test/CodeGen/CellSPU/useful-harnesses/i64operations.c - llvm - Git at Google

 #include <stdio.h>
 #include "i64operations.h"

 int64_t         tval_a = 1234567890003LL;
 int64_t         tval_b = 2345678901235LL;
 int64_t         tval_c = 1234567890001LL;
 int64_t         tval_d = 10001LL;
 int64_t         tval_e = 10000LL;
 uint64_t        tval_f = 0xffffff0750135eb9;
 int64_t		tval_g = -1;

 /* ~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~- */

 int
 i64_eq(int64_t a, int64_t b)
 {
   return (a == b);
 }

 int
 i64_neq(int64_t a, int64_t b)
 {
   return (a != b);
 }

 int
 i64_gt(int64_t a, int64_t b)
 {
   return (a > b);
 }

 int
 i64_le(int64_t a, int64_t b)
 {
   return (a <= b);
 }

 int
 i64_ge(int64_t a, int64_t b) {
   return (a >= b);
 }

 int
 i64_lt(int64_t a, int64_t b) {
   return (a < b);
 }

 int
 i64_uge(uint64_t a, uint64_t b)
 {
   return (a >= b);
 }

 int
 i64_ult(uint64_t a, uint64_t b)
 {
   return (a < b);
 }

 int
 i64_ugt(uint64_t a, uint64_t b)
 {
   return (a > b);
 }

 int
 i64_ule(uint64_t a, uint64_t b)
 {
   return (a <= b);
 }

 int64_t
 i64_eq_select(int64_t a, int64_t b, int64_t c, int64_t d)
 {
   return ((a == b) ? c : d);
 }

 int64_t
 i64_neq_select(int64_t a, int64_t b, int64_t c, int64_t d)
 {
   return ((a != b) ? c : d);
 }

 int64_t
 i64_gt_select(int64_t a, int64_t b, int64_t c, int64_t d) {
   return ((a > b) ? c : d);
 }

 int64_t
 i64_le_select(int64_t a, int64_t b, int64_t c, int64_t d) {
   return ((a <= b) ? c : d);
 }

 int64_t
 i64_ge_select(int64_t a, int64_t b, int64_t c, int64_t d) {
   return ((a >= b) ? c : d);
 }

 int64_t
 i64_lt_select(int64_t a, int64_t b, int64_t c, int64_t d) {
   return ((a < b) ? c : d);
 }

 uint64_t
 i64_ugt_select(uint64_t a, uint64_t b, uint64_t c, uint64_t d)
 {
   return ((a > b) ? c : d);
 }

 uint64_t
 i64_ule_select(uint64_t a, uint64_t b, uint64_t c, uint64_t d)
 {
   return ((a <= b) ? c : d);
 }

 uint64_t
 i64_uge_select(uint64_t a, uint64_t b, uint64_t c, uint64_t d) {
   return ((a >= b) ? c : d);
 }

 uint64_t
 i64_ult_select(uint64_t a, uint64_t b, uint64_t c, uint64_t d) {
   return ((a < b) ? c : d);
 }

 /* ~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~- */

 struct harness_int64_pred int64_tests_eq[] = {
   {"a %s a", &tval_a, &tval_a, &tval_c, &tval_d, TRUE_VAL, &tval_c},
   {"a %s b", &tval_a, &tval_b, &tval_c, &tval_d, FALSE_VAL, &tval_d},
   {"a %s c", &tval_a, &tval_c, &tval_c, &tval_d, FALSE_VAL, &tval_d},
   {"d %s e", &tval_d, &tval_e, &tval_c, &tval_d, FALSE_VAL, &tval_d},
   {"e %s e", &tval_e, &tval_e, &tval_c, &tval_d, TRUE_VAL, &tval_c}
 };

 struct harness_int64_pred int64_tests_neq[] = {
   {"a %s a", &tval_a, &tval_a, &tval_c, &tval_d, FALSE_VAL, &tval_d},
   {"a %s b", &tval_a, &tval_b, &tval_c, &tval_d, TRUE_VAL, &tval_c},
   {"a %s c", &tval_a, &tval_c, &tval_c, &tval_d, TRUE_VAL, &tval_c},
   {"d %s e", &tval_d, &tval_e, &tval_c, &tval_d, TRUE_VAL, &tval_c},
   {"e %s e", &tval_e, &tval_e, &tval_c, &tval_d, FALSE_VAL, &tval_d}
 };

