.PHONY: slirp/all
slirp/all: .git-submodule-status
- $(call quiet-command,$(MAKE) -C $(SRC_PATH)/slirp BUILD_DIR="$(BUILD_DIR)/slirp" CC="$(CC)" AR="$(AR)" LD="$(LD)" RANLIB="$(RANLIB)" CFLAGS="$(QEMU_CFLAGS) $(CFLAGS)" LDFLAGS="$(LDFLAGS)")
+ $(call quiet-command,$(MAKE) -C $(SRC_PATH)/slirp \
+ BUILD_DIR="$(BUILD_DIR)/slirp" \
+ PKG_CONFIG="$(PKG_CONFIG)" \
+ CC="$(CC)" AR="$(AR)" LD="$(LD)" RANLIB="$(RANLIB)" \
+ CFLAGS="$(QEMU_CFLAGS) $(CFLAGS)" LDFLAGS="$(LDFLAGS)")
# Compatibility gunk to keep make working across the rename of targets
# for recursion, to be removed some time after 4.1.
#include "exec/helper-proto.h"
#include "qemu/atomic.h"
#include "qemu/atomic128.h"
+#include "translate-all.h"
/* DEBUG defines, enable DEBUG_TLB_LOG to log to the CPU_LOG_MMU target */
/* #define DEBUG_TLB */
{
uintptr_t addr = tlb_entry->addr_write;
- if ((addr & (TLB_INVALID_MASK | TLB_MMIO | TLB_NOTDIRTY)) == 0) {
+ if ((addr & (TLB_INVALID_MASK | TLB_MMIO |
+ TLB_DISCARD_WRITE | TLB_NOTDIRTY)) == 0) {
addr &= TARGET_PAGE_MASK;
addr += tlb_entry->addend;
if ((addr - start) < length) {
MemoryRegionSection *section;
unsigned int index;
target_ulong address;
- target_ulong code_address;
+ target_ulong write_address;
uintptr_t addend;
CPUTLBEntry *te, tn;
hwaddr iotlb, xlat, sz, paddr_page;
target_ulong vaddr_page;
int asidx = cpu_asidx_from_attrs(cpu, attrs);
int wp_flags;
+ bool is_ram, is_romd;
assert_cpu_is_self(cpu);
address |= TLB_INVALID_MASK;
}
if (attrs.byte_swap) {
- /* Force the access through the I/O slow path. */
- address |= TLB_MMIO;
+ address |= TLB_BSWAP;
}
- if (!memory_region_is_ram(section->mr) &&
- !memory_region_is_romd(section->mr)) {
- /* IO memory case */
- address |= TLB_MMIO;
+
+ is_ram = memory_region_is_ram(section->mr);
+ is_romd = memory_region_is_romd(section->mr);
+
+ if (is_ram || is_romd) {
+ /* RAM and ROMD both have associated host memory. */
+ addend = (uintptr_t)memory_region_get_ram_ptr(section->mr) + xlat;
+ } else {
+ /* I/O does not; force the host address to NULL. */
addend = 0;
+ }
+
+ write_address = address;
+ if (is_ram) {
+ iotlb = memory_region_get_ram_addr(section->mr) + xlat;
+ /*
+ * Computing is_clean is expensive; avoid all that unless
+ * the page is actually writable.
+ */
+ if (prot & PAGE_WRITE) {
+ if (section->readonly) {
+ write_address |= TLB_DISCARD_WRITE;
+ } else if (cpu_physical_memory_is_clean(iotlb)) {
+ write_address |= TLB_NOTDIRTY;
+ }
+ }
} else {
- /* TLB_MMIO for rom/romd handled below */
- addend = (uintptr_t)memory_region_get_ram_ptr(section->mr) + xlat;
+ /* I/O or ROMD */
+ iotlb = memory_region_section_get_iotlb(cpu, section) + xlat;
+ /*
+ * Writes to romd devices must go through MMIO to enable write.
+ * Reads to romd devices go through the ram_ptr found above,
+ * but of course reads to I/O must go through MMIO.
+ */
+ write_address |= TLB_MMIO;
+ if (!is_romd) {
+ address = write_address;
+ }
}
- code_address = address;
- iotlb = memory_region_section_get_iotlb(cpu, section, vaddr_page,
- paddr_page, xlat, prot, &address);
wp_flags = cpu_watchpoint_address_matches(cpu, vaddr_page,
TARGET_PAGE_SIZE);
/*
* At this point iotlb contains a physical section number in the lower
* TARGET_PAGE_BITS, and either
- * + the ram_addr_t of the page base of the target RAM (if NOTDIRTY or ROM)
- * + the offset within section->mr of the page base (otherwise)
+ * + the ram_addr_t of the page base of the target RAM (RAM)
+ * + the offset within section->mr of the page base (I/O, ROMD)
* We subtract the vaddr_page (which is page aligned and thus won't
* disturb the low bits) to give an offset which can be added to the
* (non-page-aligned) vaddr of the eventual memory access to get
}
if (prot & PAGE_EXEC) {
- tn.addr_code = code_address;
+ tn.addr_code = address;
} else {
tn.addr_code = -1;
}
tn.addr_write = -1;
if (prot & PAGE_WRITE) {
- if ((memory_region_is_ram(section->mr) && section->readonly)
- || memory_region_is_romd(section->mr)) {
- /* Write access calls the I/O callback. */
- tn.addr_write = address | TLB_MMIO;
- } else if (memory_region_is_ram(section->mr)
- && cpu_physical_memory_is_clean(
- memory_region_get_ram_addr(section->mr) + xlat)) {
- tn.addr_write = address | TLB_NOTDIRTY;
- } else {
- tn.addr_write = address;
- }
+ tn.addr_write = write_address;
if (prot & PAGE_WRITE_INV) {
tn.addr_write |= TLB_INVALID_MASK;
}
bool locked = false;
MemTxResult r;
- if (iotlbentry->attrs.byte_swap) {
- op ^= MO_BSWAP;
- }
-
section = iotlb_to_section(cpu, iotlbentry->addr, iotlbentry->attrs);
mr = section->mr;
mr_offset = (iotlbentry->addr & TARGET_PAGE_MASK) + addr;
cpu->mem_io_pc = retaddr;
- if (mr != &io_mem_rom && mr != &io_mem_notdirty && !cpu->can_do_io) {
+ if (!cpu->can_do_io) {
cpu_io_recompile(cpu, retaddr);
}
- cpu->mem_io_vaddr = addr;
cpu->mem_io_access_type = access_type;
if (mr->global_locking && !qemu_mutex_iothread_locked()) {
bool locked = false;
MemTxResult r;
- if (iotlbentry->attrs.byte_swap) {
- op ^= MO_BSWAP;
- }
-
section = iotlb_to_section(cpu, iotlbentry->addr, iotlbentry->attrs);
mr = section->mr;
mr_offset = (iotlbentry->addr & TARGET_PAGE_MASK) + addr;
- if (mr != &io_mem_rom && mr != &io_mem_notdirty && !cpu->can_do_io) {
+ if (!cpu->can_do_io) {
cpu_io_recompile(cpu, retaddr);
}
- cpu->mem_io_vaddr = addr;
cpu->mem_io_pc = retaddr;
if (mr->global_locking && !qemu_mutex_iothread_locked()) {
return qemu_ram_addr_from_host_nofail(p);
}
+static void notdirty_write(CPUState *cpu, vaddr mem_vaddr, unsigned size,
+ CPUIOTLBEntry *iotlbentry, uintptr_t retaddr)
+{
+ ram_addr_t ram_addr = mem_vaddr + iotlbentry->addr;
+
+ trace_memory_notdirty_write_access(mem_vaddr, ram_addr, size);
+
+ if (!cpu_physical_memory_get_dirty_flag(ram_addr, DIRTY_MEMORY_CODE)) {
+ struct page_collection *pages
+ = page_collection_lock(ram_addr, ram_addr + size);
+ tb_invalidate_phys_page_fast(pages, ram_addr, size, retaddr);
+ page_collection_unlock(pages);
+ }
+
+ /*
+ * Set both VGA and migration bits for simplicity and to remove
+ * the notdirty callback faster.
+ */
+ cpu_physical_memory_set_dirty_range(ram_addr, size, DIRTY_CLIENTS_NOCODE);
+
+ /* We remove the notdirty callback only if the code has been flushed. */
+ if (!cpu_physical_memory_is_clean(ram_addr)) {
+ trace_memory_notdirty_set_dirty(mem_vaddr);
+ tlb_set_dirty(cpu, mem_vaddr);
+ }
+}
+
/*
* Probe for whether the specified guest access is permitted. If it is not
* permitted then an exception will be taken in the same way as if this
return NULL;
}
- /* Handle watchpoints. */
- if (tlb_addr & TLB_WATCHPOINT) {
- cpu_check_watchpoint(env_cpu(env), addr, size,
- env_tlb(env)->d[mmu_idx].iotlb[index].attrs,
- wp_access, retaddr);
- }
+ if (unlikely(tlb_addr & TLB_FLAGS_MASK)) {
+ CPUIOTLBEntry *iotlbentry = &env_tlb(env)->d[mmu_idx].iotlb[index];
- if (tlb_addr & (TLB_NOTDIRTY | TLB_MMIO)) {
- /* I/O access */
- return NULL;
+ /* Reject I/O access, or other required slow-path. */
+ if (tlb_addr & (TLB_MMIO | TLB_BSWAP | TLB_DISCARD_WRITE)) {
+ return NULL;
+ }
+
+ /* Handle watchpoints. */
+ if (tlb_addr & TLB_WATCHPOINT) {
+ cpu_check_watchpoint(env_cpu(env), addr, size,
+ iotlbentry->attrs, wp_access, retaddr);
+ }
+
+ /* Handle clean RAM pages. */
+ if (tlb_addr & TLB_NOTDIRTY) {
+ notdirty_write(env_cpu(env), addr, size, iotlbentry, retaddr);
+ }
}
return (void *)((uintptr_t)addr + entry->addend);
/* Probe for a read-modify-write atomic operation. Do not allow unaligned
* operations, or io operations to proceed. Return the host address. */
static void *atomic_mmu_lookup(CPUArchState *env, target_ulong addr,
- TCGMemOpIdx oi, uintptr_t retaddr,
- NotDirtyInfo *ndi)
+ TCGMemOpIdx oi, uintptr_t retaddr)
{
size_t mmu_idx = get_mmuidx(oi);
uintptr_t index = tlb_index(env, mmu_idx, addr);
hostaddr = (void *)((uintptr_t)addr + tlbe->addend);
- ndi->active = false;
if (unlikely(tlb_addr & TLB_NOTDIRTY)) {
- ndi->active = true;
- memory_notdirty_write_prepare(ndi, env_cpu(env), addr,
- qemu_ram_addr_from_host_nofail(hostaddr),
- 1 << s_bits);
+ notdirty_write(env_cpu(env), addr, 1 << s_bits,
+ &env_tlb(env)->d[mmu_idx].iotlb[index], retaddr);
}
return hostaddr;
typedef uint64_t FullLoadHelper(CPUArchState *env, target_ulong addr,
TCGMemOpIdx oi, uintptr_t retaddr);
-static inline uint64_t __attribute__((always_inline))
+static inline uint64_t QEMU_ALWAYS_INLINE
+load_memop(const void *haddr, MemOp op)
+{
+ switch (op) {
+ case MO_UB:
+ return ldub_p(haddr);
+ case MO_BEUW:
+ return lduw_be_p(haddr);
+ case MO_LEUW:
+ return lduw_le_p(haddr);
+ case MO_BEUL:
+ return (uint32_t)ldl_be_p(haddr);
+ case MO_LEUL:
+ return (uint32_t)ldl_le_p(haddr);
+ case MO_BEQ:
+ return ldq_be_p(haddr);
+ case MO_LEQ:
+ return ldq_le_p(haddr);
+ default:
+ qemu_build_not_reached();
+ }
+}
+
+static inline uint64_t QEMU_ALWAYS_INLINE
load_helper(CPUArchState *env, target_ulong addr, TCGMemOpIdx oi,
uintptr_t retaddr, MemOp op, bool code_read,
FullLoadHelper *full_load)
/* Handle anything that isn't just a straight memory access. */
if (unlikely(tlb_addr & ~TARGET_PAGE_MASK)) {
CPUIOTLBEntry *iotlbentry;
+ bool need_swap;
/* For anything that is unaligned, recurse through full_load. */
if ((addr & (size - 1)) != 0) {
/* On watchpoint hit, this will longjmp out. */
cpu_check_watchpoint(env_cpu(env), addr, size,
iotlbentry->attrs, BP_MEM_READ, retaddr);
-
- /* The backing page may or may not require I/O. */
- tlb_addr &= ~TLB_WATCHPOINT;
- if ((tlb_addr & ~TARGET_PAGE_MASK) == 0) {
- goto do_aligned_access;
- }
}
+ need_swap = size > 1 && (tlb_addr & TLB_BSWAP);
+
/* Handle I/O access. */
- return io_readx(env, iotlbentry, mmu_idx, addr,
- retaddr, access_type, op);
+ if (likely(tlb_addr & TLB_MMIO)) {
+ return io_readx(env, iotlbentry, mmu_idx, addr, retaddr,
+ access_type, op ^ (need_swap * MO_BSWAP));
+ }
+
+ haddr = (void *)((uintptr_t)addr + entry->addend);
+
+ /*
+ * Keep these two load_memop separate to ensure that the compiler
+ * is able to fold the entire function to a single instruction.
+ * There is a build-time assert inside to remind you of this. ;-)
+ */
+ if (unlikely(need_swap)) {
+ return load_memop(haddr, op ^ MO_BSWAP);
+ }
+ return load_memop(haddr, op);
}
/* Handle slow unaligned access (it spans two pages or IO). */
return res & MAKE_64BIT_MASK(0, size * 8);
}
- do_aligned_access:
haddr = (void *)((uintptr_t)addr + entry->addend);
- switch (op) {
- case MO_UB:
- res = ldub_p(haddr);
- break;
- case MO_BEUW:
- res = lduw_be_p(haddr);
- break;
- case MO_LEUW:
- res = lduw_le_p(haddr);
- break;
- case MO_BEUL:
- res = (uint32_t)ldl_be_p(haddr);
- break;
- case MO_LEUL:
- res = (uint32_t)ldl_le_p(haddr);
- break;
- case MO_BEQ:
- res = ldq_be_p(haddr);
- break;
- case MO_LEQ:
- res = ldq_le_p(haddr);
- break;
- default:
- g_assert_not_reached();
- }
-
- return res;
+ return load_memop(haddr, op);
}
/*
* Store Helpers
*/
-static inline void __attribute__((always_inline))
+static inline void QEMU_ALWAYS_INLINE
+store_memop(void *haddr, uint64_t val, MemOp op)
+{
+ switch (op) {
+ case MO_UB:
+ stb_p(haddr, val);
+ break;
+ case MO_BEUW:
+ stw_be_p(haddr, val);
+ break;
+ case MO_LEUW:
+ stw_le_p(haddr, val);
+ break;
+ case MO_BEUL:
+ stl_be_p(haddr, val);
+ break;
+ case MO_LEUL:
+ stl_le_p(haddr, val);
+ break;
+ case MO_BEQ:
+ stq_be_p(haddr, val);
+ break;
+ case MO_LEQ:
+ stq_le_p(haddr, val);
+ break;
+ default:
+ qemu_build_not_reached();
+ }
+}
+
+static inline void QEMU_ALWAYS_INLINE
store_helper(CPUArchState *env, target_ulong addr, uint64_t val,
TCGMemOpIdx oi, uintptr_t retaddr, MemOp op)
{
/* Handle anything that isn't just a straight memory access. */
if (unlikely(tlb_addr & ~TARGET_PAGE_MASK)) {
CPUIOTLBEntry *iotlbentry;
+ bool need_swap;
/* For anything that is unaligned, recurse through byte stores. */
if ((addr & (size - 1)) != 0) {
/* On watchpoint hit, this will longjmp out. */
cpu_check_watchpoint(env_cpu(env), addr, size,
iotlbentry->attrs, BP_MEM_WRITE, retaddr);
-
- /* The backing page may or may not require I/O. */
- tlb_addr &= ~TLB_WATCHPOINT;
- if ((tlb_addr & ~TARGET_PAGE_MASK) == 0) {
- goto do_aligned_access;
- }
}
+ need_swap = size > 1 && (tlb_addr & TLB_BSWAP);
+
/* Handle I/O access. */
- io_writex(env, iotlbentry, mmu_idx, val, addr, retaddr, op);
+ if (tlb_addr & TLB_MMIO) {
+ io_writex(env, iotlbentry, mmu_idx, val, addr, retaddr,
+ op ^ (need_swap * MO_BSWAP));
+ return;
+ }
+
+ /* Ignore writes to ROM. */
+ if (unlikely(tlb_addr & TLB_DISCARD_WRITE)) {
+ return;
+ }
+
+ /* Handle clean RAM pages. */
+ if (tlb_addr & TLB_NOTDIRTY) {
+ notdirty_write(env_cpu(env), addr, size, iotlbentry, retaddr);
+ }
+
+ haddr = (void *)((uintptr_t)addr + entry->addend);
+
+ /*
+ * Keep these two store_memop separate to ensure that the compiler
+ * is able to fold the entire function to a single instruction.
+ * There is a build-time assert inside to remind you of this. ;-)
+ */
+ if (unlikely(need_swap)) {
+ store_memop(haddr, val, op ^ MO_BSWAP);
+ } else {
+ store_memop(haddr, val, op);
+ }
return;
}
return;
}
- do_aligned_access:
haddr = (void *)((uintptr_t)addr + entry->addend);
- switch (op) {
- case MO_UB:
- stb_p(haddr, val);
- break;
- case MO_BEUW:
- stw_be_p(haddr, val);
- break;
- case MO_LEUW:
- stw_le_p(haddr, val);
- break;
- case MO_BEUL:
- stl_be_p(haddr, val);
- break;
- case MO_LEUL:
- stl_le_p(haddr, val);
- break;
- case MO_BEQ:
- stq_be_p(haddr, val);
- break;
- case MO_LEQ:
- stq_le_p(haddr, val);
- break;
- default:
- g_assert_not_reached();
- break;
- }
+ store_memop(haddr, val, op);
}
void helper_ret_stb_mmu(CPUArchState *env, target_ulong addr, uint8_t val,
#define EXTRA_ARGS , TCGMemOpIdx oi, uintptr_t retaddr
#define ATOMIC_NAME(X) \
HELPER(glue(glue(glue(atomic_ ## X, SUFFIX), END), _mmu))
-#define ATOMIC_MMU_DECLS NotDirtyInfo ndi
-#define ATOMIC_MMU_LOOKUP atomic_mmu_lookup(env, addr, oi, retaddr, &ndi)
-#define ATOMIC_MMU_CLEANUP \
- do { \
- if (unlikely(ndi.active)) { \
- memory_notdirty_write_complete(&ndi); \
- } \
- } while (0)
+#define ATOMIC_MMU_DECLS
+#define ATOMIC_MMU_LOOKUP atomic_mmu_lookup(env, addr, oi, retaddr)
+#define ATOMIC_MMU_CLEANUP
#define DATA_SIZE 1
#include "atomic_template.h"
#undef ATOMIC_MMU_LOOKUP
#define EXTRA_ARGS , TCGMemOpIdx oi
#define ATOMIC_NAME(X) HELPER(glue(glue(atomic_ ## X, SUFFIX), END))
-#define ATOMIC_MMU_LOOKUP atomic_mmu_lookup(env, addr, oi, GETPC(), &ndi)
+#define ATOMIC_MMU_LOOKUP atomic_mmu_lookup(env, addr, oi, GETPC())
#define DATA_SIZE 1
#include "atomic_template.h"
tb_invalidate_phys_page_range__locked(struct page_collection *pages,
PageDesc *p, tb_page_addr_t start,
tb_page_addr_t end,
- int is_cpu_write_access)
+ uintptr_t retaddr)
{
TranslationBlock *tb;
tb_page_addr_t tb_start, tb_end;
#ifdef TARGET_HAS_PRECISE_SMC
CPUState *cpu = current_cpu;
CPUArchState *env = NULL;
- int current_tb_not_found = is_cpu_write_access;
+ bool current_tb_not_found = retaddr != 0;
+ bool current_tb_modified = false;
TranslationBlock *current_tb = NULL;
- int current_tb_modified = 0;
target_ulong current_pc = 0;
target_ulong current_cs_base = 0;
uint32_t current_flags = 0;
if (!(tb_end <= start || tb_start >= end)) {
#ifdef TARGET_HAS_PRECISE_SMC
if (current_tb_not_found) {
- current_tb_not_found = 0;
- current_tb = NULL;
- if (cpu->mem_io_pc) {
- /* now we have a real cpu fault */
- current_tb = tcg_tb_lookup(cpu->mem_io_pc);
- }
+ current_tb_not_found = false;
+ /* now we have a real cpu fault */
+ current_tb = tcg_tb_lookup(retaddr);
}
if (current_tb == tb &&
(tb_cflags(current_tb) & CF_COUNT_MASK) != 1) {
- /* If we are modifying the current TB, we must stop
- its execution. We could be more precise by checking
- that the modification is after the current PC, but it
- would require a specialized function to partially
- restore the CPU state */
-
- current_tb_modified = 1;
- cpu_restore_state_from_tb(cpu, current_tb,
- cpu->mem_io_pc, true);
+ /*
+ * If we are modifying the current TB, we must stop
+ * its execution. We could be more precise by checking
+ * that the modification is after the current PC, but it
+ * would require a specialized function to partially
+ * restore the CPU state.
+ */
+ current_tb_modified = true;
+ cpu_restore_state_from_tb(cpu, current_tb, retaddr, true);
cpu_get_tb_cpu_state(env, ¤t_pc, ¤t_cs_base,
¤t_flags);
}
*
* Called with mmap_lock held for user-mode emulation
*/
-void tb_invalidate_phys_page_range(tb_page_addr_t start, tb_page_addr_t end,
- int is_cpu_write_access)
+void tb_invalidate_phys_page_range(tb_page_addr_t start, tb_page_addr_t end)
{
struct page_collection *pages;
PageDesc *p;
return;
}
pages = page_collection_lock(start, end);
- tb_invalidate_phys_page_range__locked(pages, p, start, end,
- is_cpu_write_access);
+ tb_invalidate_phys_page_range__locked(pages, p, start, end, 0);
page_collection_unlock(pages);
}
* Call with all @pages in the range [@start, @start + len[ locked.
