diff mbox series

[RFC,v4,28/29] Hexagon (tests/tcg/hexagon) TCG tests

Message ID 1601314138-9930-29-git-send-email-tsimpson@quicinc.com
State New
Headers show
Series Hexagon patch series | expand

Commit Message

Taylor Simpson Sept. 28, 2020, 5:28 p.m. UTC
Modify tests/tcg/configure.sh
Add reference files to tests/tcg/hexagon
Add Hexagon-specific tests

Signed-off-by: Taylor Simpson <tsimpson@quicinc.com>
---
 tests/tcg/hexagon/atomics.c        | 122 ++++++
 tests/tcg/hexagon/clrtnew.c        |  56 +++
 tests/tcg/hexagon/dual_stores.c    |  60 +++
 tests/tcg/hexagon/exec_counters.c  |  57 +++
 tests/tcg/hexagon/mem_noshuf.c     | 291 ++++++++++++++
 tests/tcg/hexagon/misc.c           | 293 ++++++++++++++
 tests/tcg/hexagon/preg_alias.c     | 106 +++++
 tests/tcg/hexagon/pthread_cancel.c |  43 +++
 tests/tcg/hexagon/sfminmax.c       |  62 +++
 tests/tcg/configure.sh             |   4 +-
 tests/tcg/hexagon/Makefile.target  |  49 +++
 tests/tcg/hexagon/first.S          |  57 +++
 tests/tcg/hexagon/float_convs.ref  | 748 ++++++++++++++++++++++++++++++++++++
 tests/tcg/hexagon/float_madds.ref  | 768 +++++++++++++++++++++++++++++++++++++
 14 files changed, 2715 insertions(+), 1 deletion(-)
 create mode 100644 tests/tcg/hexagon/atomics.c
 create mode 100644 tests/tcg/hexagon/clrtnew.c
 create mode 100644 tests/tcg/hexagon/dual_stores.c
 create mode 100644 tests/tcg/hexagon/exec_counters.c
 create mode 100644 tests/tcg/hexagon/mem_noshuf.c
 create mode 100644 tests/tcg/hexagon/misc.c
 create mode 100644 tests/tcg/hexagon/preg_alias.c
 create mode 100644 tests/tcg/hexagon/pthread_cancel.c
 create mode 100644 tests/tcg/hexagon/sfminmax.c
 create mode 100644 tests/tcg/hexagon/Makefile.target
 create mode 100644 tests/tcg/hexagon/first.S
 create mode 100644 tests/tcg/hexagon/float_convs.ref
 create mode 100644 tests/tcg/hexagon/float_madds.ref
diff mbox series

Patch

diff --git a/tests/tcg/hexagon/atomics.c b/tests/tcg/hexagon/atomics.c
new file mode 100644
index 0000000..88d7450
--- /dev/null
+++ b/tests/tcg/hexagon/atomics.c
@@ -0,0 +1,122 @@ 
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+#include <unistd.h>
+#include <inttypes.h>
+#include <pthread.h>
+
+/* Using volatile because we are testing atomics */
+static inline int atomic_inc32(volatile int *x)
+{
+    int old, dummy;
+    __asm__ __volatile__(
+        "1: %0 = memw_locked(%2)\n\t"
+        "   %1 = add(%0, #1)\n\t"
+        "   memw_locked(%2, p0) = %1\n\t"
+        "   if (!p0) jump 1b\n\t"
+        : "=&r"(old), "=&r"(dummy)
+        : "r"(x)
+        : "p0", "memory");
+    return old;
+}
+
+/* Using volatile because we are testing atomics */
+static inline long long atomic_inc64(volatile long long *x)
+{
+    long long old, dummy;
+    __asm__ __volatile__(
+        "1: %0 = memd_locked(%2)\n\t"
+        "   %1 = #1\n\t"
+        "   %1 = add(%0, %1)\n\t"
+        "   memd_locked(%2, p0) = %1\n\t"
+        "   if (!p0) jump 1b\n\t"
+        : "=&r"(old), "=&r"(dummy)
+        : "r"(x)
+        : "p0", "memory");
+    return old;
+}
+
+/* Using volatile because we are testing atomics */
+static inline int atomic_dec32(volatile int *x)
+{
+    int old, dummy;
+    __asm__ __volatile__(
+        "1: %0 = memw_locked(%2)\n\t"
+        "   %1 = add(%0, #-1)\n\t"
+        "   memw_locked(%2, p0) = %1\n\t"
+        "   if (!p0) jump 1b\n\t"
+        : "=&r"(old), "=&r"(dummy)
+        : "r"(x)
+        : "p0", "memory");
+    return old;
+}
+
+/* Using volatile because we are testing atomics */
+static inline long long atomic_dec64(volatile long long *x)
+{
+    long long old, dummy;
+    __asm__ __volatile__(
+        "1: %0 = memd_locked(%2)\n\t"
+        "   %1 = #-1\n\t"
+        "   %1 = add(%0, %1)\n\t"
+        "   memd_locked(%2, p0) = %1\n\t"
+        "   if (!p0) jump 1b\n\t"
+        : "=&r"(old), "=&r"(dummy)
+        : "r"(x)
+        : "p0", "memory");
+    return old;
+}
+
+#define LOOP_CNT 1000
+/* Using volatile because we are testing atomics */
+volatile int tick32 = 1;
+/* Using volatile because we are testing atomics */
+volatile long long tick64 = 1;
+int err;
+
+void *thread1_func(void *arg)
+{
+    int i;
+
+    for (i = 0; i < LOOP_CNT; i++) {
+        atomic_inc32(&tick32);
+        atomic_dec64(&tick64);
+    }
+    return NULL;
+}
+
+void *thread2_func(void *arg)
+{
+    int i;
+    for (i = 0; i < LOOP_CNT; i++) {
+        atomic_dec32(&tick32);
+        atomic_inc64(&tick64);
+    }
+    return NULL;
+}
+
+void test_pthread(void)
+{
+    pthread_t tid1, tid2;
+
+    pthread_create(&tid1, NULL, thread1_func, "hello1");
+    pthread_create(&tid2, NULL, thread2_func, "hello2");
+    pthread_join(tid1, NULL);
+    pthread_join(tid2, NULL);
+
+    if (tick32 != 1) {
+        printf("ERROR: tick32 %d != 1\n", tick32);
+        err++;
+    }
+    if (tick64 != 1) {
+        printf("ERROR: tick64 %lld != 1\n", tick64);
+        err++;
+    }
+}
+
+int main(int argc, char **argv)
+{
+    test_pthread();
+    puts(err ? "FAIL" : "PASS");
+    return err;
+}
diff --git a/tests/tcg/hexagon/clrtnew.c b/tests/tcg/hexagon/clrtnew.c
new file mode 100644
index 0000000..665c2b3
--- /dev/null
+++ b/tests/tcg/hexagon/clrtnew.c
@@ -0,0 +1,56 @@ 
+/*
+ *  Copyright(c) 2019-2020 Qualcomm Innovation Center, Inc. All Rights Reserved.
+ *
+ *  This program is free software; you can redistribute it and/or modify
+ *  it under the terms of the GNU General Public License as published by
+ *  the Free Software Foundation; either version 2 of the License, or
+ *  (at your option) any later version.
+ *
+ *  This program is distributed in the hope that it will be useful,
+ *  but WITHOUT ANY WARRANTY; without even the implied warranty of
+ *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ *  GNU General Public License for more details.
+ *
+ *  You should have received a copy of the GNU General Public License
+ *  along with this program; if not, see <http://www.gnu.org/licenses/>.
+ */
+
+#include <stdio.h>
+
+static inline int test_clrtnew(int arg1, int old_val)
+{
+  int ret;
+  asm volatile("r5 = %2\n\t"
+               "{\n\t"
+                   "p0 = cmp.eq(%1, #1)\n\t"
+                   "if (p0.new) r5=#0\n\t"
+               "}\n\t"
+               "%0 = r5\n\t"
+               : "=r"(ret)
+               : "r"(arg1), "r"(old_val)
+               : "p0", "r5");
+  return ret;
+}
+
+int err;
+
+static void check(int val, int expect)
+{
+    if (val != expect) {
+        printf("ERROR: 0x%d != 0x%d\n", val, expect);
+        err++;
+    }
+}
+
+int main()
+{
+    int res;
+
+    res = test_clrtnew(1, 7);
+    check(res, 0);
+    res = test_clrtnew(2, 7);
+    check(res, 7);
+
+    puts(err ? "FAIL" : "PASS");
+    return err;
+}
diff --git a/tests/tcg/hexagon/dual_stores.c b/tests/tcg/hexagon/dual_stores.c
new file mode 100644
index 0000000..ba81bc2
--- /dev/null
+++ b/tests/tcg/hexagon/dual_stores.c
@@ -0,0 +1,60 @@ 
+/*
+ *  Copyright(c) 2019-2020 Qualcomm Innovation Center, Inc. All Rights Reserved.
+ *
+ *  This program is free software; you can redistribute it and/or modify
+ *  it under the terms of the GNU General Public License as published by
+ *  the Free Software Foundation; either version 2 of the License, or
+ *  (at your option) any later version.
+ *
+ *  This program is distributed in the hope that it will be useful,
+ *  but WITHOUT ANY WARRANTY; without even the implied warranty of
+ *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ *  GNU General Public License for more details.
+ *
+ *  You should have received a copy of the GNU General Public License
+ *  along with this program; if not, see <http://www.gnu.org/licenses/>.
+ */
+
+#include <stdio.h>
+
+/*
+ *  Make sure that two stores in the same packet honor proper
+ *  semantics: slot 1 executes first, then slot 0.
+ *  This is important when the addresses overlap.
+ */
+static inline void dual_stores(int *p, char *q, int x, char y)
+{
+  asm volatile("{\n\t"
+               "    memw(%0) = %2\n\t"
+               "    memb(%1) = %3\n\t"
+               "}\n"
+               :: "r"(p), "r"(q), "r"(x), "r"(y)
+               : "memory");
+}
+
+typedef union {
+    int word;
+    char byte;
+} Dual;
+
+int err;
+
+static void check(Dual d, int expect)
+{
+    if (d.word != expect) {
+        printf("ERROR: 0x%08x != 0x%08x\n", d.word, expect);
+        err++;
+    }
+}
+
+int main()
+{
+    Dual d;
+
+    d.word = ~0;
+    dual_stores(&d.word, &d.byte, 0x12345678, 0xff);
+    check(d, 0x123456ff);
+
+    puts(err ? "FAIL" : "PASS");
+    return err;
+}
diff --git a/tests/tcg/hexagon/exec_counters.c b/tests/tcg/hexagon/exec_counters.c
new file mode 100644
index 0000000..36eae25
--- /dev/null
+++ b/tests/tcg/hexagon/exec_counters.c
@@ -0,0 +1,57 @@ 
+/*
+ *  Copyright(c) 2019-2020 Qualcomm Innovation Center, Inc. All Rights Reserved.
+ *
+ *  This program is free software; you can redistribute it and/or modify
+ *  it under the terms of the GNU General Public License as published by
+ *  the Free Software Foundation; either version 2 of the License, or
+ *  (at your option) any later version.
+ *
+ *  This program is distributed in the hope that it will be useful,
+ *  but WITHOUT ANY WARRANTY; without even the implied warranty of
+ *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ *  GNU General Public License for more details.
+ *
+ *  You should have received a copy of the GNU General Public License
+ *  along with this program; if not, see <http://www.gnu.org/licenses/>.
+ */
+
+/*
+ *  Check the instruction counters in qemu
+ */
+#include <stdio.h>
+
+int err;
+
+static void check(const char *name, int val, int expect)
+{
+    if (val != expect) {
+        printf("ERROR: %s %d != %d\n", name, val, expect);
+        err++;
+    }
+}
+
+int main()
+{
+  int pkt, insn;
+
+  asm volatile("r2 = #0\n\t"
+               "c23 = r2\n\t"
+               "c22 = r2\n\t"
+               "c21 = r2\n\t"
+               "c20 = r2\n\t"
+               "r2 = #7\n\t"
+               "loop0(1f, #3)\n\t"
+               "1:\n\t"
+               "    { p0 = cmp.eq(r2,#5); if (p0.new) jump:nt 2f }\n\t"
+               "    {r0 = r1; r1 = r0 }:endloop0\n\t"
+               "2:\n\t"
+               "%[pkt] = c20\n\t"
+               "%[insn] = c21\n\t"
+               : [pkt] "=r"(pkt), [insn] "=r"(insn)
+               : : "r0", "r1", "r2", "sa0", "lc0", "p0");
+
+  check("Packet", pkt, 9);
+  check("Instruction", insn, 14);
+  puts(err ? "FAIL" : "PASS");
+  return err;
+}
diff --git a/tests/tcg/hexagon/mem_noshuf.c b/tests/tcg/hexagon/mem_noshuf.c
new file mode 100644
index 0000000..f7bf2e3
--- /dev/null
+++ b/tests/tcg/hexagon/mem_noshuf.c
@@ -0,0 +1,291 @@ 
+/*
+ *  Copyright(c) 2019-2020 Qualcomm Innovation Center, Inc. All Rights Reserved.
+ *
+ *  This program is free software; you can redistribute it and/or modify
+ *  it under the terms of the GNU General Public License as published by
+ *  the Free Software Foundation; either version 2 of the License, or
+ *  (at your option) any later version.
+ *
+ *  This program is distributed in the hope that it will be useful,
+ *  but WITHOUT ANY WARRANTY; without even the implied warranty of
+ *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ *  GNU General Public License for more details.
+ *
+ *  You should have received a copy of the GNU General Public License
+ *  along with this program; if not, see <http://www.gnu.org/licenses/>.
+ */
+
+#include <stdio.h>
+
+/*
+ *  Make sure that the :mem_noshuf packet attribute is honored.
+ *  This is important when the addresses overlap.
+ *  The store instruction in slot 1 effectively executes first,
+ *  followed by the load instruction in slot 0.
+ */
+
+#define MEM_NOSHUF32(NAME, ST_TYPE, LD_TYPE, ST_OP, LD_OP) \
+static inline unsigned int NAME(ST_TYPE * p, LD_TYPE * q, ST_TYPE x) \
+{ \
+    unsigned int ret; \
+    asm volatile("{\n\t" \
+                 "    " #ST_OP "(%1) = %3\n\t" \
+                 "    %0 = " #LD_OP "(%2)\n\t" \
+                 "}:mem_noshuf\n" \
+                 : "=r"(ret) \
+                 : "r"(p), "r"(q), "r"(x) \
+                 : "memory"); \
+    return ret; \
+}
+
+#define MEM_NOSHUF64(NAME, ST_TYPE, LD_TYPE, ST_OP, LD_OP) \
+static inline unsigned long long NAME(ST_TYPE * p, LD_TYPE * q, ST_TYPE x) \
+{ \
+    unsigned long long ret; \
+    asm volatile("{\n\t" \
+                 "    " #ST_OP "(%1) = %3\n\t" \
+                 "    %0 = " #LD_OP "(%2)\n\t" \
+                 "}:mem_noshuf\n" \
+                 : "=r"(ret) \
+                 : "r"(p), "r"(q), "r"(x) \
+                 : "memory"); \
+    return ret; \
+}
+
+/* Store byte combinations */
+MEM_NOSHUF32(mem_noshuf_sb_lb,  signed char,  signed char,      memb, memb)
+MEM_NOSHUF32(mem_noshuf_sb_lub, signed char,  unsigned char,    memb, memub)
+MEM_NOSHUF32(mem_noshuf_sb_lh,  signed char,  signed short,     memb, memh)
+MEM_NOSHUF32(mem_noshuf_sb_luh, signed char,  unsigned short,   memb, memuh)
+MEM_NOSHUF32(mem_noshuf_sb_lw,  signed char,  signed int,       memb, memw)
+MEM_NOSHUF64(mem_noshuf_sb_ld,  signed char,  signed long long, memb, memd)
+
+/* Store half combinations */
+MEM_NOSHUF32(mem_noshuf_sh_lb,  signed short, signed char,      memh, memb)
+MEM_NOSHUF32(mem_noshuf_sh_lub, signed short, unsigned char,    memh, memub)
+MEM_NOSHUF32(mem_noshuf_sh_lh,  signed short, signed short,     memh, memh)
+MEM_NOSHUF32(mem_noshuf_sh_luh, signed short, unsigned short,   memh, memuh)
+MEM_NOSHUF32(mem_noshuf_sh_lw,  signed short, signed int,       memh, memw)
+MEM_NOSHUF64(mem_noshuf_sh_ld,  signed short, signed long long, memh, memd)
+
+/* Store word combinations */
+MEM_NOSHUF32(mem_noshuf_sw_lb,  signed int,   signed char,      memw, memb)
+MEM_NOSHUF32(mem_noshuf_sw_lub, signed int,   unsigned char,    memw, memub)
+MEM_NOSHUF32(mem_noshuf_sw_lh,  signed int,   signed short,     memw, memh)
+MEM_NOSHUF32(mem_noshuf_sw_luh, signed int,   unsigned short,   memw, memuh)
+MEM_NOSHUF32(mem_noshuf_sw_lw,  signed int,   signed int,       memw, memw)
+MEM_NOSHUF64(mem_noshuf_sw_ld,  signed int,   signed long long, memw, memd)
+
+/* Store double combinations */
+MEM_NOSHUF32(mem_noshuf_sd_lb,  long long,    signed char,      memd, memb)
+MEM_NOSHUF32(mem_noshuf_sd_lub, long long,    unsigned char,    memd, memub)
+MEM_NOSHUF32(mem_noshuf_sd_lh,  long long,    signed short,     memd, memh)
+MEM_NOSHUF32(mem_noshuf_sd_luh, long long,    unsigned short,   memd, memuh)
+MEM_NOSHUF32(mem_noshuf_sd_lw,  long long,    signed int,       memd, memw)
+MEM_NOSHUF64(mem_noshuf_sd_ld,  long long,    signed long long, memd, memd)
+
+static inline unsigned int cancel_sw_lb(int pred, int *p, signed char *q, int x)
+{
+    unsigned int ret;
+    asm volatile("p0 = cmp.eq(%4, #0)\n\t"
+                 "{\n\t"
+                 "    if (!p0) memw(%1) = %3\n\t"
+                 "    %0 = memb(%2)\n\t"
+                 "}:mem_noshuf\n"
+                 : "=r"(ret)
+                 : "r"(p), "r"(q), "r"(x), "r"(pred)
+                 : "p0", "memory");
+    return ret;
+}
+
+static inline
+unsigned long long cancel_sw_ld(int pred, int *p, long long *q, int x)
+{
+    long long ret;
+    asm volatile("p0 = cmp.eq(%4, #0)\n\t"
+                 "{\n\t"
+                 "    if (!p0) memw(%1) = %3\n\t"
+                 "    %0 = memd(%2)\n\t"
+                 "}:mem_noshuf\n"
+                 : "=r"(ret)
+                 : "r"(p), "r"(q), "r"(x), "r"(pred)
+                 : "p0", "memory");
+    return ret;
+}
+
+typedef union {
+    signed long long d;
+    unsigned long long ud;
+    signed int w[2];
+    unsigned int uw[2];
+    signed short h[4];
+    unsigned short uh[4];
+    signed char b[8];
+    unsigned char ub[8];
+} Memory;
+
+int err;
+
+static void check32(int n, int expect)
+{
+    if (n != expect) {
+        printf("ERROR: 0x%08x != 0x%08x\n", n, expect);
+        err++;
+    }
+}
+
+static void check64(long long n, long long expect)
+{
+    if (n != expect) {
+        printf("ERROR: 0x%08llx != 0x%08llx\n", n, expect);
+        err++;
+    }
+}
+
+int main()
+{
+    Memory n;
+    unsigned int res32;
+    unsigned long long res64;
+
+    /*
+     * Store byte combinations
+     */
+    n.w[0] = ~0;
+    res32 = mem_noshuf_sb_lb(&n.b[0], &n.b[0], 0x87);
+    check32(res32, 0xffffff87);
+
+    n.w[0] = ~0;
+    res32 = mem_noshuf_sb_lub(&n.b[0], &n.ub[0], 0x87);
+    check32(res32, 0x00000087);
+
+    n.w[0] = ~0;
+    res32 = mem_noshuf_sb_lh(&n.b[0], &n.h[0], 0x87);
+    check32(res32, 0xffffff87);
+
+    n.w[0] = ~0;
+    res32 = mem_noshuf_sb_luh(&n.b[0], &n.uh[0], 0x87);
+    check32(res32, 0x0000ff87);
+
+    n.w[0] = ~0;
+    res32 = mem_noshuf_sb_lw(&n.b[0], &n.w[0], 0x87);
+    check32(res32, 0xffffff87);
+
+    n.d = ~0;
+    res64 = mem_noshuf_sb_ld(&n.b[0], &n.d, 0x87);
+    check64(res64, 0xffffffffffffff87);
+
+    /*
+     * Store half combinations
+     */
+    n.w[0] = ~0;
+    res32 = mem_noshuf_sh_lb(&n.h[0], &n.b[0], 0x8787);
+    check32(res32, 0xffffff87);
+
+    n.w[0] = ~0;
+    res32 = mem_noshuf_sh_lub(&n.h[0], &n.ub[1], 0x8f87);
+    check32(res32, 0x0000008f);
+
+    n.w[0] = ~0;
+    res32 = mem_noshuf_sh_lh(&n.h[0], &n.h[0], 0x8a87);
+    check32(res32, 0xffff8a87);
+
+    n.w[0] = ~0;
+    res32 = mem_noshuf_sh_luh(&n.h[0], &n.uh[0], 0x8a87);
+    check32(res32, 0x8a87);
+
+    n.w[0] = ~0;
+    res32 = mem_noshuf_sh_lw(&n.h[1], &n.w[0], 0x8a87);
+    check32(res32, 0x8a87ffff);
+
+    n.w[0] = ~0;
+    res64 = mem_noshuf_sh_ld(&n.h[1], &n.d, 0x8a87);
+    check64(res64, 0xffffffff8a87ffff);
+
+    /*
+     * Store word combinations
+     */
+    n.w[0] = ~0;
+    res32 = mem_noshuf_sw_lb(&n.w[0], &n.b[0], 0x12345687);
+    check32(res32, 0xffffff87);
+
+    n.w[0] = ~0;
+    res32 = mem_noshuf_sw_lub(&n.w[0], &n.ub[0], 0x12345687);
+    check32(res32, 0x00000087);
+
+    n.w[0] = ~0;
+    res32 = mem_noshuf_sw_lh(&n.w[0], &n.h[0], 0x1234f678);
+    check32(res32, 0xfffff678);
+
+    n.w[0] = ~0;
+    res32 = mem_noshuf_sw_luh(&n.w[0], &n.uh[0], 0x12345678);
+    check32(res32, 0x00005678);
+
+    n.w[0] = ~0;
+    res32 = mem_noshuf_sw_lw(&n.w[0], &n.w[0], 0x12345678);
+    check32(res32, 0x12345678);
+
+    n.d = ~0;
+    res64 = mem_noshuf_sw_ld(&n.w[0], &n.d, 0x12345678);
+    check64(res64, 0xffffffff12345678);
+
+    /*
+     * Store double combinations
+     */
+    n.d = ~0;
+    res32 = mem_noshuf_sd_lb(&n.d, &n.b[1], 0x123456789abcdef0);
+    check32(res32, 0xffffffde);
+
+    n.d = ~0;
+    res32 = mem_noshuf_sd_lub(&n.d, &n.ub[1], 0x123456789abcdef0);
+    check32(res32, 0x000000de);
+
+    n.d = ~0;
+    res32 = mem_noshuf_sd_lh(&n.d, &n.h[1], 0x123456789abcdef0);
+    check32(res32, 0xffff9abc);
+
+    n.d = ~0;
+    res32 = mem_noshuf_sd_luh(&n.d, &n.uh[1], 0x123456789abcdef0);
+    check32(res32, 0x00009abc);
+
+    n.d = ~0;
+    res32 = mem_noshuf_sd_lw(&n.d, &n.w[1], 0x123456789abcdef0);
+    check32(res32, 0x12345678);
+
+    n.d = ~0;
+    res64 = mem_noshuf_sd_ld(&n.d, &n.d, 0x123456789abcdef0);
+    check64(res64, 0x123456789abcdef0);
+
+    /*
+     * Predicated word stores
+     */
+    n.w[0] = ~0;
+    res32 = cancel_sw_lb(0, &n.w[0], &n.b[0], 0x12345678);
+    check32(res32, 0xffffffff);
+
+    n.w[0] = ~0;
+    res32 = cancel_sw_lb(1, &n.w[0], &n.b[0], 0x12345687);
+    check32(res32, 0xffffff87);
+
+    /*
+     * Predicated double stores
+     */
+    n.d = ~0;
+    res64 = cancel_sw_ld(0, &n.w[0], &n.d, 0x12345678);
+    check64(res64, 0xffffffffffffffff);
+
+    n.d = ~0;
+    res64 = cancel_sw_ld(1, &n.w[0], &n.d, 0x12345678);
+    check64(res64, 0xffffffff12345678);
+
+    n.d = ~0;
+    res64 = cancel_sw_ld(0, &n.w[1], &n.d, 0x12345678);
+    check64(res64, 0xffffffffffffffff);
+
+    n.d = ~0;
+    res64 = cancel_sw_ld(1, &n.w[1], &n.d, 0x12345678);
+    check64(res64, 0x12345678ffffffff);
+
+    puts(err ? "FAIL" : "PASS");
+    return err;
+}
diff --git a/tests/tcg/hexagon/misc.c b/tests/tcg/hexagon/misc.c
new file mode 100644
index 0000000..796ac74
--- /dev/null
+++ b/tests/tcg/hexagon/misc.c
@@ -0,0 +1,293 @@ 
+/*
+ *  Copyright(c) 2019-2020 Qualcomm Innovation Center, Inc. All Rights Reserved.