 struct harness_int64_pred int64_tests_sgt[] = {
   {"a %s a", &tval_a, &tval_a, &tval_c, &tval_d, FALSE_VAL, &tval_d},
   {"a %s b", &tval_a, &tval_b, &tval_c, &tval_d, FALSE_VAL, &tval_d},
   {"a %s c", &tval_a, &tval_c, &tval_c, &tval_d, TRUE_VAL, &tval_c},
   {"d %s e", &tval_d, &tval_e, &tval_c, &tval_d, TRUE_VAL, &tval_c},
   {"e %s e", &tval_e, &tval_e, &tval_c, &tval_d, FALSE_VAL, &tval_d}
 };

 struct harness_int64_pred int64_tests_sle[] = {
   {"a %s a", &tval_a, &tval_a, &tval_c, &tval_d, TRUE_VAL, &tval_c},
   {"a %s b", &tval_a, &tval_b, &tval_c, &tval_d, TRUE_VAL, &tval_c},
   {"a %s c", &tval_a, &tval_c, &tval_c, &tval_d, FALSE_VAL, &tval_d},
   {"d %s e", &tval_d, &tval_e, &tval_c, &tval_d, FALSE_VAL, &tval_d},
   {"e %s e", &tval_e, &tval_e, &tval_c, &tval_d, TRUE_VAL, &tval_c}
 };

 struct harness_int64_pred int64_tests_sge[] = {
   {"a %s a", &tval_a, &tval_a, &tval_c, &tval_d, TRUE_VAL, &tval_c},
   {"a %s b", &tval_a, &tval_b, &tval_c, &tval_d, FALSE_VAL, &tval_d},
   {"a %s c", &tval_a, &tval_c, &tval_c, &tval_d, TRUE_VAL, &tval_c},
   {"d %s e", &tval_d, &tval_e, &tval_c, &tval_d, TRUE_VAL, &tval_c},
   {"e %s e", &tval_e, &tval_e, &tval_c, &tval_d, TRUE_VAL, &tval_c}
 };

 struct harness_int64_pred int64_tests_slt[] = {
   {"a %s a", &tval_a, &tval_a, &tval_c, &tval_d, FALSE_VAL, &tval_d},
   {"a %s b", &tval_a, &tval_b, &tval_c, &tval_d, TRUE_VAL, &tval_c},
   {"a %s c", &tval_a, &tval_c, &tval_c, &tval_d, FALSE_VAL, &tval_d},
   {"d %s e", &tval_d, &tval_e, &tval_c, &tval_d, FALSE_VAL, &tval_d},
   {"e %s e", &tval_e, &tval_e, &tval_c, &tval_d, FALSE_VAL, &tval_d}
 };

 struct int64_pred_s int64_preds[] = {
   {"eq", i64_eq, i64_eq_select,
      int64_tests_eq, ARR_SIZE(int64_tests_eq)},
   {"neq", i64_neq, i64_neq_select,
      int64_tests_neq, ARR_SIZE(int64_tests_neq)},
   {"gt", i64_gt, i64_gt_select,
      int64_tests_sgt, ARR_SIZE(int64_tests_sgt)},
   {"le", i64_le, i64_le_select,
      int64_tests_sle, ARR_SIZE(int64_tests_sle)},
   {"ge", i64_ge, i64_ge_select,
      int64_tests_sge, ARR_SIZE(int64_tests_sge)},
   {"lt", i64_lt, i64_lt_select,
      int64_tests_slt, ARR_SIZE(int64_tests_slt)}
 };