*/
void tb_invalidate_phys_page_fast(struct page_collection *pages,
- tb_page_addr_t start, int len)
+ tb_page_addr_t start, int len,
+ uintptr_t retaddr)
{
PageDesc *p;
}
} else {
do_invalidate:
- tb_invalidate_phys_page_range__locked(pages, p, start, start + len, 1);
+ tb_invalidate_phys_page_range__locked(pages, p, start, start + len,
+ retaddr);
}
}
#else
#endif
/* user-mode: call with mmap_lock held */
-void tb_check_watchpoint(CPUState *cpu)
+void tb_check_watchpoint(CPUState *cpu, uintptr_t retaddr)
{
TranslationBlock *tb;
assert_memory_lock();
- tb = tcg_tb_lookup(cpu->mem_io_pc);
+ tb = tcg_tb_lookup(retaddr);
if (tb) {
/* We can use retranslation to find the PC. */
- cpu_restore_state_from_tb(cpu, tb, cpu->mem_io_pc, true);
+ cpu_restore_state_from_tb(cpu, tb, retaddr, true);
tb_phys_invalidate(tb, -1);
} else {
/* The exception probably happened in a helper. The CPU state should
tb_page_addr_t end);
void page_collection_unlock(struct page_collection *set);
void tb_invalidate_phys_page_fast(struct page_collection *pages,
- tb_page_addr_t start, int len);
-void tb_invalidate_phys_page_range(tb_page_addr_t start, tb_page_addr_t end,
- int is_cpu_write_access);
-void tb_check_watchpoint(CPUState *cpu);
+ tb_page_addr_t start, int len,
+ uintptr_t retaddr);
+void tb_invalidate_phys_page_range(tb_page_addr_t start, tb_page_addr_t end);
+void tb_check_watchpoint(CPUState *cpu, uintptr_t retaddr);
#ifdef CONFIG_USER_ONLY
int page_unprotect(target_ulong address, uintptr_t pc);
echo "LD=$ld" >> $config_host_mak
echo "RANLIB=$ranlib" >> $config_host_mak
echo "NM=$nm" >> $config_host_mak
+echo "PKG_CONFIG=$pkg_config_exe" >> $config_host_mak
echo "WINDRES=$windres" >> $config_host_mak
echo "CFLAGS=$CFLAGS" >> $config_host_mak
echo "CFLAGS_NOPIE=$CFLAGS_NOPIE" >> $config_host_mak
/* salt for PBKDF2 */
uint8_t salt[QCRYPTO_BLOCK_LUKS_SALT_LEN];
/* start sector of key material */
- uint32_t key_offset;
+ uint32_t key_offset_sector;
/* number of anti-forensic stripes */
uint32_t stripes;
};
char hash_spec[QCRYPTO_BLOCK_LUKS_HASH_SPEC_LEN];
/* start offset of the volume data (in 512 byte sectors) */
- uint32_t payload_offset;
+ uint32_t payload_offset_sector;
/* Number of key bytes */
- uint32_t key_bytes;
+ uint32_t master_key_len;
/* master key checksum after PBKDF2 */
uint8_t master_key_digest[QCRYPTO_BLOCK_LUKS_DIGEST_LEN];
struct QCryptoBlockLUKS {
QCryptoBlockLUKSHeader header;
- /* Cache parsed versions of what's in header fields,
- * as we can't rely on QCryptoBlock.cipher being
- * non-NULL */
+ /* Main encryption algorithm used for encryption*/
QCryptoCipherAlgorithm cipher_alg;
+
+ /* Mode of encryption for the selected encryption algorithm */
QCryptoCipherMode cipher_mode;
+
+ /* Initialization vector generation algorithm */
QCryptoIVGenAlgorithm ivgen_alg;
+
+ /* Hash algorithm used for IV generation*/
QCryptoHashAlgorithm ivgen_hash_alg;
+
+ /*
+ * Encryption algorithm used for IV generation.
+ * Usually the same as main encryption algorithm
+ */
+ QCryptoCipherAlgorithm ivgen_cipher_alg;
+
+ /* Hash algorithm used in pbkdf2 function */
QCryptoHashAlgorithm hash_alg;
};
}
}
+/*
+ * Returns number of sectors needed to store the key material
+ * given number of anti forensic stripes
+ */
+static int
+qcrypto_block_luks_splitkeylen_sectors(const QCryptoBlockLUKS *luks,
+ unsigned int header_sectors,
+ unsigned int stripes)
+{
+ /*
+ * This calculation doesn't match that shown in the spec,
+ * but instead follows the cryptsetup implementation.
+ */
+
+ size_t splitkeylen = luks->header.master_key_len * stripes;
+
+ /* First align the key material size to block size*/
+ size_t splitkeylen_sectors =
+ DIV_ROUND_UP(splitkeylen, QCRYPTO_BLOCK_LUKS_SECTOR_SIZE);
+
+ /* Then also align the key material size to the size of the header */
+ return ROUND_UP(splitkeylen_sectors, header_sectors);
+}
+
+/*
+ * Stores the main LUKS header, taking care of endianess
+ */
+static int
+qcrypto_block_luks_store_header(QCryptoBlock *block,
+ QCryptoBlockWriteFunc writefunc,
+ void *opaque,
+ Error **errp)
+{
+ const QCryptoBlockLUKS *luks = block->opaque;
+ Error *local_err = NULL;
+ size_t i;
+ g_autofree QCryptoBlockLUKSHeader *hdr_copy = NULL;
+
+ /* Create a copy of the header */
+ hdr_copy = g_new0(QCryptoBlockLUKSHeader, 1);
+ memcpy(hdr_copy, &luks->header, sizeof(QCryptoBlockLUKSHeader));
+
+ /*
+ * Everything on disk uses Big Endian (tm), so flip header fields
+ * before writing them
+ */
+ cpu_to_be16s(&hdr_copy->version);
+ cpu_to_be32s(&hdr_copy->payload_offset_sector);
+ cpu_to_be32s(&hdr_copy->master_key_len);
+ cpu_to_be32s(&hdr_copy->master_key_iterations);
+
+ for (i = 0; i < QCRYPTO_BLOCK_LUKS_NUM_KEY_SLOTS; i++) {
+ cpu_to_be32s(&hdr_copy->key_slots[i].active);
+ cpu_to_be32s(&hdr_copy->key_slots[i].iterations);
+ cpu_to_be32s(&hdr_copy->key_slots[i].key_offset_sector);
+ cpu_to_be32s(&hdr_copy->key_slots[i].stripes);
+ }
+
+ /* Write out the partition header and key slot headers */
+ writefunc(block, 0, (const uint8_t *)hdr_copy, sizeof(*hdr_copy),
+ opaque, &local_err);
+
+ if (local_err) {
+ error_propagate(errp, local_err);
+ return -1;
+ }
+ return 0;
+}
+
+/*
+ * Loads the main LUKS header,and byteswaps it to native endianess
+ * And run basic sanity checks on it
+ */
+static int
+qcrypto_block_luks_load_header(QCryptoBlock *block,
+ QCryptoBlockReadFunc readfunc,
+ void *opaque,
+ Error **errp)
+{
+ ssize_t rv;
+ size_t i;
+ QCryptoBlockLUKS *luks = block->opaque;
+
+ /*
+ * Read the entire LUKS header, minus the key material from
+ * the underlying device
+ */
+ rv = readfunc(block, 0,
+ (uint8_t *)&luks->header,
+ sizeof(luks->header),
+ opaque,
+ errp);
+ if (rv < 0) {
+ return rv;
+ }
+
+ /*
+ * The header is always stored in big-endian format, so
+ * convert everything to native
+ */
+ be16_to_cpus(&luks->header.version);
+ be32_to_cpus(&luks->header.payload_offset_sector);
+ be32_to_cpus(&luks->header.master_key_len);
+ be32_to_cpus(&luks->header.master_key_iterations);
+
+ for (i = 0; i < QCRYPTO_BLOCK_LUKS_NUM_KEY_SLOTS; i++) {
+ be32_to_cpus(&luks->header.key_slots[i].active);
+ be32_to_cpus(&luks->header.key_slots[i].iterations);
+ be32_to_cpus(&luks->header.key_slots[i].key_offset_sector);
+ be32_to_cpus(&luks->header.key_slots[i].stripes);
+ }
+
+ return 0;
+}
+
+/*
+ * Does basic sanity checks on the LUKS header
+ */
+static int
+qcrypto_block_luks_check_header(const QCryptoBlockLUKS *luks, Error **errp)
+{
+ size_t i, j;
+
+ unsigned int header_sectors = QCRYPTO_BLOCK_LUKS_KEY_SLOT_OFFSET /
+ QCRYPTO_BLOCK_LUKS_SECTOR_SIZE;
+
+ if (memcmp(luks->header.magic, qcrypto_block_luks_magic,
+ QCRYPTO_BLOCK_LUKS_MAGIC_LEN) != 0) {
+ error_setg(errp, "Volume is not in LUKS format");
+ return -1;
+ }
+
+ if (luks->header.version != QCRYPTO_BLOCK_LUKS_VERSION) {
+ error_setg(errp, "LUKS version %" PRIu32 " is not supported",
+ luks->header.version);
+ return -1;
+ }
+
+ /* Check all keyslots for corruption */
+ for (i = 0 ; i < QCRYPTO_BLOCK_LUKS_NUM_KEY_SLOTS ; i++) {
+
+ const QCryptoBlockLUKSKeySlot *slot1 = &luks->header.key_slots[i];
+ unsigned int start1 = slot1->key_offset_sector;
+ unsigned int len1 =
+ qcrypto_block_luks_splitkeylen_sectors(luks,
+ header_sectors,
+ slot1->stripes);
+
+ if (slot1->stripes == 0) {
+ error_setg(errp, "Keyslot %zu is corrupted (stripes == 0)", i);
+ return -1;
+ }
+
+ if (slot1->active != QCRYPTO_BLOCK_LUKS_KEY_SLOT_DISABLED &&
+ slot1->active != QCRYPTO_BLOCK_LUKS_KEY_SLOT_ENABLED) {
+ error_setg(errp,
+ "Keyslot %zu state (active/disable) is corrupted", i);
+ return -1;
+ }
+
+ if (start1 + len1 > luks->header.payload_offset_sector) {
+ error_setg(errp,
+ "Keyslot %zu is overlapping with the encrypted payload",
+ i);
+ return -1;
+ }
+
+ for (j = i + 1 ; j < QCRYPTO_BLOCK_LUKS_NUM_KEY_SLOTS ; j++) {
+ const QCryptoBlockLUKSKeySlot *slot2 = &luks->header.key_slots[j];
+ unsigned int start2 = slot2->key_offset_sector;
+ unsigned int len2 =
+ qcrypto_block_luks_splitkeylen_sectors(luks,
+ header_sectors,
+ slot2->stripes);
+
+ if (start1 + len1 > start2 && start2 + len2 > start1) {
+ error_setg(errp,
+ "Keyslots %zu and %zu are overlapping in the header",
+ i, j);
+ return -1;
+ }
+ }
+
+ }
+ return 0;
+}
+
+/*
+ * Parses the crypto parameters that are stored in the LUKS header
+ */
+
+static int
+qcrypto_block_luks_parse_header(QCryptoBlockLUKS *luks, Error **errp)
+{
+ g_autofree char *cipher_mode = g_strdup(luks->header.cipher_mode);
+ char *ivgen_name, *ivhash_name;
+ Error *local_err = NULL;
+
+ /*
+ * The cipher_mode header contains a string that we have
+ * to further parse, of the format
+ *
+ * <cipher-mode>-<iv-generator>[:<iv-hash>]
+ *
+ * eg cbc-essiv:sha256, cbc-plain64
+ */
+ ivgen_name = strchr(cipher_mode, '-');
+ if (!ivgen_name) {
+ error_setg(errp, "Unexpected cipher mode string format %s",
+ luks->header.cipher_mode);
+ return -1;
+ }
+ *ivgen_name = '\0';
+ ivgen_name++;
+
+ ivhash_name = strchr(ivgen_name, ':');
+ if (!ivhash_name) {
+ luks->ivgen_hash_alg = 0;
+ } else {
+ *ivhash_name = '\0';
+ ivhash_name++;
+
+ luks->ivgen_hash_alg = qcrypto_block_luks_hash_name_lookup(ivhash_name,
+ &local_err);
+ if (local_err) {
+ error_propagate(errp, local_err);
+ return -1;
+ }
+ }
+
+ luks->cipher_mode = qcrypto_block_luks_cipher_mode_lookup(cipher_mode,
+ &local_err);
+ if (local_err) {
+ error_propagate(errp, local_err);
+ return -1;
+ }
+
+ luks->cipher_alg =
+ qcrypto_block_luks_cipher_name_lookup(luks->header.cipher_name,
+ luks->cipher_mode,
+ luks->header.master_key_len,
+ &local_err);
+ if (local_err) {
+ error_propagate(errp, local_err);
+ return -1;
+ }
+
+ luks->hash_alg =
+ qcrypto_block_luks_hash_name_lookup(luks->header.hash_spec,
+ &local_err);
+ if (local_err) {
+ error_propagate(errp, local_err);
+ return -1;
+ }
+
+ luks->ivgen_alg = qcrypto_block_luks_ivgen_name_lookup(ivgen_name,
+ &local_err);
+ if (local_err) {
+ error_propagate(errp, local_err);
+ return -1;
+ }
+
+ if (luks->ivgen_alg == QCRYPTO_IVGEN_ALG_ESSIV) {
+ if (!ivhash_name) {
+ error_setg(errp, "Missing IV generator hash specification");
+ return -1;
+ }
+ luks->ivgen_cipher_alg =
+ qcrypto_block_luks_essiv_cipher(luks->cipher_alg,
+ luks->ivgen_hash_alg,
+ &local_err);
+ if (local_err) {
+ error_propagate(errp, local_err);
+ return -1;
+ }
+ } else {
+
+ /*
+ * Note we parsed the ivhash_name earlier in the cipher_mode
+ * spec string even with plain/plain64 ivgens, but we
+ * will ignore it, since it is irrelevant for these ivgens.
+ * This is for compat with dm-crypt which will silently
+ * ignore hash names with these ivgens rather than report
+ * an error about the invalid usage
+ */
+ luks->ivgen_cipher_alg = luks->cipher_alg;
+ }
+ return 0;
+}
+
+/*
+ * Given a key slot, user password, and the master key,
+ * will store the encrypted master key there, and update the
+ * in-memory header. User must then write the in-memory header
+ *
+ * Returns:
+ * 0 if the keyslot was written successfully
+ * with the provided password
+ * -1 if a fatal error occurred while storing the key
+ */
+static int
+qcrypto_block_luks_store_key(QCryptoBlock *block,
+ unsigned int slot_idx,
+ const char *password,
+ uint8_t *masterkey,
+ uint64_t iter_time,
+ QCryptoBlockWriteFunc writefunc,
+ void *opaque,
+ Error **errp)
+{
+ QCryptoBlockLUKS *luks = block->opaque;
+ QCryptoBlockLUKSKeySlot *slot = &luks->header.key_slots[slot_idx];
+ g_autofree uint8_t *splitkey = NULL;
+ size_t splitkeylen;
+ g_autofree uint8_t *slotkey = NULL;
+ g_autoptr(QCryptoCipher) cipher = NULL;
+ g_autoptr(QCryptoIVGen) ivgen = NULL;
+ Error *local_err = NULL;
+ uint64_t iters;
+ int ret = -1;
+
+ if (qcrypto_random_bytes(slot->salt,
+ QCRYPTO_BLOCK_LUKS_SALT_LEN,
+ errp) < 0) {
+ goto cleanup;
+ }
+
+ splitkeylen = luks->header.master_key_len * slot->stripes;
+
+ /*
+ * Determine how many iterations are required to
+ * hash the user password while consuming 1 second of compute
+ * time
+ */
+ iters = qcrypto_pbkdf2_count_iters(luks->hash_alg,
+ (uint8_t *)password, strlen(password),
+ slot->salt,
+ QCRYPTO_BLOCK_LUKS_SALT_LEN,
+ luks->header.master_key_len,
+ &local_err);
+ if (local_err) {
+ error_propagate(errp, local_err);
+ goto cleanup;
+ }
+
+ if (iters > (ULLONG_MAX / iter_time)) {
+ error_setg_errno(errp, ERANGE,
+ "PBKDF iterations %llu too large to scale",
+ (unsigned long long)iters);
+ goto cleanup;
+ }
+
+ /* iter_time was in millis, but count_iters reported for secs */
+ iters = iters * iter_time / 1000;
+
+ if (iters > UINT32_MAX) {
+ error_setg_errno(errp, ERANGE,
+ "PBKDF iterations %llu larger than %u",
+ (unsigned long long)iters, UINT32_MAX);
+ goto cleanup;
+ }
+
+ slot->iterations =
+ MAX(iters, QCRYPTO_BLOCK_LUKS_MIN_SLOT_KEY_ITERS);
+
+
+ /*
+ * Generate a key that we'll use to encrypt the master
+ * key, from the user's password
+ */
+ slotkey = g_new0(uint8_t, luks->header.master_key_len);
+ if (qcrypto_pbkdf2(luks->hash_alg,
+ (uint8_t *)password, strlen(password),
+ slot->salt,
+ QCRYPTO_BLOCK_LUKS_SALT_LEN,
+ slot->iterations,
+ slotkey, luks->header.master_key_len,
+ errp) < 0) {
+ goto cleanup;
+ }
+
+
+ /*
+ * Setup the encryption objects needed to encrypt the
+ * master key material
+ */
+ cipher = qcrypto_cipher_new(luks->cipher_alg,
+ luks->cipher_mode,
+ slotkey, luks->header.master_key_len,
+ errp);
+ if (!cipher) {
+ goto cleanup;
+ }
+
+ ivgen = qcrypto_ivgen_new(luks->ivgen_alg,
+ luks->ivgen_cipher_alg,
+ luks->ivgen_hash_alg,
+ slotkey, luks->header.master_key_len,
+ errp);
+ if (!ivgen) {
+ goto cleanup;
+ }
+
+ /*
+ * Before storing the master key, we need to vastly
+ * increase its size, as protection against forensic
+ * disk data recovery
+ */
+ splitkey = g_new0(uint8_t, splitkeylen);
+
+ if (qcrypto_afsplit_encode(luks->hash_alg,
+ luks->header.master_key_len,
+ slot->stripes,
+ masterkey,
+ splitkey,
+ errp) < 0) {
+ goto cleanup;
+ }
+
+ /*
+ * Now we encrypt the split master key with the key generated
+ * from the user's password, before storing it
+ */
+ if (qcrypto_block_cipher_encrypt_helper(cipher, block->niv, ivgen,
+ QCRYPTO_BLOCK_LUKS_SECTOR_SIZE,
+ 0,
+ splitkey,
+ splitkeylen,
+ errp) < 0) {
+ goto cleanup;
+ }
+
+ /* Write out the slot's master key material. */
+ if (writefunc(block,
+ slot->key_offset_sector *
+ QCRYPTO_BLOCK_LUKS_SECTOR_SIZE,
+ splitkey, splitkeylen,
+ opaque,
+ errp) != splitkeylen) {
+ goto cleanup;
+ }
+
+ slot->active = QCRYPTO_BLOCK_LUKS_KEY_SLOT_ENABLED;
+
+ if (qcrypto_block_luks_store_header(block, writefunc, opaque, errp) < 0) {
+ goto cleanup;
+ }
+
+ ret = 0;
+
+cleanup:
+ if (slotkey) {
+ memset(slotkey, 0, luks->header.master_key_len);
+ }
+ if (splitkey) {
+ memset(splitkey, 0, splitkeylen);
+ }
+ return ret;
+}
+
/*
* Given a key slot, and user password, this will attempt to unlock
* the master encryption key from the key slot.
*/
static int
qcrypto_block_luks_load_key(QCryptoBlock *block,
- QCryptoBlockLUKSKeySlot *slot,
+ size_t slot_idx,
const char *password,
- QCryptoCipherAlgorithm cipheralg,
- QCryptoCipherMode ciphermode,
- QCryptoHashAlgorithm hash,
- QCryptoIVGenAlgorithm ivalg,
- QCryptoCipherAlgorithm ivcipheralg,
- QCryptoHashAlgorithm ivhash,
uint8_t *masterkey,
- size_t masterkeylen,
QCryptoBlockReadFunc readfunc,
void *opaque,
Error **errp)
{
QCryptoBlockLUKS *luks = block->opaque;
+ const QCryptoBlockLUKSKeySlot *slot = &luks->header.key_slots[slot_idx];
g_autofree uint8_t *splitkey = NULL;
size_t splitkeylen;
g_autofree uint8_t *possiblekey = NULL;
return 0;
}
- splitkeylen = masterkeylen * slot->stripes;
+ splitkeylen = luks->header.master_key_len * slot->stripes;
splitkey = g_new0(uint8_t, splitkeylen);
- possiblekey = g_new0(uint8_t, masterkeylen);
+ possiblekey = g_new0(uint8_t, luks->header.master_key_len);
/*
* The user password is used to generate a (possible)
* the key is correct and validate the results of
* decryption later.
*/
- if (qcrypto_pbkdf2(hash,
+ if (qcrypto_pbkdf2(luks->hash_alg,
(const uint8_t *)password, strlen(password),
slot->salt, QCRYPTO_BLOCK_LUKS_SALT_LEN,
slot->iterations,
- possiblekey, masterkeylen,
+ possiblekey, luks->header.master_key_len,
errp) < 0) {
return -1;
}
* then encrypted.
*/
rv = readfunc(block,
- slot->key_offset * QCRYPTO_BLOCK_LUKS_SECTOR_SIZE,
+ slot->key_offset_sector * QCRYPTO_BLOCK_LUKS_SECTOR_SIZE,
splitkey, splitkeylen,
opaque,
errp);
/* Setup the cipher/ivgen that we'll use to try to decrypt
* the split master key material */
- cipher = qcrypto_cipher_new(cipheralg, ciphermode,
- possiblekey, masterkeylen,
+ cipher = qcrypto_cipher_new(luks->cipher_alg,
+ luks->cipher_mode,
+ possiblekey,
+ luks->header.master_key_len,
errp);
if (!cipher) {
return -1;
}
- niv = qcrypto_cipher_get_iv_len(cipheralg,
- ciphermode);
- ivgen = qcrypto_ivgen_new(ivalg,
- ivcipheralg,
- ivhash,
- possiblekey, masterkeylen,
+ niv = qcrypto_cipher_get_iv_len(luks->cipher_alg,
+ luks->cipher_mode);
+
+ ivgen = qcrypto_ivgen_new(luks->ivgen_alg,
+ luks->ivgen_cipher_alg,
+ luks->ivgen_hash_alg,
+ possiblekey,
+ luks->header.master_key_len,
errp);
if (!ivgen) {
return -1;
* Now we've decrypted the split master key, join
* it back together to get the actual master key.