+ *
+ *  This program is free software; you can redistribute it and/or modify
+ *  it under the terms of the GNU General Public License as published by
+ *  the Free Software Foundation; either version 2 of the License, or
+ *  (at your option) any later version.
+ *
+ *  This program is distributed in the hope that it will be useful,
+ *  but WITHOUT ANY WARRANTY; without even the implied warranty of
+ *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ *  GNU General Public License for more details.
+ *
+ *  You should have received a copy of the GNU General Public License
+ *  along with this program; if not, see <http://www.gnu.org/licenses/>.
+ */
+
+#include <stdio.h>
+#include <string.h>
+
+typedef unsigned char uint8_t;
+typedef unsigned short uint16_t;
+typedef unsigned int uint32_t;
+
+
+static inline void S4_storerhnew_rr(void *p, int index, uint16_t v)
+{
+  asm volatile("{\n\t"
+               "    r0 = %0\n\n"
+               "    memh(%1+%2<<#2) = r0.new\n\t"
+               "}\n"
+               :: "r"(v), "r"(p), "r"(index)
+               : "r0", "memory");
+}
+
+static uint32_t data;
+static inline void *S4_storerbnew_ap(uint8_t v)
+{
+  void *ret;
+  asm volatile("{\n\t"
+               "    r0 = %1\n\n"
+               "    memb(%0 = ##data) = r0.new\n\t"
+               "}\n"
+               : "=r"(ret)
+               : "r"(v)
+               : "r0", "memory");
+  return ret;
+}
+
+static inline void *S4_storerhnew_ap(uint16_t v)
+{
+  void *ret;
+  asm volatile("{\n\t"
+               "    r0 = %1\n\n"
+               "    memh(%0 = ##data) = r0.new\n\t"
+               "}\n"
+               : "=r"(ret)
+               : "r"(v)
+               : "r0", "memory");
+  return ret;
+}
+
+static inline void *S4_storerinew_ap(uint32_t v)
+{
+  void *ret;
+  asm volatile("{\n\t"
+               "    r0 = %1\n\n"
+               "    memw(%0 = ##data) = r0.new\n\t"
+               "}\n"
+               : "=r"(ret)
+               : "r"(v)
+               : "r0", "memory");
+  return ret;
+}
+
+static inline void S4_storeirbt_io(void *p, int pred)
+{
+  asm volatile("p0 = cmp.eq(%0, #1)\n\t"
+               "if (p0) memb(%1+#4)=#27\n\t"
+               :: "r"(pred), "r"(p)
+               : "p0", "memory");
+}
+
+static inline void S4_storeirbf_io(void *p, int pred)
+{
+  asm volatile("p0 = cmp.eq(%0, #1)\n\t"
+               "if (!p0) memb(%1+#4)=#27\n\t"
+               :: "r"(pred), "r"(p)
+               : "p0", "memory");
+}
+
+static inline void S4_storeirbtnew_io(void *p, int pred)
+{
+  asm volatile("{\n\t"
+               "    p0 = cmp.eq(%0, #1)\n\t"
+               "    if (p0.new) memb(%1+#4)=#27\n\t"
+               "}\n\t"
+               :: "r"(pred), "r"(p)
+               : "p0", "memory");
+}
+
+static inline void S4_storeirbfnew_io(void *p, int pred)
+{
+  asm volatile("{\n\t"
+               "    p0 = cmp.eq(%0, #1)\n\t"
+               "    if (!p0.new) memb(%1+#4)=#27\n\t"
+               "}\n\t"
+               :: "r"(pred), "r"(p)
+               : "p0", "memory");
+}
+
+static inline void S4_storeirht_io(void *p, int pred)
+{
+  asm volatile("p0 = cmp.eq(%0, #1)\n\t"
+               "if (p0) memh(%1+#4)=#27\n\t"
+               :: "r"(pred), "r"(p)
+               : "p0", "memory");
+}
+
+static inline void S4_storeirhf_io(void *p, int pred)
+{
+  asm volatile("p0 = cmp.eq(%0, #1)\n\t"
+               "if (!p0) memh(%1+#4)=#27\n\t"
+               :: "r"(pred), "r"(p)
+               : "p0", "memory");
+}
+
+static inline void S4_storeirhtnew_io(void *p, int pred)
+{
+  asm volatile("{\n\t"
+               "    p0 = cmp.eq(%0, #1)\n\t"
+               "    if (p0.new) memh(%1+#4)=#27\n\t"
+               "}\n\t"
+               :: "r"(pred), "r"(p)
+               : "p0", "memory");
+}
+
+static inline void S4_storeirhfnew_io(void *p, int pred)
+{
+  asm volatile("{\n\t"
+               "    p0 = cmp.eq(%0, #1)\n\t"
+               "    if (!p0.new) memh(%1+#4)=#27\n\t"
+               "}\n\t"
+               :: "r"(pred), "r"(p)
+               : "p0", "memory");
+}
+
+static inline void S4_storeirit_io(void *p, int pred)
+{
+  asm volatile("p0 = cmp.eq(%0, #1)\n\t"
+               "if (p0) memw(%1+#4)=#27\n\t"
+               :: "r"(pred), "r"(p)
+               : "p0", "memory");
+}
+
+static inline void S4_storeirif_io(void *p, int pred)
+{
+  asm volatile("p0 = cmp.eq(%0, #1)\n\t"
+               "if (!p0) memw(%1+#4)=#27\n\t"
+               :: "r"(pred), "r"(p)
+               : "p0", "memory");
+}
+
+static inline void S4_storeiritnew_io(void *p, int pred)
+{
+  asm volatile("{\n\t"
+               "    p0 = cmp.eq(%0, #1)\n\t"
+               "    if (p0.new) memw(%1+#4)=#27\n\t"
+               "}\n\t"
+               :: "r"(pred), "r"(p)
+               : "p0", "memory");
+}
+
+static inline void S4_storeirifnew_io(void *p, int pred)
+{
+  asm volatile("{\n\t"
+               "    p0 = cmp.eq(%0, #1)\n\t"
+               "    if (!p0.new) memw(%1+#4)=#27\n\t"
+               "}\n\t"
+               :: "r"(pred), "r"(p)
+               : "p0", "memory");
+}
+
+int err;
+
+static void check(int val, int expect)
+{
+    if (val != expect) {
+        printf("ERROR: 0x%04x != 0x%04x\n", val, expect);
+        err++;
+    }
+}
+
+uint32_t init[10] = { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9 };
+uint32_t array[10];
+
+int main()
+{
+
+    memcpy(array, init, sizeof(array));
+    S4_storerhnew_rr(array, 4, 0xffff);
+    check(array[4], 0xffff);
+
+    data = ~0;
+    check((uint32_t)S4_storerbnew_ap(0x12), (uint32_t)&data);
+    check(data, 0xffffff12);
+
+    data = ~0;
+    check((uint32_t)S4_storerhnew_ap(0x1234), (uint32_t)&data);
+    check(data, 0xffff1234);
+
+    data = ~0;
+    check((uint32_t)S4_storerinew_ap(0x12345678), (uint32_t)&data);
+    check(data, 0x12345678);
+
+    /* Byte */
+    memcpy(array, init, sizeof(array));
+    S4_storeirbt_io(&array[1], 1);
+    check(array[2], 27);
+    S4_storeirbt_io(&array[2], 0);
+    check(array[3], 3);
+
+    memcpy(array, init, sizeof(array));
+    S4_storeirbf_io(&array[3], 0);
+    check(array[4], 27);
+    S4_storeirbf_io(&array[4], 1);
+    check(array[5], 5);
+
+    memcpy(array, init, sizeof(array));
+    S4_storeirbtnew_io(&array[5], 1);
+    check(array[6], 27);
+    S4_storeirbtnew_io(&array[6], 0);
+    check(array[7], 7);
+
+    memcpy(array, init, sizeof(array));
+    S4_storeirbfnew_io(&array[7], 0);
+    check(array[8], 27);
+    S4_storeirbfnew_io(&array[8], 1);
+    check(array[9], 9);
+
+    /* Half word */
+    memcpy(array, init, sizeof(array));
+    S4_storeirht_io(&array[1], 1);
+    check(array[2], 27);
+    S4_storeirht_io(&array[2], 0);
+    check(array[3], 3);
+
+    memcpy(array, init, sizeof(array));
+    S4_storeirhf_io(&array[3], 0);
+    check(array[4], 27);
+    S4_storeirhf_io(&array[4], 1);
+    check(array[5], 5);
+
+    memcpy(array, init, sizeof(array));
+    S4_storeirhtnew_io(&array[5], 1);
+    check(array[6], 27);
+    S4_storeirhtnew_io(&array[6], 0);
+    check(array[7], 7);
+
+    memcpy(array, init, sizeof(array));
+    S4_storeirhfnew_io(&array[7], 0);
+    check(array[8], 27);
+    S4_storeirhfnew_io(&array[8], 1);
+    check(array[9], 9);
+
+    /* Word */
+    memcpy(array, init, sizeof(array));
+    S4_storeirit_io(&array[1], 1);
+    check(array[2], 27);
+    S4_storeirit_io(&array[2], 0);
+    check(array[3], 3);
+
+    memcpy(array, init, sizeof(array));
+    S4_storeirif_io(&array[3], 0);
+    check(array[4], 27);
+    S4_storeirif_io(&array[4], 1);
+    check(array[5], 5);
+
+    memcpy(array, init, sizeof(array));
+    S4_storeiritnew_io(&array[5], 1);
+    check(array[6], 27);
+    S4_storeiritnew_io(&array[6], 0);
+    check(array[7], 7);
+
+    memcpy(array, init, sizeof(array));
+    S4_storeirifnew_io(&array[7], 0);
+    check(array[8], 27);
+    S4_storeirifnew_io(&array[8], 1);
+    check(array[9], 9);
+
+    puts(err ? "FAIL" : "PASS");
+    return err;
+}
diff --git a/tests/tcg/hexagon/preg_alias.c b/tests/tcg/hexagon/preg_alias.c
new file mode 100644
index 0000000..4d51674
--- /dev/null
+++ b/tests/tcg/hexagon/preg_alias.c
@@ -0,0 +1,106 @@ 
+/*
+ *  Copyright(c) 2019-2020 Qualcomm Innovation Center, Inc. All Rights Reserved.
+ *
+ *  This program is free software; you can redistribute it and/or modify
+ *  it under the terms of the GNU General Public License as published by
+ *  the Free Software Foundation; either version 2 of the License, or
+ *  (at your option) any later version.
+ *
+ *  This program is distributed in the hope that it will be useful,
+ *  but WITHOUT ANY WARRANTY; without even the implied warranty of
+ *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ *  GNU General Public License for more details.
+ *
+ *  You should have received a copy of the GNU General Public License
+ *  along with this program; if not, see <http://www.gnu.org/licenses/>.
+ */
+
+#include <stdio.h>
+
+static inline int preg_alias(int v0, int v1, int v2, int v3)
+{
+  int ret;
+  asm volatile("p0 = %1\n\t"
+               "p1 = %2\n\t"
+               "p2 = %3\n\t"
+               "p3 = %4\n\t"
+               "%0 = C4\n"
+               : "=r"(ret)
+               : "r"(v0), "r"(v1), "r"(v2), "r"(v3)
+               : "p0", "p1", "p2", "p3");
+  return ret;
+}
+
+typedef union {
+    int creg;
+    struct {
+      unsigned char p0;
+      unsigned char p1;
+      unsigned char p2;
+      unsigned char p3;
+    } pregs;
+} PRegs;
+
+static inline void creg_alias(int cval, PRegs *pregs)
+{
+  unsigned char val;
+  asm volatile("c4 = %0" : : "r"(cval));
+
+  asm volatile("%0 = p0" : "=r"(val));
+  pregs->pregs.p0 = val;
+  asm volatile("%0 = p1" : "=r"(val));
+  pregs->pregs.p1 = val;
+  asm volatile("%0 = p2" : "=r"(val));
+  pregs->pregs.p2 = val;
+  asm volatile("%0 = p3" : "=r"(val));
+  pregs->pregs.p3 = val;
+}
+
+int err;
+
+static void check(int val, int expect)
+{
+    if (val != expect) {
+        printf("ERROR: 0x%08x != 0x%08x\n", val, expect);
+        err++;
+    }
+}
+
+int main()
+{
+    int c4;
+    PRegs pregs;
+
+    c4 = preg_alias(0xff, 0x00, 0xff, 0x00);
+    check(c4, 0x00ff00ff);
+    c4 = preg_alias(0xff, 0x00, 0x00, 0x00);
+    check(c4, 0x000000ff);
+    c4 = preg_alias(0x00, 0xff, 0x00, 0x00);
+    check(c4, 0x0000ff00);
+    c4 = preg_alias(0x00, 0x00, 0xff, 0x00);
+    check(c4, 0x00ff0000);
+    c4 = preg_alias(0x00, 0x00, 0x00, 0xff);
+    check(c4, 0xff000000);
+    c4 = preg_alias(0xff, 0xff, 0xff, 0xff);
+    check(c4, 0xffffffff);
+
+    creg_alias(0x00ff00ff, &pregs);
+    check(pregs.creg, 0x00ff00ff);
+    creg_alias(0x00ffff00, &pregs);
+    check(pregs.creg, 0x00ffff00);
+    creg_alias(0x00000000, &pregs);
+    check(pregs.creg, 0x00000000);
+    creg_alias(0xff000000, &pregs);
+    check(pregs.creg, 0xff000000);
+    creg_alias(0x00ff0000, &pregs);
+    check(pregs.creg, 0x00ff0000);
+    creg_alias(0x0000ff00, &pregs);
+    check(pregs.creg, 0x0000ff00);
+    creg_alias(0x000000ff, &pregs);
+    check(pregs.creg, 0x000000ff);
+    creg_alias(0xffffffff, &pregs);
+    check(pregs.creg, 0xffffffff);
+
+    puts(err ? "FAIL" : "PASS");
+    return err;
+}
diff --git a/tests/tcg/hexagon/pthread_cancel.c b/tests/tcg/hexagon/pthread_cancel.c
new file mode 100644
index 0000000..db30cbc
--- /dev/null
+++ b/tests/tcg/hexagon/pthread_cancel.c
@@ -0,0 +1,43 @@ 
+/*
+ *  Copyright(c) 2019-2020 Qualcomm Innovation Center, Inc. All Rights Reserved.
+ *
+ *  This program is free software; you can redistribute it and/or modify
+ *  it under the terms of the GNU General Public License as published by
+ *  the Free Software Foundation; either version 2 of the License, or
+ *  (at your option) any later version.
+ *
+ *  This program is distributed in the hope that it will be useful,
+ *  but WITHOUT ANY WARRANTY; without even the implied warranty of
+ *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ *  GNU General Public License for more details.
+ *
+ *  You should have received a copy of the GNU General Public License
+ *  along with this program; if not, see <http://www.gnu.org/licenses/>.
+ */
+
+#include <stdio.h>
+#include <unistd.h>
+#include <pthread.h>
+
+static void *func(void *arg)
+{
+    sleep(3);
+    return 0;
+}
+
+int main()
+{
+    int err = 0;
+    pthread_t thread;
+    void *res;
+
+    pthread_create(&thread, 0, func, NULL);
+    pthread_cancel(thread);
+    pthread_join(thread, &res);
+    if (res != PTHREAD_CANCELED) {
+        err++;
+    }
+
+    puts(err == 0 ? "PASS" : "FAIL");
+    return err == 0 ? 0 : -1;
+}
diff --git a/tests/tcg/hexagon/sfminmax.c b/tests/tcg/hexagon/sfminmax.c
new file mode 100644
index 0000000..cfe443f
--- /dev/null
+++ b/tests/tcg/hexagon/sfminmax.c
@@ -0,0 +1,62 @@ 
+/*
+ *  Copyright(c) 2020 Qualcomm Innovation Center, Inc. All Rights Reserved.
+ *
+ *  This program is free software; you can redistribute it and/or modify
+ *  it under the terms of the GNU General Public License as published by
+ *  the Free Software Foundation; either version 2 of the License, or
+ *  (at your option) any later version.
+ *
+ *  This program is distributed in the hope that it will be useful,
+ *  but WITHOUT ANY WARRANTY; without even the implied warranty of
+ *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ *  GNU General Public License for more details.
+ *
+ *  You should have received a copy of the GNU General Public License
+ *  along with this program; if not, see <http://www.gnu.org/licenses/>.
+ */
+
+#include <stdio.h>
+
+/*
+ * This test checks that the FP invalid bit in USR is not set
+ * when one of the operands is NaN.
+ */
+const int FPINVF_BIT = 1;
+
+int err;
+
+int main()
+{
+    int usr;
+
+    asm volatile("r2 = usr\n\t"
+                 "r2 = clrbit(r2, #%1)\n\t"
+                 "usr = r2\n\t"
+                 "r2 = ##0x7fc00000\n\t"    /* NaN */
+                 "r3 = ##0x7f7fffff\n\t"
+                 "r2 = sfmin(r2, r3)\n\t"
+                 "%0 = usr\n\t"
+                 : "=r"(usr) : "i"(FPINVF_BIT) : "r2", "r3", "usr");
+
+    if (usr & (1 << FPINVF_BIT)) {
+        puts("sfmin test failed");
+        err++;
+    }
+
+    asm volatile("r2 = usr\n\t"
+                 "r2 = clrbit(r2, #%1)\n\t"
+                 "usr = r2\n\t"
+                 "r2 = ##0x7fc00000\n\t"    /* NaN */
+                 "r3 = ##0x7f7fffff\n\t"
+                 "r2 = sfmax(r2, r3)\n\t"
+                 "%0 = usr\n\t"
+                 : "=r"(usr) : "i"(FPINVF_BIT) : "r2", "r3", "usr");
+
+    if (usr & (1 << FPINVF_BIT)) {
+        puts("sfmax test failed");
+        err++;
+    }
+
+    puts(err ? "FAIL" : "PASS");
+    return err ? 1 : 0;
+}
diff --git a/tests/tcg/configure.sh b/tests/tcg/configure.sh
index 598a50c..9a7135b 100755
--- a/tests/tcg/configure.sh
+++ b/tests/tcg/configure.sh
@@ -69,6 +69,8 @@  fi
 : ${cross_cc_cflags_sparc64="-m64 -mcpu=ultrasparc"}
 : ${cross_cc_x86_64="x86_64-pc-linux-gnu-gcc"}
 : ${cross_cc_cflags_x86_64="-m64"}
+: ${cross_cc_hexagon="hexagon-linux-clang"}
+: ${cross_cc_cflags_hexagon="-mv67 -O2 -Wno-incompatible-pointer-types"}
 
 for target in $target_list; do
   arch=${target%%-*}
@@ -94,7 +96,7 @@  for target in $target_list; do
     xtensa|xtensaeb)
       arches=xtensa
       ;;
-    alpha|cris|hppa|i386|lm32|microblaze|microblazeel|m68k|openrisc|riscv64|s390x|sh4|sparc64)
+    alpha|cris|hexagon|hppa|i386|lm32|microblaze|microblazeel|m68k|openrisc|riscv64|s390x|sh4|sparc64)
       arches=$target
       ;;
     *)
diff --git a/tests/tcg/hexagon/Makefile.target b/tests/tcg/hexagon/Makefile.target
new file mode 100644
index 0000000..f696c78
--- /dev/null
+++ b/tests/tcg/hexagon/Makefile.target
@@ -0,0 +1,49 @@ 
+##
+##  Copyright(c) 2019-2020 Qualcomm Innovation Center, Inc. All Rights Reserved.
+##
+##  This program is free software; you can redistribute it and/or modify
+##  it under the terms of the GNU General Public License as published by
+##  the Free Software Foundation; either version 2 of the License, or
+##  (at your option) any later version.
+##
+##  This program is distributed in the hope that it will be useful,
+##  but WITHOUT ANY WARRANTY; without even the implied warranty of
+##  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+##  GNU General Public License for more details.
+##
+##  You should have received a copy of the GNU General Public License
+##  along with this program; if not, see <http://www.gnu.org/licenses/>.
+##
+
+# Hexagon doesn't support gdb, so skip the EXTRA_RUNS
+EXTRA_RUNS =
+
+# Hexagon has 64K pages, so increase the timeout to keep
+# test-mmap from timing out
+ifeq ($(CONFIG_DEBUG_TCG),y)
+TIMEOUT=90
+else
+TIMEOUT=40
+endif
+
+
+CFLAGS = -mv67 -O2
+
+HEX_SRC=$(SRC_PATH)/tests/tcg/hexagon
+VPATH += $(HEX_SRC)
+
+first: $(HEX_SRC)/first.S
+	$(CC) -static -mv67 -nostdlib $^ -o $@
+
+HEX_TESTS = first
+HEX_TESTS += exec_counters
+HEX_TESTS += misc
+HEX_TESTS += preg_alias
+HEX_TESTS += dual_stores
+HEX_TESTS += clrtnew
+HEX_TESTS += mem_noshuf
+HEX_TESTS += pthread_cancel
+HEX_TESTS += atomics
+HEX_TESTS += sfminmax
+
+TESTS += $(HEX_TESTS)
diff --git a/tests/tcg/hexagon/first.S b/tests/tcg/hexagon/first.S
new file mode 100644
index 0000000..841c0bb
--- /dev/null
+++ b/tests/tcg/hexagon/first.S
@@ -0,0 +1,57 @@ 
+/*
+ *  Copyright(c) 2019-2020 Qualcomm Innovation Center, Inc. All Rights Reserved.
