), (sin(x), x > 0))
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raises(ValueError, lambda: rust_code(expr))
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def test_dereference_printing():
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expr = x + y + sin(z) + z
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assert rust_code(expr, dereference=[z]) == "x + y + (*z) + (*z).sin()"
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def test_sign():
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expr = sign(x) * y
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assert rust_code(expr) == "y*x.signum()"
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assert rust_code(expr, assign_to='r') == "r = y*x.signum();"
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expr = sign(x + y) + 42
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assert rust_code(expr) == "(x + y).signum() + 42"
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assert rust_code(expr, assign_to='r') == "r = (x + y).signum() + 42;"
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expr = sign(cos(x))
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assert rust_code(expr) == "x.cos().signum()"
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def test_reserved_words():
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x, y = symbols("x if")
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expr = sin(y)
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assert rust_code(expr) == "if_.sin()"
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assert rust_code(expr, dereference=[y]) == "(*if_).sin()"
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assert rust_code(expr, reserved_word_suffix='_unreserved') == "if_unreserved.sin()"
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with raises(ValueError):
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rust_code(expr, error_on_reserved=True)
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def test_ITE():
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expr = ITE(x < 1, y, z)
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assert rust_code(expr) == (
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"if (x < 1) {\n"
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" y\n"
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"} else {\n"
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" z\n"
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"}")
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def test_Indexed():
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n, m, o = symbols('n m o', integer=True)
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i, j, k = Idx('i', n), Idx('j', m), Idx('k', o)
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x = IndexedBase('x')[j]
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assert rust_code(x) == "x[j]"
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A = IndexedBase('A')[i, j]
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assert rust_code(A) == "A[m*i + j]"
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B = IndexedBase('B')[i, j, k]
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assert rust_code(B) == "B[m*o*i + o*j + k]"
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def test_dummy_loops():
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i, m = symbols('i m', integer=True, cls=Dummy)
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x = IndexedBase('x')
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y = IndexedBase('y')
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i = Idx(i, m)
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assert rust_code(x[i], assign_to=y[i]) == (
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"for i in 0..m {\n"
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" y[i] = x[i];\n"
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"}")
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def test_loops():
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m, n = symbols('m n', integer=True)
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A = IndexedBase('A')
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x = IndexedBase('x')
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y = IndexedBase('y')
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z = IndexedBase('z')
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i = Idx('i', m)
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j = Idx('j', n)
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assert rust_code(A[i, j]*x[j], assign_to=y[i]) == (
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"for i in 0..m {\n"
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" y[i] = 0;\n"
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"}\n"
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"for i in 0..m {\n"
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" for j in 0..n {\n"
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" y[i] = A[n*i + j]*x[j] + y[i];\n"
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" }\n"
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"}")
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assert rust_code(A[i, j]*x[j] + x[i] + z[i], assign_to=y[i]) == (
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"for i in 0..m {\n"
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" y[i] = x[i] + z[i];\n"
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"}\n"
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"for i in 0..m {\n"
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" for j in 0..n {\n"
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" y[i] = A[n*i + j]*x[j] + y[i];\n"
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" }\n"
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"}")
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def test_loops_multiple_contractions():
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n, m, o, p = symbols('n m o p', integer=True)
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a = IndexedBase('a')
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b = IndexedBase('b')
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y = IndexedBase('y')
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i = Idx('i', m)
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j = Idx('j', n)
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k = Idx('k', o)
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l = Idx('l', p)
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assert rust_code(b[j, k, l]*a[i, j, k, l], assign_to=y[i]) == (
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"for i in 0..m {\n"
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" y[i] = 0;\n"
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"}\n"
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"for i in 0..m {\n"
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" for j in 0..n {\n"
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" for k in 0..o {\n"
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" for l in 0..p {\n"
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" y[i] = a[%s]*b[%s] + y[i];\n" % (i*n*o*p + j*o*p + k*p + l, j*o*p + k*p + l) +\
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" }\n"
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" }\n"
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" }\n"
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"}")
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def test_loops_addfactor():
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m, n, o, p = symbols('m n o p', integer=True)
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a = IndexedBase('a')
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b = IndexedBase('b')
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c = IndexedBase('c')
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y = IndexedBase('y')
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i = Idx('i', m)
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j = Idx('j', n)
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k = Idx('k', o)
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l = Idx('l', p)
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code = rust_code((a[i, j, k, l] + b[i, j, k, l])*c[j, k, l], assign_to=y[i])
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assert code == (
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"for i in 0..m {\n"
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" y[i] = 0;\n"
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"}\n"
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"for i in 0..m {\n"
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" for j in 0..n {\n"
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" for k in 0..o {\n"
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" for l in 0..p {\n"
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" y[i] = (a[%s] + b[%s])*c[%s] + y[i];\n" % (i*n*o*p + j*o*p + k*p + l, i*n*o*p + j*o*p + k*p + l, j*o*p + k*p + l) +\
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" }\n"
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" }\n"
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" }\n"
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"}")
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def test_settings():
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raises(TypeError, lambda: rust_code(sin(x), method="garbage"))
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def test_inline_function():
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x = symbols('x')
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g = implemented_function('g', Lambda(x, 2*x))
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assert rust_code(g(x)) == "2*x"
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g = implemented_function('g', Lambda(x, 2*x/Catalan))
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assert rust_code(g(x)) == (
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"const Catalan: f64 = %s;\n2*x/Catalan" % Catalan.evalf(17))
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A = IndexedBase('A')
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i = Idx('i', symbols('n', integer=True))
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g = implemented_function('g', Lambda(x, x*(1 + x)*(2 + x)))
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assert rust_code(g(A[i]), assign_to=A[i]) == (
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"for i in 0..n {\n"
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" A[i] = (A[i] + 1)*(A[i] + 2)*A[i];\n"
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"}")
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def test_user_functions():
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x = symbols('x', integer=False)
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n = symbols('n', integer=True)
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custom_functions = {
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"ceiling": "ceil",
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"Abs": [(lambda x: not x.is_integer, "fabs", 4), (lambda x: x.is_integer, "abs", 4)],
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}
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assert rust_code(ceiling(x), user_functions=custom_functions) == "x.ceil()"
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assert rust_code(Abs(x), user_functions=custom_functions) == "fabs(x)"
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assert rust_code(Abs(n), user_functions=custom_functions) == "abs(n)"
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def test_matrix():
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assert rust_code(Matrix([1, 2, 3])) == '[1, 2, 3]'
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with raises(ValueError):
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rust_code(Matrix([[1, 2, 3]]))
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def test_sparse_matrix():
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# gh-15791
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assert 'Not supported in Rust' in rust_code(SparseMatrix([[1, 2, 3]]))
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