*/
- if (qcrypto_afsplit_decode(hash,
- masterkeylen,
+ if (qcrypto_afsplit_decode(luks->hash_alg,
+ luks->header.master_key_len,
slot->stripes,
splitkey,
masterkey,
* then comparing that to the hash stored in the key slot
* header
*/
- if (qcrypto_pbkdf2(hash,
- masterkey, masterkeylen,
+ if (qcrypto_pbkdf2(luks->hash_alg,
+ masterkey,
+ luks->header.master_key_len,
luks->header.master_key_salt,
QCRYPTO_BLOCK_LUKS_SALT_LEN,
luks->header.master_key_iterations,
- keydigest, G_N_ELEMENTS(keydigest),
+ keydigest,
+ G_N_ELEMENTS(keydigest),
errp) < 0) {
return -1;
}
static int
qcrypto_block_luks_find_key(QCryptoBlock *block,
const char *password,
- QCryptoCipherAlgorithm cipheralg,
- QCryptoCipherMode ciphermode,
- QCryptoHashAlgorithm hash,
- QCryptoIVGenAlgorithm ivalg,
- QCryptoCipherAlgorithm ivcipheralg,
- QCryptoHashAlgorithm ivhash,
- uint8_t **masterkey,
- size_t *masterkeylen,
+ uint8_t *masterkey,
QCryptoBlockReadFunc readfunc,
void *opaque,
Error **errp)
{
- QCryptoBlockLUKS *luks = block->opaque;
size_t i;
int rv;
- *masterkey = g_new0(uint8_t, luks->header.key_bytes);
- *masterkeylen = luks->header.key_bytes;
-
for (i = 0; i < QCRYPTO_BLOCK_LUKS_NUM_KEY_SLOTS; i++) {
rv = qcrypto_block_luks_load_key(block,
- &luks->header.key_slots[i],
+ i,
password,
- cipheralg,
- ciphermode,
- hash,
- ivalg,
- ivcipheralg,
- ivhash,
- *masterkey,
- *masterkeylen,
+ masterkey,
readfunc,
opaque,
errp);
}
error_setg(errp, "Invalid password, cannot unlock any keyslot");
-
error:
- g_free(*masterkey);
- *masterkey = NULL;
- *masterkeylen = 0;
return -1;
}
size_t n_threads,
Error **errp)
{
- QCryptoBlockLUKS *luks;
- Error *local_err = NULL;
- int ret = 0;
- size_t i;
- ssize_t rv;
+ QCryptoBlockLUKS *luks = NULL;
g_autofree uint8_t *masterkey = NULL;
- size_t masterkeylen;
- char *ivgen_name, *ivhash_name;
- QCryptoCipherMode ciphermode;
- QCryptoCipherAlgorithm cipheralg;
- QCryptoIVGenAlgorithm ivalg;
- QCryptoCipherAlgorithm ivcipheralg;
- QCryptoHashAlgorithm hash;
- QCryptoHashAlgorithm ivhash;
g_autofree char *password = NULL;
if (!(flags & QCRYPTO_BLOCK_OPEN_NO_IO)) {
luks = g_new0(QCryptoBlockLUKS, 1);
block->opaque = luks;
- /* Read the entire LUKS header, minus the key material from
- * the underlying device */
- rv = readfunc(block, 0,
- (uint8_t *)&luks->header,
- sizeof(luks->header),
- opaque,
- errp);
- if (rv < 0) {
- ret = rv;
- goto fail;
- }
-
- /* The header is always stored in big-endian format, so
- * convert everything to native */
- be16_to_cpus(&luks->header.version);
- be32_to_cpus(&luks->header.payload_offset);
- be32_to_cpus(&luks->header.key_bytes);
- be32_to_cpus(&luks->header.master_key_iterations);
-
- for (i = 0; i < QCRYPTO_BLOCK_LUKS_NUM_KEY_SLOTS; i++) {
- be32_to_cpus(&luks->header.key_slots[i].active);
- be32_to_cpus(&luks->header.key_slots[i].iterations);
- be32_to_cpus(&luks->header.key_slots[i].key_offset);
- be32_to_cpus(&luks->header.key_slots[i].stripes);
- }
-
- if (memcmp(luks->header.magic, qcrypto_block_luks_magic,
- QCRYPTO_BLOCK_LUKS_MAGIC_LEN) != 0) {
- error_setg(errp, "Volume is not in LUKS format");
- ret = -EINVAL;
- goto fail;
- }
- if (luks->header.version != QCRYPTO_BLOCK_LUKS_VERSION) {
- error_setg(errp, "LUKS version %" PRIu32 " is not supported",
- luks->header.version);
- ret = -ENOTSUP;
- goto fail;
- }
-
- /*
- * The cipher_mode header contains a string that we have
- * to further parse, of the format
- *
- * <cipher-mode>-<iv-generator>[:<iv-hash>]
- *
- * eg cbc-essiv:sha256, cbc-plain64
- */
- ivgen_name = strchr(luks->header.cipher_mode, '-');
- if (!ivgen_name) {
- ret = -EINVAL;
- error_setg(errp, "Unexpected cipher mode string format %s",
- luks->header.cipher_mode);
- goto fail;
- }
- *ivgen_name = '\0';
- ivgen_name++;
-
- ivhash_name = strchr(ivgen_name, ':');
- if (!ivhash_name) {
- ivhash = 0;
- } else {
- *ivhash_name = '\0';
- ivhash_name++;
-
- ivhash = qcrypto_block_luks_hash_name_lookup(ivhash_name,
- &local_err);
- if (local_err) {
- ret = -ENOTSUP;
- error_propagate(errp, local_err);
- goto fail;
- }
- }
-
- ciphermode = qcrypto_block_luks_cipher_mode_lookup(luks->header.cipher_mode,
- &local_err);
- if (local_err) {
- ret = -ENOTSUP;
- error_propagate(errp, local_err);
- goto fail;
- }
-
- cipheralg = qcrypto_block_luks_cipher_name_lookup(luks->header.cipher_name,
- ciphermode,
- luks->header.key_bytes,
- &local_err);
- if (local_err) {
- ret = -ENOTSUP;
- error_propagate(errp, local_err);
+ if (qcrypto_block_luks_load_header(block, readfunc, opaque, errp) < 0) {
goto fail;
}
- hash = qcrypto_block_luks_hash_name_lookup(luks->header.hash_spec,
- &local_err);
- if (local_err) {
- ret = -ENOTSUP;
- error_propagate(errp, local_err);
+ if (qcrypto_block_luks_check_header(luks, errp) < 0) {
goto fail;
}
- ivalg = qcrypto_block_luks_ivgen_name_lookup(ivgen_name,
- &local_err);
- if (local_err) {
- ret = -ENOTSUP;
- error_propagate(errp, local_err);
+ if (qcrypto_block_luks_parse_header(luks, errp) < 0) {
goto fail;
}
- if (ivalg == QCRYPTO_IVGEN_ALG_ESSIV) {
- if (!ivhash_name) {
- ret = -EINVAL;
- error_setg(errp, "Missing IV generator hash specification");
- goto fail;
- }
- ivcipheralg = qcrypto_block_luks_essiv_cipher(cipheralg,
- ivhash,
- &local_err);
- if (local_err) {
- ret = -ENOTSUP;
- error_propagate(errp, local_err);
- goto fail;
- }
- } else {
- /* Note we parsed the ivhash_name earlier in the cipher_mode
- * spec string even with plain/plain64 ivgens, but we
- * will ignore it, since it is irrelevant for these ivgens.
- * This is for compat with dm-crypt which will silently
- * ignore hash names with these ivgens rather than report
- * an error about the invalid usage
- */
- ivcipheralg = cipheralg;
- }
-
if (!(flags & QCRYPTO_BLOCK_OPEN_NO_IO)) {
/* Try to find which key slot our password is valid for
* and unlock the master key from that slot.
*/
+
+ masterkey = g_new0(uint8_t, luks->header.master_key_len);
+
if (qcrypto_block_luks_find_key(block,
password,
- cipheralg, ciphermode,
- hash,
- ivalg,
- ivcipheralg,
- ivhash,
- &masterkey, &masterkeylen,
+ masterkey,
readfunc, opaque,
errp) < 0) {
- ret = -EACCES;
goto fail;
}
/* We have a valid master key now, so can setup the
* block device payload decryption objects
*/
- block->kdfhash = hash;
- block->niv = qcrypto_cipher_get_iv_len(cipheralg,
- ciphermode);
- block->ivgen = qcrypto_ivgen_new(ivalg,
- ivcipheralg,
- ivhash,
- masterkey, masterkeylen,
+ block->kdfhash = luks->hash_alg;
+ block->niv = qcrypto_cipher_get_iv_len(luks->cipher_alg,
+ luks->cipher_mode);
+
+ block->ivgen = qcrypto_ivgen_new(luks->ivgen_alg,
+ luks->ivgen_cipher_alg,
+ luks->ivgen_hash_alg,
+ masterkey,
+ luks->header.master_key_len,
errp);
if (!block->ivgen) {
- ret = -ENOTSUP;
goto fail;
}
- ret = qcrypto_block_init_cipher(block, cipheralg, ciphermode,
- masterkey, masterkeylen, n_threads,
- errp);
- if (ret < 0) {
- ret = -ENOTSUP;
+ if (qcrypto_block_init_cipher(block,
+ luks->cipher_alg,
+ luks->cipher_mode,
+ masterkey,
+ luks->header.master_key_len,
+ n_threads,
+ errp) < 0) {
goto fail;
}
}
block->sector_size = QCRYPTO_BLOCK_LUKS_SECTOR_SIZE;
- block->payload_offset = luks->header.payload_offset *
+ block->payload_offset = luks->header.payload_offset_sector *
block->sector_size;
- luks->cipher_alg = cipheralg;
- luks->cipher_mode = ciphermode;
- luks->ivgen_alg = ivalg;
- luks->ivgen_hash_alg = ivhash;
- luks->hash_alg = hash;
-
return 0;
fail:
qcrypto_block_free_cipher(block);
qcrypto_ivgen_free(block->ivgen);
g_free(luks);
- return ret;
+ return -1;
}
QCryptoBlockCreateOptionsLUKS luks_opts;
Error *local_err = NULL;
g_autofree uint8_t *masterkey = NULL;
- g_autofree uint8_t *slotkey = NULL;
- g_autofree uint8_t *splitkey = NULL;
- size_t splitkeylen = 0;
+ size_t header_sectors;
+ size_t split_key_sectors;
size_t i;
- g_autoptr(QCryptoCipher) cipher = NULL;
- g_autoptr(QCryptoIVGen) ivgen = NULL;
g_autofree char *password = NULL;
const char *cipher_alg;
const char *cipher_mode;
const char *ivgen_hash_alg = NULL;
const char *hash_alg;
g_autofree char *cipher_mode_spec = NULL;
- QCryptoCipherAlgorithm ivcipheralg = 0;
uint64_t iters;
memcpy(&luks_opts, &options->u.luks, sizeof(luks_opts));
luks_opts.has_ivgen_hash_alg = true;
}
}
+
+ luks = g_new0(QCryptoBlockLUKS, 1);
+ block->opaque = luks;
+
+ luks->cipher_alg = luks_opts.cipher_alg;
+ luks->cipher_mode = luks_opts.cipher_mode;
+ luks->ivgen_alg = luks_opts.ivgen_alg;
+ luks->ivgen_hash_alg = luks_opts.ivgen_hash_alg;
+ luks->hash_alg = luks_opts.hash_alg;
+
+
/* Note we're allowing ivgen_hash_alg to be set even for
* non-essiv iv generators that don't need a hash. It will
* be silently ignored, for compatibility with dm-crypt */
if (!options->u.luks.key_secret) {
error_setg(errp, "Parameter '%skey-secret' is required for cipher",
optprefix ? optprefix : "");
- return -1;
+ goto error;
}
password = qcrypto_secret_lookup_as_utf8(luks_opts.key_secret, errp);
if (!password) {
- return -1;
+ goto error;
}
- luks = g_new0(QCryptoBlockLUKS, 1);
- block->opaque = luks;
memcpy(luks->header.magic, qcrypto_block_luks_magic,
QCRYPTO_BLOCK_LUKS_MAGIC_LEN);
}
if (luks_opts.ivgen_alg == QCRYPTO_IVGEN_ALG_ESSIV) {
- ivcipheralg = qcrypto_block_luks_essiv_cipher(luks_opts.cipher_alg,
- luks_opts.ivgen_hash_alg,
- &local_err);
+ luks->ivgen_cipher_alg =
+ qcrypto_block_luks_essiv_cipher(luks_opts.cipher_alg,
+ luks_opts.ivgen_hash_alg,
+ &local_err);
if (local_err) {
error_propagate(errp, local_err);
goto error;
}
} else {
- ivcipheralg = luks_opts.cipher_alg;
+ luks->ivgen_cipher_alg = luks_opts.cipher_alg;
}
strcpy(luks->header.cipher_name, cipher_alg);
strcpy(luks->header.cipher_mode, cipher_mode_spec);
strcpy(luks->header.hash_spec, hash_alg);
- luks->header.key_bytes = qcrypto_cipher_get_key_len(luks_opts.cipher_alg);
+ luks->header.master_key_len =
+ qcrypto_cipher_get_key_len(luks_opts.cipher_alg);
+
if (luks_opts.cipher_mode == QCRYPTO_CIPHER_MODE_XTS) {
- luks->header.key_bytes *= 2;
+ luks->header.master_key_len *= 2;
}
/* Generate the salt used for hashing the master key
}
/* Generate random master key */
- masterkey = g_new0(uint8_t, luks->header.key_bytes);
+ masterkey = g_new0(uint8_t, luks->header.master_key_len);
if (qcrypto_random_bytes(masterkey,
- luks->header.key_bytes, errp) < 0) {
+ luks->header.master_key_len, errp) < 0) {
goto error;
}
/* Setup the block device payload encryption objects */
if (qcrypto_block_init_cipher(block, luks_opts.cipher_alg,
luks_opts.cipher_mode, masterkey,
- luks->header.key_bytes, 1, errp) < 0) {
+ luks->header.master_key_len, 1, errp) < 0) {
goto error;
}
block->niv = qcrypto_cipher_get_iv_len(luks_opts.cipher_alg,
luks_opts.cipher_mode);
block->ivgen = qcrypto_ivgen_new(luks_opts.ivgen_alg,
- ivcipheralg,
+ luks->ivgen_cipher_alg,
luks_opts.ivgen_hash_alg,
- masterkey, luks->header.key_bytes,
+ masterkey, luks->header.master_key_len,
errp);
if (!block->ivgen) {
* key, in order to have 1 second of compute time used
*/
iters = qcrypto_pbkdf2_count_iters(luks_opts.hash_alg,
- masterkey, luks->header.key_bytes,
+ masterkey, luks->header.master_key_len,
luks->header.master_key_salt,
QCRYPTO_BLOCK_LUKS_SALT_LEN,
QCRYPTO_BLOCK_LUKS_DIGEST_LEN,
* valid master key
*/
if (qcrypto_pbkdf2(luks_opts.hash_alg,
- masterkey, luks->header.key_bytes,
+ masterkey, luks->header.master_key_len,
luks->header.master_key_salt,
QCRYPTO_BLOCK_LUKS_SALT_LEN,
luks->header.master_key_iterations,
goto error;
}
+ /* start with the sector that follows the header*/
+ header_sectors = QCRYPTO_BLOCK_LUKS_KEY_SLOT_OFFSET /
+ QCRYPTO_BLOCK_LUKS_SECTOR_SIZE;
- /* Although LUKS has multiple key slots, we're just going
- * to use the first key slot */
- splitkeylen = luks->header.key_bytes * QCRYPTO_BLOCK_LUKS_STRIPES;
- for (i = 0; i < QCRYPTO_BLOCK_LUKS_NUM_KEY_SLOTS; i++) {
- luks->header.key_slots[i].active = i == 0 ?
- QCRYPTO_BLOCK_LUKS_KEY_SLOT_ENABLED :
- QCRYPTO_BLOCK_LUKS_KEY_SLOT_DISABLED;
- luks->header.key_slots[i].stripes = QCRYPTO_BLOCK_LUKS_STRIPES;
-
- /* This calculation doesn't match that shown in the spec,
- * but instead follows the cryptsetup implementation.
- */
- luks->header.key_slots[i].key_offset =
- (QCRYPTO_BLOCK_LUKS_KEY_SLOT_OFFSET /
- QCRYPTO_BLOCK_LUKS_SECTOR_SIZE) +
- (ROUND_UP(DIV_ROUND_UP(splitkeylen, QCRYPTO_BLOCK_LUKS_SECTOR_SIZE),
- (QCRYPTO_BLOCK_LUKS_KEY_SLOT_OFFSET /
- QCRYPTO_BLOCK_LUKS_SECTOR_SIZE)) * i);
- }
-
- if (qcrypto_random_bytes(luks->header.key_slots[0].salt,
- QCRYPTO_BLOCK_LUKS_SALT_LEN,
- errp) < 0) {
- goto error;
- }
-
- /* Again we determine how many iterations are required to
- * hash the user password while consuming 1 second of compute
- * time */
- iters = qcrypto_pbkdf2_count_iters(luks_opts.hash_alg,
- (uint8_t *)password, strlen(password),
- luks->header.key_slots[0].salt,
- QCRYPTO_BLOCK_LUKS_SALT_LEN,
- luks->header.key_bytes,
- &local_err);
- if (local_err) {
- error_propagate(errp, local_err);
- goto error;
- }
-
- if (iters > (ULLONG_MAX / luks_opts.iter_time)) {
- error_setg_errno(errp, ERANGE,
- "PBKDF iterations %llu too large to scale",
- (unsigned long long)iters);
- goto error;
- }
-
- /* iter_time was in millis, but count_iters reported for secs */
- iters = iters * luks_opts.iter_time / 1000;
-
- if (iters > UINT32_MAX) {
- error_setg_errno(errp, ERANGE,
- "PBKDF iterations %llu larger than %u",
- (unsigned long long)iters, UINT32_MAX);
- goto error;
- }
-
- luks->header.key_slots[0].iterations =
- MAX(iters, QCRYPTO_BLOCK_LUKS_MIN_SLOT_KEY_ITERS);
-
-
- /* Generate a key that we'll use to encrypt the master
- * key, from the user's password
- */
- slotkey = g_new0(uint8_t, luks->header.key_bytes);
- if (qcrypto_pbkdf2(luks_opts.hash_alg,
- (uint8_t *)password, strlen(password),
- luks->header.key_slots[0].salt,
- QCRYPTO_BLOCK_LUKS_SALT_LEN,
- luks->header.key_slots[0].iterations,
- slotkey, luks->header.key_bytes,
- errp) < 0) {
- goto error;
- }
-
-
- /* Setup the encryption objects needed to encrypt the
- * master key material
- */
- cipher = qcrypto_cipher_new(luks_opts.cipher_alg,
- luks_opts.cipher_mode,
- slotkey, luks->header.key_bytes,
- errp);
- if (!cipher) {
- goto error;
- }
-
- ivgen = qcrypto_ivgen_new(luks_opts.ivgen_alg,
- ivcipheralg,
- luks_opts.ivgen_hash_alg,
- slotkey, luks->header.key_bytes,
- errp);
- if (!ivgen) {
- goto error;
- }
-
- /* Before storing the master key, we need to vastly
- * increase its size, as protection against forensic
- * disk data recovery */
- splitkey = g_new0(uint8_t, splitkeylen);
+ split_key_sectors =
+ qcrypto_block_luks_splitkeylen_sectors(luks,
+ header_sectors,
+ QCRYPTO_BLOCK_LUKS_STRIPES);
- if (qcrypto_afsplit_encode(luks_opts.hash_alg,
- luks->header.key_bytes,
- luks->header.key_slots[0].stripes,
- masterkey,
- splitkey,
- errp) < 0) {
- goto error;
- }
+ for (i = 0; i < QCRYPTO_BLOCK_LUKS_NUM_KEY_SLOTS; i++) {
+ QCryptoBlockLUKSKeySlot *slot = &luks->header.key_slots[i];
+ slot->active = QCRYPTO_BLOCK_LUKS_KEY_SLOT_DISABLED;
- /* Now we encrypt the split master key with the key generated
- * from the user's password, before storing it */
- if (qcrypto_block_cipher_encrypt_helper(cipher, block->niv, ivgen,
- QCRYPTO_BLOCK_LUKS_SECTOR_SIZE,
- 0,
- splitkey,
- splitkeylen,
- errp) < 0) {
- goto error;
+ slot->key_offset_sector = header_sectors + i * split_key_sectors;
+ slot->stripes = QCRYPTO_BLOCK_LUKS_STRIPES;
}
-
/* The total size of the LUKS headers is the partition header + key
* slot headers, rounded up to the nearest sector, combined with
* the size of each master key material region, also rounded up
* to the nearest sector */
- luks->header.payload_offset =
- (QCRYPTO_BLOCK_LUKS_KEY_SLOT_OFFSET /
- QCRYPTO_BLOCK_LUKS_SECTOR_SIZE) +
- (ROUND_UP(DIV_ROUND_UP(splitkeylen, QCRYPTO_BLOCK_LUKS_SECTOR_SIZE),
- (QCRYPTO_BLOCK_LUKS_KEY_SLOT_OFFSET /
- QCRYPTO_BLOCK_LUKS_SECTOR_SIZE)) *
- QCRYPTO_BLOCK_LUKS_NUM_KEY_SLOTS);
+ luks->header.payload_offset_sector = header_sectors +
+ QCRYPTO_BLOCK_LUKS_NUM_KEY_SLOTS * split_key_sectors;
block->sector_size = QCRYPTO_BLOCK_LUKS_SECTOR_SIZE;
- block->payload_offset = luks->header.payload_offset *
+ block->payload_offset = luks->header.payload_offset_sector *
block->sector_size;
/* Reserve header space to match payload offset */
goto error;
}
- /* Everything on disk uses Big Endian, so flip header fields
- * before writing them */
- cpu_to_be16s(&luks->header.version);
- cpu_to_be32s(&luks->header.payload_offset);
- cpu_to_be32s(&luks->header.key_bytes);
- cpu_to_be32s(&luks->header.master_key_iterations);
-
- for (i = 0; i < QCRYPTO_BLOCK_LUKS_NUM_KEY_SLOTS; i++) {
- cpu_to_be32s(&luks->header.key_slots[i].active);
- cpu_to_be32s(&luks->header.key_slots[i].iterations);
- cpu_to_be32s(&luks->header.key_slots[i].key_offset);
- cpu_to_be32s(&luks->header.key_slots[i].stripes);
- }
-
-
- /* Write out the partition header and key slot headers */
- writefunc(block, 0,
- (const uint8_t *)&luks->header,
- sizeof(luks->header),
- opaque,
- &local_err);
-
- /* Delay checking local_err until we've byte-swapped */
-
- /* Byte swap the header back to native, in case we need
- * to read it again later */
- be16_to_cpus(&luks->header.version);
- be32_to_cpus(&luks->header.payload_offset);
- be32_to_cpus(&luks->header.key_bytes);
- be32_to_cpus(&luks->header.master_key_iterations);
-
- for (i = 0; i < QCRYPTO_BLOCK_LUKS_NUM_KEY_SLOTS; i++) {
- be32_to_cpus(&luks->header.key_slots[i].active);
- be32_to_cpus(&luks->header.key_slots[i].iterations);
- be32_to_cpus(&luks->header.key_slots[i].key_offset);
- be32_to_cpus(&luks->header.key_slots[i].stripes);
- }
-
- if (local_err) {
- error_propagate(errp, local_err);
- goto error;
- }
- /* Write out the master key material, starting at the
- * sector immediately following the partition header. */
- if (writefunc(block,
- luks->header.key_slots[0].key_offset *
- QCRYPTO_BLOCK_LUKS_SECTOR_SIZE,
- splitkey, splitkeylen,
- opaque,
- errp) != splitkeylen) {
+ /* populate the slot 0 with the password encrypted master key*/
+ /* This will also store the header */
+ if (qcrypto_block_luks_store_key(block,
+ 0,
+ password,
+ masterkey,
+ luks_opts.iter_time,
+ writefunc,
+ opaque,
+ errp) < 0) {
goto error;
}
- luks->cipher_alg = luks_opts.cipher_alg;
- luks->cipher_mode = luks_opts.cipher_mode;
- luks->ivgen_alg = luks_opts.ivgen_alg;
- luks->ivgen_hash_alg = luks_opts.ivgen_hash_alg;
- luks->hash_alg = luks_opts.hash_alg;
-
- memset(masterkey, 0, luks->header.key_bytes);
- memset(slotkey, 0, luks->header.key_bytes);
+ memset(masterkey, 0, luks->header.master_key_len);
return 0;
error:
if (masterkey) {
- memset(masterkey, 0, luks->header.key_bytes);
- }
- if (slotkey) {
- memset(slotkey, 0, luks->header.key_bytes);
+ memset(masterkey, 0, luks->header.master_key_len);
}
qcrypto_block_free_cipher(block);
slots->value = slot = g_new0(QCryptoBlockInfoLUKSSlot, 1);
slot->active = luks->header.key_slots[i].active ==
QCRYPTO_BLOCK_LUKS_KEY_SLOT_ENABLED;
- slot->key_offset = luks->header.key_slots[i].key_offset
+ slot->key_offset = luks->header.key_slots[i].key_offset_sector
* QCRYPTO_BLOCK_LUKS_SECTOR_SIZE;
if (slot->active) {
slot->has_iters = true;
test failure. If using such devices are explicitly desired, consider adding
``locking=off`` option to disable image locking.
