forked from M-Labs/artiq
compiler: Provide libm special functions (erf, Bessel functions, …)
Tests hard-depend on SciPy to make sure this is exercised during CI.
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@ -8,6 +8,15 @@ from collections import OrderedDict
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import numpy
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from . import builtins, types
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# Some special mathematical functions are exposed via their scipy.special
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# equivalents. Since the rest of the ARTIQ core does not depend on SciPy,
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# gracefully handle it not being present, making the functions simply not
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# available.
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try:
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import scipy.special as scipy_special
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except ImportError:
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scipy_special = None
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#: float -> float numpy.* math functions for which llvm.* intrinsics exist.
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unary_fp_intrinsics = [(name, "llvm." + name + ".f64") for name in [
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"sin",
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@ -36,6 +45,21 @@ unary_fp_intrinsics = [(name, "llvm." + name + ".f64") for name in [
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("rint", "llvm.round.f64"),
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]
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#: float -> float numpy.* math functions lowered to runtime calls.
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unary_fp_runtime_calls = [
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("tan", "tan"),
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("arcsin", "asin"),
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("arccos", "acos"),
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("arctan", "atan"),
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("sinh", "sinh"),
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("cosh", "cosh"),
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("tanh", "tanh"),
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("arcsinh", "asinh"),
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("arccosh", "acosh"),
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("arctanh", "atanh"),
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("expm1", "expm1"),
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("cbrt", "cbrt"),
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]
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#: float -> float numpy.* math functions lowered to runtime calls.
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unary_fp_runtime_calls = [
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@ -53,6 +77,18 @@ unary_fp_runtime_calls = [
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("cbrt", "cbrt"),
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]
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scipy_special_unary_runtime_calls = [
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("erf", "erf"),
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("erfc", "erfc"),
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("gamma", "tgamma"),
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("gammaln", "lgamma"),
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("j0", "j0"),
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("j1", "j1"),
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("y0", "y0"),
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("y1", "y1"),
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]
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# Not mapped: jv/yv, libm only supports integer orders.
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#: (float, float) -> float numpy.* math functions lowered to runtime calls.
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binary_fp_runtime_calls = [
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("arctan2", "atan2"),
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@ -70,22 +106,27 @@ numpy_builtins = ["transpose"]
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def fp_runtime_type(name, arity):
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args = [("arg{}".format(i), builtins.TFloat()) for i in range(arity)]
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return types.TExternalFunction(OrderedDict(args),
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return types.TExternalFunction(
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OrderedDict(args),
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builtins.TFloat(),
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name,
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# errno isn't observable from ARTIQ Python.
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flags={"nounwind", "nowrite"},
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broadcast_across_arrays=True)
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numpy_map = {
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math_fn_map = {
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getattr(numpy, symbol): fp_runtime_type(mangle, arity=1)
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for symbol, mangle in (unary_fp_intrinsics + unary_fp_runtime_calls)
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}
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for symbol, mangle in binary_fp_runtime_calls:
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numpy_map[getattr(numpy, symbol)] = fp_runtime_type(mangle, arity=2)
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math_fn_map[getattr(numpy, symbol)] = fp_runtime_type(mangle, arity=2)
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for name in numpy_builtins:
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numpy_map[getattr(numpy, name)] = types.TBuiltinFunction("numpy." + name)
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math_fn_map[getattr(numpy, name)] = types.TBuiltinFunction("numpy." + name)
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if scipy_special is not None:
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for symbol, mangle in scipy_special_unary_runtime_calls:
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math_fn_map[getattr(scipy_special, symbol)] = fp_runtime_type(mangle, arity=1)
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def match(obj):
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return numpy_map.get(obj, None)
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return math_fn_map.get(obj, None)
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@ -1,5 +1,6 @@
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from artiq.experiment import *
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import numpy
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import scipy.special
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from artiq.test.hardware_testbench import ExperimentCase
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from artiq.compiler.targets import CortexA9Target
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from artiq.compiler import math_fns
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@ -10,12 +11,12 @@ class _RunOnDevice(EnvExperiment):
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self.setattr_device("core")
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@kernel
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def run_on_kernel_unary(self, a, callback, numpy):
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self.run(a, callback, numpy)
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def run_on_kernel_unary(self, a, callback, numpy, scipy):
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self.run(a, callback, numpy, scipy)
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@kernel
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def run_on_kernel_binary(self, a, b, callback, numpy):
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self.run(a, b, callback, numpy)
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def run_on_kernel_binary(self, a, b, callback, numpy, scipy):
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self.run(a, b, callback, numpy, scipy)
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# Binary operations supported for scalars and arrays of any dimension, including
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@ -26,7 +27,7 @@ ELEM_WISE_BINOPS = ["+", "*", "//", "%", "**", "-", "/"]
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class CompareHostDeviceTest(ExperimentCase):
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def _test_binop(self, op, a, b):
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exp = self.create(_RunOnDevice)
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exp.run = kernel_from_string(["a", "b", "callback", "numpy"],
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exp.run = kernel_from_string(["a", "b", "callback", "numpy", "scipy"],
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"callback(" + op + ")",
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decorator=portable)
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checked = False
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@ -40,14 +41,14 @@ class CompareHostDeviceTest(ExperimentCase):
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"Discrepancy in binop test for '{}': Expexcted ({}, {}) -> {}, got {}"
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.format(op, a, b, host, device))
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exp.run_on_kernel_binary(a, b, with_both_results, numpy)
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exp.run_on_kernel_binary(a, b, with_both_results, numpy, scipy)
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exp.run(a, b, with_host_result, numpy)
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exp.run(a, b, with_host_result, numpy, scipy)
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self.assertTrue(checked, "Test did not run")
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def _test_unaryop(self, op, a):
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exp = self.create(_RunOnDevice)
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exp.run = kernel_from_string(["a", "callback", "numpy"],
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exp.run = kernel_from_string(["a", "callback", "numpy", "scipy"],
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"callback(" + op + ")",
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decorator=portable)
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checked = False
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@ -61,9 +62,9 @@ class CompareHostDeviceTest(ExperimentCase):
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"Discrepancy in unaryop test for '{}': Expexcted {} -> {}, got {}"
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.format(op, a, host, device))
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exp.run_on_kernel_unary(a, with_both_results, numpy)
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exp.run_on_kernel_unary(a, with_both_results, numpy, scipy)
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exp.run(a, with_host_result, numpy)
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exp.run(a, with_host_result, numpy, scipy)
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self.assertTrue(checked, "Test did not run")
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def test_scalar_scalar_binops(self):
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@ -101,6 +102,15 @@ class CompareHostDeviceTest(ExperimentCase):
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self._test_unaryop(op, 0.51)
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self._test_unaryop(op, numpy.array([[0.3, 0.4], [0.51, 0.6]]))
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def test_unary_scipy_fns(self):
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names = [name for name, _ in math_fns.scipy_special_unary_runtime_calls]
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if self.create(_RunOnDevice).core.target_cls != CortexA9Target:
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names.remove("gamma")
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for name in names:
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op = "scipy.special.{}(a)".format(name)
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self._test_unaryop(op, 0.5)
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self._test_unaryop(op, numpy.array([[0.3, 0.4], [0.5, 0.6]]))
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def test_binary_math_fns(self):
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names = [name for name, _ in math_fns.binary_fp_runtime_calls]
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exp = self.create(_RunOnDevice)
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