+ *
+ *  This program is free software; you can redistribute it and/or modify
+ *  it under the terms of the GNU General Public License as published by
+ *  the Free Software Foundation; either version 2 of the License, or
+ *  (at your option) any later version.
+ *
+ *  This program is distributed in the hope that it will be useful,
+ *  but WITHOUT ANY WARRANTY; without even the implied warranty of
+ *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ *  GNU General Public License for more details.
+ *
+ *  You should have received a copy of the GNU General Public License
+ *  along with this program; if not, see <http://www.gnu.org/licenses/>.
+ */
+
+#define SYS_write		 64
+#define SYS_exit_group           94
+#define SYS_exit                 93
+
+#define FD_STDOUT                1
+
+	.type	str,@object
+	.section	.rodata
+str:
+	.string	"Hello!\n"
+	.size	str, 8
+
+.text
+.global _start
+_start:
+	r6 = #SYS_write
+	r0 = #FD_STDOUT
+	r1 = ##str
+	r2 = #7
+	trap0(#1)
+
+	r0 = #0
+	r6 = #SYS_exit_group
+	trap0(#1)
+
+.section ".note.ABI-tag", "a"
+.align 4
+.long 1f - 0f          /* name length */
+.long 3f - 2f          /* data length */
+.long  1               /* note type */
+
+/*
+ * vendor name seems like this should be MUSL but lldb doesn't agree.
+ */
+0:     .asciz "GNU"
+1:     .align 4
+2:     .long 0 /* linux */
+       .long 3,0,0
+3:     .align 4
+
diff --git a/tests/tcg/hexagon/float_convs.ref b/tests/tcg/hexagon/float_convs.ref
new file mode 100644
index 0000000..9ec9ffc
--- /dev/null
+++ b/tests/tcg/hexagon/float_convs.ref
@@ -0,0 +1,748 @@ 
+### Rounding to nearest
+from single: f32(-nan:0xffa00000)
+  to double: f64(-nan:0x00ffffffffffffffff) (INVALID)
+   to int32: -1 (INVALID)
+   to int64: -1 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+from single: f32(-nan:0xffc00000)
+  to double: f64(-nan:0x00ffffffffffffffff) (OK)
+   to int32: -1 (INVALID)
+   to int64: -1 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+from single: f32(-inf:0xff800000)
+  to double: f64(-inf:0x00fff0000000000000) (OK)
+   to int32: -2147483648 (INVALID)
+   to int64: -9223372036854775808 (INVALID)
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+  to double: f64(-0x1.fffffe00000000000000p+127:0x00c7efffffe0000000) (INEXACT )
+   to int32: -2147483648 (INVALID)
+   to int64: -9223372036854775808 (INVALID)
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(-0x1.1874b200000000000000p+103:0xf30c3a59)
+  to double: f64(-0x1.1874b200000000000000p+103:0x00c661874b20000000) (INEXACT )
+   to int32: -2147483648 (INVALID)
+   to int64: -9223372036854775808 (INVALID)
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(-0x1.c0bab600000000000000p+99:0xf1605d5b)
+  to double: f64(-0x1.c0bab600000000000000p+99:0x00c62c0bab60000000) (INEXACT )
+   to int32: -2147483648 (INVALID)
+   to int64: -9223372036854775808 (INVALID)
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(-0x1.31f75000000000000000p-40:0xab98fba8)
+  to double: f64(-0x1.31f75000000000000000p-40:0x00bd731f7500000000) (INEXACT )
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(-0x1.50544400000000000000p-66:0x9ea82a22)
+  to double: f64(-0x1.50544400000000000000p-66:0x00bbd5054440000000) (INEXACT )
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(-0x1.00000000000000000000p-126:0x80800000)
+  to double: f64(-0x1.00000000000000000000p-126:0x00b810000000000000) (OK)
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(0x0.00000000000000000000p+0:0000000000)
+  to double: f64(0x0.00000000000000000000p+0:00000000000000000000) (OK)
+   to int32: 0 (OK)
+   to int64: 0 (OK)
+  to uint32: 0 (OK)
+  to uint64: 0 (OK)
+from single: f32(0x1.00000000000000000000p-126:0x00800000)
+  to double: f64(0x1.00000000000000000000p-126:0x003810000000000000) (OK)
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INEXACT )
+  to uint64: 0 (INEXACT )
+from single: f32(0x1.00000000000000000000p-25:0x33000000)
+  to double: f64(0x1.00000000000000000000p-25:0x003e60000000000000) (OK)
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INEXACT )
+  to uint64: 0 (INEXACT )
+from single: f32(0x1.ffffe600000000000000p-25:0x337ffff3)
+  to double: f64(0x1.ffffe600000000000000p-25:0x003e6ffffe60000000) (INEXACT )
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INEXACT )
+  to uint64: 0 (INEXACT )
+from single: f32(0x1.ff801a00000000000000p-15:0x387fc00d)
+  to double: f64(0x1.ff801a00000000000000p-15:0x003f0ff801a0000000) (INEXACT )
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INEXACT )
+  to uint64: 0 (INEXACT )
+from single: f32(0x1.00000c00000000000000p-14:0x38800006)
+  to double: f64(0x1.00000c00000000000000p-14:0x003f100000c0000000) (INEXACT )
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INEXACT )
+  to uint64: 0 (INEXACT )
+from single: f32(0x1.00000000000000000000p+0:0x3f800000)
+  to double: f64(0x1.00000000000000000000p+0:0x003ff0000000000000) (OK)
+   to int32: 1 (OK)
+   to int64: 1 (OK)
+  to uint32: 1 (OK)
+  to uint64: 1 (OK)
+from single: f32(0x1.00400000000000000000p+0:0x3f802000)
+  to double: f64(0x1.00400000000000000000p+0:0x003ff0040000000000) (INEXACT )
+   to int32: 1 (INEXACT )
+   to int64: 1 (INEXACT )
+  to uint32: 1 (INEXACT )
+  to uint64: 1 (INEXACT )
+from single: f32(0x1.00000000000000000000p+1:0x40000000)
+  to double: f64(0x1.00000000000000000000p+1:0x004000000000000000) (OK)
+   to int32: 2 (OK)
+   to int64: 2 (OK)
+  to uint32: 2 (OK)
+  to uint64: 2 (OK)
+from single: f32(0x1.5bf0a800000000000000p+1:0x402df854)
+  to double: f64(0x1.5bf0a800000000000000p+1:0x004005bf0a80000000) (INEXACT )
+   to int32: 2 (INEXACT )
+   to int64: 2 (INEXACT )
+  to uint32: 2 (INEXACT )
+  to uint64: 2 (INEXACT )
+from single: f32(0x1.921fb600000000000000p+1:0x40490fdb)
+  to double: f64(0x1.921fb600000000000000p+1:0x00400921fb60000000) (INEXACT )
+   to int32: 3 (INEXACT )
+   to int64: 3 (INEXACT )
+  to uint32: 3 (INEXACT )
+  to uint64: 3 (INEXACT )
+from single: f32(0x1.ffbe0000000000000000p+15:0x477fdf00)
+  to double: f64(0x1.ffbe0000000000000000p+15:0x0040effbe000000000) (INEXACT )
+   to int32: 65503 (OK)
+   to int64: 65503 (OK)
+  to uint32: 65503 (OK)
+  to uint64: 65503 (OK)
+from single: f32(0x1.ffc00000000000000000p+15:0x477fe000)
+  to double: f64(0x1.ffc00000000000000000p+15:0x0040effc0000000000) (INEXACT )
+   to int32: 65504 (OK)
+   to int64: 65504 (OK)
+  to uint32: 65504 (OK)
+  to uint64: 65504 (OK)
+from single: f32(0x1.ffc20000000000000000p+15:0x477fe100)
+  to double: f64(0x1.ffc20000000000000000p+15:0x0040effc2000000000) (INEXACT )
+   to int32: 65505 (OK)
+   to int64: 65505 (OK)
+  to uint32: 65505 (OK)
+  to uint64: 65505 (OK)
+from single: f32(0x1.ffbf0000000000000000p+16:0x47ffdf80)
+  to double: f64(0x1.ffbf0000000000000000p+16:0x0040fffbf000000000) (INEXACT )
+   to int32: 131007 (OK)
+   to int64: 131007 (OK)
+  to uint32: 131007 (OK)
+  to uint64: 131007 (OK)
+from single: f32(0x1.ffc00000000000000000p+16:0x47ffe000)
+  to double: f64(0x1.ffc00000000000000000p+16:0x0040fffc0000000000) (INEXACT )
+   to int32: 131008 (OK)
+   to int64: 131008 (OK)
+  to uint32: 131008 (OK)
+  to uint64: 131008 (OK)
+from single: f32(0x1.ffc10000000000000000p+16:0x47ffe080)
+  to double: f64(0x1.ffc10000000000000000p+16:0x0040fffc1000000000) (INEXACT )
+   to int32: 131009 (OK)
+   to int64: 131009 (OK)
+  to uint32: 131009 (OK)
+  to uint64: 131009 (OK)
+from single: f32(0x1.c0bab600000000000000p+99:0x71605d5b)
+  to double: f64(0x1.c0bab600000000000000p+99:0x00462c0bab60000000) (INEXACT )
+   to int32: 2147483647 (INVALID)
+   to int64: 9223372036854775807 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+from single: f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+  to double: f64(0x1.fffffe00000000000000p+127:0x0047efffffe0000000) (INEXACT )
+   to int32: 2147483647 (INVALID)
+   to int64: 9223372036854775807 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+from single: f32(inf:0x7f800000)
+  to double: f64(inf:0x007ff0000000000000) (OK)
+   to int32: 2147483647 (INVALID)
+   to int64: 9223372036854775807 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+from single: f32(-nan:0x7fc00000)
+  to double: f64(-nan:0x00ffffffffffffffff) (OK)
+   to int32: -1 (INVALID)
+   to int64: -1 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+from single: f32(-nan:0x7fa00000)
+  to double: f64(-nan:0x00ffffffffffffffff) (INVALID)
+   to int32: -1 (INVALID)
+   to int64: -1 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+### Rounding upwards
+from single: f32(-nan:0xffa00000)
+  to double: f64(-nan:0x00ffffffffffffffff) (INVALID)
+   to int32: -1 (INVALID)
+   to int64: -1 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+from single: f32(-nan:0xffc00000)
+  to double: f64(-nan:0x00ffffffffffffffff) (OK)
+   to int32: -1 (INVALID)
+   to int64: -1 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+from single: f32(-inf:0xff800000)
+  to double: f64(-inf:0x00fff0000000000000) (OK)
+   to int32: -2147483648 (INVALID)
+   to int64: -9223372036854775808 (INVALID)
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+  to double: f64(-0x1.fffffe00000000000000p+127:0x00c7efffffe0000000) (INEXACT )
+   to int32: -2147483648 (INVALID)
+   to int64: -9223372036854775808 (INVALID)
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(-0x1.1874b200000000000000p+103:0xf30c3a59)
+  to double: f64(-0x1.1874b200000000000000p+103:0x00c661874b20000000) (INEXACT )
+   to int32: -2147483648 (INVALID)
+   to int64: -9223372036854775808 (INVALID)
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(-0x1.c0bab600000000000000p+99:0xf1605d5b)
+  to double: f64(-0x1.c0bab600000000000000p+99:0x00c62c0bab60000000) (INEXACT )
+   to int32: -2147483648 (INVALID)
+   to int64: -9223372036854775808 (INVALID)
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(-0x1.31f75000000000000000p-40:0xab98fba8)
+  to double: f64(-0x1.31f75000000000000000p-40:0x00bd731f7500000000) (INEXACT )
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(-0x1.50544400000000000000p-66:0x9ea82a22)
+  to double: f64(-0x1.50544400000000000000p-66:0x00bbd5054440000000) (INEXACT )
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(-0x1.00000000000000000000p-126:0x80800000)
+  to double: f64(-0x1.00000000000000000000p-126:0x00b810000000000000) (OK)
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(0x0.00000000000000000000p+0:0000000000)
+  to double: f64(0x0.00000000000000000000p+0:00000000000000000000) (OK)
+   to int32: 0 (OK)
+   to int64: 0 (OK)
+  to uint32: 0 (OK)
+  to uint64: 0 (OK)
+from single: f32(0x1.00000000000000000000p-126:0x00800000)
+  to double: f64(0x1.00000000000000000000p-126:0x003810000000000000) (OK)
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INEXACT )
+  to uint64: 0 (INEXACT )
+from single: f32(0x1.00000000000000000000p-25:0x33000000)
+  to double: f64(0x1.00000000000000000000p-25:0x003e60000000000000) (OK)
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INEXACT )
+  to uint64: 0 (INEXACT )
+from single: f32(0x1.ffffe600000000000000p-25:0x337ffff3)
+  to double: f64(0x1.ffffe600000000000000p-25:0x003e6ffffe60000000) (INEXACT )
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INEXACT )
+  to uint64: 0 (INEXACT )
+from single: f32(0x1.ff801a00000000000000p-15:0x387fc00d)
+  to double: f64(0x1.ff801a00000000000000p-15:0x003f0ff801a0000000) (INEXACT )
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INEXACT )
+  to uint64: 0 (INEXACT )
+from single: f32(0x1.00000c00000000000000p-14:0x38800006)
+  to double: f64(0x1.00000c00000000000000p-14:0x003f100000c0000000) (INEXACT )
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INEXACT )
+  to uint64: 0 (INEXACT )
+from single: f32(0x1.00000000000000000000p+0:0x3f800000)
+  to double: f64(0x1.00000000000000000000p+0:0x003ff0000000000000) (OK)
+   to int32: 1 (OK)
+   to int64: 1 (OK)
+  to uint32: 1 (OK)
+  to uint64: 1 (OK)
+from single: f32(0x1.00400000000000000000p+0:0x3f802000)
+  to double: f64(0x1.00400000000000000000p+0:0x003ff0040000000000) (INEXACT )
+   to int32: 1 (INEXACT )
+   to int64: 1 (INEXACT )
+  to uint32: 1 (INEXACT )
+  to uint64: 1 (INEXACT )
+from single: f32(0x1.00000000000000000000p+1:0x40000000)
+  to double: f64(0x1.00000000000000000000p+1:0x004000000000000000) (OK)
+   to int32: 2 (OK)
+   to int64: 2 (OK)
+  to uint32: 2 (OK)
+  to uint64: 2 (OK)
+from single: f32(0x1.5bf0a800000000000000p+1:0x402df854)
+  to double: f64(0x1.5bf0a800000000000000p+1:0x004005bf0a80000000) (INEXACT )
+   to int32: 2 (INEXACT )
+   to int64: 2 (INEXACT )
+  to uint32: 2 (INEXACT )
+  to uint64: 2 (INEXACT )
+from single: f32(0x1.921fb600000000000000p+1:0x40490fdb)
+  to double: f64(0x1.921fb600000000000000p+1:0x00400921fb60000000) (INEXACT )
+   to int32: 3 (INEXACT )
+   to int64: 3 (INEXACT )
+  to uint32: 3 (INEXACT )
+  to uint64: 3 (INEXACT )
+from single: f32(0x1.ffbe0000000000000000p+15:0x477fdf00)
+  to double: f64(0x1.ffbe0000000000000000p+15:0x0040effbe000000000) (INEXACT )
+   to int32: 65503 (OK)
+   to int64: 65503 (OK)
+  to uint32: 65503 (OK)
+  to uint64: 65503 (OK)
+from single: f32(0x1.ffc00000000000000000p+15:0x477fe000)
+  to double: f64(0x1.ffc00000000000000000p+15:0x0040effc0000000000) (INEXACT )
+   to int32: 65504 (OK)
+   to int64: 65504 (OK)
+  to uint32: 65504 (OK)
+  to uint64: 65504 (OK)
+from single: f32(0x1.ffc20000000000000000p+15:0x477fe100)
+  to double: f64(0x1.ffc20000000000000000p+15:0x0040effc2000000000) (INEXACT )
+   to int32: 65505 (OK)
+   to int64: 65505 (OK)
+  to uint32: 65505 (OK)
+  to uint64: 65505 (OK)
+from single: f32(0x1.ffbf0000000000000000p+16:0x47ffdf80)
+  to double: f64(0x1.ffbf0000000000000000p+16:0x0040fffbf000000000) (INEXACT )
+   to int32: 131007 (OK)
+   to int64: 131007 (OK)
+  to uint32: 131007 (OK)
+  to uint64: 131007 (OK)
+from single: f32(0x1.ffc00000000000000000p+16:0x47ffe000)
+  to double: f64(0x1.ffc00000000000000000p+16:0x0040fffc0000000000) (INEXACT )
+   to int32: 131008 (OK)
+   to int64: 131008 (OK)
+  to uint32: 131008 (OK)
+  to uint64: 131008 (OK)
+from single: f32(0x1.ffc10000000000000000p+16:0x47ffe080)
+  to double: f64(0x1.ffc10000000000000000p+16:0x0040fffc1000000000) (INEXACT )
+   to int32: 131009 (OK)
+   to int64: 131009 (OK)
+  to uint32: 131009 (OK)
+  to uint64: 131009 (OK)
+from single: f32(0x1.c0bab600000000000000p+99:0x71605d5b)
+  to double: f64(0x1.c0bab600000000000000p+99:0x00462c0bab60000000) (INEXACT )
+   to int32: 2147483647 (INVALID)
+   to int64: 9223372036854775807 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+from single: f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+  to double: f64(0x1.fffffe00000000000000p+127:0x0047efffffe0000000) (INEXACT )
+   to int32: 2147483647 (INVALID)
+   to int64: 9223372036854775807 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+from single: f32(inf:0x7f800000)
+  to double: f64(inf:0x007ff0000000000000) (OK)
+   to int32: 2147483647 (INVALID)
+   to int64: 9223372036854775807 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+from single: f32(-nan:0x7fc00000)
+  to double: f64(-nan:0x00ffffffffffffffff) (OK)
+   to int32: -1 (INVALID)
+   to int64: -1 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+from single: f32(-nan:0x7fa00000)
+  to double: f64(-nan:0x00ffffffffffffffff) (INVALID)
+   to int32: -1 (INVALID)
+   to int64: -1 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+### Rounding downwards
+from single: f32(-nan:0xffa00000)
+  to double: f64(-nan:0x00ffffffffffffffff) (INVALID)
+   to int32: -1 (INVALID)
+   to int64: -1 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+from single: f32(-nan:0xffc00000)
+  to double: f64(-nan:0x00ffffffffffffffff) (OK)
+   to int32: -1 (INVALID)
+   to int64: -1 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+from single: f32(-inf:0xff800000)
+  to double: f64(-inf:0x00fff0000000000000) (OK)
+   to int32: -2147483648 (INVALID)
+   to int64: -9223372036854775808 (INVALID)
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+  to double: f64(-0x1.fffffe00000000000000p+127:0x00c7efffffe0000000) (INEXACT )
+   to int32: -2147483648 (INVALID)
+   to int64: -9223372036854775808 (INVALID)
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(-0x1.1874b200000000000000p+103:0xf30c3a59)
+  to double: f64(-0x1.1874b200000000000000p+103:0x00c661874b20000000) (INEXACT )
+   to int32: -2147483648 (INVALID)
+   to int64: -9223372036854775808 (INVALID)
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(-0x1.c0bab600000000000000p+99:0xf1605d5b)
+  to double: f64(-0x1.c0bab600000000000000p+99:0x00c62c0bab60000000) (INEXACT )
+   to int32: -2147483648 (INVALID)
+   to int64: -9223372036854775808 (INVALID)
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(-0x1.31f75000000000000000p-40:0xab98fba8)
+  to double: f64(-0x1.31f75000000000000000p-40:0x00bd731f7500000000) (INEXACT )
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(-0x1.50544400000000000000p-66:0x9ea82a22)
+  to double: f64(-0x1.50544400000000000000p-66:0x00bbd5054440000000) (INEXACT )
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(-0x1.00000000000000000000p-126:0x80800000)
+  to double: f64(-0x1.00000000000000000000p-126:0x00b810000000000000) (OK)
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(0x0.00000000000000000000p+0:0000000000)
+  to double: f64(0x0.00000000000000000000p+0:00000000000000000000) (OK)
+   to int32: 0 (OK)
+   to int64: 0 (OK)
+  to uint32: 0 (OK)
+  to uint64: 0 (OK)
+from single: f32(0x1.00000000000000000000p-126:0x00800000)