+.. _docker-ref:
+
Docker based tests
==================
If you've used ``make check-acceptance``, the Python virtual environment where
Avocado is installed will be cleaned up as part of ``make check-clean``.
+
+Testing with "make check-tcg"
+=============================
+
+The check-tcg tests are intended for simple smoke tests of both
+linux-user and softmmu TCG functionality. However to build test
+programs for guest targets you need to have cross compilers available.
+If your distribution supports cross compilers you can do something as
+simple as::
+
+ apt install gcc-aarch64-linux-gnu
+
+The configure script will automatically pick up their presence.
+Sometimes compilers have slightly odd names so the availability of
+them can be prompted by passing in the appropriate configure option
+for the architecture in question, for example::
+
+ $(configure) --cross-cc-aarch64=aarch64-cc
+
+There is also a ``--cross-cc-flags-ARCH`` flag in case additional
+compiler flags are needed to build for a given target.
+
+If you have the ability to run containers as the user you can also
+take advantage of the build systems "Docker" support. It will then use
+containers to build any test case for an enabled guest where there is
+no system compiler available. See :ref: `_docker-ref` for details.
+
+Running subset of tests
+-----------------------
+
+You can build the tests for one architecture::
+
+ make build-tcg-tests-$TARGET
+
+And run with::
+
+ make run-tcg-tests-$TARGET
+
+Adding ``V=1`` to the invocation will show the details of how to
+invoke QEMU for the test which is useful for debugging tests.
+
+TCG test dependencies
+---------------------
+
+The TCG tests are deliberately very light on dependencies and are
+either totally bare with minimal gcc lib support (for softmmu tests)
+or just glibc (for linux-user tests). This is because getting a cross
+compiler to work with additional libraries can be challenging.
+
+Other TCG Tests
+---------------
+
+There are a number of out-of-tree test suites that are used for more
+extensive testing of processor features.
+
+KVM Unit Tests
+~~~~~~~~~~~~~~
+
+The KVM unit tests are designed to run as a Guest OS under KVM but
+there is no reason why they can't exercise the TCG as well. It
+provides a minimal OS kernel with hooks for enabling the MMU as well
+as reporting test results via a special device::
+
+ https://git.kernel.org/pub/scm/virt/kvm/kvm-unit-tests.git
+
+Linux Test Project
+~~~~~~~~~~~~~~~~~~
+
+The LTP is focused on exercising the syscall interface of a Linux
+kernel. It checks that syscalls behave as documented and strives to
+exercise as many corner cases as possible. It is a useful test suite
+to run to exercise QEMU's linux-user code::
+
+ https://linux-test-project.github.io/
AddressSpace address_space_io;
AddressSpace address_space_memory;
-MemoryRegion io_mem_rom, io_mem_notdirty;
static MemoryRegion io_mem_unassigned;
#endif
} subpage_t;
#define PHYS_SECTION_UNASSIGNED 0
-#define PHYS_SECTION_NOTDIRTY 1
-#define PHYS_SECTION_ROM 2
static void io_mem_init(void);
static void memory_map_init(void);
void tb_invalidate_phys_addr(target_ulong addr)
{
mmap_lock();
- tb_invalidate_phys_page_range(addr, addr + 1, 0);
+ tb_invalidate_phys_page_range(addr, addr + 1);
mmap_unlock();
}
return;
}
ram_addr = memory_region_get_ram_addr(mr) + addr;
- tb_invalidate_phys_page_range(ram_addr, ram_addr + 1, 0);
+ tb_invalidate_phys_page_range(ram_addr, ram_addr + 1);
rcu_read_unlock();
}
/* Called from RCU critical section */
hwaddr memory_region_section_get_iotlb(CPUState *cpu,
- MemoryRegionSection *section,
- target_ulong vaddr,
- hwaddr paddr, hwaddr xlat,
- int prot,
- target_ulong *address)
-{
- hwaddr iotlb;
-
- if (memory_region_is_ram(section->mr)) {
- /* Normal RAM. */
- iotlb = memory_region_get_ram_addr(section->mr) + xlat;
- if (!section->readonly) {
- iotlb |= PHYS_SECTION_NOTDIRTY;
- } else {
- iotlb |= PHYS_SECTION_ROM;
- }
- } else {
- AddressSpaceDispatch *d;
-
- d = flatview_to_dispatch(section->fv);
- iotlb = section - d->map.sections;
- iotlb += xlat;
- }
-
- return iotlb;
+ MemoryRegionSection *section)
+{
+ AddressSpaceDispatch *d = flatview_to_dispatch(section->fv);
+ return section - d->map.sections;
}
#endif /* defined(CONFIG_USER_ONLY) */
return block->offset + offset;
}
-/* Called within RCU critical section. */
-void memory_notdirty_write_prepare(NotDirtyInfo *ndi,
- CPUState *cpu,
- vaddr mem_vaddr,
- ram_addr_t ram_addr,
- unsigned size)
-{
- ndi->cpu = cpu;
- ndi->ram_addr = ram_addr;
- ndi->mem_vaddr = mem_vaddr;
- ndi->size = size;
- ndi->pages = NULL;
-
- assert(tcg_enabled());
- if (!cpu_physical_memory_get_dirty_flag(ram_addr, DIRTY_MEMORY_CODE)) {
- ndi->pages = page_collection_lock(ram_addr, ram_addr + size);
- tb_invalidate_phys_page_fast(ndi->pages, ram_addr, size);
- }
-}
-
-/* Called within RCU critical section. */
-void memory_notdirty_write_complete(NotDirtyInfo *ndi)
-{
- if (ndi->pages) {
- assert(tcg_enabled());
- page_collection_unlock(ndi->pages);
- ndi->pages = NULL;
- }
-
- /* Set both VGA and migration bits for simplicity and to remove
- * the notdirty callback faster.
- */
- cpu_physical_memory_set_dirty_range(ndi->ram_addr, ndi->size,
- DIRTY_CLIENTS_NOCODE);
- /* we remove the notdirty callback only if the code has been
- flushed */
- if (!cpu_physical_memory_is_clean(ndi->ram_addr)) {
- tlb_set_dirty(ndi->cpu, ndi->mem_vaddr);
- }
-}
-
-/* Called within RCU critical section. */
-static void notdirty_mem_write(void *opaque, hwaddr ram_addr,
- uint64_t val, unsigned size)
-{
- NotDirtyInfo ndi;
-
- memory_notdirty_write_prepare(&ndi, current_cpu, current_cpu->mem_io_vaddr,
- ram_addr, size);
-
- stn_p(qemu_map_ram_ptr(NULL, ram_addr), size, val);
- memory_notdirty_write_complete(&ndi);
-}
-
-static bool notdirty_mem_accepts(void *opaque, hwaddr addr,
- unsigned size, bool is_write,
- MemTxAttrs attrs)
-{
- return is_write;
-}
-
-static const MemoryRegionOps notdirty_mem_ops = {
- .write = notdirty_mem_write,
- .valid.accepts = notdirty_mem_accepts,
- .endianness = DEVICE_NATIVE_ENDIAN,
- .valid = {
- .min_access_size = 1,
- .max_access_size = 8,
- .unaligned = false,
- },
- .impl = {
- .min_access_size = 1,
- .max_access_size = 8,
- .unaligned = false,
- },
-};
-
/* Generate a debug exception if a watchpoint has been hit. */
void cpu_check_watchpoint(CPUState *cpu, vaddr addr, vaddr len,
MemTxAttrs attrs, int flags, uintptr_t ra)
cpu->watchpoint_hit = wp;
mmap_lock();
- tb_check_watchpoint(cpu);
+ tb_check_watchpoint(cpu, ra);
if (wp->flags & BP_STOP_BEFORE_ACCESS) {
cpu->exception_index = EXCP_DEBUG;
mmap_unlock();
return phys_section_add(map, §ion);
}
-static void readonly_mem_write(void *opaque, hwaddr addr,
- uint64_t val, unsigned size)
-{
- /* Ignore any write to ROM. */
-}
-
-static bool readonly_mem_accepts(void *opaque, hwaddr addr,
- unsigned size, bool is_write,
- MemTxAttrs attrs)
-{
- return is_write;
-}
-
-/* This will only be used for writes, because reads are special cased
- * to directly access the underlying host ram.
- */
-static const MemoryRegionOps readonly_mem_ops = {
- .write = readonly_mem_write,
- .valid.accepts = readonly_mem_accepts,
- .endianness = DEVICE_NATIVE_ENDIAN,
- .valid = {
- .min_access_size = 1,
- .max_access_size = 8,
- .unaligned = false,
- },
- .impl = {
- .min_access_size = 1,
- .max_access_size = 8,
- .unaligned = false,
- },
-};
-
MemoryRegionSection *iotlb_to_section(CPUState *cpu,
hwaddr index, MemTxAttrs attrs)
{
static void io_mem_init(void)
{
- memory_region_init_io(&io_mem_rom, NULL, &readonly_mem_ops,
- NULL, NULL, UINT64_MAX);
memory_region_init_io(&io_mem_unassigned, NULL, &unassigned_mem_ops, NULL,
NULL, UINT64_MAX);
-
- /* io_mem_notdirty calls tb_invalidate_phys_page_fast,
- * which can be called without the iothread mutex.
- */
- memory_region_init_io(&io_mem_notdirty, NULL, ¬dirty_mem_ops, NULL,
- NULL, UINT64_MAX);
- memory_region_clear_global_locking(&io_mem_notdirty);
}
AddressSpaceDispatch *address_space_dispatch_new(FlatView *fv)
n = dummy_section(&d->map, fv, &io_mem_unassigned);
assert(n == PHYS_SECTION_UNASSIGNED);
- n = dummy_section(&d->map, fv, &io_mem_notdirty);
- assert(n == PHYS_SECTION_NOTDIRTY);
- n = dummy_section(&d->map, fv, &io_mem_rom);
- assert(n == PHYS_SECTION_ROM);
d->phys_map = (PhysPageEntry) { .ptr = PHYS_MAP_NODE_NIL, .skip = 1 };
cpu->interrupt_request = 0;
cpu->halted = 0;
cpu->mem_io_pc = 0;
- cpu->mem_io_vaddr = 0;
cpu->icount_extra = 0;
atomic_set(&cpu->icount_decr_ptr->u32, 0);
cpu->can_do_io = 1;
#if !defined(CONFIG_USER_ONLY)
-/* Flags stored in the low bits of the TLB virtual address. These are
- * defined so that fast path ram access is all zeros.
+/*
+ * Flags stored in the low bits of the TLB virtual address.
+ * These are defined so that fast path ram access is all zeros.
* The flags all must be between TARGET_PAGE_BITS and
* maximum address alignment bit.
+ *
+ * Use TARGET_PAGE_BITS_MIN so that these bits are constant
+ * when TARGET_PAGE_BITS_VARY is in effect.
*/
/* Zero if TLB entry is valid. */
-#define TLB_INVALID_MASK (1 << (TARGET_PAGE_BITS - 1))
+#define TLB_INVALID_MASK (1 << (TARGET_PAGE_BITS_MIN - 1))
/* Set if TLB entry references a clean RAM page. The iotlb entry will
contain the page physical address. */
-#define TLB_NOTDIRTY (1 << (TARGET_PAGE_BITS - 2))
+#define TLB_NOTDIRTY (1 << (TARGET_PAGE_BITS_MIN - 2))
/* Set if TLB entry is an IO callback. */
-#define TLB_MMIO (1 << (TARGET_PAGE_BITS - 3))
+#define TLB_MMIO (1 << (TARGET_PAGE_BITS_MIN - 3))
/* Set if TLB entry contains a watchpoint. */
-#define TLB_WATCHPOINT (1 << (TARGET_PAGE_BITS - 4))
+#define TLB_WATCHPOINT (1 << (TARGET_PAGE_BITS_MIN - 4))
+/* Set if TLB entry requires byte swap. */
+#define TLB_BSWAP (1 << (TARGET_PAGE_BITS_MIN - 5))
+/* Set if TLB entry writes ignored. */
+#define TLB_DISCARD_WRITE (1 << (TARGET_PAGE_BITS_MIN - 6))
/* Use this mask to check interception with an alignment mask
* in a TCG backend.
*/
#define TLB_FLAGS_MASK \
- (TLB_INVALID_MASK | TLB_NOTDIRTY | TLB_MMIO | TLB_WATCHPOINT)
+ (TLB_INVALID_MASK | TLB_NOTDIRTY | TLB_MMIO \
+ | TLB_WATCHPOINT | TLB_BSWAP | TLB_DISCARD_WRITE)
/**
* tlb_hit_page: return true if page aligned @addr is a hit against the
void cpu_flush_icache_range(hwaddr start, hwaddr len);
-extern struct MemoryRegion io_mem_rom;
-extern struct MemoryRegion io_mem_notdirty;
-
typedef int (RAMBlockIterFunc)(RAMBlock *rb, void *opaque);
int qemu_ram_foreach_block(RAMBlockIterFunc func, void *opaque);
hwaddr *xlat, hwaddr *plen,
MemTxAttrs attrs, int *prot);
hwaddr memory_region_section_get_iotlb(CPUState *cpu,
- MemoryRegionSection *section,
- target_ulong vaddr,
- hwaddr paddr, hwaddr xlat,
- int prot,
- target_ulong *address);
+ MemoryRegionSection *section);
#endif
/* vl.c */
void mtree_print_dispatch(struct AddressSpaceDispatch *d,
MemoryRegion *root);
-
-struct page_collection;
-
-/* Opaque struct for passing info from memory_notdirty_write_prepare()
- * to memory_notdirty_write_complete(). Callers should treat all fields
- * as private, with the exception of @active.
- *
- * @active is a field which is not touched by either the prepare or
- * complete functions, but which the caller can use if it wishes to
- * track whether it has called prepare for this struct and so needs
- * to later call the complete function.
- */
-typedef struct {
- CPUState *cpu;
- struct page_collection *pages;
- ram_addr_t ram_addr;
- vaddr mem_vaddr;
- unsigned size;
- bool active;
-} NotDirtyInfo;
-
-/**
- * memory_notdirty_write_prepare: call before writing to non-dirty memory
- * @ndi: pointer to opaque NotDirtyInfo struct
- * @cpu: CPU doing the write
- * @mem_vaddr: virtual address of write
- * @ram_addr: the ram address of the write
- * @size: size of write in bytes
- *
- * Any code which writes to the host memory corresponding to
- * guest RAM which has been marked as NOTDIRTY must wrap those
- * writes in calls to memory_notdirty_write_prepare() and
- * memory_notdirty_write_complete():
- *
- * NotDirtyInfo ndi;
- * memory_notdirty_write_prepare(&ndi, ....);
- * ... perform write here ...
- * memory_notdirty_write_complete(&ndi);
- *
- * These calls will ensure that we flush any TCG translated code for
- * the memory being written, update the dirty bits and (if possible)
- * remove the slowpath callback for writing to the memory.
- *
- * This must only be called if we are using TCG; it will assert otherwise.
- *
- * We may take locks in the prepare call, so callers must ensure that
- * they don't exit (via longjump or otherwise) without calling complete.
- *
- * This call must only be made inside an RCU critical section.
- * (Note that while we're executing a TCG TB we're always in an
- * RCU critical section, which is likely to be the case for callers
- * of these functions.)
- */
-void memory_notdirty_write_prepare(NotDirtyInfo *ndi,
- CPUState *cpu,
- vaddr mem_vaddr,
- ram_addr_t ram_addr,
- unsigned size);
-/**
- * memory_notdirty_write_complete: finish write to non-dirty memory
- * @ndi: pointer to the opaque NotDirtyInfo struct which was initialized
- * by memory_not_dirty_write_prepare().
- */
-void memory_notdirty_write_complete(NotDirtyInfo *ndi);
-
#endif
#endif
* @next_cpu: Next CPU sharing TB cache.
* @opaque: User data.
* @mem_io_pc: Host Program Counter at which the memory was accessed.
- * @mem_io_vaddr: Target virtual address at which the memory was accessed.
* @kvm_fd: vCPU file descriptor for KVM.
* @work_mutex: Lock to prevent multiple access to queued_work_*.
* @queued_work_first: First asynchronous work pending.
* we store some rarely used information in the CPU context.
*/
uintptr_t mem_io_pc;
- vaddr mem_io_vaddr;
/*
* This is only needed for the legacy cpu_unassigned_access() hook;
* when all targets using it have been converted to use
# define QEMU_NONSTRING
#endif
+/*
+ * Forced inlining may be desired to encourage constant propagation
+ * of function parameters. However, it can also make debugging harder,
+ * so disable it for a non-optimizing build.
+ */
+#if defined(__OPTIMIZE__)
+#define QEMU_ALWAYS_INLINE __attribute__((always_inline))
+#else
+#define QEMU_ALWAYS_INLINE
+#endif
+
/* Implement C11 _Generic via GCC builtins. Example:
*
* QEMU_GENERIC(x, (float, sinf), (long double, sinl), sin) (x)
#define QEMU_GENERIC9(x, a0, ...) QEMU_GENERIC_IF(x, a0, QEMU_GENERIC8(x, __VA_ARGS__))
#define QEMU_GENERIC10(x, a0, ...) QEMU_GENERIC_IF(x, a0, QEMU_GENERIC9(x, __VA_ARGS__))
+/**
+ * qemu_build_not_reached()
+ *
+ * The compiler, during optimization, is expected to prove that a call
+ * to this function cannot be reached and remove it. If the compiler
+ * supports QEMU_ERROR, this will be reported at compile time; otherwise
+ * this will be reported at link time due to the missing symbol.