 /* ~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~- */

 struct harness_uint64_pred uint64_tests_ugt[] = {
   {"a %s a", (uint64_t *) &tval_a, (uint64_t *) &tval_a, (uint64_t *) &tval_c,
      (uint64_t *) &tval_d, FALSE_VAL, (uint64_t *) &tval_d},
   {"a %s b", (uint64_t *) &tval_a, (uint64_t *) &tval_b, (uint64_t *) &tval_c,
      (uint64_t *) &tval_d, FALSE_VAL, (uint64_t *) &tval_d },
   {"a %s c", (uint64_t *) &tval_a, (uint64_t *) &tval_c, (uint64_t *) &tval_c,
      (uint64_t *) &tval_d, TRUE_VAL, (uint64_t *) &tval_c },
   {"d %s e", (uint64_t *) &tval_d, (uint64_t *) &tval_e, (uint64_t *) &tval_c,
      (uint64_t *) &tval_d, TRUE_VAL, (uint64_t *) &tval_c },
   {"e %s e", (uint64_t *) &tval_e, (uint64_t *) &tval_e, (uint64_t *) &tval_c,
      (uint64_t *) &tval_d, FALSE_VAL, (uint64_t *) &tval_d }
 };

 struct harness_uint64_pred uint64_tests_ule[] = {
   {"a %s a", (uint64_t *) &tval_a, (uint64_t *) &tval_a, (uint64_t *) &tval_c,
      (uint64_t *) &tval_d, TRUE_VAL, (uint64_t *) &tval_c},
   {"a %s b", (uint64_t *) &tval_a, (uint64_t *) &tval_b, (uint64_t *) &tval_c,
      (uint64_t *) &tval_d, TRUE_VAL, (uint64_t *) &tval_c},
   {"a %s c", (uint64_t *) &tval_a, (uint64_t *) &tval_c, (uint64_t *) &tval_c,
      (uint64_t *) &tval_d, FALSE_VAL, (uint64_t *) &tval_d},
   {"d %s e", (uint64_t *) &tval_d, (uint64_t *) &tval_e, (uint64_t *) &tval_c,
      (uint64_t *) &tval_d, FALSE_VAL, (uint64_t *) &tval_d},
   {"e %s e", (uint64_t *) &tval_e, (uint64_t *) &tval_e, (uint64_t *) &tval_c,
      (uint64_t *) &tval_d, TRUE_VAL, (uint64_t *) &tval_c}
 };

 struct harness_uint64_pred uint64_tests_uge[] = {
   {"a %s a", (uint64_t *) &tval_a, (uint64_t *) &tval_a, (uint64_t *) &tval_c,
      (uint64_t *) &tval_d, TRUE_VAL, (uint64_t *) &tval_c},
   {"a %s b", (uint64_t *) &tval_a, (uint64_t *) &tval_b, (uint64_t *) &tval_c,
      (uint64_t *) &tval_d, FALSE_VAL, (uint64_t *) &tval_d},
   {"a %s c", (uint64_t *) &tval_a, (uint64_t *) &tval_c, (uint64_t *) &tval_c,
      (uint64_t *) &tval_d, TRUE_VAL, (uint64_t *) &tval_c},
   {"d %s e", (uint64_t *) &tval_d, (uint64_t *) &tval_e, (uint64_t *) &tval_c,
      (uint64_t *) &tval_d, TRUE_VAL, (uint64_t *) &tval_c},
   {"e %s e", (uint64_t *) &tval_e, (uint64_t *) &tval_e, (uint64_t *) &tval_c,
      (uint64_t *) &tval_d, TRUE_VAL, (uint64_t *) &tval_c}
 };

 struct harness_uint64_pred uint64_tests_ult[] = {
   {"a %s a", (uint64_t *) &tval_a, (uint64_t *) &tval_a, (uint64_t *) &tval_c,
      (uint64_t *) &tval_d, FALSE_VAL, (uint64_t *) &tval_d},
   {"a %s b", (uint64_t *) &tval_a, (uint64_t *) &tval_b, (uint64_t *) &tval_c,
      (uint64_t *) &tval_d, TRUE_VAL, (uint64_t *) &tval_c},
   {"a %s c", (uint64_t *) &tval_a, (uint64_t *) &tval_c, (uint64_t *) &tval_c,
      (uint64_t *) &tval_d, FALSE_VAL, (uint64_t *) &tval_d},
   {"d %s e", (uint64_t *) &tval_d, (uint64_t *) &tval_e, (uint64_t *) &tval_c,
      (uint64_t *) &tval_d, FALSE_VAL, (uint64_t *) &tval_d},
   {"e %s e", (uint64_t *) &tval_e, (uint64_t *) &tval_e, (uint64_t *) &tval_c,
      (uint64_t *) &tval_d, FALSE_VAL, (uint64_t *) &tval_d}
 };