+  to double: f64(0x1.00000000000000000000p-126:0x003810000000000000) (OK)
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INEXACT )
+  to uint64: 0 (INEXACT )
+from single: f32(0x1.00000000000000000000p-25:0x33000000)
+  to double: f64(0x1.00000000000000000000p-25:0x003e60000000000000) (OK)
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INEXACT )
+  to uint64: 0 (INEXACT )
+from single: f32(0x1.ffffe600000000000000p-25:0x337ffff3)
+  to double: f64(0x1.ffffe600000000000000p-25:0x003e6ffffe60000000) (INEXACT )
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INEXACT )
+  to uint64: 0 (INEXACT )
+from single: f32(0x1.ff801a00000000000000p-15:0x387fc00d)
+  to double: f64(0x1.ff801a00000000000000p-15:0x003f0ff801a0000000) (INEXACT )
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INEXACT )
+  to uint64: 0 (INEXACT )
+from single: f32(0x1.00000c00000000000000p-14:0x38800006)
+  to double: f64(0x1.00000c00000000000000p-14:0x003f100000c0000000) (INEXACT )
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INEXACT )
+  to uint64: 0 (INEXACT )
+from single: f32(0x1.00000000000000000000p+0:0x3f800000)
+  to double: f64(0x1.00000000000000000000p+0:0x003ff0000000000000) (OK)
+   to int32: 1 (OK)
+   to int64: 1 (OK)
+  to uint32: 1 (OK)
+  to uint64: 1 (OK)
+from single: f32(0x1.00400000000000000000p+0:0x3f802000)
+  to double: f64(0x1.00400000000000000000p+0:0x003ff0040000000000) (INEXACT )
+   to int32: 1 (INEXACT )
+   to int64: 1 (INEXACT )
+  to uint32: 1 (INEXACT )
+  to uint64: 1 (INEXACT )
+from single: f32(0x1.00000000000000000000p+1:0x40000000)
+  to double: f64(0x1.00000000000000000000p+1:0x004000000000000000) (OK)
+   to int32: 2 (OK)
+   to int64: 2 (OK)
+  to uint32: 2 (OK)
+  to uint64: 2 (OK)
+from single: f32(0x1.5bf0a800000000000000p+1:0x402df854)
+  to double: f64(0x1.5bf0a800000000000000p+1:0x004005bf0a80000000) (INEXACT )
+   to int32: 2 (INEXACT )
+   to int64: 2 (INEXACT )
+  to uint32: 2 (INEXACT )
+  to uint64: 2 (INEXACT )
+from single: f32(0x1.921fb600000000000000p+1:0x40490fdb)
+  to double: f64(0x1.921fb600000000000000p+1:0x00400921fb60000000) (INEXACT )
+   to int32: 3 (INEXACT )
+   to int64: 3 (INEXACT )
+  to uint32: 3 (INEXACT )
+  to uint64: 3 (INEXACT )
+from single: f32(0x1.ffbe0000000000000000p+15:0x477fdf00)
+  to double: f64(0x1.ffbe0000000000000000p+15:0x0040effbe000000000) (INEXACT )
+   to int32: 65503 (OK)
+   to int64: 65503 (OK)
+  to uint32: 65503 (OK)
+  to uint64: 65503 (OK)
+from single: f32(0x1.ffc00000000000000000p+15:0x477fe000)
+  to double: f64(0x1.ffc00000000000000000p+15:0x0040effc0000000000) (INEXACT )
+   to int32: 65504 (OK)
+   to int64: 65504 (OK)
+  to uint32: 65504 (OK)
+  to uint64: 65504 (OK)
+from single: f32(0x1.ffc20000000000000000p+15:0x477fe100)
+  to double: f64(0x1.ffc20000000000000000p+15:0x0040effc2000000000) (INEXACT )
+   to int32: 65505 (OK)
+   to int64: 65505 (OK)
+  to uint32: 65505 (OK)
+  to uint64: 65505 (OK)
+from single: f32(0x1.ffbf0000000000000000p+16:0x47ffdf80)
+  to double: f64(0x1.ffbf0000000000000000p+16:0x0040fffbf000000000) (INEXACT )
+   to int32: 131007 (OK)
+   to int64: 131007 (OK)
+  to uint32: 131007 (OK)
+  to uint64: 131007 (OK)
+from single: f32(0x1.ffc00000000000000000p+16:0x47ffe000)
+  to double: f64(0x1.ffc00000000000000000p+16:0x0040fffc0000000000) (INEXACT )
+   to int32: 131008 (OK)
+   to int64: 131008 (OK)
+  to uint32: 131008 (OK)
+  to uint64: 131008 (OK)
+from single: f32(0x1.ffc10000000000000000p+16:0x47ffe080)
+  to double: f64(0x1.ffc10000000000000000p+16:0x0040fffc1000000000) (INEXACT )
+   to int32: 131009 (OK)
+   to int64: 131009 (OK)
+  to uint32: 131009 (OK)
+  to uint64: 131009 (OK)
+from single: f32(0x1.c0bab600000000000000p+99:0x71605d5b)
+  to double: f64(0x1.c0bab600000000000000p+99:0x00462c0bab60000000) (INEXACT )
+   to int32: 2147483647 (INVALID)
+   to int64: 9223372036854775807 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+from single: f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+  to double: f64(0x1.fffffe00000000000000p+127:0x0047efffffe0000000) (INEXACT )
+   to int32: 2147483647 (INVALID)
+   to int64: 9223372036854775807 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+from single: f32(inf:0x7f800000)
+  to double: f64(inf:0x007ff0000000000000) (OK)
+   to int32: 2147483647 (INVALID)
+   to int64: 9223372036854775807 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+from single: f32(-nan:0x7fc00000)
+  to double: f64(-nan:0x00ffffffffffffffff) (OK)
+   to int32: -1 (INVALID)
+   to int64: -1 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+from single: f32(-nan:0x7fa00000)
+  to double: f64(-nan:0x00ffffffffffffffff) (INVALID)
+   to int32: -1 (INVALID)
+   to int64: -1 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+### Rounding to zero
+from single: f32(-nan:0xffa00000)
+  to double: f64(-nan:0x00ffffffffffffffff) (INVALID)
+   to int32: -1 (INVALID)
+   to int64: -1 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+from single: f32(-nan:0xffc00000)
+  to double: f64(-nan:0x00ffffffffffffffff) (OK)
+   to int32: -1 (INVALID)
+   to int64: -1 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+from single: f32(-inf:0xff800000)
+  to double: f64(-inf:0x00fff0000000000000) (OK)
+   to int32: -2147483648 (INVALID)
+   to int64: -9223372036854775808 (INVALID)
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+  to double: f64(-0x1.fffffe00000000000000p+127:0x00c7efffffe0000000) (INEXACT )
+   to int32: -2147483648 (INVALID)
+   to int64: -9223372036854775808 (INVALID)
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(-0x1.1874b200000000000000p+103:0xf30c3a59)
+  to double: f64(-0x1.1874b200000000000000p+103:0x00c661874b20000000) (INEXACT )
+   to int32: -2147483648 (INVALID)
+   to int64: -9223372036854775808 (INVALID)
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(-0x1.c0bab600000000000000p+99:0xf1605d5b)
+  to double: f64(-0x1.c0bab600000000000000p+99:0x00c62c0bab60000000) (INEXACT )
+   to int32: -2147483648 (INVALID)
+   to int64: -9223372036854775808 (INVALID)
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(-0x1.31f75000000000000000p-40:0xab98fba8)
+  to double: f64(-0x1.31f75000000000000000p-40:0x00bd731f7500000000) (INEXACT )
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(-0x1.50544400000000000000p-66:0x9ea82a22)
+  to double: f64(-0x1.50544400000000000000p-66:0x00bbd5054440000000) (INEXACT )
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(-0x1.00000000000000000000p-126:0x80800000)
+  to double: f64(-0x1.00000000000000000000p-126:0x00b810000000000000) (OK)
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INVALID)
+  to uint64: 0 (INVALID)
+from single: f32(0x0.00000000000000000000p+0:0000000000)
+  to double: f64(0x0.00000000000000000000p+0:00000000000000000000) (OK)
+   to int32: 0 (OK)
+   to int64: 0 (OK)
+  to uint32: 0 (OK)
+  to uint64: 0 (OK)
+from single: f32(0x1.00000000000000000000p-126:0x00800000)
+  to double: f64(0x1.00000000000000000000p-126:0x003810000000000000) (OK)
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INEXACT )
+  to uint64: 0 (INEXACT )
+from single: f32(0x1.00000000000000000000p-25:0x33000000)
+  to double: f64(0x1.00000000000000000000p-25:0x003e60000000000000) (OK)
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INEXACT )
+  to uint64: 0 (INEXACT )
+from single: f32(0x1.ffffe600000000000000p-25:0x337ffff3)
+  to double: f64(0x1.ffffe600000000000000p-25:0x003e6ffffe60000000) (INEXACT )
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INEXACT )
+  to uint64: 0 (INEXACT )
+from single: f32(0x1.ff801a00000000000000p-15:0x387fc00d)
+  to double: f64(0x1.ff801a00000000000000p-15:0x003f0ff801a0000000) (INEXACT )
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INEXACT )
+  to uint64: 0 (INEXACT )
+from single: f32(0x1.00000c00000000000000p-14:0x38800006)
+  to double: f64(0x1.00000c00000000000000p-14:0x003f100000c0000000) (INEXACT )
+   to int32: 0 (INEXACT )
+   to int64: 0 (INEXACT )
+  to uint32: 0 (INEXACT )
+  to uint64: 0 (INEXACT )
+from single: f32(0x1.00000000000000000000p+0:0x3f800000)
+  to double: f64(0x1.00000000000000000000p+0:0x003ff0000000000000) (OK)
+   to int32: 1 (OK)
+   to int64: 1 (OK)
+  to uint32: 1 (OK)
+  to uint64: 1 (OK)
+from single: f32(0x1.00400000000000000000p+0:0x3f802000)
+  to double: f64(0x1.00400000000000000000p+0:0x003ff0040000000000) (INEXACT )
+   to int32: 1 (INEXACT )
+   to int64: 1 (INEXACT )
+  to uint32: 1 (INEXACT )
+  to uint64: 1 (INEXACT )
+from single: f32(0x1.00000000000000000000p+1:0x40000000)
+  to double: f64(0x1.00000000000000000000p+1:0x004000000000000000) (OK)
+   to int32: 2 (OK)
+   to int64: 2 (OK)
+  to uint32: 2 (OK)
+  to uint64: 2 (OK)
+from single: f32(0x1.5bf0a800000000000000p+1:0x402df854)
+  to double: f64(0x1.5bf0a800000000000000p+1:0x004005bf0a80000000) (INEXACT )
+   to int32: 2 (INEXACT )
+   to int64: 2 (INEXACT )
+  to uint32: 2 (INEXACT )
+  to uint64: 2 (INEXACT )
+from single: f32(0x1.921fb600000000000000p+1:0x40490fdb)
+  to double: f64(0x1.921fb600000000000000p+1:0x00400921fb60000000) (INEXACT )
+   to int32: 3 (INEXACT )
+   to int64: 3 (INEXACT )
+  to uint32: 3 (INEXACT )
+  to uint64: 3 (INEXACT )
+from single: f32(0x1.ffbe0000000000000000p+15:0x477fdf00)
+  to double: f64(0x1.ffbe0000000000000000p+15:0x0040effbe000000000) (INEXACT )
+   to int32: 65503 (OK)
+   to int64: 65503 (OK)
+  to uint32: 65503 (OK)
+  to uint64: 65503 (OK)
+from single: f32(0x1.ffc00000000000000000p+15:0x477fe000)
+  to double: f64(0x1.ffc00000000000000000p+15:0x0040effc0000000000) (INEXACT )
+   to int32: 65504 (OK)
+   to int64: 65504 (OK)
+  to uint32: 65504 (OK)
+  to uint64: 65504 (OK)
+from single: f32(0x1.ffc20000000000000000p+15:0x477fe100)
+  to double: f64(0x1.ffc20000000000000000p+15:0x0040effc2000000000) (INEXACT )
+   to int32: 65505 (OK)
+   to int64: 65505 (OK)
+  to uint32: 65505 (OK)
+  to uint64: 65505 (OK)
+from single: f32(0x1.ffbf0000000000000000p+16:0x47ffdf80)
+  to double: f64(0x1.ffbf0000000000000000p+16:0x0040fffbf000000000) (INEXACT )
+   to int32: 131007 (OK)
+   to int64: 131007 (OK)
+  to uint32: 131007 (OK)
+  to uint64: 131007 (OK)
+from single: f32(0x1.ffc00000000000000000p+16:0x47ffe000)
+  to double: f64(0x1.ffc00000000000000000p+16:0x0040fffc0000000000) (INEXACT )
+   to int32: 131008 (OK)
+   to int64: 131008 (OK)
+  to uint32: 131008 (OK)
+  to uint64: 131008 (OK)
+from single: f32(0x1.ffc10000000000000000p+16:0x47ffe080)
+  to double: f64(0x1.ffc10000000000000000p+16:0x0040fffc1000000000) (INEXACT )
+   to int32: 131009 (OK)
+   to int64: 131009 (OK)
+  to uint32: 131009 (OK)
+  to uint64: 131009 (OK)
+from single: f32(0x1.c0bab600000000000000p+99:0x71605d5b)
+  to double: f64(0x1.c0bab600000000000000p+99:0x00462c0bab60000000) (INEXACT )
+   to int32: 2147483647 (INVALID)
+   to int64: 9223372036854775807 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+from single: f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+  to double: f64(0x1.fffffe00000000000000p+127:0x0047efffffe0000000) (INEXACT )
+   to int32: 2147483647 (INVALID)
+   to int64: 9223372036854775807 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+from single: f32(inf:0x7f800000)
+  to double: f64(inf:0x007ff0000000000000) (OK)
+   to int32: 2147483647 (INVALID)
+   to int64: 9223372036854775807 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+from single: f32(-nan:0x7fc00000)
+  to double: f64(-nan:0x00ffffffffffffffff) (OK)
+   to int32: -1 (INVALID)
+   to int64: -1 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
+from single: f32(-nan:0x7fa00000)
+  to double: f64(-nan:0x00ffffffffffffffff) (INVALID)
+   to int32: -1 (INVALID)
+   to int64: -1 (INVALID)
+  to uint32: -1 (INVALID)
+  to uint64: -1 (INVALID)
diff --git a/tests/tcg/hexagon/float_madds.ref b/tests/tcg/hexagon/float_madds.ref
new file mode 100644
index 0000000..ceed3bb
--- /dev/null
+++ b/tests/tcg/hexagon/float_madds.ref
@@ -0,0 +1,768 @@ 
+### Rounding to nearest
+op : f32(-nan:0xffa00000) * f32(-nan:0xffc00000) + f32(-inf:0xff800000)
+res: f32(-nan:0xffffffff) flags=INVALID (0/0)
+op : f32(-nan:0xffc00000) * f32(-inf:0xff800000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffffffff) flags=INVALID (0/1)
+op : f32(-inf:0xff800000) * f32(-nan:0xffa00000) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffffffff) flags=INVALID (0/2)
+op : f32(-nan:0xffc00000) * f32(-inf:0xff800000) + f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+res: f32(-nan:0xffffffff) flags=OK (1/0)
+op : f32(-inf:0xff800000) * f32(-0x1.fffffe00000000000000p+127:0xff7fffff) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffffffff) flags=OK (1/1)
+op : f32(-0x1.fffffe00000000000000p+127:0xff7fffff) * f32(-nan:0xffc00000) + f32(-inf:0xff800000)
+res: f32(-nan:0xffffffff) flags=OK (1/2)
+op : f32(-inf:0xff800000) * f32(-0x1.fffffe00000000000000p+127:0xff7fffff) + f32(-0x1.1874b200000000000000p+103:0xf30c3a59)
+res: f32(inf:0x7f800000) flags=OK (2/0)
+op : f32(-0x1.fffffe00000000000000p+127:0xff7fffff) * f32(-0x1.1874b200000000000000p+103:0xf30c3a59) + f32(-inf:0xff800000)
+res: f32(-inf:0xff800000) flags=OK (2/1)
+op : f32(-0x1.1874b200000000000000p+103:0xf30c3a59) * f32(-inf:0xff800000) + f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+res: f32(inf:0x7f800000) flags=OK (2/2)
+op : f32(-0x1.fffffe00000000000000p+127:0xff7fffff) * f32(-0x1.1874b200000000000000p+103:0xf30c3a59) + f32(-0x1.c0bab600000000000000p+99:0xf1605d5b)
+res: f32(inf:0x7f800000) flags=OVERFLOW INEXACT  (3/0)
+op : f32(-0x1.1874b200000000000000p+103:0xf30c3a59) * f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) + f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+res: f32(inf:0x7f800000) flags=OVERFLOW INEXACT  (3/1)
+op : f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) * f32(-0x1.fffffe00000000000000p+127:0xff7fffff) + f32(-0x1.1874b200000000000000p+103:0xf30c3a59)
+res: f32(inf:0x7f800000) flags=OVERFLOW INEXACT  (3/2)
+op : f32(-0x1.1874b200000000000000p+103:0xf30c3a59) * f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) + f32(-0x1.31f75000000000000000p-40:0xab98fba8)
+res: f32(inf:0x7f800000) flags=OVERFLOW INEXACT  (4/0)
+op : f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) * f32(-0x1.31f75000000000000000p-40:0xab98fba8) + f32(-0x1.1874b200000000000000p+103:0xf30c3a59)
+res: f32(-0x1.1874b200000000000000p+103:0xf30c3a59) flags=INEXACT  (4/1)
+op : f32(-0x1.31f75000000000000000p-40:0xab98fba8) * f32(-0x1.1874b200000000000000p+103:0xf30c3a59) + f32(-0x1.c0bab600000000000000p+99:0xf1605d5b)
+res: f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) flags=INEXACT  (4/2)
+op : f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) * f32(-0x1.31f75000000000000000p-40:0xab98fba8) + f32(-0x1.50544400000000000000p-66:0x9ea82a22)
+res: f32(0x1.0c27fa00000000000000p+60:0x5d8613fd) flags=INEXACT  (5/0)
+op : f32(-0x1.31f75000000000000000p-40:0xab98fba8) * f32(-0x1.50544400000000000000p-66:0x9ea82a22) + f32(-0x1.c0bab600000000000000p+99:0xf1605d5b)
+res: f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) flags=INEXACT  (5/1)
+op : f32(-0x1.50544400000000000000p-66:0x9ea82a22) * f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) + f32(-0x1.31f75000000000000000p-40:0xab98fba8)
+res: f32(0x1.26c46200000000000000p+34:0x50936231) flags=INEXACT  (5/2)
+op : f32(-0x1.31f75000000000000000p-40:0xab98fba8) * f32(-0x1.50544400000000000000p-66:0x9ea82a22) + f32(-0x1.00000000000000000000p-126:0x80800000)
+res: f32(0x1.91f94000000000000000p-106:0x0ac8fca0) flags=INEXACT  (6/0)
+op : f32(-0x1.50544400000000000000p-66:0x9ea82a22) * f32(-0x1.00000000000000000000p-126:0x80800000) + f32(-0x1.31f75000000000000000p-40:0xab98fba8)
+res: f32(-0x1.31f75000000000000000p-40:0xab98fba8) flags=INEXACT  (6/1)
+op : f32(-0x1.00000000000000000000p-126:0x80800000) * f32(-0x1.31f75000000000000000p-40:0xab98fba8) + f32(-0x1.50544400000000000000p-66:0x9ea82a22)
+res: f32(-0x1.50544400000000000000p-66:0x9ea82a22) flags=INEXACT  (6/2)
+op : f32(-0x1.50544400000000000000p-66:0x9ea82a22) * f32(-0x1.00000000000000000000p-126:0x80800000) + f32(0x0.00000000000000000000p+0:0000000000)
+res: f32(0x0.00000000000000000000p+0:0000000000) flags=UNDERFLOW INEXACT  (7/0)
+op : f32(-0x1.00000000000000000000p-126:0x80800000) * f32(0x0.00000000000000000000p+0:0000000000) + f32(-0x1.50544400000000000000p-66:0x9ea82a22)
+res: f32(-0x1.50544400000000000000p-66:0x9ea82a22) flags=INEXACT  (7/1)
+op : f32(0x0.00000000000000000000p+0:0000000000) * f32(-0x1.50544400000000000000p-66:0x9ea82a22) + f32(-0x1.00000000000000000000p-126:0x80800000)
+res: f32(-0x1.00000000000000000000p-126:0x80800000) flags=OK (7/2)
+op : f32(-0x1.00000000000000000000p-126:0x80800000) * f32(0x0.00000000000000000000p+0:0000000000) + f32(0x1.00000000000000000000p-126:0x00800000)
+res: f32(0x1.00000000000000000000p-126:0x00800000) flags=OK (8/0)
+op : f32(0x0.00000000000000000000p+0:0000000000) * f32(0x1.00000000000000000000p-126:0x00800000) + f32(-0x1.00000000000000000000p-126:0x80800000)
+res: f32(-0x1.00000000000000000000p-126:0x80800000) flags=OK (8/1)
+op : f32(0x1.00000000000000000000p-126:0x00800000) * f32(-0x1.00000000000000000000p-126:0x80800000) + f32(0x0.00000000000000000000p+0:0000000000)
+res: f32(-0x0.00000000000000000000p+0:0x80000000) flags=UNDERFLOW INEXACT  (8/2)
+op : f32(0x0.00000000000000000000p+0:0000000000) * f32(0x1.00000000000000000000p-126:0x00800000) + f32(0x1.00000000000000000000p-25:0x33000000)
+res: f32(0x1.00000000000000000000p-25:0x33000000) flags=OK (9/0)