+ */
+#ifdef __OPTIMIZE__
+extern void QEMU_NORETURN QEMU_ERROR("code path is reachable")
+ qemu_build_not_reached(void);
+#else
+#define qemu_build_not_reached() g_assert_not_reached()
+#endif
+
#endif /* COMPILER_H */
int i, err = 0;
#if defined(TARGET_PPC64)
struct target_sigcontext *sc = 0;
+#if !defined(TARGET_ABI32)
struct image_info *image = ((TaskState *)thread_cpu->opaque)->info;
+#endif
#endif
rt_sf_addr = get_sigframe(ka, env, sizeof(*rt_sf));
env->gpr[5] = (target_ulong) h2g(&rt_sf->uc);
env->gpr[6] = (target_ulong) h2g(rt_sf);
-#if defined(TARGET_PPC64)
+#if defined(TARGET_PPC64) && !defined(TARGET_ABI32)
if (get_ppc64_abi(image) < 2) {
/* ELFv1 PPC64 function pointers are pointers to OPD entries. */
struct target_func_ptr *handler =
tmp = mr->ops->read(mr->opaque, addr, size);
if (mr->subpage) {
trace_memory_region_subpage_read(get_cpu_index(), mr, addr, tmp, size);
- } else if (mr == &io_mem_notdirty) {
- /* Accesses to code which has previously been translated into a TB show
- * up in the MMIO path, as accesses to the io_mem_notdirty
- * MemoryRegion. */
- trace_memory_region_tb_read(get_cpu_index(), addr, tmp, size);
} else if (TRACE_MEMORY_REGION_OPS_READ_ENABLED) {
hwaddr abs_addr = memory_region_to_absolute_addr(mr, addr);
trace_memory_region_ops_read(get_cpu_index(), mr, abs_addr, tmp, size);
r = mr->ops->read_with_attrs(mr->opaque, addr, &tmp, size, attrs);
if (mr->subpage) {
trace_memory_region_subpage_read(get_cpu_index(), mr, addr, tmp, size);
- } else if (mr == &io_mem_notdirty) {
- /* Accesses to code which has previously been translated into a TB show
- * up in the MMIO path, as accesses to the io_mem_notdirty
- * MemoryRegion. */
- trace_memory_region_tb_read(get_cpu_index(), addr, tmp, size);
} else if (TRACE_MEMORY_REGION_OPS_READ_ENABLED) {
hwaddr abs_addr = memory_region_to_absolute_addr(mr, addr);
trace_memory_region_ops_read(get_cpu_index(), mr, abs_addr, tmp, size);
if (mr->subpage) {
trace_memory_region_subpage_write(get_cpu_index(), mr, addr, tmp, size);
- } else if (mr == &io_mem_notdirty) {
- /* Accesses to code which has previously been translated into a TB show
- * up in the MMIO path, as accesses to the io_mem_notdirty
- * MemoryRegion. */
- trace_memory_region_tb_write(get_cpu_index(), addr, tmp, size);
} else if (TRACE_MEMORY_REGION_OPS_WRITE_ENABLED) {
hwaddr abs_addr = memory_region_to_absolute_addr(mr, addr);
trace_memory_region_ops_write(get_cpu_index(), mr, abs_addr, tmp, size);
if (mr->subpage) {
trace_memory_region_subpage_write(get_cpu_index(), mr, addr, tmp, size);
- } else if (mr == &io_mem_notdirty) {
- /* Accesses to code which has previously been translated into a TB show
- * up in the MMIO path, as accesses to the io_mem_notdirty
- * MemoryRegion. */
- trace_memory_region_tb_write(get_cpu_index(), addr, tmp, size);
} else if (TRACE_MEMORY_REGION_OPS_WRITE_ENABLED) {
hwaddr abs_addr = memory_region_to_absolute_addr(mr, addr);
trace_memory_region_ops_write(get_cpu_index(), mr, abs_addr, tmp, size);
uint32_t exc = env->error_code & ~ignore;
if (exc) {
env->fpcr |= exc;
- exc &= ~ignore;
-#ifdef CONFIG_USER_ONLY
- /*
- * In user mode, the kernel's software handler only
- * delivers a signal if the exception is enabled.
- */
- if (!(exc & env->fpcr_exc_enable)) {
- return;
- }
-#else
+ exc &= env->fpcr_exc_enable;
/*
* In system mode, the software handler gets invoked
* for any non-ignored exception.
+ * In user mode, the kernel's software handler only
+ * delivers a signal if the exception is enabled.
*/
+#ifdef CONFIG_USER_ONLY
if (!exc) {
return;
}
#endif
- exc &= env->fpcr_exc_enable;
fp_exc_raise1(env, GETPC(), exc, regno, EXC_M_SWC);
}
}
void cpu_alpha_store_fpcr(CPUAlphaState *env, uint64_t val)
{
+ static const uint8_t rm_map[] = {
+ [FPCR_DYN_NORMAL >> FPCR_DYN_SHIFT] = float_round_nearest_even,
+ [FPCR_DYN_CHOPPED >> FPCR_DYN_SHIFT] = float_round_to_zero,
+ [FPCR_DYN_MINUS >> FPCR_DYN_SHIFT] = float_round_down,
+ [FPCR_DYN_PLUS >> FPCR_DYN_SHIFT] = float_round_up,
+ };
+
uint32_t fpcr = val >> 32;
uint32_t t = 0;
+ /* Record the raw value before adjusting for linux-user. */
+ env->fpcr = fpcr;
+
+#ifdef CONFIG_USER_ONLY
+ /*
+ * Override some of these bits with the contents of ENV->SWCR.
+ * In system mode, some of these would trap to the kernel, at
+ * which point the kernel's handler would emulate and apply
+ * the software exception mask.
+ */
+ uint32_t soft_fpcr = alpha_ieee_swcr_to_fpcr(env->swcr) >> 32;
+ fpcr |= soft_fpcr & (FPCR_STATUS_MASK | FPCR_DNZ);
+
+ /*
+ * The IOV exception is disabled by the kernel with SWCR_TRAP_ENABLE_INV,
+ * which got mapped by alpha_ieee_swcr_to_fpcr to FPCR_INVD.
+ * Add FPCR_IOV to fpcr_exc_enable so that it is handled identically.
+ */
+ t |= CONVERT_BIT(soft_fpcr, FPCR_INVD, FPCR_IOV);
+#endif
+
t |= CONVERT_BIT(fpcr, FPCR_INED, FPCR_INE);
t |= CONVERT_BIT(fpcr, FPCR_UNFD, FPCR_UNF);
t |= CONVERT_BIT(fpcr, FPCR_OVFD, FPCR_OVF);
t |= CONVERT_BIT(fpcr, FPCR_DZED, FPCR_DZE);
t |= CONVERT_BIT(fpcr, FPCR_INVD, FPCR_INV);
- env->fpcr = fpcr;
env->fpcr_exc_enable = ~t & FPCR_STATUS_MASK;
- switch (fpcr & FPCR_DYN_MASK) {
- case FPCR_DYN_NORMAL:
- default:
- t = float_round_nearest_even;
- break;
- case FPCR_DYN_CHOPPED:
- t = float_round_to_zero;
- break;
- case FPCR_DYN_MINUS:
- t = float_round_down;
- break;
- case FPCR_DYN_PLUS:
- t = float_round_up;
- break;
- }
- env->fpcr_dyn_round = t;
-
- env->fpcr_flush_to_zero = (fpcr & FPCR_UNFD) && (fpcr & FPCR_UNDZ);
+ env->fpcr_dyn_round = rm_map[(fpcr & FPCR_DYN_MASK) >> FPCR_DYN_SHIFT];
env->fp_status.flush_inputs_to_zero = (fpcr & FPCR_DNZ) != 0;
+ t = (fpcr & FPCR_UNFD) && (fpcr & FPCR_UNDZ);
#ifdef CONFIG_USER_ONLY
- /*
- * Override some of these bits with the contents of ENV->SWCR.
- * In system mode, some of these would trap to the kernel, at
- * which point the kernel's handler would emulate and apply
- * the software exception mask.
- */
- if (env->swcr & SWCR_MAP_DMZ) {
- env->fp_status.flush_inputs_to_zero = 1;
- }
- if (env->swcr & SWCR_MAP_UMZ) {
- env->fp_status.flush_to_zero = 1;
- }
- env->fpcr_exc_enable &= ~(alpha_ieee_swcr_to_fpcr(env->swcr) >> 32);
+ t |= (env->swcr & SWCR_MAP_UMZ) != 0;
#endif
+ env->fpcr_flush_to_zero = t;
}
uint64_t helper_load_fpcr(CPUAlphaState *env)
#include "sysemu/cpus.h"
#include "sysemu/runstate.h"
#include "qemu/main-loop.h"
+#include "hw/boards.h"
#include "qemu/error-report.h"
#include "qapi/error.h"
#include "migration/blocker.h"
DOCKER_SUFFIX := .docker
DOCKER_FILES_DIR := $(SRC_PATH)/tests/docker/dockerfiles
-DOCKER_DEPRECATED_IMAGES := debian
# we don't run tests on intermediate images (used as base by another image)
-DOCKER_PARTIAL_IMAGES := debian debian8 debian9 debian10 debian-sid
-DEBIAN_PARTIAL_IMAGES += debian8-mxe debian-9-mxe debian-ports debian-bootstrap
-DOCKER_IMAGES := $(filter-out $(DOCKER_DEPRECATED_IMAGES),$(sort $(notdir $(basename $(wildcard $(DOCKER_FILES_DIR)/*.docker)))))
+DOCKER_PARTIAL_IMAGES := debian9 debian10
+DOCKER_PARTIAL_IMAGES += debian9-mxe debian-bootstrap
+DOCKER_IMAGES := $(sort $(notdir $(basename $(wildcard $(DOCKER_FILES_DIR)/*.docker))))
DOCKER_TARGETS := $(patsubst %,docker-image-%,$(DOCKER_IMAGES))
# Use a global constant ccache directory to speed up repetitive builds
DOCKER_CCACHE_DIR := $$HOME/.cache/qemu-docker-ccache
# work around issues with poorly working multi-arch systems and broken
# packages.
-# Jessie is the last supported release for powerpc, but multi-arch is
-# broken so we need a qemu-linux-user for this target
-docker-binfmt-image-debian-powerpc-user: DEB_ARCH = powerpc
-docker-binfmt-image-debian-powerpc-user: DEB_TYPE = jessie
-docker-binfmt-image-debian-powerpc-user: DEB_URL = http://snapshot.debian.org/archive/debian/20180615T211437Z
-docker-binfmt-image-debian-powerpc-user: EXECUTABLE = ${BUILD_DIR}/ppc-linux-user/qemu-ppc
-docker-image-debian-powerpc-user-cross: docker-binfmt-image-debian-powerpc-user
-DOCKER_USER_IMAGES += debian-powerpc-user
-
# Expand all the pre-requistes for each docker image and test combination
-$(foreach i,$(filter-out $(DOCKER_PARTIAL_IMAGES),$(DOCKER_IMAGES) $(DOCKER_DEPRECATED_IMAGES)), \
+$(foreach i,$(filter-out $(DOCKER_PARTIAL_IMAGES),$(DOCKER_IMAGES)), \
$(foreach t,$(DOCKER_TESTS) $(DOCKER_TOOLS), \
$(eval .PHONY: docker-$t@$i) \
$(eval docker-$t@$i: docker-image-$i docker-run-$t@$i) \
""" Running Docker commands """
def __init__(self):
self._command = _guess_engine_command()
- self._instances = []
+ self._instance = None
atexit.register(self._kill_instances)
signal.signal(signal.SIGTERM, self._kill_instances)
signal.signal(signal.SIGHUP, self._kill_instances)
cmd = ["ps", "-q"]
if not only_active:
cmd.append("-a")
+
+ filter = "--filter=label=com.qemu.instance.uuid"
+ if only_known:
+ if self._instance:
+ filter += "=%s" % (self._instance)
+ else:
+ # no point trying to kill, we finished
+ return
+
+ print("filter=%s" % (filter))
+ cmd.append(filter)
for i in self._output(cmd).split():
- resp = self._output(["inspect", i])
- labels = json.loads(resp)[0]["Config"]["Labels"]
- active = json.loads(resp)[0]["State"]["Running"]
- if not labels:
- continue
- instance_uuid = labels.get("com.qemu.instance.uuid", None)
- if not instance_uuid:
- continue
- if only_known and instance_uuid not in self._instances:
- continue
- print("Terminating", i)
- if active:
- self._do(["kill", i])
- self._do(["rm", i])
+ self._do(["rm", "-f", i])
def clean(self):
self._do_kill_instances(False, False)
return checksum == _text_checksum(_dockerfile_preprocess(dockerfile))
def run(self, cmd, keep, quiet, as_user=False):
- label = uuid.uuid1().hex
+ label = uuid.uuid4().hex
if not keep:
- self._instances.append(label)
+ self._instance = label
if as_user:
uid = os.getuid()
cmd = [ "-u", str(uid) ] + cmd
# podman requires a bit more fiddling
if self._command[0] == "podman":
- argv.insert(0, '--userns=keep-id')
+ cmd.insert(0, '--userns=keep-id')
ret = self._do_check(["run", "--label",
"com.qemu.instance.uuid=" + label] + cmd,
quiet=quiet)
if not keep:
- self._instances.remove(label)
+ self._instance = None
return ret
def command(self, cmd, argv, quiet):
nettle-devel \
perl-Test-Harness \
pixman-devel \
+ python3 \
SDL-devel \
spice-glib-devel \
spice-server-devel \
zlib-devel
RUN yum install -y $PACKAGES
RUN rpm -q $PACKAGES | sort > /packages.txt
-
+++ /dev/null
-#
-# Docker multiarch cross-compiler target
-#
-# This docker target is builds on Debian Ports cross compiler targets
-# to build distro with a selection of cross compilers for building test binaries.
-#
-# On its own you can't build much but the docker-foo-cross targets
-# build on top of the base debian image.
-#
-FROM debian:unstable
-
-MAINTAINER Philippe Mathieu-Daudé <f4bug@amsat.org>
-
-RUN echo "deb [arch=amd64] http://deb.debian.org/debian unstable main" > /etc/apt/sources.list
-
-# Duplicate deb line as deb-src
-RUN cat /etc/apt/sources.list | sed -ne "s/^deb\ \(\[.*\]\ \)\?\(.*\)/deb-src \2/p" >> /etc/apt/sources.list
-
-# Setup some basic tools we need
-RUN apt-get update && \
- DEBIAN_FRONTEND=noninteractive apt install -yy eatmydata && \
- DEBIAN_FRONTEND=noninteractive eatmydata \
- apt-get install -y --no-install-recommends \
- bison \
- build-essential \
- ca-certificates \
- clang \
- debian-ports-archive-keyring \
- flex \
- gettext \
- git \
- pkg-config \
- psmisc \
- python \
- texinfo \
- $(apt-get -s build-dep qemu | egrep ^Inst | fgrep '[all]' | cut -d\ -f2)
+++ /dev/null
-#
-# Docker powerpc cross-compiler target for QEMU
-#
-# We can't use current Debian stable cross-compilers to build powerpc
-# as it has been dropped as a release architecture. Using Debian Sid
-# is just far too sketchy a build environment. This leaves us the
-# final option of using linux-user. This image is based of the
-# debootstrapped qemu:debian-powerpc-user but doesn't need any extra
-# magic once it is setup.
-#
-# It can be used to build old versions of QEMU, current versions need
-# newer dependencies than Jessie provides.
-#
-FROM qemu:debian-powerpc-user
-
-RUN echo man-db man-db/auto-update boolean false | debconf-set-selections
-RUN apt-get update && \
- DEBIAN_FRONTEND=noninteractive apt-get build-dep -yy qemu
-
-ENV QEMU_CONFIGURE_OPTS --disable-werror
-ENV DEF_TARGET_LIST powerpc-softmmu,arm-linux-user,aarch64-linux-user
+++ /dev/null
-#
-# Debian Sid Base
-#
-# Currently we can build all our guests with cross-compilers in the
-# latest Debian release (Buster). However new compilers will first
-# arrive in Sid. However Sid is a rolling distro which may be broken
-# at any particular time. To try and mitigate this we use Debian's
-# snapshot archive which provides a "stable" view of what state Sid
-# was in.
-#
-
-# This must be earlier than the snapshot date we are aiming for
-FROM debian:sid-20190812-slim
-
- # Use a snapshot known to work (see http://snapshot.debian.org/#Usage)
-ENV DEBIAN_SNAPSHOT_DATE "20190820"
-RUN sed -i "s%^deb \(https\?://\)deb.debian.org/debian/\? \(.*\)%deb [check-valid-until=no] \1snapshot.debian.org/archive/debian/${DEBIAN_SNAPSHOT_DATE} \2%" /etc/apt/sources.list
-
-# Duplicate deb line as deb-src
-RUN cat /etc/apt/sources.list | sed "s/^deb\ /deb-src /" >> /etc/apt/sources.list
-
-# Install common build utilities
-RUN apt update && \
- DEBIAN_FRONTEND=noninteractive apt install -yy eatmydata && \
- DEBIAN_FRONTEND=noninteractive eatmydata \
- apt install -y --no-install-recommends \
- bison \
- build-essential \
- ca-certificates \
- flex \
- git \
- pkg-config \
- psmisc \
- python \
- texinfo || { echo "Failed to build - see debian-sid.docker notes"; exit 1; }
flex \
gettext \
git \
- python-minimal
+ python3-minimal
ENV CPU_LIST csp dc232b dc233c
ENV TOOLCHAIN_RELEASE 2018.02
git \
pkg-config \
psmisc \
- python \
+ python3 \
python3-sphinx \
texinfo \
$(apt-get -s build-dep qemu | egrep ^Inst | fgrep '[all]' | cut -d\ -f2)
+++ /dev/null
-#
-# Docker multiarch cross-compiler target
-#
-# This docker target is builds on Debian and Emdebian's cross compiler targets
-# to build distro with a selection of cross compilers for building test binaries.
-#
-# On its own you can't build much but the docker-foo-cross targets
-# build on top of the base debian image.
-#
-FROM debian:jessie-slim
-
-MAINTAINER Philippe Mathieu-Daudé <f4bug@amsat.org>
-
-# Duplicate deb line as deb-src
-RUN cat /etc/apt/sources.list | sed "s/^deb\ /deb-src /" >> /etc/apt/sources.list
-
-# Setup some basic tools we need
-RUN apt update && \
- DEBIAN_FRONTEND=noninteractive apt-get install -yy eatmydata && \
- DEBIAN_FRONTEND=noninteractive eatmydata \
- apt-get install -y --no-install-recommends \
- bison \
- binutils-multiarch \
- build-essential \
- ca-certificates \
- clang \
- curl \
- flex \
- gettext \
- git \
- gnupg \
- pkg-config \
- python-minimal
-
RUN apt-get update && \
DEBIAN_FRONTEND=noninteractive eatmydata \
apt-get install -y --no-install-recommends \
- libpython2.7-stdlib \
$(apt-get -s install -y --no-install-recommends gw32.shared-mingw-w64 | egrep "^Inst mxe-x86-64-unknown-" | cut -d\ -f2)
-ENV PATH $PATH:/usr/lib/mxe/usr/bin/
+ENV PATH $PATH:/usr/lib/mxe/usr/bin/
git \
pkg-config \
psmisc \
- python \
+ python3 \
python3-sphinx \
texinfo \
$(apt-get -s build-dep qemu | egrep ^Inst | fgrep '[all]' | cut -d\ -f2)
RUN sed -i "s/# deb-src/deb-src/" /etc/apt/sources.list
RUN apt-get update
RUN apt-get -y build-dep qemu
-RUN apt-get -y install device-tree-compiler python2.7 python-yaml dh-autoreconf gdb strace lsof net-tools gcovr
+RUN apt-get -y install device-tree-compiler python3 python3-yaml dh-autoreconf gdb strace lsof net-tools gcovr