 struct uint64_pred_s uint64_preds[] = {
   {"ugt", i64_ugt, i64_ugt_select,
      uint64_tests_ugt, ARR_SIZE(uint64_tests_ugt)},
   {"ule", i64_ule, i64_ule_select,
      uint64_tests_ule, ARR_SIZE(uint64_tests_ule)},
   {"uge", i64_uge, i64_uge_select,
      uint64_tests_uge, ARR_SIZE(uint64_tests_uge)},
   {"ult", i64_ult, i64_ult_select,
      uint64_tests_ult, ARR_SIZE(uint64_tests_ult)}
 };

 int
 compare_expect_int64(const struct int64_pred_s * pred)
 {
   int             j, failed = 0;

   for (j = 0; j < pred->n_tests; ++j) {
     int             pred_result;

     pred_result = (*pred->predfunc) (*pred->tests[j].lhs, *pred->tests[j].rhs);

     if (pred_result != pred->tests[j].expected) {
       char            str[64];

       sprintf(str, pred->tests[j].fmt_string, pred->name);
       printf("%s: returned value is %d, expecting %d\n", str,
 	     pred_result, pred->tests[j].expected);
       printf("  lhs = %19lld (0x%016llx)\n", *pred->tests[j].lhs,
              *pred->tests[j].lhs);
       printf("  rhs = %19lld (0x%016llx)\n", *pred->tests[j].rhs,
              *pred->tests[j].rhs);
       ++failed;
     } else {
       int64_t         selresult;

       selresult = (pred->selfunc) (*pred->tests[j].lhs, *pred->tests[j].rhs,
                                    *pred->tests[j].select_a,
                                    *pred->tests[j].select_b);

       if (selresult != *pred->tests[j].select_expected) {
 	char            str[64];

 	sprintf(str, pred->tests[j].fmt_string, pred->name);
 	printf("%s select: returned value is %d, expecting %d\n", str,
 	       pred_result, pred->tests[j].expected);
 	printf("  lhs   = %19lld (0x%016llx)\n", *pred->tests[j].lhs,
 	       *pred->tests[j].lhs);
 	printf("  rhs   = %19lld (0x%016llx)\n", *pred->tests[j].rhs,
 	       *pred->tests[j].rhs);
 	printf("  true  = %19lld (0x%016llx)\n", *pred->tests[j].select_a,
 	       *pred->tests[j].select_a);
 	printf("  false = %19lld (0x%016llx)\n", *pred->tests[j].select_b,
 	       *pred->tests[j].select_b);
 	++failed;
       }
     }
   }

   printf("  %d tests performed, should be %d.\n", j, pred->n_tests);

   return failed;
 }

 int
 compare_expect_uint64(const struct uint64_pred_s * pred)
 {
   int             j, failed = 0;

   for (j = 0; j < pred->n_tests; ++j) {
     int             pred_result;

     pred_result = (*pred->predfunc) (*pred->tests[j].lhs, *pred->tests[j].rhs);
     if (pred_result != pred->tests[j].expected) {
       char            str[64];

       sprintf(str, pred->tests[j].fmt_string, pred->name);
       printf("%s: returned value is %d, expecting %d\n", str,
 	     pred_result, pred->tests[j].expected);
       printf("  lhs = %19llu (0x%016llx)\n", *pred->tests[j].lhs,
              *pred->tests[j].lhs);
       printf("  rhs = %19llu (0x%016llx)\n", *pred->tests[j].rhs,
              *pred->tests[j].rhs);
       ++failed;
     } else {
       uint64_t        selresult;

       selresult = (pred->selfunc) (*pred->tests[j].lhs, *pred->tests[j].rhs,
                                    *pred->tests[j].select_a,
                                    *pred->tests[j].select_b);
       if (selresult != *pred->tests[j].select_expected) {
 	char            str[64];