+op : f32(0x1.00000000000000000000p-126:0x00800000) * f32(0x1.00000000000000000000p-25:0x33000000) + f32(0x0.00000000000000000000p+0:0000000000)
+res: f32(0x0.00000000000000000000p+0:0000000000) flags=UNDERFLOW INEXACT  (9/1)
+op : f32(0x1.00000000000000000000p-25:0x33000000) * f32(0x0.00000000000000000000p+0:0000000000) + f32(0x1.00000000000000000000p-126:0x00800000)
+res: f32(0x1.00000000000000000000p-126:0x00800000) flags=OK (9/2)
+op : f32(0x1.00000000000000000000p-126:0x00800000) * f32(0x1.00000000000000000000p-25:0x33000000) + f32(0x1.ffffe600000000000000p-25:0x337ffff3)
+res: f32(0x1.ffffe600000000000000p-25:0x337ffff3) flags=INEXACT  (10/0)
+op : f32(0x1.00000000000000000000p-25:0x33000000) * f32(0x1.ffffe600000000000000p-25:0x337ffff3) + f32(0x1.00000000000000000000p-126:0x00800000)
+res: f32(0x1.ffffe600000000000000p-50:0x26fffff3) flags=INEXACT  (10/1)
+op : f32(0x1.ffffe600000000000000p-25:0x337ffff3) * f32(0x1.00000000000000000000p-126:0x00800000) + f32(0x1.00000000000000000000p-25:0x33000000)
+res: f32(0x1.00000000000000000000p-25:0x33000000) flags=INEXACT  (10/2)
+op : f32(0x1.00000000000000000000p-25:0x33000000) * f32(0x1.ffffe600000000000000p-25:0x337ffff3) + f32(0x1.ff801a00000000000000p-15:0x387fc00d)
+res: f32(0x1.ff801a00000000000000p-15:0x387fc00d) flags=INEXACT  (11/0)
+op : f32(0x1.ffffe600000000000000p-25:0x337ffff3) * f32(0x1.ff801a00000000000000p-15:0x387fc00d) + f32(0x1.00000000000000000000p-25:0x33000000)
+res: f32(0x1.0007fe00000000000000p-25:0x330003ff) flags=INEXACT  (11/1)
+op : f32(0x1.ff801a00000000000000p-15:0x387fc00d) * f32(0x1.00000000000000000000p-25:0x33000000) + f32(0x1.ffffe600000000000000p-25:0x337ffff3)
+res: f32(0x1.0001f200000000000000p-24:0x338000f9) flags=INEXACT  (11/2)
+op : f32(0x1.ffffe600000000000000p-25:0x337ffff3) * f32(0x1.ff801a00000000000000p-15:0x387fc00d) + f32(0x1.00000c00000000000000p-14:0x38800006)
+res: f32(0x1.00000c00000000000000p-14:0x38800006) flags=INEXACT  (12/0)
+op : f32(0x1.ff801a00000000000000p-15:0x387fc00d) * f32(0x1.00000c00000000000000p-14:0x38800006) + f32(0x1.ffffe600000000000000p-25:0x337ffff3)
+res: f32(0x1.0ffbf400000000000000p-24:0x3387fdfa) flags=INEXACT  (12/1)
+op : f32(0x1.00000c00000000000000p-14:0x38800006) * f32(0x1.ffffe600000000000000p-25:0x337ffff3) + f32(0x1.ff801a00000000000000p-15:0x387fc00d)
+res: f32(0x1.ff801c00000000000000p-15:0x387fc00e) flags=INEXACT  (12/2)
+op : f32(0x1.ff801a00000000000000p-15:0x387fc00d) * f32(0x1.00000c00000000000000p-14:0x38800006) + f32(0x1.00000000000000000000p+0:0x3f800000)
+res: f32(0x1.00000000000000000000p+0:0x3f800000) flags=INEXACT  (13/0)
+op : f32(0x1.00000c00000000000000p-14:0x38800006) * f32(0x1.00000000000000000000p+0:0x3f800000) + f32(0x1.ff801a00000000000000p-15:0x387fc00d)
+res: f32(0x1.ffc01800000000000000p-14:0x38ffe00c) flags=INEXACT  (13/1)
+op : f32(0x1.00000000000000000000p+0:0x3f800000) * f32(0x1.ff801a00000000000000p-15:0x387fc00d) + f32(0x1.00000c00000000000000p-14:0x38800006)
+res: f32(0x1.ffc01800000000000000p-14:0x38ffe00c) flags=INEXACT  (13/2)
+op : f32(0x1.00000c00000000000000p-14:0x38800006) * f32(0x1.00000000000000000000p+0:0x3f800000) + f32(0x1.00400000000000000000p+0:0x3f802000)
+res: f32(0x1.00440000000000000000p+0:0x3f802200) flags=INEXACT  (14/0)
+op : f32(0x1.00000000000000000000p+0:0x3f800000) * f32(0x1.00400000000000000000p+0:0x3f802000) + f32(0x1.00000c00000000000000p-14:0x38800006)
+res: f32(0x1.00440000000000000000p+0:0x3f802200) flags=INEXACT  (14/1)
+op : f32(0x1.00400000000000000000p+0:0x3f802000) * f32(0x1.00000c00000000000000p-14:0x38800006) + f32(0x1.00000000000000000000p+0:0x3f800000)
+res: f32(0x1.00040200000000000000p+0:0x3f800201) flags=INEXACT  (14/2)
+op : f32(0x1.00000000000000000000p+0:0x3f800000) * f32(0x1.00400000000000000000p+0:0x3f802000) + f32(0x1.00000000000000000000p+1:0x40000000)
+res: f32(0x1.80200000000000000000p+1:0x40401000) flags=INEXACT  (15/0)
+op : f32(0x1.00400000000000000000p+0:0x3f802000) * f32(0x1.00000000000000000000p+1:0x40000000) + f32(0x1.00000000000000000000p+0:0x3f800000)
+res: f32(0x1.80400000000000000000p+1:0x40402000) flags=INEXACT  (15/1)
+op : f32(0x1.00000000000000000000p+1:0x40000000) * f32(0x1.00000000000000000000p+0:0x3f800000) + f32(0x1.00400000000000000000p+0:0x3f802000)
+res: f32(0x1.80200000000000000000p+1:0x40401000) flags=INEXACT  (15/2)
+op : f32(0x1.00400000000000000000p+0:0x3f802000) * f32(0x1.00000000000000000000p+1:0x40000000) + f32(0x1.5bf0a800000000000000p+1:0x402df854)
+res: f32(0x1.2e185400000000000000p+2:0x40970c2a) flags=INEXACT  (16/0)
+op : f32(0x1.00000000000000000000p+1:0x40000000) * f32(0x1.5bf0a800000000000000p+1:0x402df854) + f32(0x1.00400000000000000000p+0:0x3f802000)
+res: f32(0x1.9c00a800000000000000p+2:0x40ce0054) flags=INEXACT  (16/1)
+op : f32(0x1.5bf0a800000000000000p+1:0x402df854) * f32(0x1.00400000000000000000p+0:0x3f802000) + f32(0x1.00000000000000000000p+1:0x40000000)
+res: f32(0x1.2e23d200000000000000p+2:0x409711e9) flags=INEXACT  (16/2)
+op : f32(0x1.00000000000000000000p+1:0x40000000) * f32(0x1.5bf0a800000000000000p+1:0x402df854) + f32(0x1.921fb600000000000000p+1:0x40490fdb)
+res: f32(0x1.12804200000000000000p+3:0x41094021) flags=INEXACT  (17/0)
+op : f32(0x1.5bf0a800000000000000p+1:0x402df854) * f32(0x1.921fb600000000000000p+1:0x40490fdb) + f32(0x1.00000000000000000000p+1:0x40000000)
+res: f32(0x1.51458000000000000000p+3:0x4128a2c0) flags=INEXACT  (17/1)
+op : f32(0x1.921fb600000000000000p+1:0x40490fdb) * f32(0x1.00000000000000000000p+1:0x40000000) + f32(0x1.5bf0a800000000000000p+1:0x402df854)
+res: f32(0x1.200c0400000000000000p+3:0x41100602) flags=INEXACT  (17/2)
+op : f32(0x1.5bf0a800000000000000p+1:0x402df854) * f32(0x1.921fb600000000000000p+1:0x40490fdb) + f32(0x1.ffbe0000000000000000p+15:0x477fdf00)
+res: f32(0x1.ffcf1400000000000000p+15:0x477fe78a) flags=INEXACT  (18/0)
+op : f32(0x1.921fb600000000000000p+1:0x40490fdb) * f32(0x1.ffbe0000000000000000p+15:0x477fdf00) + f32(0x1.5bf0a800000000000000p+1:0x402df854)
+res: f32(0x1.91ed3c00000000000000p+17:0x4848f69e) flags=INEXACT  (18/1)
+op : f32(0x1.ffbe0000000000000000p+15:0x477fdf00) * f32(0x1.5bf0a800000000000000p+1:0x402df854) + f32(0x1.921fb600000000000000p+1:0x40490fdb)
+res: f32(0x1.5bc56000000000000000p+17:0x482de2b0) flags=INEXACT  (18/2)
+op : f32(0x1.921fb600000000000000p+1:0x40490fdb) * f32(0x1.ffbe0000000000000000p+15:0x477fdf00) + f32(0x1.ffc00000000000000000p+15:0x477fe000)
+res: f32(0x1.08edf000000000000000p+18:0x488476f8) flags=INEXACT  (19/0)
+op : f32(0x1.ffbe0000000000000000p+15:0x477fdf00) * f32(0x1.ffc00000000000000000p+15:0x477fe000) + f32(0x1.921fb600000000000000p+1:0x40490fdb)
+res: f32(0x1.ff7e0800000000000000p+31:0x4f7fbf04) flags=INEXACT  (19/1)
+op : f32(0x1.ffc00000000000000000p+15:0x477fe000) * f32(0x1.921fb600000000000000p+1:0x40490fdb) + f32(0x1.ffbe0000000000000000p+15:0x477fdf00)
+res: f32(0x1.08ee7a00000000000000p+18:0x4884773d) flags=INEXACT  (19/2)
+op : f32(0x1.ffbe0000000000000000p+15:0x477fdf00) * f32(0x1.ffc00000000000000000p+15:0x477fe000) + f32(0x1.ffc20000000000000000p+15:0x477fe100)
+res: f32(0x1.ff800800000000000000p+31:0x4f7fc004) flags=INEXACT  (20/0)
+op : f32(0x1.ffc00000000000000000p+15:0x477fe000) * f32(0x1.ffc20000000000000000p+15:0x477fe100) + f32(0x1.ffbe0000000000000000p+15:0x477fdf00)
+res: f32(0x1.ff840800000000000000p+31:0x4f7fc204) flags=INEXACT  (20/1)
+op : f32(0x1.ffc20000000000000000p+15:0x477fe100) * f32(0x1.ffbe0000000000000000p+15:0x477fdf00) + f32(0x1.ffc00000000000000000p+15:0x477fe000)
+res: f32(0x1.ff820800000000000000p+31:0x4f7fc104) flags=INEXACT  (20/2)
+op : f32(0x1.ffc00000000000000000p+15:0x477fe000) * f32(0x1.ffc20000000000000000p+15:0x477fe100) + f32(0x1.ffbf0000000000000000p+16:0x47ffdf80)
+res: f32(0x1.ff860800000000000000p+31:0x4f7fc304) flags=INEXACT  (21/0)
+op : f32(0x1.ffc20000000000000000p+15:0x477fe100) * f32(0x1.ffbf0000000000000000p+16:0x47ffdf80) + f32(0x1.ffc00000000000000000p+15:0x477fe000)
+res: f32(0x1.ff820800000000000000p+32:0x4fffc104) flags=INEXACT  (21/1)
+op : f32(0x1.ffbf0000000000000000p+16:0x47ffdf80) * f32(0x1.ffc00000000000000000p+15:0x477fe000) + f32(0x1.ffc20000000000000000p+15:0x477fe100)
+res: f32(0x1.ff800800000000000000p+32:0x4fffc004) flags=INEXACT  (21/2)
+op : f32(0x1.ffc20000000000000000p+15:0x477fe100) * f32(0x1.ffbf0000000000000000p+16:0x47ffdf80) + f32(0x1.ffc00000000000000000p+16:0x47ffe000)
+res: f32(0x1.ff830800000000000000p+32:0x4fffc184) flags=INEXACT  (22/0)
+op : f32(0x1.ffbf0000000000000000p+16:0x47ffdf80) * f32(0x1.ffc00000000000000000p+16:0x47ffe000) + f32(0x1.ffc20000000000000000p+15:0x477fe100)
+res: f32(0x1.ff7f8800000000000000p+33:0x507fbfc4) flags=INEXACT  (22/1)
+op : f32(0x1.ffc00000000000000000p+16:0x47ffe000) * f32(0x1.ffc20000000000000000p+15:0x477fe100) + f32(0x1.ffbf0000000000000000p+16:0x47ffdf80)
+res: f32(0x1.ff840800000000000000p+32:0x4fffc204) flags=INEXACT  (22/2)
+op : f32(0x1.ffbf0000000000000000p+16:0x47ffdf80) * f32(0x1.ffc00000000000000000p+16:0x47ffe000) + f32(0x1.ffc10000000000000000p+16:0x47ffe080)
+res: f32(0x1.ff800800000000000000p+33:0x507fc004) flags=INEXACT  (23/0)
+op : f32(0x1.ffc00000000000000000p+16:0x47ffe000) * f32(0x1.ffc10000000000000000p+16:0x47ffe080) + f32(0x1.ffbf0000000000000000p+16:0x47ffdf80)
+res: f32(0x1.ff820800000000000000p+33:0x507fc104) flags=INEXACT  (23/1)
+op : f32(0x1.ffc10000000000000000p+16:0x47ffe080) * f32(0x1.ffbf0000000000000000p+16:0x47ffdf80) + f32(0x1.ffc00000000000000000p+16:0x47ffe000)
+res: f32(0x1.ff810800000000000000p+33:0x507fc084) flags=INEXACT  (23/2)
+op : f32(0x1.ffc00000000000000000p+16:0x47ffe000) * f32(0x1.ffc10000000000000000p+16:0x47ffe080) + f32(0x1.c0bab600000000000000p+99:0x71605d5b)
+res: f32(0x1.c0bab600000000000000p+99:0x71605d5b) flags=INEXACT  (24/0)
+op : f32(0x1.ffc10000000000000000p+16:0x47ffe080) * f32(0x1.c0bab600000000000000p+99:0x71605d5b) + f32(0x1.ffc00000000000000000p+16:0x47ffe000)
+res: f32(0x1.c0838000000000000000p+116:0x79e041c0) flags=INEXACT  (24/1)
+op : f32(0x1.c0bab600000000000000p+99:0x71605d5b) * f32(0x1.ffc00000000000000000p+16:0x47ffe000) + f32(0x1.ffc10000000000000000p+16:0x47ffe080)
+res: f32(0x1.c0829e00000000000000p+116:0x79e0414f) flags=INEXACT  (24/2)
+op : f32(0x1.ffc10000000000000000p+16:0x47ffe080) * f32(0x1.c0bab600000000000000p+99:0x71605d5b) + f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+res: f32(inf:0x7f800000) flags=OVERFLOW INEXACT  (25/0)
+op : f32(0x1.c0bab600000000000000p+99:0x71605d5b) * f32(0x1.fffffe00000000000000p+127:0x7f7fffff) + f32(0x1.ffc10000000000000000p+16:0x47ffe080)
+res: f32(inf:0x7f800000) flags=OVERFLOW INEXACT  (25/1)
+op : f32(0x1.fffffe00000000000000p+127:0x7f7fffff) * f32(0x1.ffc10000000000000000p+16:0x47ffe080) + f32(0x1.c0bab600000000000000p+99:0x71605d5b)
+res: f32(inf:0x7f800000) flags=OVERFLOW INEXACT  (25/2)
+op : f32(0x1.c0bab600000000000000p+99:0x71605d5b) * f32(0x1.fffffe00000000000000p+127:0x7f7fffff) + f32(inf:0x7f800000)
+res: f32(inf:0x7f800000) flags=OK (26/0)
+op : f32(0x1.fffffe00000000000000p+127:0x7f7fffff) * f32(inf:0x7f800000) + f32(0x1.c0bab600000000000000p+99:0x71605d5b)
+res: f32(inf:0x7f800000) flags=OK (26/1)
+op : f32(inf:0x7f800000) * f32(0x1.c0bab600000000000000p+99:0x71605d5b) + f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+res: f32(inf:0x7f800000) flags=OK (26/2)
+op : f32(0x1.fffffe00000000000000p+127:0x7f7fffff) * f32(inf:0x7f800000) + f32(-nan:0x7fc00000)
+res: f32(-nan:0xffffffff) flags=OK (27/0)
+op : f32(inf:0x7f800000) * f32(-nan:0x7fc00000) + f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+res: f32(-nan:0xffffffff) flags=OK (27/1)
+op : f32(-nan:0x7fc00000) * f32(0x1.fffffe00000000000000p+127:0x7f7fffff) + f32(inf:0x7f800000)
+res: f32(-nan:0xffffffff) flags=OK (27/2)
+op : f32(inf:0x7f800000) * f32(-nan:0x7fc00000) + f32(-nan:0x7fa00000)
+res: f32(-nan:0xffffffff) flags=INVALID (28/0)
+op : f32(-nan:0x7fc00000) * f32(-nan:0x7fa00000) + f32(inf:0x7f800000)
+res: f32(-nan:0xffffffff) flags=INVALID (28/1)
+op : f32(-nan:0x7fa00000) * f32(inf:0x7f800000) + f32(-nan:0x7fc00000)
+res: f32(-nan:0xffffffff) flags=INVALID (28/2)
+op : f32(-nan:0x7fc00000) * f32(-nan:0x7fa00000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffffffff) flags=INVALID (29/0)
+op : f32(-nan:0x7fa00000) * f32(-nan:0xffa00000) + f32(-nan:0x7fc00000)
+res: f32(-nan:0xffffffff) flags=INVALID (29/1)
+op : f32(-nan:0xffa00000) * f32(-nan:0x7fc00000) + f32(-nan:0x7fa00000)
+res: f32(-nan:0xffffffff) flags=INVALID (29/2)
+op : f32(-nan:0x7fa00000) * f32(-nan:0xffa00000) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffffffff) flags=INVALID (30/0)
+op : f32(-nan:0xffa00000) * f32(-nan:0xffc00000) + f32(-nan:0x7fa00000)
+res: f32(-nan:0xffffffff) flags=INVALID (30/1)
+op : f32(-nan:0xffc00000) * f32(-nan:0x7fa00000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffffffff) flags=INVALID (30/2)
+# LP184149
+op : f32(0x0.00000000000000000000p+0:0000000000) * f32(0x1.00000000000000000000p-1:0x3f000000) + f32(0x0.00000000000000000000p+0:0000000000)
+res: f32(0x0.00000000000000000000p+0:0000000000) flags=OK (31/0)
+op : f32(0x1.00000000000000000000p-149:0x00000001) * f32(0x1.00000000000000000000p-149:0x00000001) + f32(0x1.00000000000000000000p-149:0x00000001)
+res: f32(0x1.00000000000000000000p-149:0x00000001) flags=UNDERFLOW INEXACT  (32/0)
+### Rounding upwards
+op : f32(-nan:0xffa00000) * f32(-nan:0xffc00000) + f32(-inf:0xff800000)
+res: f32(-nan:0xffffffff) flags=INVALID (0/0)
+op : f32(-nan:0xffc00000) * f32(-inf:0xff800000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffffffff) flags=INVALID (0/1)
+op : f32(-inf:0xff800000) * f32(-nan:0xffa00000) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffffffff) flags=INVALID (0/2)
+op : f32(-nan:0xffc00000) * f32(-inf:0xff800000) + f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+res: f32(-nan:0xffffffff) flags=OK (1/0)
+op : f32(-inf:0xff800000) * f32(-0x1.fffffe00000000000000p+127:0xff7fffff) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffffffff) flags=OK (1/1)
+op : f32(-0x1.fffffe00000000000000p+127:0xff7fffff) * f32(-nan:0xffc00000) + f32(-inf:0xff800000)
+res: f32(-nan:0xffffffff) flags=OK (1/2)
+op : f32(-inf:0xff800000) * f32(-0x1.fffffe00000000000000p+127:0xff7fffff) + f32(-0x1.1874b200000000000000p+103:0xf30c3a59)
+res: f32(inf:0x7f800000) flags=OK (2/0)
+op : f32(-0x1.fffffe00000000000000p+127:0xff7fffff) * f32(-0x1.1874b200000000000000p+103:0xf30c3a59) + f32(-inf:0xff800000)
+res: f32(-inf:0xff800000) flags=OK (2/1)
+op : f32(-0x1.1874b200000000000000p+103:0xf30c3a59) * f32(-inf:0xff800000) + f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+res: f32(inf:0x7f800000) flags=OK (2/2)
+op : f32(-0x1.fffffe00000000000000p+127:0xff7fffff) * f32(-0x1.1874b200000000000000p+103:0xf30c3a59) + f32(-0x1.c0bab600000000000000p+99:0xf1605d5b)
+res: f32(inf:0x7f800000) flags=OVERFLOW INEXACT  (3/0)
+op : f32(-0x1.1874b200000000000000p+103:0xf30c3a59) * f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) + f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+res: f32(inf:0x7f800000) flags=OVERFLOW INEXACT  (3/1)
+op : f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) * f32(-0x1.fffffe00000000000000p+127:0xff7fffff) + f32(-0x1.1874b200000000000000p+103:0xf30c3a59)
+res: f32(inf:0x7f800000) flags=OVERFLOW INEXACT  (3/2)
+op : f32(-0x1.1874b200000000000000p+103:0xf30c3a59) * f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) + f32(-0x1.31f75000000000000000p-40:0xab98fba8)
+res: f32(inf:0x7f800000) flags=OVERFLOW INEXACT  (4/0)
+op : f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) * f32(-0x1.31f75000000000000000p-40:0xab98fba8) + f32(-0x1.1874b200000000000000p+103:0xf30c3a59)
+res: f32(-0x1.1874b000000000000000p+103:0xf30c3a58) flags=INEXACT  (4/1)
+op : f32(-0x1.31f75000000000000000p-40:0xab98fba8) * f32(-0x1.1874b200000000000000p+103:0xf30c3a59) + f32(-0x1.c0bab600000000000000p+99:0xf1605d5b)
+res: f32(-0x1.c0bab400000000000000p+99:0xf1605d5a) flags=INEXACT  (4/2)
+op : f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) * f32(-0x1.31f75000000000000000p-40:0xab98fba8) + f32(-0x1.50544400000000000000p-66:0x9ea82a22)
+res: f32(0x1.0c27fa00000000000000p+60:0x5d8613fd) flags=INEXACT  (5/0)
+op : f32(-0x1.31f75000000000000000p-40:0xab98fba8) * f32(-0x1.50544400000000000000p-66:0x9ea82a22) + f32(-0x1.c0bab600000000000000p+99:0xf1605d5b)
+res: f32(-0x1.c0bab400000000000000p+99:0xf1605d5a) flags=INEXACT  (5/1)
+op : f32(-0x1.50544400000000000000p-66:0x9ea82a22) * f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) + f32(-0x1.31f75000000000000000p-40:0xab98fba8)
+res: f32(0x1.26c46200000000000000p+34:0x50936231) flags=INEXACT  (5/2)
+op : f32(-0x1.31f75000000000000000p-40:0xab98fba8) * f32(-0x1.50544400000000000000p-66:0x9ea82a22) + f32(-0x1.00000000000000000000p-126:0x80800000)
+res: f32(0x1.91f94000000000000000p-106:0x0ac8fca0) flags=INEXACT  (6/0)
+op : f32(-0x1.50544400000000000000p-66:0x9ea82a22) * f32(-0x1.00000000000000000000p-126:0x80800000) + f32(-0x1.31f75000000000000000p-40:0xab98fba8)
+res: f32(-0x1.31f74e00000000000000p-40:0xab98fba7) flags=INEXACT  (6/1)
+op : f32(-0x1.00000000000000000000p-126:0x80800000) * f32(-0x1.31f75000000000000000p-40:0xab98fba8) + f32(-0x1.50544400000000000000p-66:0x9ea82a22)
+res: f32(-0x1.50544200000000000000p-66:0x9ea82a21) flags=INEXACT  (6/2)
+op : f32(-0x1.50544400000000000000p-66:0x9ea82a22) * f32(-0x1.00000000000000000000p-126:0x80800000) + f32(0x0.00000000000000000000p+0:0000000000)
+res: f32(0x1.00000000000000000000p-149:0x00000001) flags=UNDERFLOW INEXACT  (7/0)