# Travis tools require PhantomJS / Neo4j / Maven accessible
# in their PATH (QEMU build won't access them).
ENV PATH /usr/local/phantomjs/bin:/usr/local/phantomjs:/usr/local/neo4j-3.2.7/bin:/usr/local/maven-3.5.2/bin:/usr/local/cmake-3.9.2/bin:/usr/local/clang-5.0.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin
libvte-2.91-dev \
libxen-dev \
make \
- python-yaml \
+ python3-yaml \
python3-sphinx \
sparse \
texinfo \
libvte-2.91-dev \
libxen-dev \
make \
- python-yaml \
+ python3-yaml \
python3-sphinx \
sparse \
texinfo \
cd "$BUILD_DIR"
-OPTS="--cxx=clang++ --cc=clang --host-cc=clang"
-# -fsanitize=undefined is broken on Fedora 23, skip it for now
-# See also: https://bugzilla.redhat.com/show_bug.cgi?id=1263834
-#OPTS="$OPTS --extra-cflags=-fsanitize=undefined \
- #--extra-cflags=-fno-sanitize=float-divide-by-zero"
+OPTS="--cxx=clang++ --cc=clang --host-cc=clang --enable-sanitizers"
build_qemu $OPTS
check_qemu
install_qemu
# $1 = test name, $2 = reason
skip-test = @printf " SKIPPED %s on $(TARGET_NAME) because %s\n" $1 $2
+# $1 = test name, $2 = reference
+# As above but only diff if reference file exists, otherwise the test
+# passes if it managed to complete with a status of zero
+conditional-diff-out = \
+ $(if $(wildcard $2), \
+ $(call diff-out,$1,$2), \
+ $(call skip-test,"$1 check","no reference"))
+
+
# Tests we are building
TESTS=
# Running
QEMU_OPTS+=-M virt -cpu max -display none -semihosting-config enable=on,target=native,chardev=output -kernel
+
+# Simple Record/Replay Test
+.PHONY: memory-record
+run-memory-record: memory-record memory
+ $(call run-test, $<, \
+ $(QEMU) -monitor none -display none \
+ -chardev file$(COMMA)path=$<.out$(COMMA)id=output \
+ -icount shift=5$(COMMA)rr=record$(COMMA)rrfile=record.bin \
+ $(QEMU_OPTS) memory, \
+ "$< on $(TARGET_NAME)")
+
+.PHONY: memory-replay
+run-memory-replay: memory-replay run-memory-record
+ $(call run-test, $<, \
+ $(QEMU) -monitor none -display none \
+ -chardev file$(COMMA)path=$<.out$(COMMA)id=output \
+ -icount shift=5$(COMMA)rr=replay$(COMMA)rrfile=record.bin \
+ $(QEMU_OPTS) memory, \
+ "$< on $(TARGET_NAME)")
+
+TESTS+=memory-record memory-replay
--- /dev/null
+### Rounding to nearest
+from single: f32(-nan:0xffa00000)
+ to double: f64(-nan:0x00fffc000000000000) (INVALID)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-nan:0xffc00000)
+ to double: f64(-nan:0x00fff8000000000000) (OK)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ to int32: 0 (INEXACT )
+ to int64: 0 (INEXACT )
+ to uint32: 0 (INEXACT )
+ to uint64: 0 (INEXACT )
+from single: f32(-0x1.50544400000000000000p-66:0x9ea82a22)
+ to double: f64(-0x1.50544400000000000000p-66:0x00bbd5054440000000) (OK)
+ to int32: 0 (INEXACT )
+ to int64: 0 (INEXACT )
+ to uint32: 0 (INEXACT )
+ to uint64: 0 (INEXACT )
+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 (INEXACT )
+ to uint64: 0 (INEXACT )
+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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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:0x007ff8000000000000) (OK)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(nan:0x7fa00000)
+ to double: f64(nan:0x007ffc000000000000) (INVALID)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+### Rounding upwards
+from single: f32(-nan:0xffa00000)
+ to double: f64(-nan:0x00fffc000000000000) (INVALID)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-nan:0xffc00000)
+ to double: f64(-nan:0x00fff8000000000000) (OK)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ to int32: 0 (INEXACT )
+ to int64: 0 (INEXACT )
+ to uint32: 0 (INEXACT )
+ to uint64: 0 (INEXACT )
+from single: f32(-0x1.50544400000000000000p-66:0x9ea82a22)
+ to double: f64(-0x1.50544400000000000000p-66:0x00bbd5054440000000) (OK)
+ to int32: 0 (INEXACT )
+ to int64: 0 (INEXACT )
+ to uint32: 0 (INEXACT )
+ to uint64: 0 (INEXACT )
+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 (INEXACT )
+ to uint64: 0 (INEXACT )
+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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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:0x007ff8000000000000) (OK)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(nan:0x7fa00000)
+ to double: f64(nan:0x007ffc000000000000) (INVALID)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+### Rounding downwards
+from single: f32(-nan:0xffa00000)
+ to double: f64(-nan:0x00fffc000000000000) (INVALID)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-nan:0xffc00000)
+ to double: f64(-nan:0x00fff8000000000000) (OK)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ to int32: 0 (INEXACT )
+ to int64: 0 (INEXACT )
+ to uint32: 0 (INEXACT )
+ to uint64: 0 (INEXACT )
+from single: f32(-0x1.50544400000000000000p-66:0x9ea82a22)
+ to double: f64(-0x1.50544400000000000000p-66:0x00bbd5054440000000) (OK)
+ to int32: 0 (INEXACT )
+ to int64: 0 (INEXACT )
+ to uint32: 0 (INEXACT )
+ to uint64: 0 (INEXACT )
+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 (INEXACT )
+ to uint64: 0 (INEXACT )
+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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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:0x007ff8000000000000) (OK)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(nan:0x7fa00000)
+ to double: f64(nan:0x007ffc000000000000) (INVALID)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+### Rounding to zero
+from single: f32(-nan:0xffa00000)
+ to double: f64(-nan:0x00fffc000000000000) (INVALID)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-nan:0xffc00000)
+ to double: f64(-nan:0x00fff8000000000000) (OK)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ to int32: 0 (INEXACT )
+ to int64: 0 (INEXACT )
+ to uint32: 0 (INEXACT )
+ to uint64: 0 (INEXACT )
+from single: f32(-0x1.50544400000000000000p-66:0x9ea82a22)
+ to double: f64(-0x1.50544400000000000000p-66:0x00bbd5054440000000) (OK)
+ to int32: 0 (INEXACT )
+ to int64: 0 (INEXACT )
+ to uint32: 0 (INEXACT )
+ to uint64: 0 (INEXACT )
+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 (INEXACT )
+ to uint64: 0 (INEXACT )
+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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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:0x007ff8000000000000) (OK)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(nan:0x7fa00000)
+ to double: f64(nan:0x007ffc000000000000) (INVALID)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
--- /dev/null
+### Rounding to nearest
+op : f32(-nan:0xffa00000) * f32(-nan:0xffc00000) + f32(-inf:0xff800000)
+res: f32(-nan:0xffe00000) flags=INVALID (0/0)
+op : f32(-nan:0xffc00000) * f32(-inf:0xff800000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffe00000) flags=INVALID (0/1)
+op : f32(-inf:0xff800000) * f32(-nan:0xffa00000) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffe00000) flags=INVALID (0/2)
+op : f32(-nan:0xffc00000) * f32(-inf:0xff800000) + f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+res: f32(-nan:0xffc00000) flags=OK (1/0)
+op : f32(-inf:0xff800000) * f32(-0x1.fffffe00000000000000p+127:0xff7fffff) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffc00000) flags=OK (1/1)
+op : f32(-0x1.fffffe00000000000000p+127:0xff7fffff) * f32(-nan:0xffc00000) + f32(-inf:0xff800000)
+res: f32(-nan:0xffc00000) 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=OK (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=OK (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=OK (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=OK (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=OK (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=OK (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:0x7fc00000) flags=OK (27/0)
+op : f32(inf:0x7f800000) * f32(nan:0x7fc00000) + f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+res: f32(nan:0x7fc00000) flags=OK (27/1)
+op : f32(nan:0x7fc00000) * f32(0x1.fffffe00000000000000p+127:0x7f7fffff) + f32(inf:0x7f800000)
+res: f32(nan:0x7fc00000) flags=OK (27/2)
+op : f32(inf:0x7f800000) * f32(nan:0x7fc00000) + f32(nan:0x7fa00000)
+res: f32(nan:0x7fe00000) flags=INVALID (28/0)
+op : f32(nan:0x7fc00000) * f32(nan:0x7fa00000) + f32(inf:0x7f800000)
+res: f32(nan:0x7fe00000) flags=INVALID (28/1)
+op : f32(nan:0x7fa00000) * f32(inf:0x7f800000) + f32(nan:0x7fc00000)
+res: f32(nan:0x7fe00000) flags=INVALID (28/2)
+op : f32(nan:0x7fc00000) * f32(nan:0x7fa00000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffe00000) flags=INVALID (29/0)
+op : f32(nan:0x7fa00000) * f32(-nan:0xffa00000) + f32(nan:0x7fc00000)
+res: f32(nan:0x7fe00000) flags=INVALID (29/1)
+op : f32(-nan:0xffa00000) * f32(nan:0x7fc00000) + f32(nan:0x7fa00000)
+res: f32(nan:0x7fe00000) flags=INVALID (29/2)
+op : f32(nan:0x7fa00000) * f32(-nan:0xffa00000) + f32(-nan:0xffc00000)
+res: f32(nan:0x7fe00000) flags=INVALID (30/0)
+op : f32(-nan:0xffa00000) * f32(-nan:0xffc00000) + f32(nan:0x7fa00000)
+res: f32(nan:0x7fe00000) flags=INVALID (30/1)
+op : f32(-nan:0xffc00000) * f32(nan:0x7fa00000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffe00000) 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:0xffe00000) flags=INVALID (0/0)
+op : f32(-nan:0xffc00000) * f32(-inf:0xff800000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffe00000) flags=INVALID (0/1)
+op : f32(-inf:0xff800000) * f32(-nan:0xffa00000) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffe00000) flags=INVALID (0/2)
+op : f32(-nan:0xffc00000) * f32(-inf:0xff800000) + f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+res: f32(-nan:0xffc00000) flags=OK (1/0)
+op : f32(-inf:0xff800000) * f32(-0x1.fffffe00000000000000p+127:0xff7fffff) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffc00000) flags=OK (1/1)
+op : f32(-0x1.fffffe00000000000000p+127:0xff7fffff) * f32(-nan:0xffc00000) + f32(-inf:0xff800000)
+res: f32(-nan:0xffc00000) 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=OK (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=OK (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=OK (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=OK (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=OK (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=OK (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:0x7fc00000) flags=OK (27/0)
+op : f32(inf:0x7f800000) * f32(nan:0x7fc00000) + f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+res: f32(nan:0x7fc00000) flags=OK (27/1)
+op : f32(nan:0x7fc00000) * f32(0x1.fffffe00000000000000p+127:0x7f7fffff) + f32(inf:0x7f800000)
+res: f32(nan:0x7fc00000) flags=OK (27/2)
+op : f32(inf:0x7f800000) * f32(nan:0x7fc00000) + f32(nan:0x7fa00000)
+res: f32(nan:0x7fe00000) flags=INVALID (28/0)
+op : f32(nan:0x7fc00000) * f32(nan:0x7fa00000) + f32(inf:0x7f800000)
+res: f32(nan:0x7fe00000) flags=INVALID (28/1)
+op : f32(nan:0x7fa00000) * f32(inf:0x7f800000) + f32(nan:0x7fc00000)
+res: f32(nan:0x7fe00000) flags=INVALID (28/2)
+op : f32(nan:0x7fc00000) * f32(nan:0x7fa00000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffe00000) flags=INVALID (29/0)
+op : f32(nan:0x7fa00000) * f32(-nan:0xffa00000) + f32(nan:0x7fc00000)
+res: f32(nan:0x7fe00000) flags=INVALID (29/1)
+op : f32(-nan:0xffa00000) * f32(nan:0x7fc00000) + f32(nan:0x7fa00000)
+res: f32(nan:0x7fe00000) flags=INVALID (29/2)
+op : f32(nan:0x7fa00000) * f32(-nan:0xffa00000) + f32(-nan:0xffc00000)
+res: f32(nan:0x7fe00000) flags=INVALID (30/0)
+op : f32(-nan:0xffa00000) * f32(-nan:0xffc00000) + f32(nan:0x7fa00000)
+res: f32(nan:0x7fe00000) flags=INVALID (30/1)
+op : f32(-nan:0xffc00000) * f32(nan:0x7fa00000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffe00000) 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:0xffe00000) flags=INVALID (0/0)
+op : f32(-nan:0xffc00000) * f32(-inf:0xff800000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffe00000) flags=INVALID (0/1)
+op : f32(-inf:0xff800000) * f32(-nan:0xffa00000) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffe00000) flags=INVALID (0/2)
+op : f32(-nan:0xffc00000) * f32(-inf:0xff800000) + f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+res: f32(-nan:0xffc00000) flags=OK (1/0)
+op : f32(-inf:0xff800000) * f32(-0x1.fffffe00000000000000p+127:0xff7fffff) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffc00000) flags=OK (1/1)
+op : f32(-0x1.fffffe00000000000000p+127:0xff7fffff) * f32(-nan:0xffc00000) + f32(-inf:0xff800000)
+res: f32(-nan:0xffc00000) 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=OK (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=OK (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=OK (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=OK (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=OK (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=OK (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:0x7fc00000) flags=OK (27/0)
+op : f32(inf:0x7f800000) * f32(nan:0x7fc00000) + f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+res: f32(nan:0x7fc00000) flags=OK (27/1)
+op : f32(nan:0x7fc00000) * f32(0x1.fffffe00000000000000p+127:0x7f7fffff) + f32(inf:0x7f800000)
+res: f32(nan:0x7fc00000) flags=OK (27/2)
+op : f32(inf:0x7f800000) * f32(nan:0x7fc00000) + f32(nan:0x7fa00000)
+res: f32(nan:0x7fe00000) flags=INVALID (28/0)
+op : f32(nan:0x7fc00000) * f32(nan:0x7fa00000) + f32(inf:0x7f800000)
+res: f32(nan:0x7fe00000) flags=INVALID (28/1)
+op : f32(nan:0x7fa00000) * f32(inf:0x7f800000) + f32(nan:0x7fc00000)
+res: f32(nan:0x7fe00000) flags=INVALID (28/2)
+op : f32(nan:0x7fc00000) * f32(nan:0x7fa00000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffe00000) flags=INVALID (29/0)
+op : f32(nan:0x7fa00000) * f32(-nan:0xffa00000) + f32(nan:0x7fc00000)
+res: f32(nan:0x7fe00000) flags=INVALID (29/1)
+op : f32(-nan:0xffa00000) * f32(nan:0x7fc00000) + f32(nan:0x7fa00000)
+res: f32(nan:0x7fe00000) flags=INVALID (29/2)
+op : f32(nan:0x7fa00000) * f32(-nan:0xffa00000) + f32(-nan:0xffc00000)
+res: f32(nan:0x7fe00000) flags=INVALID (30/0)
+op : f32(-nan:0xffa00000) * f32(-nan:0xffc00000) + f32(nan:0x7fa00000)
+res: f32(nan:0x7fe00000) flags=INVALID (30/1)
+op : f32(-nan:0xffc00000) * f32(nan:0x7fa00000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffe00000) 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:0xffe00000) flags=INVALID (0/0)
+op : f32(-nan:0xffc00000) * f32(-inf:0xff800000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffe00000) flags=INVALID (0/1)
+op : f32(-inf:0xff800000) * f32(-nan:0xffa00000) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffe00000) flags=INVALID (0/2)
+op : f32(-nan:0xffc00000) * f32(-inf:0xff800000) + f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+res: f32(-nan:0xffc00000) flags=OK (1/0)
+op : f32(-inf:0xff800000) * f32(-0x1.fffffe00000000000000p+127:0xff7fffff) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffc00000) flags=OK (1/1)
+op : f32(-0x1.fffffe00000000000000p+127:0xff7fffff) * f32(-nan:0xffc00000) + f32(-inf:0xff800000)
+res: f32(-nan:0xffc00000) 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=OK (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=OK (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=OK (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=OK (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=OK (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=OK (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:0x7fc00000) flags=OK (27/0)
+op : f32(inf:0x7f800000) * f32(nan:0x7fc00000) + f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+res: f32(nan:0x7fc00000) flags=OK (27/1)
+op : f32(nan:0x7fc00000) * f32(0x1.fffffe00000000000000p+127:0x7f7fffff) + f32(inf:0x7f800000)
+res: f32(nan:0x7fc00000) flags=OK (27/2)
+op : f32(inf:0x7f800000) * f32(nan:0x7fc00000) + f32(nan:0x7fa00000)
+res: f32(nan:0x7fe00000) flags=INVALID (28/0)
+op : f32(nan:0x7fc00000) * f32(nan:0x7fa00000) + f32(inf:0x7f800000)
+res: f32(nan:0x7fe00000) flags=INVALID (28/1)
+op : f32(nan:0x7fa00000) * f32(inf:0x7f800000) + f32(nan:0x7fc00000)
+res: f32(nan:0x7fe00000) flags=INVALID (28/2)
+op : f32(nan:0x7fc00000) * f32(nan:0x7fa00000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffe00000) flags=INVALID (29/0)
+op : f32(nan:0x7fa00000) * f32(-nan:0xffa00000) + f32(nan:0x7fc00000)
+res: f32(nan:0x7fe00000) flags=INVALID (29/1)
+op : f32(-nan:0xffa00000) * f32(nan:0x7fc00000) + f32(nan:0x7fa00000)
+res: f32(nan:0x7fe00000) flags=INVALID (29/2)
+op : f32(nan:0x7fa00000) * f32(-nan:0xffa00000) + f32(-nan:0xffc00000)
+res: f32(nan:0x7fe00000) flags=INVALID (30/0)
+op : f32(-nan:0xffa00000) * f32(-nan:0xffc00000) + f32(nan:0x7fa00000)
+res: f32(nan:0x7fe00000) flags=INVALID (30/1)
+op : f32(-nan:0xffc00000) * f32(nan:0x7fa00000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffe00000) 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)
# Set search path for all sources
VPATH += $(ARM_SRC)
+float_madds: CFLAGS+=-mfpu=neon-vfpv4
+
# Basic Hello World
ARM_TESTS = hello-arm
hello-arm: CFLAGS+=-marm -ffreestanding
--- /dev/null
+### Rounding to nearest
+from single: f32(-nan:0xffa00000)
+ to double: f64(-nan:0x00fffc000000000000) (INVALID)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-nan:0xffc00000)
+ to double: f64(-nan:0x00fff8000000000000) (OK)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-inf:0xff800000)
+ to double: f64(-inf:0x00fff0000000000000) (OK)
+ to int32: -2147483648 (INVALID)
+ to int64: 1 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+ to double: f64(-0x1.fffffe00000000000000p+127:0x00c7efffffe0000000) (OK)
+ to int32: -2147483648 (INVALID)
+ to int64: 1 (INEXACT INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-0x1.1874b200000000000000p+103:0xf30c3a59)
+ to double: f64(-0x1.1874b200000000000000p+103:0x00c661874b20000000) (OK)
+ to int32: -2147483648 (INVALID)
+ to int64: 1 (INEXACT INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-0x1.c0bab600000000000000p+99:0xf1605d5b)
+ to double: f64(-0x1.c0bab600000000000000p+99:0x00c62c0bab60000000) (OK)
+ to int32: -2147483648 (INVALID)
+ to int64: 1 (INEXACT INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-0x1.31f75000000000000000p-40:0xab98fba8)
+ to double: f64(-0x1.31f75000000000000000p-40:0x00bd731f7500000000) (OK)
+ to int32: 0 (INEXACT )
+ to int64: 0 (INEXACT )
+ to uint32: 0 (INEXACT )
+ to uint64: 0 (INEXACT )
+from single: f32(-0x1.50544400000000000000p-66:0x9ea82a22)
+ to double: f64(-0x1.50544400000000000000p-66:0x00bbd5054440000000) (OK)
+ to int32: 0 (INEXACT )
+ to int64: 0 (INEXACT )
+ to uint32: 0 (INEXACT )
+ to uint64: 0 (INEXACT )
+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 (INEXACT )
+ to uint64: 0 (INEXACT )
+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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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 (INEXACT )
+ to uint32: 1 (OK)
+ to uint64: 1 (INEXACT )
+from single: f32(0x1.00400000000000000000p+0:0x3f802000)
+ to double: f64(0x1.00400000000000000000p+0:0x003ff0040000000000) (OK)
+ 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 (INEXACT )
+ to uint32: 2 (OK)
+ to uint64: 2 (INEXACT )
+from single: f32(0x1.5bf0a800000000000000p+1:0x402df854)
+ to double: f64(0x1.5bf0a800000000000000p+1:0x004005bf0a80000000) (OK)
+ 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) (OK)
+ 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) (OK)
+ to int32: 65503 (OK)
+ to int64: 65503 (INEXACT )
+ to uint32: 65503 (OK)
+ to uint64: 65503 (INEXACT )
+from single: f32(0x1.ffc00000000000000000p+15:0x477fe000)
