new file mode 100644
@@ -0,0 +1,118 @@
+#include <arm_neon.h>
+#include "arm-neon-ref.h"
+#include "compute-ref-data.h"
+#include <math.h>
+
+/* Expected results. */
+VECT_VAR_DECL(expected,hfloat,32,2) [] = { 0xc2796b84, 0xc2796b84 };
+VECT_VAR_DECL(expected,hfloat,32,4) [] = { 0xc0e4a3d8, 0xc0e4a3d8,
+ 0xc0e4a3d8, 0xc0e4a3d8 };
+
+/* Expected results with input=NaN. */
+VECT_VAR_DECL(expected_nan,hfloat,32,2) [] = { 0x7fc00000, 0x7fc00000 };
+VECT_VAR_DECL(expected_nan,hfloat,32,4) [] = { 0x7fc00000, 0x7fc00000,
+ 0x7fc00000, 0x7fc00000 };
+
+/* Expected results with FP special inputs values (infinity, 0). */
+VECT_VAR_DECL(expected_fp1,hfloat,32,2) [] = { 0xff800000, 0xff800000 };
+VECT_VAR_DECL(expected_fp1,hfloat,32,4) [] = { 0x3fc00000, 0x3fc00000,
+ 0x3fc00000, 0x3fc00000 };
+
+/* Expected results with only FP special inputs values (infinity,
+ 0). */
+VECT_VAR_DECL(expected_fp2,hfloat,32,2) [] = { 0x3fc00000, 0x3fc00000 };
+VECT_VAR_DECL(expected_fp2,hfloat,32,4) [] = { 0x3fc00000, 0x3fc00000,
+ 0x3fc00000, 0x3fc00000 };
+
+#define TEST_MSG "VRSQRTS/VRSQRTSQ"
+void exec_vrsqrts(void)
+{
+ int i;
+
+ /* Basic test: y=vrsqrts(x), then store the result. */
+#define TEST_VRSQRTS(Q, T1, T2, W, N) \
+ VECT_VAR(vector_res, T1, W, N) = \
+ vrsqrts##Q##_##T2##W(VECT_VAR(vector, T1, W, N), \
+ VECT_VAR(vector2, T1, W, N)); \
+ vst1##Q##_##T2##W(VECT_VAR(result, T1, W, N), \
+ VECT_VAR(vector_res, T1, W, N))
+
+ /* No need for integer variants. */
+ DECL_VARIABLE(vector, float, 32, 2);
+ DECL_VARIABLE(vector, float, 32, 4);
+
+ DECL_VARIABLE(vector2, float, 32, 2);
+ DECL_VARIABLE(vector2, float, 32, 4);
+
+ DECL_VARIABLE(vector_res, float, 32, 2);
+ DECL_VARIABLE(vector_res, float, 32, 4);
+
+ clean_results ();
+
+ /* Choose init value arbitrarily. */
+ VDUP(vector, , float, f, 32, 2, 12.9f);
+ VDUP(vector, q, float, f, 32, 4, 9.1f);
+
+ VDUP(vector2, , float, f, 32, 2, 9.9f);
+ VDUP(vector2, q, float, f, 32, 4, 1.9f);
+
+ /* Apply the operator. */
+ TEST_VRSQRTS(, float, f, 32, 2);
+ TEST_VRSQRTS(q, float, f, 32, 4);
+
+#define CMT ""
+ CHECK_FP(TEST_MSG, float, 32, 2, PRIx32, expected, CMT);
+ CHECK_FP(TEST_MSG, float, 32, 4, PRIx32, expected, CMT);
+
+
+ /* Test FP variants with special input values (NaN). */
+ VDUP(vector, , float, f, 32, 2, NAN);
+ VDUP(vector2, q, float, f, 32, 4, NAN);
+
+ /* Apply the operator. */
+ TEST_VRSQRTS(, float, f, 32, 2);
+ TEST_VRSQRTS(q, float, f, 32, 4);
+
+#undef CMT
+#define CMT " FP special (NAN) and normal values"
+ CHECK_FP(TEST_MSG, float, 32, 2, PRIx32, expected_nan, CMT);
+ CHECK_FP(TEST_MSG, float, 32, 4, PRIx32, expected_nan, CMT);
+
+
+ /* Test FP variants with special input values (infinity, 0). */
+ VDUP(vector, , float, f, 32, 2, HUGE_VALF);
+ VDUP(vector, q, float, f, 32, 4, 0.0f);
+ /* Restore a normal value in vector2. */
+ VDUP(vector2, q, float, f, 32, 4, 3.2f);
+
+ /* Apply the operator. */
+ TEST_VRSQRTS(, float, f, 32, 2);
+ TEST_VRSQRTS(q, float, f, 32, 4);
+
+#undef CMT
+#define CMT " FP special (infinity, 0) and normal values"
+ CHECK_FP(TEST_MSG, float, 32, 2, PRIx32, expected_fp1, CMT);
+ CHECK_FP(TEST_MSG, float, 32, 4, PRIx32, expected_fp1, CMT);
+
+
+ /* Test FP variants with only special input values (infinity, 0). */
+ VDUP(vector, , float, f, 32, 2, HUGE_VALF);
+ VDUP(vector, q, float, f, 32, 4, 0.0f);
+ VDUP(vector2, , float, f, 32, 2, -0.0f);
+ VDUP(vector2, q, float, f, 32, 4, HUGE_VALF);
+
+ /* Apply the operator. */
+ TEST_VRSQRTS(, float, f, 32, 2);
+ TEST_VRSQRTS(q, float, f, 32, 4);
+
+#undef CMT
+#define CMT " only FP special (infinity, 0)"
+ CHECK_FP(TEST_MSG, float, 32, 2, PRIx32, expected_fp2, CMT);
+ CHECK_FP(TEST_MSG, float, 32, 4, PRIx32, expected_fp2, CMT);
+}
+
+int main (void)
+{
+ exec_vrsqrts ();
+ return 0;
+}