+op : f32(-0x1.00000000000000000000p-126:0x80800000) * f32(0x0.00000000000000000000p+0:0000000000) + f32(-0x1.50544400000000000000p-66:0x9ea82a22)
+res: f32(-0x1.50544400000000000000p-66:0x9ea82a22) flags=INEXACT  (7/1)
+op : f32(0x0.00000000000000000000p+0:0000000000) * f32(-0x1.50544400000000000000p-66:0x9ea82a22) + f32(-0x1.00000000000000000000p-126:0x80800000)
+res: f32(-0x1.00000000000000000000p-126:0x80800000) flags=OK (7/2)
+op : f32(-0x1.00000000000000000000p-126:0x80800000) * f32(0x0.00000000000000000000p+0:0000000000) + f32(0x1.00000000000000000000p-126:0x00800000)
+res: f32(0x1.00000000000000000000p-126:0x00800000) flags=OK (8/0)
+op : f32(0x0.00000000000000000000p+0:0000000000) * f32(0x1.00000000000000000000p-126:0x00800000) + f32(-0x1.00000000000000000000p-126:0x80800000)
+res: f32(-0x1.00000000000000000000p-126:0x80800000) flags=OK (8/1)
+op : f32(0x1.00000000000000000000p-126:0x00800000) * f32(-0x1.00000000000000000000p-126:0x80800000) + f32(0x0.00000000000000000000p+0:0000000000)
+res: f32(-0x0.00000000000000000000p+0:0x80000000) flags=UNDERFLOW INEXACT  (8/2)
+op : f32(0x0.00000000000000000000p+0:0000000000) * f32(0x1.00000000000000000000p-126:0x00800000) + f32(0x1.00000000000000000000p-25:0x33000000)
+res: f32(0x1.00000000000000000000p-25:0x33000000) flags=OK (9/0)
+op : f32(0x1.00000000000000000000p-126:0x00800000) * f32(0x1.00000000000000000000p-25:0x33000000) + f32(0x0.00000000000000000000p+0:0000000000)
+res: f32(0x1.00000000000000000000p-149:0x00000001) flags=UNDERFLOW INEXACT  (9/1)
+op : f32(0x1.00000000000000000000p-25:0x33000000) * f32(0x0.00000000000000000000p+0:0000000000) + f32(0x1.00000000000000000000p-126:0x00800000)
+res: f32(0x1.00000000000000000000p-126:0x00800000) flags=OK (9/2)
+op : f32(0x1.00000000000000000000p-126:0x00800000) * f32(0x1.00000000000000000000p-25:0x33000000) + f32(0x1.ffffe600000000000000p-25:0x337ffff3)
+res: f32(0x1.ffffe800000000000000p-25:0x337ffff4) flags=INEXACT  (10/0)
+op : f32(0x1.00000000000000000000p-25:0x33000000) * f32(0x1.ffffe600000000000000p-25:0x337ffff3) + f32(0x1.00000000000000000000p-126:0x00800000)
+res: f32(0x1.ffffe800000000000000p-50:0x26fffff4) flags=INEXACT  (10/1)
+op : f32(0x1.ffffe600000000000000p-25:0x337ffff3) * f32(0x1.00000000000000000000p-126:0x00800000) + f32(0x1.00000000000000000000p-25:0x33000000)
+res: f32(0x1.00000200000000000000p-25:0x33000001) flags=INEXACT  (10/2)
+op : f32(0x1.00000000000000000000p-25:0x33000000) * f32(0x1.ffffe600000000000000p-25:0x337ffff3) + f32(0x1.ff801a00000000000000p-15:0x387fc00d)
+res: f32(0x1.ff801c00000000000000p-15:0x387fc00e) flags=INEXACT  (11/0)
+op : f32(0x1.ffffe600000000000000p-25:0x337ffff3) * f32(0x1.ff801a00000000000000p-15:0x387fc00d) + f32(0x1.00000000000000000000p-25:0x33000000)
+res: f32(0x1.00080000000000000000p-25:0x33000400) flags=INEXACT  (11/1)
+op : f32(0x1.ff801a00000000000000p-15:0x387fc00d) * f32(0x1.00000000000000000000p-25:0x33000000) + f32(0x1.ffffe600000000000000p-25:0x337ffff3)
+res: f32(0x1.0001f400000000000000p-24:0x338000fa) flags=INEXACT  (11/2)
+op : f32(0x1.ffffe600000000000000p-25:0x337ffff3) * f32(0x1.ff801a00000000000000p-15:0x387fc00d) + f32(0x1.00000c00000000000000p-14:0x38800006)
+res: f32(0x1.00000e00000000000000p-14:0x38800007) flags=INEXACT  (12/0)
+op : f32(0x1.ff801a00000000000000p-15:0x387fc00d) * f32(0x1.00000c00000000000000p-14:0x38800006) + f32(0x1.ffffe600000000000000p-25:0x337ffff3)
+res: f32(0x1.0ffbf600000000000000p-24:0x3387fdfb) flags=INEXACT  (12/1)
+op : f32(0x1.00000c00000000000000p-14:0x38800006) * f32(0x1.ffffe600000000000000p-25:0x337ffff3) + f32(0x1.ff801a00000000000000p-15:0x387fc00d)
+res: f32(0x1.ff801c00000000000000p-15:0x387fc00e) flags=INEXACT  (12/2)
+op : f32(0x1.ff801a00000000000000p-15:0x387fc00d) * f32(0x1.00000c00000000000000p-14:0x38800006) + f32(0x1.00000000000000000000p+0:0x3f800000)
+res: f32(0x1.00000200000000000000p+0:0x3f800001) flags=INEXACT  (13/0)
+op : f32(0x1.00000c00000000000000p-14:0x38800006) * f32(0x1.00000000000000000000p+0:0x3f800000) + f32(0x1.ff801a00000000000000p-15:0x387fc00d)
+res: f32(0x1.ffc01a00000000000000p-14:0x38ffe00d) flags=INEXACT  (13/1)
+op : f32(0x1.00000000000000000000p+0:0x3f800000) * f32(0x1.ff801a00000000000000p-15:0x387fc00d) + f32(0x1.00000c00000000000000p-14:0x38800006)
+res: f32(0x1.ffc01a00000000000000p-14:0x38ffe00d) flags=INEXACT  (13/2)
+op : f32(0x1.00000c00000000000000p-14:0x38800006) * f32(0x1.00000000000000000000p+0:0x3f800000) + f32(0x1.00400000000000000000p+0:0x3f802000)
+res: f32(0x1.00440200000000000000p+0:0x3f802201) flags=INEXACT  (14/0)
+op : f32(0x1.00000000000000000000p+0:0x3f800000) * f32(0x1.00400000000000000000p+0:0x3f802000) + f32(0x1.00000c00000000000000p-14:0x38800006)
+res: f32(0x1.00440200000000000000p+0:0x3f802201) flags=INEXACT  (14/1)
+op : f32(0x1.00400000000000000000p+0:0x3f802000) * f32(0x1.00000c00000000000000p-14:0x38800006) + f32(0x1.00000000000000000000p+0:0x3f800000)
+res: f32(0x1.00040200000000000000p+0:0x3f800201) flags=INEXACT  (14/2)
+op : f32(0x1.00000000000000000000p+0:0x3f800000) * f32(0x1.00400000000000000000p+0:0x3f802000) + f32(0x1.00000000000000000000p+1:0x40000000)
+res: f32(0x1.80200000000000000000p+1:0x40401000) flags=INEXACT  (15/0)
+op : f32(0x1.00400000000000000000p+0:0x3f802000) * f32(0x1.00000000000000000000p+1:0x40000000) + f32(0x1.00000000000000000000p+0:0x3f800000)
+res: f32(0x1.80400000000000000000p+1:0x40402000) flags=INEXACT  (15/1)
+op : f32(0x1.00000000000000000000p+1:0x40000000) * f32(0x1.00000000000000000000p+0:0x3f800000) + f32(0x1.00400000000000000000p+0:0x3f802000)
+res: f32(0x1.80200000000000000000p+1:0x40401000) flags=INEXACT  (15/2)
+op : f32(0x1.00400000000000000000p+0:0x3f802000) * f32(0x1.00000000000000000000p+1:0x40000000) + f32(0x1.5bf0a800000000000000p+1:0x402df854)
+res: f32(0x1.2e185400000000000000p+2:0x40970c2a) flags=INEXACT  (16/0)
+op : f32(0x1.00000000000000000000p+1:0x40000000) * f32(0x1.5bf0a800000000000000p+1:0x402df854) + f32(0x1.00400000000000000000p+0:0x3f802000)
+res: f32(0x1.9c00a800000000000000p+2:0x40ce0054) flags=INEXACT  (16/1)
+op : f32(0x1.5bf0a800000000000000p+1:0x402df854) * f32(0x1.00400000000000000000p+0:0x3f802000) + f32(0x1.00000000000000000000p+1:0x40000000)
+res: f32(0x1.2e23d400000000000000p+2:0x409711ea) flags=INEXACT  (16/2)
+op : f32(0x1.00000000000000000000p+1:0x40000000) * f32(0x1.5bf0a800000000000000p+1:0x402df854) + f32(0x1.921fb600000000000000p+1:0x40490fdb)
+res: f32(0x1.12804200000000000000p+3:0x41094021) flags=INEXACT  (17/0)
+op : f32(0x1.5bf0a800000000000000p+1:0x402df854) * f32(0x1.921fb600000000000000p+1:0x40490fdb) + f32(0x1.00000000000000000000p+1:0x40000000)
+res: f32(0x1.51458200000000000000p+3:0x4128a2c1) flags=INEXACT  (17/1)
+op : f32(0x1.921fb600000000000000p+1:0x40490fdb) * f32(0x1.00000000000000000000p+1:0x40000000) + f32(0x1.5bf0a800000000000000p+1:0x402df854)
+res: f32(0x1.200c0600000000000000p+3:0x41100603) flags=INEXACT  (17/2)
+op : f32(0x1.5bf0a800000000000000p+1:0x402df854) * f32(0x1.921fb600000000000000p+1:0x40490fdb) + f32(0x1.ffbe0000000000000000p+15:0x477fdf00)
+res: f32(0x1.ffcf1600000000000000p+15:0x477fe78b) flags=INEXACT  (18/0)
+op : f32(0x1.921fb600000000000000p+1:0x40490fdb) * f32(0x1.ffbe0000000000000000p+15:0x477fdf00) + f32(0x1.5bf0a800000000000000p+1:0x402df854)
+res: f32(0x1.91ed3c00000000000000p+17:0x4848f69e) flags=INEXACT  (18/1)
+op : f32(0x1.ffbe0000000000000000p+15:0x477fdf00) * f32(0x1.5bf0a800000000000000p+1:0x402df854) + f32(0x1.921fb600000000000000p+1:0x40490fdb)
+res: f32(0x1.5bc56200000000000000p+17:0x482de2b1) flags=INEXACT  (18/2)
+op : f32(0x1.921fb600000000000000p+1:0x40490fdb) * f32(0x1.ffbe0000000000000000p+15:0x477fdf00) + f32(0x1.ffc00000000000000000p+15:0x477fe000)
+res: f32(0x1.08edf000000000000000p+18:0x488476f8) flags=INEXACT  (19/0)
+op : f32(0x1.ffbe0000000000000000p+15:0x477fdf00) * f32(0x1.ffc00000000000000000p+15:0x477fe000) + f32(0x1.921fb600000000000000p+1:0x40490fdb)
+res: f32(0x1.ff7e0a00000000000000p+31:0x4f7fbf05) flags=INEXACT  (19/1)
+op : f32(0x1.ffc00000000000000000p+15:0x477fe000) * f32(0x1.921fb600000000000000p+1:0x40490fdb) + f32(0x1.ffbe0000000000000000p+15:0x477fdf00)
+res: f32(0x1.08ee7a00000000000000p+18:0x4884773d) flags=INEXACT  (19/2)
+op : f32(0x1.ffbe0000000000000000p+15:0x477fdf00) * f32(0x1.ffc00000000000000000p+15:0x477fe000) + f32(0x1.ffc20000000000000000p+15:0x477fe100)
+res: f32(0x1.ff800a00000000000000p+31:0x4f7fc005) flags=INEXACT  (20/0)
+op : f32(0x1.ffc00000000000000000p+15:0x477fe000) * f32(0x1.ffc20000000000000000p+15:0x477fe100) + f32(0x1.ffbe0000000000000000p+15:0x477fdf00)
+res: f32(0x1.ff840800000000000000p+31:0x4f7fc204) flags=INEXACT  (20/1)
+op : f32(0x1.ffc20000000000000000p+15:0x477fe100) * f32(0x1.ffbe0000000000000000p+15:0x477fdf00) + f32(0x1.ffc00000000000000000p+15:0x477fe000)
+res: f32(0x1.ff820800000000000000p+31:0x4f7fc104) flags=INEXACT  (20/2)
+op : f32(0x1.ffc00000000000000000p+15:0x477fe000) * f32(0x1.ffc20000000000000000p+15:0x477fe100) + f32(0x1.ffbf0000000000000000p+16:0x47ffdf80)
+res: f32(0x1.ff860800000000000000p+31:0x4f7fc304) flags=INEXACT  (21/0)
+op : f32(0x1.ffc20000000000000000p+15:0x477fe100) * f32(0x1.ffbf0000000000000000p+16:0x47ffdf80) + f32(0x1.ffc00000000000000000p+15:0x477fe000)
+res: f32(0x1.ff820800000000000000p+32:0x4fffc104) flags=INEXACT  (21/1)
+op : f32(0x1.ffbf0000000000000000p+16:0x47ffdf80) * f32(0x1.ffc00000000000000000p+15:0x477fe000) + f32(0x1.ffc20000000000000000p+15:0x477fe100)
+res: f32(0x1.ff800a00000000000000p+32:0x4fffc005) flags=INEXACT  (21/2)
+op : f32(0x1.ffc20000000000000000p+15:0x477fe100) * f32(0x1.ffbf0000000000000000p+16:0x47ffdf80) + f32(0x1.ffc00000000000000000p+16:0x47ffe000)
+res: f32(0x1.ff830800000000000000p+32:0x4fffc184) flags=INEXACT  (22/0)
+op : f32(0x1.ffbf0000000000000000p+16:0x47ffdf80) * f32(0x1.ffc00000000000000000p+16:0x47ffe000) + f32(0x1.ffc20000000000000000p+15:0x477fe100)
+res: f32(0x1.ff7f8a00000000000000p+33:0x507fbfc5) flags=INEXACT  (22/1)
+op : f32(0x1.ffc00000000000000000p+16:0x47ffe000) * f32(0x1.ffc20000000000000000p+15:0x477fe100) + f32(0x1.ffbf0000000000000000p+16:0x47ffdf80)
+res: f32(0x1.ff840800000000000000p+32:0x4fffc204) flags=INEXACT  (22/2)
+op : f32(0x1.ffbf0000000000000000p+16:0x47ffdf80) * f32(0x1.ffc00000000000000000p+16:0x47ffe000) + f32(0x1.ffc10000000000000000p+16:0x47ffe080)
+res: f32(0x1.ff800a00000000000000p+33:0x507fc005) flags=INEXACT  (23/0)
+op : f32(0x1.ffc00000000000000000p+16:0x47ffe000) * f32(0x1.ffc10000000000000000p+16:0x47ffe080) + f32(0x1.ffbf0000000000000000p+16:0x47ffdf80)
+res: f32(0x1.ff820800000000000000p+33:0x507fc104) flags=INEXACT  (23/1)
+op : f32(0x1.ffc10000000000000000p+16:0x47ffe080) * f32(0x1.ffbf0000000000000000p+16:0x47ffdf80) + f32(0x1.ffc00000000000000000p+16:0x47ffe000)
+res: f32(0x1.ff810800000000000000p+33:0x507fc084) flags=INEXACT  (23/2)
+op : f32(0x1.ffc00000000000000000p+16:0x47ffe000) * f32(0x1.ffc10000000000000000p+16:0x47ffe080) + f32(0x1.c0bab600000000000000p+99:0x71605d5b)
+res: f32(0x1.c0bab800000000000000p+99:0x71605d5c) flags=INEXACT  (24/0)
+op : f32(0x1.ffc10000000000000000p+16:0x47ffe080) * f32(0x1.c0bab600000000000000p+99:0x71605d5b) + f32(0x1.ffc00000000000000000p+16:0x47ffe000)
+res: f32(0x1.c0838000000000000000p+116:0x79e041c0) flags=INEXACT  (24/1)
+op : f32(0x1.c0bab600000000000000p+99:0x71605d5b) * f32(0x1.ffc00000000000000000p+16:0x47ffe000) + f32(0x1.ffc10000000000000000p+16:0x47ffe080)
+res: f32(0x1.c082a000000000000000p+116:0x79e04150) flags=INEXACT  (24/2)
+op : f32(0x1.ffc10000000000000000p+16:0x47ffe080) * f32(0x1.c0bab600000000000000p+99:0x71605d5b) + f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+res: f32(inf:0x7f800000) flags=OVERFLOW INEXACT  (25/0)
+op : f32(0x1.c0bab600000000000000p+99:0x71605d5b) * f32(0x1.fffffe00000000000000p+127:0x7f7fffff) + f32(0x1.ffc10000000000000000p+16:0x47ffe080)
+res: f32(inf:0x7f800000) flags=OVERFLOW INEXACT  (25/1)
+op : f32(0x1.fffffe00000000000000p+127:0x7f7fffff) * f32(0x1.ffc10000000000000000p+16:0x47ffe080) + f32(0x1.c0bab600000000000000p+99:0x71605d5b)
+res: f32(inf:0x7f800000) flags=OVERFLOW INEXACT  (25/2)
+op : f32(0x1.c0bab600000000000000p+99:0x71605d5b) * f32(0x1.fffffe00000000000000p+127:0x7f7fffff) + f32(inf:0x7f800000)
+res: f32(inf:0x7f800000) flags=OK (26/0)
+op : f32(0x1.fffffe00000000000000p+127:0x7f7fffff) * f32(inf:0x7f800000) + f32(0x1.c0bab600000000000000p+99:0x71605d5b)
+res: f32(inf:0x7f800000) flags=OK (26/1)
+op : f32(inf:0x7f800000) * f32(0x1.c0bab600000000000000p+99:0x71605d5b) + f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+res: f32(inf:0x7f800000) flags=OK (26/2)
+op : f32(0x1.fffffe00000000000000p+127:0x7f7fffff) * f32(inf:0x7f800000) + f32(-nan:0x7fc00000)
+res: f32(-nan:0xffffffff) flags=OK (27/0)
+op : f32(inf:0x7f800000) * f32(-nan:0x7fc00000) + f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+res: f32(-nan:0xffffffff) flags=OK (27/1)
+op : f32(-nan:0x7fc00000) * f32(0x1.fffffe00000000000000p+127:0x7f7fffff) + f32(inf:0x7f800000)
+res: f32(-nan:0xffffffff) flags=OK (27/2)
+op : f32(inf:0x7f800000) * f32(-nan:0x7fc00000) + f32(-nan:0x7fa00000)
+res: f32(-nan:0xffffffff) flags=INVALID (28/0)
+op : f32(-nan:0x7fc00000) * f32(-nan:0x7fa00000) + f32(inf:0x7f800000)
+res: f32(-nan:0xffffffff) flags=INVALID (28/1)
+op : f32(-nan:0x7fa00000) * f32(inf:0x7f800000) + f32(-nan:0x7fc00000)
+res: f32(-nan:0xffffffff) flags=INVALID (28/2)
+op : f32(-nan:0x7fc00000) * f32(-nan:0x7fa00000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffffffff) flags=INVALID (29/0)
+op : f32(-nan:0x7fa00000) * f32(-nan:0xffa00000) + f32(-nan:0x7fc00000)
+res: f32(-nan:0xffffffff) flags=INVALID (29/1)
+op : f32(-nan:0xffa00000) * f32(-nan:0x7fc00000) + f32(-nan:0x7fa00000)
+res: f32(-nan:0xffffffff) flags=INVALID (29/2)
+op : f32(-nan:0x7fa00000) * f32(-nan:0xffa00000) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffffffff) flags=INVALID (30/0)
+op : f32(-nan:0xffa00000) * f32(-nan:0xffc00000) + f32(-nan:0x7fa00000)
+res: f32(-nan:0xffffffff) flags=INVALID (30/1)
+op : f32(-nan:0xffc00000) * f32(-nan:0x7fa00000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffffffff) flags=INVALID (30/2)
+# LP184149
+op : f32(0x0.00000000000000000000p+0:0000000000) * f32(0x1.00000000000000000000p-1:0x3f000000) + f32(0x0.00000000000000000000p+0:0000000000)
+res: f32(0x0.00000000000000000000p+0:0000000000) flags=OK (31/0)
+op : f32(0x1.00000000000000000000p-149:0x00000001) * f32(0x1.00000000000000000000p-149:0x00000001) + f32(0x1.00000000000000000000p-149:0x00000001)
+res: f32(0x1.00000000000000000000p-148:0x00000002) flags=UNDERFLOW INEXACT  (32/0)
+### Rounding downwards
+op : f32(-nan:0xffa00000) * f32(-nan:0xffc00000) + f32(-inf:0xff800000)
+res: f32(-nan:0xffffffff) flags=INVALID (0/0)
+op : f32(-nan:0xffc00000) * f32(-inf:0xff800000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffffffff) flags=INVALID (0/1)
+op : f32(-inf:0xff800000) * f32(-nan:0xffa00000) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffffffff) flags=INVALID (0/2)
+op : f32(-nan:0xffc00000) * f32(-inf:0xff800000) + f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+res: f32(-nan:0xffffffff) flags=OK (1/0)
+op : f32(-inf:0xff800000) * f32(-0x1.fffffe00000000000000p+127:0xff7fffff) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffffffff) flags=OK (1/1)
+op : f32(-0x1.fffffe00000000000000p+127:0xff7fffff) * f32(-nan:0xffc00000) + f32(-inf:0xff800000)
+res: f32(-nan:0xffffffff) flags=OK (1/2)
+op : f32(-inf:0xff800000) * f32(-0x1.fffffe00000000000000p+127:0xff7fffff) + f32(-0x1.1874b200000000000000p+103:0xf30c3a59)
+res: f32(inf:0x7f800000) flags=OK (2/0)
+op : f32(-0x1.fffffe00000000000000p+127:0xff7fffff) * f32(-0x1.1874b200000000000000p+103:0xf30c3a59) + f32(-inf:0xff800000)
+res: f32(-inf:0xff800000) flags=OK (2/1)
+op : f32(-0x1.1874b200000000000000p+103:0xf30c3a59) * f32(-inf:0xff800000) + f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+res: f32(inf:0x7f800000) flags=OK (2/2)
+op : f32(-0x1.fffffe00000000000000p+127:0xff7fffff) * f32(-0x1.1874b200000000000000p+103:0xf30c3a59) + f32(-0x1.c0bab600000000000000p+99:0xf1605d5b)
+res: f32(0x1.fffffe00000000000000p+127:0x7f7fffff) flags=OVERFLOW INEXACT  (3/0)
+op : f32(-0x1.1874b200000000000000p+103:0xf30c3a59) * f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) + f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+res: f32(0x1.fffffe00000000000000p+127:0x7f7fffff) flags=OVERFLOW INEXACT  (3/1)
+op : f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) * f32(-0x1.fffffe00000000000000p+127:0xff7fffff) + f32(-0x1.1874b200000000000000p+103:0xf30c3a59)
+res: f32(0x1.fffffe00000000000000p+127:0x7f7fffff) flags=OVERFLOW INEXACT  (3/2)
+op : f32(-0x1.1874b200000000000000p+103:0xf30c3a59) * f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) + f32(-0x1.31f75000000000000000p-40:0xab98fba8)
+res: f32(0x1.fffffe00000000000000p+127:0x7f7fffff) flags=OVERFLOW INEXACT  (4/0)
+op : f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) * f32(-0x1.31f75000000000000000p-40:0xab98fba8) + f32(-0x1.1874b200000000000000p+103:0xf30c3a59)
+res: f32(-0x1.1874b200000000000000p+103:0xf30c3a59) flags=INEXACT  (4/1)
+op : f32(-0x1.31f75000000000000000p-40:0xab98fba8) * f32(-0x1.1874b200000000000000p+103:0xf30c3a59) + f32(-0x1.c0bab600000000000000p+99:0xf1605d5b)
+res: f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) flags=INEXACT  (4/2)
+op : f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) * f32(-0x1.31f75000000000000000p-40:0xab98fba8) + f32(-0x1.50544400000000000000p-66:0x9ea82a22)