+ to double: f64(0x1.ffc00000000000000000p+15:0x0040effc0000000000) (OK)
+ to int32: 65504 (OK)
+ to int64: 65504 (INEXACT )
+ to uint32: 65504 (OK)
+ to uint64: 65504 (INEXACT )
+from single: f32(0x1.ffc20000000000000000p+15:0x477fe100)
+ to double: f64(0x1.ffc20000000000000000p+15:0x0040effc2000000000) (OK)
+ to int32: 65505 (OK)
+ to int64: 65505 (INEXACT )
+ to uint32: 65505 (OK)
+ to uint64: 65505 (INEXACT )
+from single: f32(0x1.ffbf0000000000000000p+16:0x47ffdf80)
+ to double: f64(0x1.ffbf0000000000000000p+16:0x0040fffbf000000000) (OK)
+ to int32: 131007 (OK)
+ to int64: 131007 (INEXACT )
+ to uint32: 131007 (OK)
+ to uint64: 131007 (INEXACT )
+from single: f32(0x1.ffc00000000000000000p+16:0x47ffe000)
+ to double: f64(0x1.ffc00000000000000000p+16:0x0040fffc0000000000) (OK)
+ to int32: 131008 (OK)
+ to int64: 131008 (INEXACT )
+ to uint32: 131008 (OK)
+ to uint64: 131008 (INEXACT )
+from single: f32(0x1.ffc10000000000000000p+16:0x47ffe080)
+ to double: f64(0x1.ffc10000000000000000p+16:0x0040fffc1000000000) (OK)
+ to int32: 131009 (OK)
+ to int64: 131009 (INEXACT )
+ to uint32: 131009 (OK)
+ to uint64: 131009 (INEXACT )
+from single: f32(0x1.c0bab600000000000000p+99:0x71605d5b)
+ to double: f64(0x1.c0bab600000000000000p+99:0x00462c0bab60000000) (OK)
+ to int32: 2147483647 (INVALID)
+ to int64: -1 (INEXACT INVALID)
+ to uint32: -1 (INVALID)
+ to uint64: -1 (INEXACT INVALID)
+from single: f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+ to double: f64(0x1.fffffe00000000000000p+127:0x0047efffffe0000000) (OK)
+ to int32: 2147483647 (INVALID)
+ to int64: -1 (INEXACT INVALID)
+ to uint32: -1 (INVALID)
+ to uint64: -1 (INEXACT INVALID)
+from single: f32(inf:0x7f800000)
+ to double: f64(inf:0x007ff0000000000000) (OK)
+ to int32: 2147483647 (INVALID)
+ to int64: -1 (INVALID)
+ to uint32: -1 (INVALID)
+ to uint64: -1 (INVALID)
+from single: f32(nan:0x7fc00000)
+ to double: f64(nan:0x007ff8000000000000) (OK)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(nan:0x7fa00000)
+ to double: f64(nan:0x007ffc000000000000) (INVALID)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+### Rounding upwards
+from single: f32(-nan:0xffa00000)
+ to double: f64(-nan:0x00fffc000000000000) (INVALID)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-nan:0xffc00000)
+ to double: f64(-nan:0x00fff8000000000000) (OK)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-inf:0xff800000)
+ to double: f64(-inf:0x00fff0000000000000) (OK)
+ to int32: -2147483648 (INVALID)
+ to int64: 1 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+ to double: f64(-0x1.fffffe00000000000000p+127:0x00c7efffffe0000000) (OK)
+ to int32: -2147483648 (INVALID)
+ to int64: 1 (INEXACT INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-0x1.1874b200000000000000p+103:0xf30c3a59)
+ to double: f64(-0x1.1874b200000000000000p+103:0x00c661874b20000000) (OK)
+ to int32: -2147483648 (INVALID)
+ to int64: 1 (INEXACT INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-0x1.c0bab600000000000000p+99:0xf1605d5b)
+ to double: f64(-0x1.c0bab600000000000000p+99:0x00c62c0bab60000000) (OK)
+ to int32: -2147483648 (INVALID)
+ to int64: 1 (INEXACT INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-0x1.31f75000000000000000p-40:0xab98fba8)
+ to double: f64(-0x1.31f75000000000000000p-40:0x00bd731f7500000000) (OK)
+ to int32: 0 (INEXACT )
+ to int64: 0 (INEXACT )
+ to uint32: 0 (INEXACT )
+ to uint64: 0 (INEXACT )
+from single: f32(-0x1.50544400000000000000p-66:0x9ea82a22)
+ to double: f64(-0x1.50544400000000000000p-66:0x00bbd5054440000000) (OK)
+ to int32: 0 (INEXACT )
+ to int64: 0 (INEXACT )
+ to uint32: 0 (INEXACT )
+ to uint64: 0 (INEXACT )
+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 (INEXACT )
+ to uint64: 0 (INEXACT )
+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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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 (INEXACT )
+ to uint32: 1 (OK)
+ to uint64: 1 (INEXACT )
+from single: f32(0x1.00400000000000000000p+0:0x3f802000)
+ to double: f64(0x1.00400000000000000000p+0:0x003ff0040000000000) (OK)
+ 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 (INEXACT )
+ to uint32: 2 (OK)
+ to uint64: 2 (INEXACT )
+from single: f32(0x1.5bf0a800000000000000p+1:0x402df854)
+ to double: f64(0x1.5bf0a800000000000000p+1:0x004005bf0a80000000) (OK)
+ 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) (OK)
+ 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) (OK)
+ to int32: 65503 (OK)
+ to int64: 65503 (INEXACT )
+ to uint32: 65503 (OK)
+ to uint64: 65503 (INEXACT )
+from single: f32(0x1.ffc00000000000000000p+15:0x477fe000)
+ to double: f64(0x1.ffc00000000000000000p+15:0x0040effc0000000000) (OK)
+ to int32: 65504 (OK)
+ to int64: 65504 (INEXACT )
+ to uint32: 65504 (OK)
+ to uint64: 65504 (INEXACT )
+from single: f32(0x1.ffc20000000000000000p+15:0x477fe100)
+ to double: f64(0x1.ffc20000000000000000p+15:0x0040effc2000000000) (OK)
+ to int32: 65505 (OK)
+ to int64: 65505 (INEXACT )
+ to uint32: 65505 (OK)
+ to uint64: 65505 (INEXACT )
+from single: f32(0x1.ffbf0000000000000000p+16:0x47ffdf80)
+ to double: f64(0x1.ffbf0000000000000000p+16:0x0040fffbf000000000) (OK)
+ to int32: 131007 (OK)
+ to int64: 131007 (INEXACT )
+ to uint32: 131007 (OK)
+ to uint64: 131007 (INEXACT )
+from single: f32(0x1.ffc00000000000000000p+16:0x47ffe000)
+ to double: f64(0x1.ffc00000000000000000p+16:0x0040fffc0000000000) (OK)
+ to int32: 131008 (OK)
+ to int64: 131008 (INEXACT )
+ to uint32: 131008 (OK)
+ to uint64: 131008 (INEXACT )
+from single: f32(0x1.ffc10000000000000000p+16:0x47ffe080)
+ to double: f64(0x1.ffc10000000000000000p+16:0x0040fffc1000000000) (OK)
+ to int32: 131009 (OK)
+ to int64: 131009 (INEXACT )
+ to uint32: 131009 (OK)
+ to uint64: 131009 (INEXACT )
+from single: f32(0x1.c0bab600000000000000p+99:0x71605d5b)
+ to double: f64(0x1.c0bab600000000000000p+99:0x00462c0bab60000000) (OK)
+ to int32: 2147483647 (INVALID)
+ to int64: -1 (INEXACT INVALID)
+ to uint32: -1 (INVALID)
+ to uint64: -1 (INEXACT INVALID)
+from single: f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+ to double: f64(0x1.fffffe00000000000000p+127:0x0047efffffe0000000) (OK)
+ to int32: 2147483647 (INVALID)
+ to int64: -1 (INEXACT INVALID)
+ to uint32: -1 (INVALID)
+ to uint64: -1 (INEXACT INVALID)
+from single: f32(inf:0x7f800000)
+ to double: f64(inf:0x007ff0000000000000) (OK)
+ to int32: 2147483647 (INVALID)
+ to int64: -1 (INVALID)
+ to uint32: -1 (INVALID)
+ to uint64: -1 (INVALID)
+from single: f32(nan:0x7fc00000)
+ to double: f64(nan:0x007ff8000000000000) (OK)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(nan:0x7fa00000)
+ to double: f64(nan:0x007ffc000000000000) (INVALID)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+### Rounding downwards
+from single: f32(-nan:0xffa00000)
+ to double: f64(-nan:0x00fffc000000000000) (INVALID)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-nan:0xffc00000)
+ to double: f64(-nan:0x00fff8000000000000) (OK)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-inf:0xff800000)
+ to double: f64(-inf:0x00fff0000000000000) (OK)
+ to int32: -2147483648 (INVALID)
+ to int64: 1 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+ to double: f64(-0x1.fffffe00000000000000p+127:0x00c7efffffe0000000) (OK)
+ to int32: -2147483648 (INVALID)
+ to int64: 1 (INEXACT INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-0x1.1874b200000000000000p+103:0xf30c3a59)
+ to double: f64(-0x1.1874b200000000000000p+103:0x00c661874b20000000) (OK)
+ to int32: -2147483648 (INVALID)
+ to int64: 1 (INEXACT INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-0x1.c0bab600000000000000p+99:0xf1605d5b)
+ to double: f64(-0x1.c0bab600000000000000p+99:0x00c62c0bab60000000) (OK)
+ to int32: -2147483648 (INVALID)
+ to int64: 1 (INEXACT INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-0x1.31f75000000000000000p-40:0xab98fba8)
+ to double: f64(-0x1.31f75000000000000000p-40:0x00bd731f7500000000) (OK)
+ to int32: 0 (INEXACT )
+ to int64: 0 (INEXACT )
+ to uint32: 0 (INEXACT )
+ to uint64: 0 (INEXACT )
+from single: f32(-0x1.50544400000000000000p-66:0x9ea82a22)
+ to double: f64(-0x1.50544400000000000000p-66:0x00bbd5054440000000) (OK)
+ to int32: 0 (INEXACT )
+ to int64: 0 (INEXACT )
+ to uint32: 0 (INEXACT )
+ to uint64: 0 (INEXACT )
+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 (INEXACT )
+ to uint64: 0 (INEXACT )
+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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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 (INEXACT )
+ to uint32: 1 (OK)
+ to uint64: 1 (INEXACT )
+from single: f32(0x1.00400000000000000000p+0:0x3f802000)
+ to double: f64(0x1.00400000000000000000p+0:0x003ff0040000000000) (OK)
+ 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 (INEXACT )
+ to uint32: 2 (OK)
+ to uint64: 2 (INEXACT )
+from single: f32(0x1.5bf0a800000000000000p+1:0x402df854)
+ to double: f64(0x1.5bf0a800000000000000p+1:0x004005bf0a80000000) (OK)
+ 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) (OK)
+ 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) (OK)
+ to int32: 65503 (OK)
+ to int64: 65503 (INEXACT )
+ to uint32: 65503 (OK)
+ to uint64: 65503 (INEXACT )
+from single: f32(0x1.ffc00000000000000000p+15:0x477fe000)
+ to double: f64(0x1.ffc00000000000000000p+15:0x0040effc0000000000) (OK)
+ to int32: 65504 (OK)
+ to int64: 65504 (INEXACT )
+ to uint32: 65504 (OK)
+ to uint64: 65504 (INEXACT )
+from single: f32(0x1.ffc20000000000000000p+15:0x477fe100)
+ to double: f64(0x1.ffc20000000000000000p+15:0x0040effc2000000000) (OK)
+ to int32: 65505 (OK)
+ to int64: 65505 (INEXACT )
+ to uint32: 65505 (OK)
+ to uint64: 65505 (INEXACT )
+from single: f32(0x1.ffbf0000000000000000p+16:0x47ffdf80)
+ to double: f64(0x1.ffbf0000000000000000p+16:0x0040fffbf000000000) (OK)
+ to int32: 131007 (OK)
+ to int64: 131007 (INEXACT )
+ to uint32: 131007 (OK)
+ to uint64: 131007 (INEXACT )
+from single: f32(0x1.ffc00000000000000000p+16:0x47ffe000)
+ to double: f64(0x1.ffc00000000000000000p+16:0x0040fffc0000000000) (OK)
+ to int32: 131008 (OK)
+ to int64: 131008 (INEXACT )
+ to uint32: 131008 (OK)
+ to uint64: 131008 (INEXACT )
+from single: f32(0x1.ffc10000000000000000p+16:0x47ffe080)
+ to double: f64(0x1.ffc10000000000000000p+16:0x0040fffc1000000000) (OK)
+ to int32: 131009 (OK)
+ to int64: 131009 (INEXACT )
+ to uint32: 131009 (OK)
+ to uint64: 131009 (INEXACT )
+from single: f32(0x1.c0bab600000000000000p+99:0x71605d5b)
+ to double: f64(0x1.c0bab600000000000000p+99:0x00462c0bab60000000) (OK)
+ to int32: 2147483647 (INVALID)
+ to int64: -1 (INEXACT INVALID)
+ to uint32: -1 (INVALID)
+ to uint64: -1 (INEXACT INVALID)
+from single: f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+ to double: f64(0x1.fffffe00000000000000p+127:0x0047efffffe0000000) (OK)
+ to int32: 2147483647 (INVALID)
+ to int64: -1 (INEXACT INVALID)
+ to uint32: -1 (INVALID)
+ to uint64: -1 (INEXACT INVALID)
+from single: f32(inf:0x7f800000)
+ to double: f64(inf:0x007ff0000000000000) (OK)
+ to int32: 2147483647 (INVALID)
+ to int64: -1 (INVALID)
+ to uint32: -1 (INVALID)
+ to uint64: -1 (INVALID)
+from single: f32(nan:0x7fc00000)
+ to double: f64(nan:0x007ff8000000000000) (OK)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(nan:0x7fa00000)
+ to double: f64(nan:0x007ffc000000000000) (INVALID)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+### Rounding to zero
+from single: f32(-nan:0xffa00000)
+ to double: f64(-nan:0x00fffc000000000000) (INVALID)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-nan:0xffc00000)
+ to double: f64(-nan:0x00fff8000000000000) (OK)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-inf:0xff800000)
+ to double: f64(-inf:0x00fff0000000000000) (OK)
+ to int32: -2147483648 (INVALID)
+ to int64: 1 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+ to double: f64(-0x1.fffffe00000000000000p+127:0x00c7efffffe0000000) (OK)
+ to int32: -2147483648 (INVALID)
+ to int64: 1 (INEXACT INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-0x1.1874b200000000000000p+103:0xf30c3a59)
+ to double: f64(-0x1.1874b200000000000000p+103:0x00c661874b20000000) (OK)
+ to int32: -2147483648 (INVALID)
+ to int64: 1 (INEXACT INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-0x1.c0bab600000000000000p+99:0xf1605d5b)
+ to double: f64(-0x1.c0bab600000000000000p+99:0x00c62c0bab60000000) (OK)
+ to int32: -2147483648 (INVALID)
+ to int64: 1 (INEXACT INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(-0x1.31f75000000000000000p-40:0xab98fba8)
+ to double: f64(-0x1.31f75000000000000000p-40:0x00bd731f7500000000) (OK)
+ to int32: 0 (INEXACT )
+ to int64: 0 (INEXACT )
+ to uint32: 0 (INEXACT )
+ to uint64: 0 (INEXACT )
+from single: f32(-0x1.50544400000000000000p-66:0x9ea82a22)
+ to double: f64(-0x1.50544400000000000000p-66:0x00bbd5054440000000) (OK)
+ to int32: 0 (INEXACT )
+ to int64: 0 (INEXACT )
+ to uint32: 0 (INEXACT )
+ to uint64: 0 (INEXACT )
+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 (INEXACT )
+ to uint64: 0 (INEXACT )
+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) (OK)
+ 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) (OK)
+ 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) (OK)
+ 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 (INEXACT )
+ to uint32: 1 (OK)
+ to uint64: 1 (INEXACT )
+from single: f32(0x1.00400000000000000000p+0:0x3f802000)
+ to double: f64(0x1.00400000000000000000p+0:0x003ff0040000000000) (OK)
+ 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 (INEXACT )
+ to uint32: 2 (OK)
+ to uint64: 2 (INEXACT )
+from single: f32(0x1.5bf0a800000000000000p+1:0x402df854)
+ to double: f64(0x1.5bf0a800000000000000p+1:0x004005bf0a80000000) (OK)
+ 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) (OK)
+ 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) (OK)
+ to int32: 65503 (OK)
+ to int64: 65503 (INEXACT )
+ to uint32: 65503 (OK)
+ to uint64: 65503 (INEXACT )
+from single: f32(0x1.ffc00000000000000000p+15:0x477fe000)
+ to double: f64(0x1.ffc00000000000000000p+15:0x0040effc0000000000) (OK)
+ to int32: 65504 (OK)
+ to int64: 65504 (INEXACT )
+ to uint32: 65504 (OK)
+ to uint64: 65504 (INEXACT )
+from single: f32(0x1.ffc20000000000000000p+15:0x477fe100)
+ to double: f64(0x1.ffc20000000000000000p+15:0x0040effc2000000000) (OK)
+ to int32: 65505 (OK)
+ to int64: 65505 (INEXACT )
+ to uint32: 65505 (OK)
+ to uint64: 65505 (INEXACT )
+from single: f32(0x1.ffbf0000000000000000p+16:0x47ffdf80)
+ to double: f64(0x1.ffbf0000000000000000p+16:0x0040fffbf000000000) (OK)
+ to int32: 131007 (OK)
+ to int64: 131007 (INEXACT )
+ to uint32: 131007 (OK)
+ to uint64: 131007 (INEXACT )
+from single: f32(0x1.ffc00000000000000000p+16:0x47ffe000)
+ to double: f64(0x1.ffc00000000000000000p+16:0x0040fffc0000000000) (OK)
+ to int32: 131008 (OK)
+ to int64: 131008 (INEXACT )
+ to uint32: 131008 (OK)
+ to uint64: 131008 (INEXACT )
+from single: f32(0x1.ffc10000000000000000p+16:0x47ffe080)
+ to double: f64(0x1.ffc10000000000000000p+16:0x0040fffc1000000000) (OK)
+ to int32: 131009 (OK)
+ to int64: 131009 (INEXACT )
+ to uint32: 131009 (OK)
+ to uint64: 131009 (INEXACT )
+from single: f32(0x1.c0bab600000000000000p+99:0x71605d5b)
+ to double: f64(0x1.c0bab600000000000000p+99:0x00462c0bab60000000) (OK)
+ to int32: 2147483647 (INVALID)
+ to int64: -1 (INEXACT INVALID)
+ to uint32: -1 (INVALID)
+ to uint64: -1 (INEXACT INVALID)
+from single: f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+ to double: f64(0x1.fffffe00000000000000p+127:0x0047efffffe0000000) (OK)
+ to int32: 2147483647 (INVALID)
+ to int64: -1 (INEXACT INVALID)
+ to uint32: -1 (INVALID)
+ to uint64: -1 (INEXACT INVALID)
+from single: f32(inf:0x7f800000)
+ to double: f64(inf:0x007ff0000000000000) (OK)
+ to int32: 2147483647 (INVALID)
+ to int64: -1 (INVALID)
+ to uint32: -1 (INVALID)
+ to uint64: -1 (INVALID)
+from single: f32(nan:0x7fc00000)
+ to double: f64(nan:0x007ff8000000000000) (OK)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
+from single: f32(nan:0x7fa00000)
+ to double: f64(nan:0x007ffc000000000000) (INVALID)
+ to int32: 0 (INVALID)
+ to int64: 0 (INVALID)
+ to uint32: 0 (INVALID)
+ to uint64: 0 (INVALID)
--- /dev/null
+### Rounding to nearest
+op : f32(-nan:0xffa00000) * f32(-nan:0xffc00000) + f32(-inf:0xff800000)
+res: f32(-nan:0xffe00000) flags=INVALID (0/0)
+op : f32(-nan:0xffc00000) * f32(-inf:0xff800000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffe00000) flags=INVALID (0/1)
+op : f32(-inf:0xff800000) * f32(-nan:0xffa00000) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffe00000) flags=INVALID (0/2)
+op : f32(-nan:0xffc00000) * f32(-inf:0xff800000) + f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+res: f32(-nan:0xffc00000) flags=OK (1/0)
+op : f32(-inf:0xff800000) * f32(-0x1.fffffe00000000000000p+127:0xff7fffff) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffc00000) flags=OK (1/1)
+op : f32(-0x1.fffffe00000000000000p+127:0xff7fffff) * f32(-nan:0xffc00000) + f32(-inf:0xff800000)
+res: f32(-nan:0xffc00000) 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=OK (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=OK (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=OK (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=OK (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=OK (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=OK (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:0x7fc00000) flags=OK (27/0)
+op : f32(inf:0x7f800000) * f32(nan:0x7fc00000) + f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+res: f32(nan:0x7fc00000) flags=OK (27/1)
+op : f32(nan:0x7fc00000) * f32(0x1.fffffe00000000000000p+127:0x7f7fffff) + f32(inf:0x7f800000)
+res: f32(nan:0x7fc00000) flags=OK (27/2)
+op : f32(inf:0x7f800000) * f32(nan:0x7fc00000) + f32(nan:0x7fa00000)
+res: f32(nan:0x7fe00000) flags=INVALID (28/0)
+op : f32(nan:0x7fc00000) * f32(nan:0x7fa00000) + f32(inf:0x7f800000)
+res: f32(nan:0x7fe00000) flags=INVALID (28/1)
+op : f32(nan:0x7fa00000) * f32(inf:0x7f800000) + f32(nan:0x7fc00000)
+res: f32(nan:0x7fe00000) flags=INVALID (28/2)
+op : f32(nan:0x7fc00000) * f32(nan:0x7fa00000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffe00000) flags=INVALID (29/0)
+op : f32(nan:0x7fa00000) * f32(-nan:0xffa00000) + f32(nan:0x7fc00000)
+res: f32(nan:0x7fe00000) flags=INVALID (29/1)
+op : f32(-nan:0xffa00000) * f32(nan:0x7fc00000) + f32(nan:0x7fa00000)
+res: f32(nan:0x7fe00000) flags=INVALID (29/2)
+op : f32(nan:0x7fa00000) * f32(-nan:0xffa00000) + f32(-nan:0xffc00000)
+res: f32(nan:0x7fe00000) flags=INVALID (30/0)
+op : f32(-nan:0xffa00000) * f32(-nan:0xffc00000) + f32(nan:0x7fa00000)
+res: f32(nan:0x7fe00000) flags=INVALID (30/1)
+op : f32(-nan:0xffc00000) * f32(nan:0x7fa00000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffe00000) 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:0xffe00000) flags=INVALID (0/0)
+op : f32(-nan:0xffc00000) * f32(-inf:0xff800000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffe00000) flags=INVALID (0/1)
+op : f32(-inf:0xff800000) * f32(-nan:0xffa00000) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffe00000) flags=INVALID (0/2)
+op : f32(-nan:0xffc00000) * f32(-inf:0xff800000) + f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+res: f32(-nan:0xffc00000) flags=OK (1/0)
+op : f32(-inf:0xff800000) * f32(-0x1.fffffe00000000000000p+127:0xff7fffff) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffc00000) flags=OK (1/1)
+op : f32(-0x1.fffffe00000000000000p+127:0xff7fffff) * f32(-nan:0xffc00000) + f32(-inf:0xff800000)
