[Intrinsic] Add log1p, ldexp, atan2, hypot, nextafter, copysign (#5312)

* [Intrinsic] Add log1p, ldexp, atan2, hypot, nextafter, copysign * Lint

[Intrinsic] Add log1p, ldexp, atan2, hypot, nextafter, copysign (#5312)
* [Intrinsic] Add log1p, ldexp, atan2, hypot, nextafter, copysign * Lint
cd0d52da · Junru Shao · GitHub · 9c591510 · cd0d52da · cd0d52da
Unverified Commit cd0d52da authored Apr 12, 2020 by Junru Shao Committed by GitHub Apr 12, 2020
Show whitespace changes
Inline Side-by-side

Showing with 185 additions and 6 deletions

python/tvm/tir/__init__.py
+5 -5

python/tvm/tir/op.py
+113 -0

src/target/intrin_rule.cc
+18 -0

tests/python/unittest/test_tir_intrin.py
+49 -1

No files found.
--- a/python/tvm/tir/__init__.py
+++ b/python/tvm/tir/__init__.py
@@ -35,11 +35,11 @@ from .function import PrimFunc

 from .op import call_packed, call_pure_intrin, call_intrin, call_pure_extern, call_extern
 from .op import call_llvm_intrin, all, any, min_value, max_value, trace
-from .op import exp, exp2, exp10, log, log2, log10
-from .op import cos, sin, cosh, sinh, tan, tanh, atan
-from .op import erf, sigmoid, sqrt, rsqrt, floor, ceil
-from .op import trunc, abs, round, nearbyint, power, popcount, fmod, if_then_else
-from .op import isnan, isfinite, isinf
+from .op import exp, exp2, exp10, log, log2, log10, log1p, ldexp
+from .op import cos, sin, cosh, sinh, tan, tanh, atan, atan2
+from .op import erf, sigmoid, sqrt, rsqrt, floor, ceil, hypot
+from .op import trunc, abs, round, nextafter, nearbyint, power, popcount, fmod, if_then_else
+from .op import isnan, isfinite, isinf, copysign
 from .op import div, indexdiv, indexmod, truncdiv, truncmod, floordiv, floormod
 from .op import comm_reducer, min, max, sum


--- a/python/tvm/tir/op.py
+++ b/python/tvm/tir/op.py
@@ -457,6 +457,23 @@ def log10(x):
    """
    return call_pure_intrin(x.dtype, "log10", x)

+
+def log1p(x):
+    """Take log(x + 1) with respect to input x.
+
+    Parameters
+    ----------
+    x : PrimExpr
+        Input argument.
+
+    Returns
+    -------
+    y : PrimExpr
+        The result.
+    """
+    return call_pure_intrin(x.dtype, "log1p", x)
+
+
 def tan(x):
    """Take tan of input x.

@@ -552,6 +569,26 @@ def atan(x):
    """
    return call_pure_intrin(x.dtype, "atan", x)

+
+def atan2(x1, x2):
+    """Take arctan2(x1, x2).
+
+    Parameters
+    ----------
+    x1 : PrimExpr
+        Input argument.
+
+    x2 : PrimExpr
+        Input argument.
+
+    Returns
+    -------
+    y : PrimExpr
+        The result.
+    """
+    return call_pure_intrin(x1.dtype, "atan2", x1, x2)
+
+
 def sqrt(x):
    """Take square root of input x.

@@ -690,6 +727,82 @@ def nearbyint(x):
    return _ffi_api.nearbyint(x)


+def nextafter(x1, x2):
+    """Return the next floating-point value after x1 towards x2.
+
+    Parameters
+    ----------
+    x1 : PrimExpr
+        Input argument.
+
+    x2 : PrimExpr
+        Input argument.
+
+    Returns
+    -------
+    y : PrimExpr
+        The result.
+    """
+    return call_pure_intrin(x1.dtype, "nextafter", x1, x2)
+
+
+def hypot(x1, x2):
+    """Equivalent to sqrt(x1**2 + x2**2), element-wise.
+
+    Parameters
+    ----------
+    x1 : PrimExpr
+        Input argument.
+
+    x2 : PrimExpr
+        Input argument.
+
+    Returns
+    -------
+    y : PrimExpr
+        The result.
+    """
+    return call_pure_intrin(x1.dtype, "hypot", x1, x2)
+
+
+def copysign(x1, x2):
+    """Change the sign of x1 to that of x2, element-wise.
+
+    Parameters
+    ----------
+    x1 : PrimExpr
+        Input argument.
+
+    x2 : PrimExpr
+        Input argument.
+
+    Returns
+    -------
+    y : PrimExpr
+        The result.
+    """
+    return call_pure_intrin(x1.dtype, "copysign", x1, x2)
+
+
+def ldexp(x1, x2):
+    """Returns x1 * (2 ** x2).
+
+    Parameters
+    ----------
+    x1 : PrimExpr
+        Input argument.
+
+    x2 : PrimExpr
+        Input argument.
+
+    Returns
+    -------
+    y : PrimExpr
+        The result.
+    """
+    return call_pure_intrin(x1.dtype, "ldexp", x1, x2)
+
+
 def isnan(x):
    """Check if input value is Nan.