+res: f32(0x1.0c27f800000000000000p+60:0x5d8613fc) flags=INEXACT  (5/0)
+op : f32(-0x1.31f75000000000000000p-40:0xab98fba8) * f32(-0x1.50544400000000000000p-66:0x9ea82a22) + f32(-0x1.c0bab600000000000000p+99:0xf1605d5b)
+res: f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) flags=INEXACT  (5/1)
+op : f32(-0x1.50544400000000000000p-66:0x9ea82a22) * f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) + f32(-0x1.31f75000000000000000p-40:0xab98fba8)
+res: f32(0x1.26c46000000000000000p+34:0x50936230) flags=INEXACT  (5/2)
+op : f32(-0x1.31f75000000000000000p-40:0xab98fba8) * f32(-0x1.50544400000000000000p-66:0x9ea82a22) + f32(-0x1.00000000000000000000p-126:0x80800000)
+res: f32(0x1.91f93e00000000000000p-106:0x0ac8fc9f) flags=INEXACT  (6/0)
+op : f32(-0x1.50544400000000000000p-66:0x9ea82a22) * f32(-0x1.00000000000000000000p-126:0x80800000) + f32(-0x1.31f75000000000000000p-40:0xab98fba8)
+res: f32(-0x1.31f75000000000000000p-40:0xab98fba8) flags=INEXACT  (6/1)
+op : f32(-0x1.00000000000000000000p-126:0x80800000) * f32(-0x1.31f75000000000000000p-40:0xab98fba8) + f32(-0x1.50544400000000000000p-66:0x9ea82a22)
+res: f32(-0x1.50544400000000000000p-66:0x9ea82a22) flags=INEXACT  (6/2)
+op : f32(-0x1.50544400000000000000p-66:0x9ea82a22) * f32(-0x1.00000000000000000000p-126:0x80800000) + f32(0x0.00000000000000000000p+0:0000000000)
+res: f32(0x0.00000000000000000000p+0:0000000000) flags=UNDERFLOW INEXACT  (7/0)
+op : f32(-0x1.00000000000000000000p-126:0x80800000) * f32(0x0.00000000000000000000p+0:0000000000) + f32(-0x1.50544400000000000000p-66:0x9ea82a22)
+res: f32(-0x1.50544400000000000000p-66:0x9ea82a22) flags=INEXACT  (7/1)
+op : f32(0x0.00000000000000000000p+0:0000000000) * f32(-0x1.50544400000000000000p-66:0x9ea82a22) + f32(-0x1.00000000000000000000p-126:0x80800000)
+res: f32(-0x1.00000000000000000000p-126:0x80800000) flags=OK (7/2)
+op : f32(-0x1.00000000000000000000p-126:0x80800000) * f32(0x0.00000000000000000000p+0:0000000000) + f32(0x1.00000000000000000000p-126:0x00800000)
+res: f32(0x1.00000000000000000000p-126:0x00800000) flags=OK (8/0)
+op : f32(0x0.00000000000000000000p+0:0000000000) * f32(0x1.00000000000000000000p-126:0x00800000) + f32(-0x1.00000000000000000000p-126:0x80800000)
+res: f32(-0x1.00000000000000000000p-126:0x80800000) flags=OK (8/1)
+op : f32(0x1.00000000000000000000p-126:0x00800000) * f32(-0x1.00000000000000000000p-126:0x80800000) + f32(0x0.00000000000000000000p+0:0000000000)
+res: f32(-0x1.00000000000000000000p-149:0x80000001) flags=UNDERFLOW INEXACT  (8/2)
+op : f32(0x0.00000000000000000000p+0:0000000000) * f32(0x1.00000000000000000000p-126:0x00800000) + f32(0x1.00000000000000000000p-25:0x33000000)
+res: f32(0x1.00000000000000000000p-25:0x33000000) flags=OK (9/0)
+op : f32(0x1.00000000000000000000p-126:0x00800000) * f32(0x1.00000000000000000000p-25:0x33000000) + f32(0x0.00000000000000000000p+0:0000000000)
+res: f32(0x0.00000000000000000000p+0:0000000000) flags=UNDERFLOW INEXACT  (9/1)
+op : f32(0x1.00000000000000000000p-25:0x33000000) * f32(0x0.00000000000000000000p+0:0000000000) + f32(0x1.00000000000000000000p-126:0x00800000)
+res: f32(0x1.00000000000000000000p-126:0x00800000) flags=OK (9/2)
+op : f32(0x1.00000000000000000000p-126:0x00800000) * f32(0x1.00000000000000000000p-25:0x33000000) + f32(0x1.ffffe600000000000000p-25:0x337ffff3)
+res: f32(0x1.ffffe600000000000000p-25:0x337ffff3) flags=INEXACT  (10/0)
+op : f32(0x1.00000000000000000000p-25:0x33000000) * f32(0x1.ffffe600000000000000p-25:0x337ffff3) + f32(0x1.00000000000000000000p-126:0x00800000)
+res: f32(0x1.ffffe600000000000000p-50:0x26fffff3) flags=INEXACT  (10/1)
+op : f32(0x1.ffffe600000000000000p-25:0x337ffff3) * f32(0x1.00000000000000000000p-126:0x00800000) + f32(0x1.00000000000000000000p-25:0x33000000)
+res: f32(0x1.00000000000000000000p-25:0x33000000) flags=INEXACT  (10/2)
+op : f32(0x1.00000000000000000000p-25:0x33000000) * f32(0x1.ffffe600000000000000p-25:0x337ffff3) + f32(0x1.ff801a00000000000000p-15:0x387fc00d)
+res: f32(0x1.ff801a00000000000000p-15:0x387fc00d) flags=INEXACT  (11/0)
+op : f32(0x1.ffffe600000000000000p-25:0x337ffff3) * f32(0x1.ff801a00000000000000p-15:0x387fc00d) + f32(0x1.00000000000000000000p-25:0x33000000)
+res: f32(0x1.0007fe00000000000000p-25:0x330003ff) flags=INEXACT  (11/1)
+op : f32(0x1.ff801a00000000000000p-15:0x387fc00d) * f32(0x1.00000000000000000000p-25:0x33000000) + f32(0x1.ffffe600000000000000p-25:0x337ffff3)
+res: f32(0x1.0001f200000000000000p-24:0x338000f9) flags=INEXACT  (11/2)
+op : f32(0x1.ffffe600000000000000p-25:0x337ffff3) * f32(0x1.ff801a00000000000000p-15:0x387fc00d) + f32(0x1.00000c00000000000000p-14:0x38800006)
+res: f32(0x1.00000c00000000000000p-14:0x38800006) flags=INEXACT  (12/0)
+op : f32(0x1.ff801a00000000000000p-15:0x387fc00d) * f32(0x1.00000c00000000000000p-14:0x38800006) + f32(0x1.ffffe600000000000000p-25:0x337ffff3)
+res: f32(0x1.0ffbf400000000000000p-24:0x3387fdfa) flags=INEXACT  (12/1)
+op : f32(0x1.00000c00000000000000p-14:0x38800006) * f32(0x1.ffffe600000000000000p-25:0x337ffff3) + f32(0x1.ff801a00000000000000p-15:0x387fc00d)
+res: f32(0x1.ff801a00000000000000p-15:0x387fc00d) flags=INEXACT  (12/2)
+op : f32(0x1.ff801a00000000000000p-15:0x387fc00d) * f32(0x1.00000c00000000000000p-14:0x38800006) + f32(0x1.00000000000000000000p+0:0x3f800000)
+res: f32(0x1.00000000000000000000p+0:0x3f800000) flags=INEXACT  (13/0)
+op : f32(0x1.00000c00000000000000p-14:0x38800006) * f32(0x1.00000000000000000000p+0:0x3f800000) + f32(0x1.ff801a00000000000000p-15:0x387fc00d)
+res: f32(0x1.ffc01800000000000000p-14:0x38ffe00c) flags=INEXACT  (13/1)
+op : f32(0x1.00000000000000000000p+0:0x3f800000) * f32(0x1.ff801a00000000000000p-15:0x387fc00d) + f32(0x1.00000c00000000000000p-14:0x38800006)
+res: f32(0x1.ffc01800000000000000p-14:0x38ffe00c) flags=INEXACT  (13/2)
+op : f32(0x1.00000c00000000000000p-14:0x38800006) * f32(0x1.00000000000000000000p+0:0x3f800000) + f32(0x1.00400000000000000000p+0:0x3f802000)
+res: f32(0x1.00440000000000000000p+0:0x3f802200) flags=INEXACT  (14/0)
+op : f32(0x1.00000000000000000000p+0:0x3f800000) * f32(0x1.00400000000000000000p+0:0x3f802000) + f32(0x1.00000c00000000000000p-14:0x38800006)
+res: f32(0x1.00440000000000000000p+0:0x3f802200) flags=INEXACT  (14/1)
+op : f32(0x1.00400000000000000000p+0:0x3f802000) * f32(0x1.00000c00000000000000p-14:0x38800006) + f32(0x1.00000000000000000000p+0:0x3f800000)
+res: f32(0x1.00040000000000000000p+0:0x3f800200) flags=INEXACT  (14/2)
+op : f32(0x1.00000000000000000000p+0:0x3f800000) * f32(0x1.00400000000000000000p+0:0x3f802000) + f32(0x1.00000000000000000000p+1:0x40000000)
+res: f32(0x1.80200000000000000000p+1:0x40401000) flags=INEXACT  (15/0)
+op : f32(0x1.00400000000000000000p+0:0x3f802000) * f32(0x1.00000000000000000000p+1:0x40000000) + f32(0x1.00000000000000000000p+0:0x3f800000)
+res: f32(0x1.80400000000000000000p+1:0x40402000) flags=INEXACT  (15/1)
+op : f32(0x1.00000000000000000000p+1:0x40000000) * f32(0x1.00000000000000000000p+0:0x3f800000) + f32(0x1.00400000000000000000p+0:0x3f802000)
+res: f32(0x1.80200000000000000000p+1:0x40401000) flags=INEXACT  (15/2)
+op : f32(0x1.00400000000000000000p+0:0x3f802000) * f32(0x1.00000000000000000000p+1:0x40000000) + f32(0x1.5bf0a800000000000000p+1:0x402df854)
+res: f32(0x1.2e185400000000000000p+2:0x40970c2a) flags=INEXACT  (16/0)
+op : f32(0x1.00000000000000000000p+1:0x40000000) * f32(0x1.5bf0a800000000000000p+1:0x402df854) + f32(0x1.00400000000000000000p+0:0x3f802000)
+res: f32(0x1.9c00a800000000000000p+2:0x40ce0054) flags=INEXACT  (16/1)
+op : f32(0x1.5bf0a800000000000000p+1:0x402df854) * f32(0x1.00400000000000000000p+0:0x3f802000) + f32(0x1.00000000000000000000p+1:0x40000000)
+res: f32(0x1.2e23d200000000000000p+2:0x409711e9) flags=INEXACT  (16/2)
+op : f32(0x1.00000000000000000000p+1:0x40000000) * f32(0x1.5bf0a800000000000000p+1:0x402df854) + f32(0x1.921fb600000000000000p+1:0x40490fdb)
+res: f32(0x1.12804000000000000000p+3:0x41094020) flags=INEXACT  (17/0)
+op : f32(0x1.5bf0a800000000000000p+1:0x402df854) * f32(0x1.921fb600000000000000p+1:0x40490fdb) + f32(0x1.00000000000000000000p+1:0x40000000)
+res: f32(0x1.51458000000000000000p+3:0x4128a2c0) flags=INEXACT  (17/1)
+op : f32(0x1.921fb600000000000000p+1:0x40490fdb) * f32(0x1.00000000000000000000p+1:0x40000000) + f32(0x1.5bf0a800000000000000p+1:0x402df854)
+res: f32(0x1.200c0400000000000000p+3:0x41100602) flags=INEXACT  (17/2)
+op : f32(0x1.5bf0a800000000000000p+1:0x402df854) * f32(0x1.921fb600000000000000p+1:0x40490fdb) + f32(0x1.ffbe0000000000000000p+15:0x477fdf00)
+res: f32(0x1.ffcf1400000000000000p+15:0x477fe78a) flags=INEXACT  (18/0)
+op : f32(0x1.921fb600000000000000p+1:0x40490fdb) * f32(0x1.ffbe0000000000000000p+15:0x477fdf00) + f32(0x1.5bf0a800000000000000p+1:0x402df854)
+res: f32(0x1.91ed3a00000000000000p+17:0x4848f69d) flags=INEXACT  (18/1)
+op : f32(0x1.ffbe0000000000000000p+15:0x477fdf00) * f32(0x1.5bf0a800000000000000p+1:0x402df854) + f32(0x1.921fb600000000000000p+1:0x40490fdb)
+res: f32(0x1.5bc56000000000000000p+17:0x482de2b0) flags=INEXACT  (18/2)
+op : f32(0x1.921fb600000000000000p+1:0x40490fdb) * f32(0x1.ffbe0000000000000000p+15:0x477fdf00) + f32(0x1.ffc00000000000000000p+15:0x477fe000)
+res: f32(0x1.08edee00000000000000p+18:0x488476f7) flags=INEXACT  (19/0)
+op : f32(0x1.ffbe0000000000000000p+15:0x477fdf00) * f32(0x1.ffc00000000000000000p+15:0x477fe000) + f32(0x1.921fb600000000000000p+1:0x40490fdb)
+res: f32(0x1.ff7e0800000000000000p+31:0x4f7fbf04) flags=INEXACT  (19/1)
+op : f32(0x1.ffc00000000000000000p+15:0x477fe000) * f32(0x1.921fb600000000000000p+1:0x40490fdb) + f32(0x1.ffbe0000000000000000p+15:0x477fdf00)
+res: f32(0x1.08ee7800000000000000p+18:0x4884773c) flags=INEXACT  (19/2)
+op : f32(0x1.ffbe0000000000000000p+15:0x477fdf00) * f32(0x1.ffc00000000000000000p+15:0x477fe000) + f32(0x1.ffc20000000000000000p+15:0x477fe100)
+res: f32(0x1.ff800800000000000000p+31:0x4f7fc004) flags=INEXACT  (20/0)
+op : f32(0x1.ffc00000000000000000p+15:0x477fe000) * f32(0x1.ffc20000000000000000p+15:0x477fe100) + f32(0x1.ffbe0000000000000000p+15:0x477fdf00)
+res: f32(0x1.ff840600000000000000p+31:0x4f7fc203) flags=INEXACT  (20/1)
+op : f32(0x1.ffc20000000000000000p+15:0x477fe100) * f32(0x1.ffbe0000000000000000p+15:0x477fdf00) + f32(0x1.ffc00000000000000000p+15:0x477fe000)
+res: f32(0x1.ff820600000000000000p+31:0x4f7fc103) flags=INEXACT  (20/2)
+op : f32(0x1.ffc00000000000000000p+15:0x477fe000) * f32(0x1.ffc20000000000000000p+15:0x477fe100) + f32(0x1.ffbf0000000000000000p+16:0x47ffdf80)
+res: f32(0x1.ff860600000000000000p+31:0x4f7fc303) flags=INEXACT  (21/0)
+op : f32(0x1.ffc20000000000000000p+15:0x477fe100) * f32(0x1.ffbf0000000000000000p+16:0x47ffdf80) + f32(0x1.ffc00000000000000000p+15:0x477fe000)
+res: f32(0x1.ff820600000000000000p+32:0x4fffc103) flags=INEXACT  (21/1)
+op : f32(0x1.ffbf0000000000000000p+16:0x47ffdf80) * f32(0x1.ffc00000000000000000p+15:0x477fe000) + f32(0x1.ffc20000000000000000p+15:0x477fe100)
+res: f32(0x1.ff800800000000000000p+32:0x4fffc004) flags=INEXACT  (21/2)
+op : f32(0x1.ffc20000000000000000p+15:0x477fe100) * f32(0x1.ffbf0000000000000000p+16:0x47ffdf80) + f32(0x1.ffc00000000000000000p+16:0x47ffe000)
+res: f32(0x1.ff830600000000000000p+32:0x4fffc183) flags=INEXACT  (22/0)
+op : f32(0x1.ffbf0000000000000000p+16:0x47ffdf80) * f32(0x1.ffc00000000000000000p+16:0x47ffe000) + f32(0x1.ffc20000000000000000p+15:0x477fe100)
+res: f32(0x1.ff7f8800000000000000p+33:0x507fbfc4) flags=INEXACT  (22/1)
+op : f32(0x1.ffc00000000000000000p+16:0x47ffe000) * f32(0x1.ffc20000000000000000p+15:0x477fe100) + f32(0x1.ffbf0000000000000000p+16:0x47ffdf80)
+res: f32(0x1.ff840600000000000000p+32:0x4fffc203) flags=INEXACT  (22/2)
+op : f32(0x1.ffbf0000000000000000p+16:0x47ffdf80) * f32(0x1.ffc00000000000000000p+16:0x47ffe000) + f32(0x1.ffc10000000000000000p+16:0x47ffe080)
+res: f32(0x1.ff800800000000000000p+33:0x507fc004) flags=INEXACT  (23/0)
+op : f32(0x1.ffc00000000000000000p+16:0x47ffe000) * f32(0x1.ffc10000000000000000p+16:0x47ffe080) + f32(0x1.ffbf0000000000000000p+16:0x47ffdf80)
+res: f32(0x1.ff820600000000000000p+33:0x507fc103) flags=INEXACT  (23/1)
+op : f32(0x1.ffc10000000000000000p+16:0x47ffe080) * f32(0x1.ffbf0000000000000000p+16:0x47ffdf80) + f32(0x1.ffc00000000000000000p+16:0x47ffe000)
+res: f32(0x1.ff810600000000000000p+33:0x507fc083) flags=INEXACT  (23/2)
+op : f32(0x1.ffc00000000000000000p+16:0x47ffe000) * f32(0x1.ffc10000000000000000p+16:0x47ffe080) + f32(0x1.c0bab600000000000000p+99:0x71605d5b)
+res: f32(0x1.c0bab600000000000000p+99:0x71605d5b) flags=INEXACT  (24/0)
+op : f32(0x1.ffc10000000000000000p+16:0x47ffe080) * f32(0x1.c0bab600000000000000p+99:0x71605d5b) + f32(0x1.ffc00000000000000000p+16:0x47ffe000)
+res: f32(0x1.c0837e00000000000000p+116:0x79e041bf) flags=INEXACT  (24/1)
+op : f32(0x1.c0bab600000000000000p+99:0x71605d5b) * f32(0x1.ffc00000000000000000p+16:0x47ffe000) + f32(0x1.ffc10000000000000000p+16:0x47ffe080)
+res: f32(0x1.c0829e00000000000000p+116:0x79e0414f) flags=INEXACT  (24/2)
+op : f32(0x1.ffc10000000000000000p+16:0x47ffe080) * f32(0x1.c0bab600000000000000p+99:0x71605d5b) + f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+res: f32(0x1.fffffe00000000000000p+127:0x7f7fffff) flags=OVERFLOW INEXACT  (25/0)
+op : f32(0x1.c0bab600000000000000p+99:0x71605d5b) * f32(0x1.fffffe00000000000000p+127:0x7f7fffff) + f32(0x1.ffc10000000000000000p+16:0x47ffe080)
+res: f32(0x1.fffffe00000000000000p+127:0x7f7fffff) flags=OVERFLOW INEXACT  (25/1)
+op : f32(0x1.fffffe00000000000000p+127:0x7f7fffff) * f32(0x1.ffc10000000000000000p+16:0x47ffe080) + f32(0x1.c0bab600000000000000p+99:0x71605d5b)
+res: f32(0x1.fffffe00000000000000p+127:0x7f7fffff) flags=OVERFLOW INEXACT  (25/2)
+op : f32(0x1.c0bab600000000000000p+99:0x71605d5b) * f32(0x1.fffffe00000000000000p+127:0x7f7fffff) + f32(inf:0x7f800000)
+res: f32(inf:0x7f800000) flags=OK (26/0)
+op : f32(0x1.fffffe00000000000000p+127:0x7f7fffff) * f32(inf:0x7f800000) + f32(0x1.c0bab600000000000000p+99:0x71605d5b)
+res: f32(inf:0x7f800000) flags=OK (26/1)
+op : f32(inf:0x7f800000) * f32(0x1.c0bab600000000000000p+99:0x71605d5b) + f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+res: f32(inf:0x7f800000) flags=OK (26/2)
+op : f32(0x1.fffffe00000000000000p+127:0x7f7fffff) * f32(inf:0x7f800000) + f32(-nan:0x7fc00000)
+res: f32(-nan:0xffffffff) flags=OK (27/0)
+op : f32(inf:0x7f800000) * f32(-nan:0x7fc00000) + f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+res: f32(-nan:0xffffffff) flags=OK (27/1)
+op : f32(-nan:0x7fc00000) * f32(0x1.fffffe00000000000000p+127:0x7f7fffff) + f32(inf:0x7f800000)
+res: f32(-nan:0xffffffff) flags=OK (27/2)
+op : f32(inf:0x7f800000) * f32(-nan:0x7fc00000) + f32(-nan:0x7fa00000)
+res: f32(-nan:0xffffffff) flags=INVALID (28/0)
+op : f32(-nan:0x7fc00000) * f32(-nan:0x7fa00000) + f32(inf:0x7f800000)
+res: f32(-nan:0xffffffff) flags=INVALID (28/1)
+op : f32(-nan:0x7fa00000) * f32(inf:0x7f800000) + f32(-nan:0x7fc00000)
+res: f32(-nan:0xffffffff) flags=INVALID (28/2)
+op : f32(-nan:0x7fc00000) * f32(-nan:0x7fa00000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffffffff) flags=INVALID (29/0)
+op : f32(-nan:0x7fa00000) * f32(-nan:0xffa00000) + f32(-nan:0x7fc00000)
+res: f32(-nan:0xffffffff) flags=INVALID (29/1)
+op : f32(-nan:0xffa00000) * f32(-nan:0x7fc00000) + f32(-nan:0x7fa00000)
+res: f32(-nan:0xffffffff) flags=INVALID (29/2)
+op : f32(-nan:0x7fa00000) * f32(-nan:0xffa00000) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffffffff) flags=INVALID (30/0)
+op : f32(-nan:0xffa00000) * f32(-nan:0xffc00000) + f32(-nan:0x7fa00000)
+res: f32(-nan:0xffffffff) flags=INVALID (30/1)
+op : f32(-nan:0xffc00000) * f32(-nan:0x7fa00000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffffffff) flags=INVALID (30/2)
+# LP184149
+op : f32(0x0.00000000000000000000p+0:0000000000) * f32(0x1.00000000000000000000p-1:0x3f000000) + f32(0x0.00000000000000000000p+0:0000000000)
+res: f32(0x0.00000000000000000000p+0:0000000000) flags=OK (31/0)
+op : f32(0x1.00000000000000000000p-149:0x00000001) * f32(0x1.00000000000000000000p-149:0x00000001) + f32(0x1.00000000000000000000p-149:0x00000001)
+res: f32(0x1.00000000000000000000p-149:0x00000001) flags=UNDERFLOW INEXACT  (32/0)
+### Rounding to zero
+op : f32(-nan:0xffa00000) * f32(-nan:0xffc00000) + f32(-inf:0xff800000)
+res: f32(-nan:0xffffffff) flags=INVALID (0/0)
+op : f32(-nan:0xffc00000) * f32(-inf:0xff800000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffffffff) flags=INVALID (0/1)
+op : f32(-inf:0xff800000) * f32(-nan:0xffa00000) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffffffff) flags=INVALID (0/2)
+op : f32(-nan:0xffc00000) * f32(-inf:0xff800000) + f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+res: f32(-nan:0xffffffff) flags=OK (1/0)
+op : f32(-inf:0xff800000) * f32(-0x1.fffffe00000000000000p+127:0xff7fffff) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffffffff) flags=OK (1/1)
+op : f32(-0x1.fffffe00000000000000p+127:0xff7fffff) * f32(-nan:0xffc00000) + f32(-inf:0xff800000)
+res: f32(-nan:0xffffffff) flags=OK (1/2)
+op : f32(-inf:0xff800000) * f32(-0x1.fffffe00000000000000p+127:0xff7fffff) + f32(-0x1.1874b200000000000000p+103:0xf30c3a59)
+res: f32(inf:0x7f800000) flags=OK (2/0)
+op : f32(-0x1.fffffe00000000000000p+127:0xff7fffff) * f32(-0x1.1874b200000000000000p+103:0xf30c3a59) + f32(-inf:0xff800000)
+res: f32(-inf:0xff800000) flags=OK (2/1)
+op : f32(-0x1.1874b200000000000000p+103:0xf30c3a59) * f32(-inf:0xff800000) + f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+res: f32(inf:0x7f800000) flags=OK (2/2)
+op : f32(-0x1.fffffe00000000000000p+127:0xff7fffff) * f32(-0x1.1874b200000000000000p+103:0xf30c3a59) + f32(-0x1.c0bab600000000000000p+99:0xf1605d5b)