+res: f32(-nan:0xffc00000) 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=OK (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=OK (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=OK (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=OK (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=OK (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=OK (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:0x7fc00000) flags=OK (27/0)
+op : f32(inf:0x7f800000) * f32(nan:0x7fc00000) + f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+res: f32(nan:0x7fc00000) flags=OK (27/1)
+op : f32(nan:0x7fc00000) * f32(0x1.fffffe00000000000000p+127:0x7f7fffff) + f32(inf:0x7f800000)
+res: f32(nan:0x7fc00000) flags=OK (27/2)
+op : f32(inf:0x7f800000) * f32(nan:0x7fc00000) + f32(nan:0x7fa00000)
+res: f32(nan:0x7fe00000) flags=INVALID (28/0)
+op : f32(nan:0x7fc00000) * f32(nan:0x7fa00000) + f32(inf:0x7f800000)
+res: f32(nan:0x7fe00000) flags=INVALID (28/1)
+op : f32(nan:0x7fa00000) * f32(inf:0x7f800000) + f32(nan:0x7fc00000)
+res: f32(nan:0x7fe00000) flags=INVALID (28/2)
+op : f32(nan:0x7fc00000) * f32(nan:0x7fa00000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffe00000) flags=INVALID (29/0)
+op : f32(nan:0x7fa00000) * f32(-nan:0xffa00000) + f32(nan:0x7fc00000)
+res: f32(nan:0x7fe00000) flags=INVALID (29/1)
+op : f32(-nan:0xffa00000) * f32(nan:0x7fc00000) + f32(nan:0x7fa00000)
+res: f32(nan:0x7fe00000) flags=INVALID (29/2)
+op : f32(nan:0x7fa00000) * f32(-nan:0xffa00000) + f32(-nan:0xffc00000)
+res: f32(nan:0x7fe00000) flags=INVALID (30/0)
+op : f32(-nan:0xffa00000) * f32(-nan:0xffc00000) + f32(nan:0x7fa00000)
+res: f32(nan:0x7fe00000) flags=INVALID (30/1)
+op : f32(-nan:0xffc00000) * f32(nan:0x7fa00000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffe00000) 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:0xffe00000) flags=INVALID (0/0)
+op : f32(-nan:0xffc00000) * f32(-inf:0xff800000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffe00000) flags=INVALID (0/1)
+op : f32(-inf:0xff800000) * f32(-nan:0xffa00000) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffe00000) flags=INVALID (0/2)
+op : f32(-nan:0xffc00000) * f32(-inf:0xff800000) + f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+res: f32(-nan:0xffc00000) flags=OK (1/0)
+op : f32(-inf:0xff800000) * f32(-0x1.fffffe00000000000000p+127:0xff7fffff) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffc00000) flags=OK (1/1)
+op : f32(-0x1.fffffe00000000000000p+127:0xff7fffff) * f32(-nan:0xffc00000) + f32(-inf:0xff800000)
+res: f32(-nan:0xffc00000) 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=OK (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=OK (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=OK (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=OK (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=OK (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=OK (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:0x7fc00000) flags=OK (27/0)
+op : f32(inf:0x7f800000) * f32(nan:0x7fc00000) + f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+res: f32(nan:0x7fc00000) flags=OK (27/1)
+op : f32(nan:0x7fc00000) * f32(0x1.fffffe00000000000000p+127:0x7f7fffff) + f32(inf:0x7f800000)
+res: f32(nan:0x7fc00000) flags=OK (27/2)
+op : f32(inf:0x7f800000) * f32(nan:0x7fc00000) + f32(nan:0x7fa00000)
+res: f32(nan:0x7fe00000) flags=INVALID (28/0)
+op : f32(nan:0x7fc00000) * f32(nan:0x7fa00000) + f32(inf:0x7f800000)
+res: f32(nan:0x7fe00000) flags=INVALID (28/1)
+op : f32(nan:0x7fa00000) * f32(inf:0x7f800000) + f32(nan:0x7fc00000)
+res: f32(nan:0x7fe00000) flags=INVALID (28/2)
+op : f32(nan:0x7fc00000) * f32(nan:0x7fa00000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffe00000) flags=INVALID (29/0)
+op : f32(nan:0x7fa00000) * f32(-nan:0xffa00000) + f32(nan:0x7fc00000)
+res: f32(nan:0x7fe00000) flags=INVALID (29/1)
+op : f32(-nan:0xffa00000) * f32(nan:0x7fc00000) + f32(nan:0x7fa00000)
+res: f32(nan:0x7fe00000) flags=INVALID (29/2)
+op : f32(nan:0x7fa00000) * f32(-nan:0xffa00000) + f32(-nan:0xffc00000)
+res: f32(nan:0x7fe00000) flags=INVALID (30/0)
+op : f32(-nan:0xffa00000) * f32(-nan:0xffc00000) + f32(nan:0x7fa00000)
+res: f32(nan:0x7fe00000) flags=INVALID (30/1)
+op : f32(-nan:0xffc00000) * f32(nan:0x7fa00000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffe00000) 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:0xffe00000) flags=INVALID (0/0)
+op : f32(-nan:0xffc00000) * f32(-inf:0xff800000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffe00000) flags=INVALID (0/1)
+op : f32(-inf:0xff800000) * f32(-nan:0xffa00000) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffe00000) flags=INVALID (0/2)
+op : f32(-nan:0xffc00000) * f32(-inf:0xff800000) + f32(-0x1.fffffe00000000000000p+127:0xff7fffff)
+res: f32(-nan:0xffc00000) flags=OK (1/0)
+op : f32(-inf:0xff800000) * f32(-0x1.fffffe00000000000000p+127:0xff7fffff) + f32(-nan:0xffc00000)
+res: f32(-nan:0xffc00000) flags=OK (1/1)
+op : f32(-0x1.fffffe00000000000000p+127:0xff7fffff) * f32(-nan:0xffc00000) + f32(-inf:0xff800000)
+res: f32(-nan:0xffc00000) 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=OK (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=OK (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=OK (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=OK (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=OK (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=OK (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:0x7fc00000) flags=OK (27/0)
+op : f32(inf:0x7f800000) * f32(nan:0x7fc00000) + f32(0x1.fffffe00000000000000p+127:0x7f7fffff)
+res: f32(nan:0x7fc00000) flags=OK (27/1)
+op : f32(nan:0x7fc00000) * f32(0x1.fffffe00000000000000p+127:0x7f7fffff) + f32(inf:0x7f800000)
+res: f32(nan:0x7fc00000) flags=OK (27/2)
+op : f32(inf:0x7f800000) * f32(nan:0x7fc00000) + f32(nan:0x7fa00000)
+res: f32(nan:0x7fe00000) flags=INVALID (28/0)
+op : f32(nan:0x7fc00000) * f32(nan:0x7fa00000) + f32(inf:0x7f800000)
+res: f32(nan:0x7fe00000) flags=INVALID (28/1)
+op : f32(nan:0x7fa00000) * f32(inf:0x7f800000) + f32(nan:0x7fc00000)
+res: f32(nan:0x7fe00000) flags=INVALID (28/2)
+op : f32(nan:0x7fc00000) * f32(nan:0x7fa00000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffe00000) flags=INVALID (29/0)
+op : f32(nan:0x7fa00000) * f32(-nan:0xffa00000) + f32(nan:0x7fc00000)
+res: f32(nan:0x7fe00000) flags=INVALID (29/1)
+op : f32(-nan:0xffa00000) * f32(nan:0x7fc00000) + f32(nan:0x7fa00000)
+res: f32(nan:0x7fe00000) flags=INVALID (29/2)
+op : f32(nan:0x7fa00000) * f32(-nan:0xffa00000) + f32(-nan:0xffc00000)
+res: f32(nan:0x7fe00000) flags=INVALID (30/0)
+op : f32(-nan:0xffa00000) * f32(-nan:0xffc00000) + f32(nan:0x7fa00000)
+res: f32(nan:0x7fe00000) flags=INVALID (30/1)
+op : f32(-nan:0xffc00000) * f32(nan:0x7fa00000) + f32(-nan:0xffa00000)
+res: f32(-nan:0xffe00000) 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)
# Set search path for all sources
VPATH += $(MULTIARCH_SRC)
MULTIARCH_SRCS =$(notdir $(wildcard $(MULTIARCH_SRC)/*.c))
-MULTIARCH_TESTS =$(MULTIARCH_SRCS:.c=)
-
-# FIXME: ppc64abi32 linux-test seems to have issues but the other basic tests work
-ifeq ($(TARGET_NAME),ppc64abi32)
-BROKEN_TESTS = linux-test
-endif
-
-# Update TESTS
-TESTS += $(filter-out $(BROKEN_TESTS), $(MULTIARCH_TESTS))
+MULTIARCH_TESTS =$(filter-out float_helpers, $(MULTIARCH_SRCS:.c=))
#
# The following are any additional rules needed to build things
#
+
+float_%: LDFLAGS+=-lm
+float_%: float_%.c float_helpers.c
+ $(CC) $(CFLAGS) $(EXTRA_CFLAGS) $< $(MULTIARCH_SRC)/float_helpers.c -o $@ $(LDFLAGS)
+
+run-float_%: float_%
+ $(call run-test,$<, $(QEMU) $(QEMU_OPTS) $<,"$< on $(TARGET_NAME)")
+ $(call conditional-diff-out,$<,$(SRC_PATH)/tests/tcg/$(TARGET_NAME)/$<.ref)
+
+
testthread: LDFLAGS+=-lpthread
# We define the runner for test-mmap after the individual
run-test-mmap-%: test-mmap
$(call run-test, test-mmap-$*, $(QEMU) -p $* $<,\
"$< ($* byte pages) on $(TARGET_NAME)")
+
+# Update TESTS
+TESTS += $(MULTIARCH_TESTS)
--- /dev/null
+/*
+ * Floating Point Convert Single to Various
+ *
+ * Copyright (c) 2019 Linaro
+ *
+ * SPDX-License-Identifier: GPL-3.0-or-later
+ */
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <math.h>
+#include <float.h>
+#include <fenv.h>
+
+
+#include "float_helpers.h"
+
+#define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0]))
+
+typedef struct {
+ int flag;
+ char *desc;
+} float_mapping;
+
+float_mapping round_flags[] = {
+ { FE_TONEAREST, "to nearest" },
+#ifdef FE_UPWARD
+ { FE_UPWARD, "upwards" },
+#endif
+#ifdef FE_DOWNWARD
+ { FE_DOWNWARD, "downwards" },
+#endif
+ { FE_TOWARDZERO, "to zero" }
+};
+
+static void print_input(float input)
+{
+ char *in_fmt = fmt_f32(input);
+ printf("from single: %s\n", in_fmt);
+ free(in_fmt);
+}
+
+static void convert_single_to_double(float input)
+{
+ double output;
+ char *out_fmt, *flag_fmt;
+
+ feclearexcept(FE_ALL_EXCEPT);
+
+ output = input;
+
+ out_fmt = fmt_f64(output);
+ flag_fmt = fmt_flags();
+ printf(" to double: %s (%s)\n", out_fmt, flag_fmt);
+ free(out_fmt);
+ free(flag_fmt);
+}
+
+#define xstr(a) str(a)
+#define str(a) #a
+
+#define CONVERT_SINGLE_TO_INT(TYPE, FMT) \
+ static void convert_single_to_ ## TYPE(float input) \
+ { \
+ TYPE ## _t output; \
+ char *flag_fmt; \
+ const char to[] = "to " xstr(TYPE); \
+ feclearexcept(FE_ALL_EXCEPT); \
+ output = input; \
+ flag_fmt = fmt_flags(); \
+ printf("%11s: %" FMT " (%s)\n", to, output, flag_fmt); \
+ free(flag_fmt); \
+ }
+
+CONVERT_SINGLE_TO_INT( int32, PRId32)
+CONVERT_SINGLE_TO_INT(uint32, PRId32)
+CONVERT_SINGLE_TO_INT( int64, PRId64)
+CONVERT_SINGLE_TO_INT(uint64, PRId64)
+
+int main(int argc, char *argv[argc])
+{
+ int i, j, nums;
+
+ nums = get_num_f32();
+
+ for (i = 0; i < ARRAY_SIZE(round_flags); ++i) {
+ if (fesetround(round_flags[i].flag) != 0) {
+ printf("### Rounding %s skipped\n", round_flags[i].desc);
+ continue;
+ }
+ printf("### Rounding %s\n", round_flags[i].desc);
+ for (j = 0; j < nums; j++) {
+ float input = get_f32(j);
+ print_input(input);
+ /* convert_single_to_half(input); */
+ convert_single_to_double(input);
+ convert_single_to_int32(input);
+ convert_single_to_int64(input);
+ convert_single_to_uint32(input);
+ convert_single_to_uint64(input);
+ }
+ }
+
+ return 0;
+}
--- /dev/null
+/*
+ * Common Float Helpers
+ *
+ * This contains a series of useful utility routines and a set of
+ * floating point constants useful for exercising the edge cases in
+ * floating point tests.
+ *
+ * Copyright (c) 2019 Linaro
+ *
+ * SPDX-License-Identifier: GPL-3.0-or-later
+ */
+
+/* we want additional float type definitions */
+#define __STDC_WANT_IEC_60559_BFP_EXT__
+#define __STDC_WANT_IEC_60559_TYPES_EXT__
+
+#define _GNU_SOURCE
+#include <stdio.h>
+#include <stdlib.h>
+#include <inttypes.h>
+#include <math.h>
+#include <float.h>
+#include <fenv.h>
+
+#include "float_helpers.h"
+
+#define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0]))
+
+/*
+ * Half Precision Numbers
+ *
+ * Not yet well standardised so we return a plain uint16_t for now.
+ */
+
+/* no handy defines for these numbers */
+static uint16_t f16_numbers[] = {
+ 0xffff, /* -NaN / AHP -Max */
+ 0xfcff, /* -NaN / AHP */
+ 0xfc01, /* -NaN / AHP */
+ 0xfc00, /* -Inf */
+ 0xfbff, /* -Max */
+ 0xc000, /* -2 */
+ 0xbc00, /* -1 */
+ 0x8001, /* -MIN subnormal */
+ 0x8000, /* -0 */
+ 0x0000, /* +0 */
+ 0x0001, /* MIN subnormal */
+ 0x3c00, /* 1 */
+ 0x7bff, /* Max */
+ 0x7c00, /* Inf */
+ 0x7c01, /* NaN / AHP */
+ 0x7cff, /* NaN / AHP */
+ 0x7fff, /* NaN / AHP +Max*/
+};
+
+static const int num_f16 = ARRAY_SIZE(f16_numbers);
+
+int get_num_f16(void)
+{
+ return num_f16;
+}
+
+uint16_t get_f16(int i)
+{
+ return f16_numbers[i % num_f16];
+}
+
+/* only display as hex */
+char *fmt_16(uint16_t num)
+{
+ char *fmt;
+ asprintf(&fmt, "f16(%#04x)", num);
+ return fmt;
+}
+
+/*
+ * Single Precision Numbers
+ */
+
+#ifndef SNANF
+/* Signaling NaN macros, if supported. */
+# if __GNUC_PREREQ(3, 3)
+# define SNANF (__builtin_nansf (""))
+# define SNAN (__builtin_nans (""))
+# define SNANL (__builtin_nansl (""))
+# endif
+#endif
+
+static float f32_numbers[] = {
+ -SNANF,
+ -NAN,
+ -INFINITY,
+ -FLT_MAX,
+ -0x1.1874b2p+103,
+ -0x1.c0bab6p+99,
+ -0x1.31f75p-40,
+ -0x1.505444p-66,
+ -FLT_MIN,
+ 0.0,
+ FLT_MIN,
+ 0x1p-25,
+ 0x1.ffffe6p-25, /* min positive FP16 subnormal */
+ 0x1.ff801ap-15, /* max subnormal FP16 */
+ 0x1.00000cp-14, /* min positive normal FP16 */
+ 1.0,
+ 0x1.004p+0, /* smallest float after 1.0 FP16 */
+ 2.0,
+ M_E, M_PI,
+ 0x1.ffbep+15,
+ 0x1.ffcp+15, /* max FP16 */
+ 0x1.ffc2p+15,
+ 0x1.ffbfp+16,
+ 0x1.ffcp+16, /* max AFP */
+ 0x1.ffc1p+16,
+ 0x1.c0bab6p+99,
+ FLT_MAX,
+ INFINITY,
+ NAN,
+ SNANF
+};
+
+static const int num_f32 = ARRAY_SIZE(f32_numbers);
+
+int get_num_f32(void)
+{
+ return num_f32;
+}
+
+float get_f32(int i)
+{
+ return f32_numbers[i % num_f32];
+}
+
+char *fmt_f32(float num)
+{
+ uint32_t single_as_hex = *(uint32_t *) #
+ char *fmt;
+ asprintf(&fmt, "f32(%02.20a:%#010x)", num, single_as_hex);
+ return fmt;
+}
+
+
+/* This allows us to initialise some doubles as pure hex */
+typedef union {
+ double d;
+ uint64_t h;
+} test_doubles;
+
+static test_doubles f64_numbers[] = {
+ {SNAN},
+ {-NAN},
+ {-INFINITY},
+ {-DBL_MAX},
+ {-FLT_MAX-1.0},
+ {-FLT_MAX},
+ {-1.111E+31},
+ {-1.111E+30}, /* half prec */
+ {-2.0}, {-1.0},
+ {-DBL_MIN},
+ {-FLT_MIN},
+ {0.0},
+ {FLT_MIN},
+ {2.98023224e-08},
+ {5.96046E-8}, /* min positive FP16 subnormal */
+ {6.09756E-5}, /* max subnormal FP16 */
+ {6.10352E-5}, /* min positive normal FP16 */
+ {1.0},
+ {1.0009765625}, /* smallest float after 1.0 FP16 */
+ {DBL_MIN},
+ {1.3789972848607228e-308},
+ {1.4914738736681624e-308},
+ {1.0}, {2.0},
+ {M_E}, {M_PI},
+ {65503.0},
+ {65504.0}, /* max FP16 */
+ {65505.0},
+ {131007.0},
+ {131008.0}, /* max AFP */
+ {131009.0},
+ {.h = 0x41dfffffffc00000 }, /* to int = 0x7fffffff */
+ {FLT_MAX},
+ {FLT_MAX + 1.0},
+ {DBL_MAX},
+ {INFINITY},
+ {NAN},
+ {.h = 0x7ff0000000000001}, /* SNAN */
+ {SNAN},
+};
+
+static const int num_f64 = ARRAY_SIZE(f64_numbers);
+
+int get_num_f64(void)
+{
+ return num_f64;
+}
+
+double get_f64(int i)
+{
+ return f64_numbers[i % num_f64].d;
+}
+
+char *fmt_f64(double num)
+{
+ uint64_t double_as_hex = *(uint64_t *) #
+ char *fmt;
+ asprintf(&fmt, "f64(%02.20a:%#020" PRIx64 ")", num, double_as_hex);
+ return fmt;
+}
+
+/*
+ * Float flags
+ */
+char *fmt_flags(void)
+{
+ int flags = fetestexcept(FE_ALL_EXCEPT);
+ char *fmt;
+
+ if (flags) {
+ asprintf(&fmt, "%s%s%s%s%s",
+ flags & FE_OVERFLOW ? "OVERFLOW " : "",
+ flags & FE_UNDERFLOW ? "UNDERFLOW " : "",
+ flags & FE_DIVBYZERO ? "DIV0 " : "",
+ flags & FE_INEXACT ? "INEXACT " : "",
+ flags & FE_INVALID ? "INVALID" : "");
+ } else {
+ asprintf(&fmt, "OK");
+ }
+
+ return fmt;
+}
--- /dev/null
+/*
+ * Common Float Helpers
+ *
+ * Copyright (c) 2019 Linaro
+ *
+ * SPDX-License-Identifier: GPL-3.0-or-later
+ */
+
+#include <inttypes.h>
+
+/* Number of constants in each table */
+int get_num_f16(void);
+int get_num_f32(void);
+int get_num_f64(void);
+
+/* Accessor helpers, overflows will automatically wrap */
+uint16_t get_f16(int i); /* use _Float16 when we can */
+float get_f32(int i);
+double get_f64(int i);
+
+/* Return format strings, free after use */
+char * fmt_f16(uint16_t);
+char * fmt_f32(float);
+char * fmt_f64(double);
+/* exception flags */
+char * fmt_flags(void);
--- /dev/null
+/*
+ * Fused Multiply Add (Single)
+ *
+ * Copyright (c) 2019 Linaro
+ *
+ * SPDX-License-Identifier: GPL-3.0-or-later
+ */
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <math.h>
+#include <float.h>
+#include <fenv.h>
+
+#include "float_helpers.h"
+
+#define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0]))
+
+typedef struct {
+ int flag;
+ char *desc;
+} float_mapping;
+
+float_mapping round_flags[] = {
+ { FE_TONEAREST, "to nearest" },
+#ifdef FE_UPWARD
+ { FE_UPWARD, "upwards" },
+#endif
+#ifdef FE_DOWNWARD
+ { FE_DOWNWARD, "downwards" },
+#endif
+ { FE_TOWARDZERO, "to zero" }
+};
+
+
+static void print_inputs(float a, float b, float c)
+{
+ char *a_fmt, *b_fmt, *c_fmt;
+
+ a_fmt = fmt_f32(a);
+ b_fmt = fmt_f32(b);
+ c_fmt = fmt_f32(c);
+
+ printf("op : %s * %s + %s\n", a_fmt, b_fmt, c_fmt);
+
+ free(a_fmt);
+ free(b_fmt);
+ free(c_fmt);
+}
+
+static void print_result(float r, int j, int k)
+{
+ char *r_fmt, *flag_fmt;
+
+ r_fmt = fmt_f32(r);
+ flag_fmt = fmt_flags();
+
+ printf("res: %s flags=%s (%d/%d)\n", r_fmt, flag_fmt, j, k);
+
+ free(r_fmt);
+ free(flag_fmt);
+}
+
+static void do_madds(float a, float b, float c, int j, int k)
+{
+ float r;
+
+ print_inputs(a, b, c);
+
+ feclearexcept(FE_ALL_EXCEPT);
+ r = __builtin_fmaf(a, b, c);
+
+ print_result(r, j, k);
+}
+
+int main(int argc, char *argv[argc])
+{
+ int i, j, k, nums = get_num_f32();
+ float a, b, c;
+
+ for (i = 0; i < ARRAY_SIZE(round_flags); ++i) {
+ if (fesetround(round_flags[i].flag) != 0) {
+ printf("### Rounding %s skipped\n", round_flags[i].desc);
+ continue;
+ }
+ printf("### Rounding %s\n", round_flags[i].desc);
+ for (j = 0; j < nums; j++) {
+ for (k = 0; k < 3; k++) {
+ a = get_f32(j + ((k)%3));
+ b = get_f32(j + ((k+1)%3));
+ c = get_f32(j + ((k+2)%3));
+ do_madds(a, b, c, j, k);
+ }
+ }
+
+ /* From https://bugs.launchpad.net/qemu/+bug/1841491 */
+ printf("# LP184149\n");
+ do_madds(0x1.ffffffffffffcp-1022, 0x1.0000000000001p-1, 0x0.0000000000001p-1022, j, 0);
+ do_madds(0x8p-152, 0x8p-152, 0x8p-152, j+1, 0);
+ }
+
+ return 0;
+}
find_ram_offset(uint64_t size, uint64_t offset) "size: 0x%" PRIx64 " @ 0x%" PRIx64
find_ram_offset_loop(uint64_t size, uint64_t candidate, uint64_t offset, uint64_t next, uint64_t mingap) "trying size: 0x%" PRIx64 " @ 0x%" PRIx64 ", offset: 0x%" PRIx64" next: 0x%" PRIx64 " mingap: 0x%" PRIx64
ram_block_discard_range(const char *rbname, void *hva, size_t length, bool need_madvise, bool need_fallocate, int ret) "%s@%p + 0x%zx: madvise: %d fallocate: %d ret: %d"
+memory_notdirty_write_access(uint64_t vaddr, uint64_t ram_addr, unsigned size) "0x%" PRIx64 " ram_addr 0x%" PRIx64 " size %u"
+memory_notdirty_set_dirty(uint64_t vaddr) "0x%" PRIx64
# memory.c
memory_region_ops_read(int cpu_index, void *mr, uint64_t addr, uint64_t value, unsigned size) "cpu %d mr %p addr 0x%"PRIx64" value 0x%"PRIx64" size %u"
memory_region_ops_write(int cpu_index, void *mr, uint64_t addr, uint64_t value, unsigned size) "cpu %d mr %p addr 0x%"PRIx64" value 0x%"PRIx64" size %u"
memory_region_subpage_read(int cpu_index, void *mr, uint64_t offset, uint64_t value, unsigned size) "cpu %d mr %p offset 0x%"PRIx64" value 0x%"PRIx64" size %u"
memory_region_subpage_write(int cpu_index, void *mr, uint64_t offset, uint64_t value, unsigned size) "cpu %d mr %p offset 0x%"PRIx64" value 0x%"PRIx64" size %u"
-memory_region_tb_read(int cpu_index, uint64_t addr, uint64_t value, unsigned size) "cpu %d addr 0x%"PRIx64" value 0x%"PRIx64" size %u"
-memory_region_tb_write(int cpu_index, uint64_t addr, uint64_t value, unsigned size) "cpu %d addr 0x%"PRIx64" value 0x%"PRIx64" size %u"
memory_region_ram_device_read(int cpu_index, void *mr, uint64_t addr, uint64_t value, unsigned size) "cpu %d mr %p addr 0x%"PRIx64" value 0x%"PRIx64" size %u"
memory_region_ram_device_write(int cpu_index, void *mr, uint64_t addr, uint64_t value, unsigned size) "cpu %d mr %p addr 0x%"PRIx64" value 0x%"PRIx64" size %u"
flatview_new(void *view, void *root) "%p (root %p)"
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