--- a/src/target/intrin_rule.cc
+++ b/src/target/intrin_rule.cc
@@ -37,6 +37,9 @@ TVM_REGISTER_GLOBAL("tvm.intrin.rule.default.erf")
 TVM_REGISTER_GLOBAL("tvm.intrin.rule.default.log")
 .set_body(DispatchExtern<FloatSuffix>);

+TVM_REGISTER_GLOBAL("tvm.intrin.rule.default.log1p")
+.set_body(DispatchExtern<FloatSuffix>);
+
 TVM_REGISTER_GLOBAL("tvm.intrin.rule.default.tanh")
 .set_body(DispatchExtern<FloatSuffix>);

@@ -52,6 +55,21 @@ TVM_REGISTER_GLOBAL("tvm.intrin.rule.default.sin")
 TVM_REGISTER_GLOBAL("tvm.intrin.rule.default.atan")
 .set_body(DispatchExtern<FloatSuffix>);

+TVM_REGISTER_GLOBAL("tvm.intrin.rule.default.atan2")
+.set_body(DispatchExtern<FloatSuffix>);
+
+TVM_REGISTER_GLOBAL("tvm.intrin.rule.default.hypot")
+.set_body(DispatchExtern<FloatSuffix>);
+
+TVM_REGISTER_GLOBAL("tvm.intrin.rule.default.nextafter")
+.set_body(DispatchExtern<FloatSuffix>);
+
+TVM_REGISTER_GLOBAL("tvm.intrin.rule.default.copysign")
+.set_body(DispatchExtern<FloatSuffix>);
+
+TVM_REGISTER_GLOBAL("tvm.intrin.rule.default.ldexp")
+.set_body(DispatchExtern<FloatSuffix>);
+
 TVM_REGISTER_GLOBAL("tvm.intrin.rule.default.sqrt")
 .set_body(DispatchExtern<FloatSuffix>);


--- a/tests/python/unittest/test_tir_intrin.py
+++ b/tests/python/unittest/test_tir_intrin.py
@@ -62,6 +62,7 @@ def test_unary_intrin():
        (tvm.tir.log10, lambda x : np.log10(x)),
        (tvm.tir.sinh, lambda x : np.sinh(x)),
        (tvm.tir.cosh, lambda x : np.cosh(x)),
+        (tvm.tir.log1p, lambda x : np.log1p(x)),
    ]
    def run_test(tvm_intrin, np_func):
        m = te.var("m",)
@@ -79,10 +80,57 @@ def test_unary_intrin():
            b.asnumpy(), np_func(a.asnumpy()), atol=1e-5, rtol=1e-5)
    
    for func in test_funcs:
-        run_test(*func);
+        run_test(*func)
+
+
+def test_binary_intrin():
+    test_funcs = [
+        (tvm.tir.atan2, lambda x1, x2 : np.arctan2(x1, x2)),
+        (tvm.tir.nextafter, lambda x1, x2 : np.nextafter(x1, x2)),
+        (tvm.tir.copysign, lambda x1, x2 : np.copysign(x1, x2)),
+        (tvm.tir.hypot, lambda x1, x2 : np.hypot(x1, x2)),
+    ]
+    def run_test(tvm_intrin, np_func):
+        m = te.var("m",)
+        A = te.placeholder((m,), name='A')
+        B = te.placeholder((m,), name='B')
+        C = te.compute((m,), lambda *i: tvm_intrin(A(*i), B(*i)), name='C')
+        s = te.create_schedule(C.op)
+        f = tvm.build(s, [A, B, C], "llvm")
+        ctx = tvm.cpu(0)
+        n = 10
+        a = tvm.nd.array(np.random.uniform(0, 1, size=n).astype(A.dtype), ctx)
+        b = tvm.nd.array(np.random.uniform(0, 1, size=n).astype(B.dtype), ctx)
+        c = tvm.nd.array( \
+            np.random.uniform(size=n).astype(A.dtype), ctx)
+        f(a, b, c)
+        tvm.testing.assert_allclose(
+            c.asnumpy(), np_func(a.asnumpy(), b.asnumpy()), atol=1e-5, rtol=1e-5)
+
+    for func in test_funcs:
+        run_test(*func)
+
+
+def test_ldexp():
+    m = te.var("m",)
+    A = te.placeholder((m,), name='A')
+    B = te.placeholder((m,), name='B', dtype="int32")
+    C = te.compute((m,), lambda *i: tvm.tir.ldexp(A(*i), B(*i)), name='C')
+    s = te.create_schedule(C.op)
+    f = tvm.build(s, [A, B, C], "llvm")
+    ctx = tvm.cpu(0)
+    n = 10
+    a = tvm.nd.array(np.random.uniform(0, 1, size=n).astype(A.dtype), ctx)
+    b = tvm.nd.array(np.random.randint(0, 5, size=n).astype(B.dtype), ctx)
+    c = tvm.nd.array(np.random.uniform(size=n).astype(A.dtype), ctx)
+    f(a, b, c)
+    tvm.testing.assert_allclose(
+        c.asnumpy(), np.ldexp(a.asnumpy(), b.asnumpy()), atol=1e-5, rtol=1e-5)


 if __name__ == "__main__":
    test_nearbyint()
    test_unary_intrin()
    test_round_intrinsics_on_int()
+    test_binary_intrin()
+    test_ldexp()