+res: f32(0x1.fffffe00000000000000p+127:0x7f7fffff) flags=OVERFLOW INEXACT  (3/0)
+op : f32(-0x1.1874b200000000000000p+103:0xf30c3a59) * f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) + f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+res: f32(0x1.fffffe00000000000000p+127:0x7f7fffff) flags=OVERFLOW INEXACT  (3/1)
+op : f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) * f32(-0x1.fffffe00000000000000p+127:0xff7fffff) + f32(-0x1.1874b200000000000000p+103:0xf30c3a59)
+res: f32(0x1.fffffe00000000000000p+127:0x7f7fffff) flags=OVERFLOW INEXACT  (3/2)
+op : f32(-0x1.1874b200000000000000p+103:0xf30c3a59) * f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) + f32(-0x1.31f75000000000000000p-40:0xab98fba8)
+res: f32(0x1.fffffe00000000000000p+127:0x7f7fffff) flags=OVERFLOW INEXACT  (4/0)
+op : f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) * f32(-0x1.31f75000000000000000p-40:0xab98fba8) + f32(-0x1.1874b200000000000000p+103:0xf30c3a59)
+res: f32(-0x1.1874b000000000000000p+103:0xf30c3a58) flags=INEXACT  (4/1)
+op : f32(-0x1.31f75000000000000000p-40:0xab98fba8) * f32(-0x1.1874b200000000000000p+103:0xf30c3a59) + f32(-0x1.c0bab600000000000000p+99:0xf1605d5b)
+res: f32(-0x1.c0bab400000000000000p+99:0xf1605d5a) flags=INEXACT  (4/2)
+op : f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) * f32(-0x1.31f75000000000000000p-40:0xab98fba8) + f32(-0x1.50544400000000000000p-66:0x9ea82a22)
+res: f32(0x1.0c27f800000000000000p+60:0x5d8613fc) flags=INEXACT  (5/0)
+op : f32(-0x1.31f75000000000000000p-40:0xab98fba8) * f32(-0x1.50544400000000000000p-66:0x9ea82a22) + f32(-0x1.c0bab600000000000000p+99:0xf1605d5b)
+res: f32(-0x1.c0bab400000000000000p+99:0xf1605d5a) flags=INEXACT  (5/1)
+op : f32(-0x1.50544400000000000000p-66:0x9ea82a22) * f32(-0x1.c0bab600000000000000p+99:0xf1605d5b) + f32(-0x1.31f75000000000000000p-40:0xab98fba8)
+res: f32(0x1.26c46000000000000000p+34:0x50936230) flags=INEXACT  (5/2)
+op : f32(-0x1.31f75000000000000000p-40:0xab98fba8) * f32(-0x1.50544400000000000000p-66:0x9ea82a22) + f32(-0x1.00000000000000000000p-126:0x80800000)
+res: f32(0x1.91f93e00000000000000p-106:0x0ac8fc9f) flags=INEXACT  (6/0)
+op : f32(-0x1.50544400000000000000p-66:0x9ea82a22) * f32(-0x1.00000000000000000000p-126:0x80800000) + f32(-0x1.31f75000000000000000p-40:0xab98fba8)
+res: f32(-0x1.31f74e00000000000000p-40:0xab98fba7) flags=INEXACT  (6/1)
+op : f32(-0x1.00000000000000000000p-126:0x80800000) * f32(-0x1.31f75000000000000000p-40:0xab98fba8) + f32(-0x1.50544400000000000000p-66:0x9ea82a22)
+res: f32(-0x1.50544200000000000000p-66:0x9ea82a21) flags=INEXACT  (6/2)
+op : f32(-0x1.50544400000000000000p-66:0x9ea82a22) * f32(-0x1.00000000000000000000p-126:0x80800000) + f32(0x0.00000000000000000000p+0:0000000000)
+res: f32(0x0.00000000000000000000p+0:0000000000) flags=UNDERFLOW INEXACT  (7/0)
+op : f32(-0x1.00000000000000000000p-126:0x80800000) * f32(0x0.00000000000000000000p+0:0000000000) + f32(-0x1.50544400000000000000p-66:0x9ea82a22)
+res: f32(-0x1.50544400000000000000p-66:0x9ea82a22) flags=INEXACT  (7/1)
+op : f32(0x0.00000000000000000000p+0:0000000000) * f32(-0x1.50544400000000000000p-66:0x9ea82a22) + f32(-0x1.00000000000000000000p-126:0x80800000)
+res: f32(-0x1.00000000000000000000p-126:0x80800000) flags=OK (7/2)
+op : f32(-0x1.00000000000000000000p-126:0x80800000) * f32(0x0.00000000000000000000p+0:0000000000) + f32(0x1.00000000000000000000p-126:0x00800000)
+res: f32(0x1.00000000000000000000p-126:0x00800000) flags=OK (8/0)
+op : f32(0x0.00000000000000000000p+0:0000000000) * f32(0x1.00000000000000000000p-126:0x00800000) + f32(-0x1.00000000000000000000p-126:0x80800000)
+res: f32(-0x1.00000000000000000000p-126:0x80800000) flags=OK (8/1)
+op : f32(0x1.00000000000000000000p-126:0x00800000) * f32(-0x1.00000000000000000000p-126:0x80800000) + f32(0x0.00000000000000000000p+0:0000000000)
+res: f32(-0x0.00000000000000000000p+0:0x80000000) flags=UNDERFLOW INEXACT  (8/2)
+op : f32(0x0.00000000000000000000p+0:0000000000) * f32(0x1.00000000000000000000p-126:0x00800000) + f32(0x1.00000000000000000000p-25:0x33000000)
+res: f32(0x1.00000000000000000000p-25:0x33000000) flags=OK (9/0)
+op : f32(0x1.00000000000000000000p-126:0x00800000) * f32(0x1.00000000000000000000p-25:0x33000000) + f32(0x0.00000000000000000000p+0:0000000000)
+res: f32(0x0.00000000000000000000p+0:0000000000) flags=UNDERFLOW INEXACT  (9/1)
+op : f32(0x1.00000000000000000000p-25:0x33000000) * f32(0x0.00000000000000000000p+0:0000000000) + f32(0x1.00000000000000000000p-126:0x00800000)
+res: f32(0x1.00000000000000000000p-126:0x00800000) flags=OK (9/2)
+op : f32(0x1.00000000000000000000p-126:0x00800000) * f32(0x1.00000000000000000000p-25:0x33000000) + f32(0x1.ffffe600000000000000p-25:0x337ffff3)
+res: f32(0x1.ffffe600000000000000p-25:0x337ffff3) flags=INEXACT  (10/0)
+op : f32(0x1.00000000000000000000p-25:0x33000000) * f32(0x1.ffffe600000000000000p-25:0x337ffff3) + f32(0x1.00000000000000000000p-126:0x00800000)
+res: f32(0x1.ffffe600000000000000p-50:0x26fffff3) flags=INEXACT  (10/1)
+op : f32(0x1.ffffe600000000000000p-25:0x337ffff3) * f32(0x1.00000000000000000000p-126:0x00800000) + f32(0x1.00000000000000000000p-25:0x33000000)
+res: f32(0x1.00000000000000000000p-25:0x33000000) flags=INEXACT  (10/2)
+op : f32(0x1.00000000000000000000p-25:0x33000000) * f32(0x1.ffffe600000000000000p-25:0x337ffff3) + f32(0x1.ff801a00000000000000p-15:0x387fc00d)
+res: f32(0x1.ff801a00000000000000p-15:0x387fc00d) flags=INEXACT  (11/0)
+op : f32(0x1.ffffe600000000000000p-25:0x337ffff3) * f32(0x1.ff801a00000000000000p-15:0x387fc00d) + f32(0x1.00000000000000000000p-25:0x33000000)
+res: f32(0x1.0007fe00000000000000p-25:0x330003ff) flags=INEXACT  (11/1)
+op : f32(0x1.ff801a00000000000000p-15:0x387fc00d) * f32(0x1.00000000000000000000p-25:0x33000000) + f32(0x1.ffffe600000000000000p-25:0x337ffff3)
+res: f32(0x1.0001f200000000000000p-24:0x338000f9) flags=INEXACT  (11/2)
+op : f32(0x1.ffffe600000000000000p-25:0x337ffff3) * f32(0x1.ff801a00000000000000p-15:0x387fc00d) + f32(0x1.00000c00000000000000p-14:0x38800006)
+res: f32(0x1.00000c00000000000000p-14:0x38800006) flags=INEXACT  (12/0)
+op : f32(0x1.ff801a00000000000000p-15:0x387fc00d) * f32(0x1.00000c00000000000000p-14:0x38800006) + f32(0x1.ffffe600000000000000p-25:0x337ffff3)
+res: f32(0x1.0ffbf400000000000000p-24:0x3387fdfa) flags=INEXACT  (12/1)
+op : f32(0x1.00000c00000000000000p-14:0x38800006) * f32(0x1.ffffe600000000000000p-25:0x337ffff3) + f32(0x1.ff801a00000000000000p-15:0x387fc00d)
+res: f32(0x1.ff801a00000000000000p-15:0x387fc00d) flags=INEXACT  (12/2)
+op : f32(0x1.ff801a00000000000000p-15:0x387fc00d) * f32(0x1.00000c00000000000000p-14:0x38800006) + f32(0x1.00000000000000000000p+0:0x3f800000)
+res: f32(0x1.00000000000000000000p+0:0x3f800000) flags=INEXACT  (13/0)
+op : f32(0x1.00000c00000000000000p-14:0x38800006) * f32(0x1.00000000000000000000p+0:0x3f800000) + f32(0x1.ff801a00000000000000p-15:0x387fc00d)
+res: f32(0x1.ffc01800000000000000p-14:0x38ffe00c) flags=INEXACT  (13/1)
+op : f32(0x1.00000000000000000000p+0:0x3f800000) * f32(0x1.ff801a00000000000000p-15:0x387fc00d) + f32(0x1.00000c00000000000000p-14:0x38800006)
+res: f32(0x1.ffc01800000000000000p-14:0x38ffe00c) flags=INEXACT  (13/2)
+op : f32(0x1.00000c00000000000000p-14:0x38800006) * f32(0x1.00000000000000000000p+0:0x3f800000) + f32(0x1.00400000000000000000p+0:0x3f802000)
+res: f32(0x1.00440000000000000000p+0:0x3f802200) flags=INEXACT  (14/0)
+op : f32(0x1.00000000000000000000p+0:0x3f800000) * f32(0x1.00400000000000000000p+0:0x3f802000) + f32(0x1.00000c00000000000000p-14:0x38800006)
+res: f32(0x1.00440000000000000000p+0:0x3f802200) flags=INEXACT  (14/1)
+op : f32(0x1.00400000000000000000p+0:0x3f802000) * f32(0x1.00000c00000000000000p-14:0x38800006) + f32(0x1.00000000000000000000p+0:0x3f800000)
+res: f32(0x1.00040000000000000000p+0:0x3f800200) flags=INEXACT  (14/2)
+op : f32(0x1.00000000000000000000p+0:0x3f800000) * f32(0x1.00400000000000000000p+0:0x3f802000) + f32(0x1.00000000000000000000p+1:0x40000000)
+res: f32(0x1.80200000000000000000p+1:0x40401000) flags=INEXACT  (15/0)
+op : f32(0x1.00400000000000000000p+0:0x3f802000) * f32(0x1.00000000000000000000p+1:0x40000000) + f32(0x1.00000000000000000000p+0:0x3f800000)
+res: f32(0x1.80400000000000000000p+1:0x40402000) flags=INEXACT  (15/1)
+op : f32(0x1.00000000000000000000p+1:0x40000000) * f32(0x1.00000000000000000000p+0:0x3f800000) + f32(0x1.00400000000000000000p+0:0x3f802000)
+res: f32(0x1.80200000000000000000p+1:0x40401000) flags=INEXACT  (15/2)
+op : f32(0x1.00400000000000000000p+0:0x3f802000) * f32(0x1.00000000000000000000p+1:0x40000000) + f32(0x1.5bf0a800000000000000p+1:0x402df854)
+res: f32(0x1.2e185400000000000000p+2:0x40970c2a) flags=INEXACT  (16/0)
+op : f32(0x1.00000000000000000000p+1:0x40000000) * f32(0x1.5bf0a800000000000000p+1:0x402df854) + f32(0x1.00400000000000000000p+0:0x3f802000)
+res: f32(0x1.9c00a800000000000000p+2:0x40ce0054) flags=INEXACT  (16/1)
+op : f32(0x1.5bf0a800000000000000p+1:0x402df854) * f32(0x1.00400000000000000000p+0:0x3f802000) + f32(0x1.00000000000000000000p+1:0x40000000)
+res: f32(0x1.2e23d200000000000000p+2:0x409711e9) flags=INEXACT  (16/2)
+op : f32(0x1.00000000000000000000p+1:0x40000000) * f32(0x1.5bf0a800000000000000p+1:0x402df854) + f32(0x1.921fb600000000000000p+1:0x40490fdb)
+res: f32(0x1.12804000000000000000p+3:0x41094020) flags=INEXACT  (17/0)
+op : f32(0x1.5bf0a800000000000000p+1:0x402df854) * f32(0x1.921fb600000000000000p+1:0x40490fdb) + f32(0x1.00000000000000000000p+1:0x40000000)
+res: f32(0x1.51458000000000000000p+3:0x4128a2c0) flags=INEXACT  (17/1)
+op : f32(0x1.921fb600000000000000p+1:0x40490fdb) * f32(0x1.00000000000000000000p+1:0x40000000) + f32(0x1.5bf0a800000000000000p+1:0x402df854)
+res: f32(0x1.200c0400000000000000p+3:0x41100602) flags=INEXACT  (17/2)
+op : f32(0x1.5bf0a800000000000000p+1:0x402df854) * f32(0x1.921fb600000000000000p+1:0x40490fdb) + f32(0x1.ffbe0000000000000000p+15:0x477fdf00)
+res: f32(0x1.ffcf1400000000000000p+15:0x477fe78a) flags=INEXACT  (18/0)
+op : f32(0x1.921fb600000000000000p+1:0x40490fdb) * f32(0x1.ffbe0000000000000000p+15:0x477fdf00) + f32(0x1.5bf0a800000000000000p+1:0x402df854)
+res: f32(0x1.91ed3a00000000000000p+17:0x4848f69d) flags=INEXACT  (18/1)
+op : f32(0x1.ffbe0000000000000000p+15:0x477fdf00) * f32(0x1.5bf0a800000000000000p+1:0x402df854) + f32(0x1.921fb600000000000000p+1:0x40490fdb)
+res: f32(0x1.5bc56000000000000000p+17:0x482de2b0) flags=INEXACT  (18/2)
+op : f32(0x1.921fb600000000000000p+1:0x40490fdb) * f32(0x1.ffbe0000000000000000p+15:0x477fdf00) + f32(0x1.ffc00000000000000000p+15:0x477fe000)
+res: f32(0x1.08edee00000000000000p+18:0x488476f7) flags=INEXACT  (19/0)
+op : f32(0x1.ffbe0000000000000000p+15:0x477fdf00) * f32(0x1.ffc00000000000000000p+15:0x477fe000) + f32(0x1.921fb600000000000000p+1:0x40490fdb)
+res: f32(0x1.ff7e0800000000000000p+31:0x4f7fbf04) flags=INEXACT  (19/1)
+op : f32(0x1.ffc00000000000000000p+15:0x477fe000) * f32(0x1.921fb600000000000000p+1:0x40490fdb) + f32(0x1.ffbe0000000000000000p+15:0x477fdf00)
+res: f32(0x1.08ee7800000000000000p+18:0x4884773c) flags=INEXACT  (19/2)
+op : f32(0x1.ffbe0000000000000000p+15:0x477fdf00) * f32(0x1.ffc00000000000000000p+15:0x477fe000) + f32(0x1.ffc20000000000000000p+15:0x477fe100)
+res: f32(0x1.ff800800000000000000p+31:0x4f7fc004) flags=INEXACT  (20/0)
+op : f32(0x1.ffc00000000000000000p+15:0x477fe000) * f32(0x1.ffc20000000000000000p+15:0x477fe100) + f32(0x1.ffbe0000000000000000p+15:0x477fdf00)
+res: f32(0x1.ff840600000000000000p+31:0x4f7fc203) flags=INEXACT  (20/1)
+op : f32(0x1.ffc20000000000000000p+15:0x477fe100) * f32(0x1.ffbe0000000000000000p+15:0x477fdf00) + f32(0x1.ffc00000000000000000p+15:0x477fe000)
+res: f32(0x1.ff820600000000000000p+31:0x4f7fc103) flags=INEXACT  (20/2)
+op : f32(0x1.ffc00000000000000000p+15:0x477fe000) * f32(0x1.ffc20000000000000000p+15:0x477fe100) + f32(0x1.ffbf0000000000000000p+16:0x47ffdf80)
+res: f32(0x1.ff860600000000000000p+31:0x4f7fc303) flags=INEXACT  (21/0)
+op : f32(0x1.ffc20000000000000000p+15:0x477fe100) * f32(0x1.ffbf0000000000000000p+16:0x47ffdf80) + f32(0x1.ffc00000000000000000p+15:0x477fe000)
+res: f32(0x1.ff820600000000000000p+32:0x4fffc103) flags=INEXACT  (21/1)
+op : f32(0x1.ffbf0000000000000000p+16:0x47ffdf80) * f32(0x1.ffc00000000000000000p+15:0x477fe000) + f32(0x1.ffc20000000000000000p+15:0x477fe100)
+res: f32(0x1.ff800800000000000000p+32:0x4fffc004) flags=INEXACT  (21/2)
+op : f32(0x1.ffc20000000000000000p+15:0x477fe100) * f32(0x1.ffbf0000000000000000p+16:0x47ffdf80) + f32(0x1.ffc00000000000000000p+16:0x47ffe000)
+res: f32(0x1.ff830600000000000000p+32:0x4fffc183) flags=INEXACT  (22/0)
+op : f32(0x1.ffbf0000000000000000p+16:0x47ffdf80) * f32(0x1.ffc00000000000000000p+16:0x47ffe000) + f32(0x1.ffc20000000000000000p+15:0x477fe100)
+res: f32(0x1.ff7f8800000000000000p+33:0x507fbfc4) flags=INEXACT  (22/1)
+op : f32(0x1.ffc00000000000000000p+16:0x47ffe000) * f32(0x1.ffc20000000000000000p+15:0x477fe100) + f32(0x1.ffbf0000000000000000p+16:0x47ffdf80)
+res: f32(0x1.ff840600000000000000p+32:0x4fffc203) flags=INEXACT  (22/2)
+op : f32(0x1.ffbf0000000000000000p+16:0x47ffdf80) * f32(0x1.ffc00000000000000000p+16:0x47ffe000) + f32(0x1.ffc10000000000000000p+16:0x47ffe080)
+res: f32(0x1.ff800800000000000000p+33:0x507fc004) flags=INEXACT  (23/0)
+op : f32(0x1.ffc00000000000000000p+16:0x47ffe000) * f32(0x1.ffc10000000000000000p+16:0x47ffe080) + f32(0x1.ffbf0000000000000000p+16:0x47ffdf80)
+res: f32(0x1.ff820600000000000000p+33:0x507fc103) flags=INEXACT  (23/1)
+op : f32(0x1.ffc10000000000000000p+16:0x47ffe080) * f32(0x1.ffbf0000000000000000p+16:0x47ffdf80) + f32(0x1.ffc00000000000000000p+16:0x47ffe000)
+res: f32(0x1.ff810600000000000000p+33:0x507fc083) flags=INEXACT  (23/2)
+op : f32(0x1.ffc00000000000000000p+16:0x47ffe000) * f32(0x1.ffc10000000000000000p+16:0x47ffe080) + f32(0x1.c0bab600000000000000p+99:0x71605d5b)
+res: f32(0x1.c0bab600000000000000p+99:0x71605d5b) flags=INEXACT  (24/0)
+op : f32(0x1.ffc10000000000000000p+16:0x47ffe080) * f32(0x1.c0bab600000000000000p+99:0x71605d5b) + f32(0x1.ffc00000000000000000p+16:0x47ffe000)
+res: f32(0x1.c0837e00000000000000p+116:0x79e041bf) flags=INEXACT  (24/1)
+op : f32(0x1.c0bab600000000000000p+99:0x71605d5b) * f32(0x1.ffc00000000000000000p+16:0x47ffe000) + f32(0x1.ffc10000000000000000p+16:0x47ffe080)
+res: f32(0x1.c0829e00000000000000p+116:0x79e0414f) flags=INEXACT  (24/2)
+op : f32(0x1.ffc10000000000000000p+16:0x47ffe080) * f32(0x1.c0bab600000000000000p+99:0x71605d5b) + f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+res: f32(0x1.fffffe00000000000000p+127:0x7f7fffff) flags=OVERFLOW INEXACT  (25/0)
+op : f32(0x1.c0bab600000000000000p+99:0x71605d5b) * f32(0x1.fffffe00000000000000p+127:0x7f7fffff) + f32(0x1.ffc10000000000000000p+16:0x47ffe080)
+res: f32(0x1.fffffe00000000000000p+127:0x7f7fffff) flags=OVERFLOW INEXACT  (25/1)
+op : f32(0x1.fffffe00000000000000p+127:0x7f7fffff) * f32(0x1.ffc10000000000000000p+16:0x47ffe080) + f32(0x1.c0bab600000000000000p+99:0x71605d5b)
+res: f32(0x1.fffffe00000000000000p+127:0x7f7fffff) flags=OVERFLOW INEXACT  (25/2)
+op : f32(0x1.c0bab600000000000000p+99:0x71605d5b) * f32(0x1.fffffe00000000000000p+127:0x7f7fffff) + f32(inf:0x7f800000)
+res: f32(inf:0x7f800000) flags=OK (26/0)
+op : f32(0x1.fffffe00000000000000p+127:0x7f7fffff) * f32(inf:0x7f800000) + f32(0x1.c0bab600000000000000p+99:0x71605d5b)
+res: f32(inf:0x7f800000) flags=OK (26/1)
+op : f32(inf:0x7f800000) * f32(0x1.c0bab600000000000000p+99:0x71605d5b) + f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+res: f32(inf:0x7f800000) flags=OK (26/2)
+op : f32(0x1.fffffe00000000000000p+127:0x7f7fffff) * f32(inf:0x7f800000) + f32(-nan:0x7fc00000)
+res: f32(-nan:0xffffffff) flags=OK (27/0)
+op : f32(inf:0x7f800000) * f32(-nan:0x7fc00000) + f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+res: f32(-nan:0xffffffff) flags=OK (27/1)
+op : f32(-nan:0x7fc00000) * f32(0x1.fffffe00000000000000p+127:0x7f7fffff) + f32(inf:0x7f800000)
+res: f32(-nan:0xffffffff) flags=OK (27/2)
+op : f32(inf:0x7f800000) * f32(-nan:0x7fc00000) + f32(-nan:0x7fa00000)
+res: f32(-nan:0xffffffff) flags=INVALID (28/0)
+op : f32(-nan:0x7fc00000) * f32(-nan:0x7fa00000) + f32(inf:0x7f800000)
+res: f32(-nan:0xffffffff) flags=INVALID (28/1)
+op : f32(-nan:0x7fa00000) * f32(inf:0x7f800000) + f32(-nan:0x7fc00000)
+res: f32(-nan:0xffffffff) flags=INVALID (28/2)
+op : f32(-nan:0x7fc00000) * f32(-nan:0x7fa00000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffffffff) flags=INVALID (29/0)
+op : f32(-nan:0x7fa00000) * f32(-nan:0xffa00000) + f32(-nan:0x7fc00000)
+res: f32(-nan:0xffffffff) flags=INVALID (29/1)
+op : f32(-nan:0xffa00000) * f32(-nan:0x7fc00000) + f32(-nan:0x7fa00000)
+res: f32(-nan:0xffffffff) flags=INVALID (29/2)
+op : f32(-nan:0x7fa00000) * f32(-nan:0xffa00000) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffffffff) flags=INVALID (30/0)
+op : f32(-nan:0xffa00000) * f32(-nan:0xffc00000) + f32(-nan:0x7fa00000)
+res: f32(-nan:0xffffffff) flags=INVALID (30/1)
+op : f32(-nan:0xffc00000) * f32(-nan:0x7fa00000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffffffff) flags=INVALID (30/2)
+# LP184149
+op : f32(0x0.00000000000000000000p+0:0000000000) * f32(0x1.00000000000000000000p-1:0x3f000000) + f32(0x0.00000000000000000000p+0:0000000000)
+res: f32(0x0.00000000000000000000p+0:0000000000) flags=OK (31/0)
+op : f32(0x1.00000000000000000000p-149:0x00000001) * f32(0x1.00000000000000000000p-149:0x00000001) + f32(0x1.00000000000000000000p-149:0x00000001)
+res: f32(0x1.00000000000000000000p-149:0x00000001) flags=UNDERFLOW INEXACT  (32/0)