 	sprintf(str, pred->tests[j].fmt_string, pred->name);
 	printf("%s select: returned value is %d, expecting %d\n", str,
 	       pred_result, pred->tests[j].expected);
 	printf("  lhs   = %19llu (0x%016llx)\n", *pred->tests[j].lhs,
 	       *pred->tests[j].lhs);
 	printf("  rhs   = %19llu (0x%016llx)\n", *pred->tests[j].rhs,
 	       *pred->tests[j].rhs);
 	printf("  true  = %19llu (0x%016llx)\n", *pred->tests[j].select_a,
 	       *pred->tests[j].select_a);
 	printf("  false = %19llu (0x%016llx)\n", *pred->tests[j].select_b,
 	       *pred->tests[j].select_b);
 	++failed;
       }
     }
   }

   printf("  %d tests performed, should be %d.\n", j, pred->n_tests);

   return failed;
 }

 /* ~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~- */

 int
 test_i64_sext_i32(int in, int64_t expected) {
   int64_t result = (int64_t) in;

   if (result != expected) {
     char str[64];
     sprintf(str, "i64_sext_i32(%d) returns %lld\n", in, result);
     return 1;
   }

   return 0;
 }

 int
 test_i64_sext_i16(short in, int64_t expected) {
   int64_t result = (int64_t) in;

   if (result != expected) {
     char str[64];
     sprintf(str, "i64_sext_i16(%hd) returns %lld\n", in, result);
     return 1;
   }

   return 0;
 }

 int
 test_i64_sext_i8(signed char in, int64_t expected) {
   int64_t result = (int64_t) in;

   if (result != expected) {
     char str[64];
     sprintf(str, "i64_sext_i8(%d) returns %lld\n", in, result);
     return 1;
   }

   return 0;
 }

 int
 test_i64_zext_i32(unsigned int in, uint64_t expected) {
   uint64_t result = (uint64_t) in;

   if (result != expected) {
     char str[64];
     sprintf(str, "i64_zext_i32(%u) returns %llu\n", in, result);
     return 1;
   }

   return 0;
 }

 int
 test_i64_zext_i16(unsigned short in, uint64_t expected) {
   uint64_t result = (uint64_t) in;

   if (result != expected) {
     char str[64];
     sprintf(str, "i64_zext_i16(%hu) returns %llu\n", in, result);
     return 1;
   }

   return 0;
 }

 int
 test_i64_zext_i8(unsigned char in, uint64_t expected) {
   uint64_t result = (uint64_t) in;

   if (result != expected) {
     char str[64];
     sprintf(str, "i64_zext_i8(%u) returns %llu\n", in, result);
     return 1;
   }

   return 0;
 }

 /* ~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~- */

 int64_t
 i64_shl_const(int64_t a) {
   return a << 10;
 }

 int64_t
 i64_shl(int64_t a, int amt) {
   return a << amt;
 }

 uint64_t
 u64_shl_const(uint64_t a) {
   return a << 10;
 }

 uint64_t
 u64_shl(uint64_t a, int amt) {
   return a << amt;
 }

 int64_t
 i64_srl_const(int64_t a) {
   return a >> 10;
 }

 int64_t
 i64_srl(int64_t a, int amt) {
   return a >> amt;
 }

 uint64_t
 u64_srl_const(uint64_t a) {
   return a >> 10;
 }

 uint64_t
 u64_srl(uint64_t a, int amt) {
   return a >> amt;
 }

 int64_t
 i64_sra_const(int64_t a) {
   return a >> 10;
 }

 int64_t
 i64_sra(int64_t a, int amt) {
   return a >> amt;
 }

 uint64_t
 u64_sra_const(uint64_t a) {
   return a >> 10;
 }

 uint64_t
 u64_sra(uint64_t a, int amt) {
   return a >> amt;
 }

 int
 test_u64_constant_shift(const char *func_name, uint64_t (*func)(uint64_t), uint64_t a, uint64_t expected) {
   uint64_t result = (*func)(a);

   if (result != expected) {
     printf("%s(0x%016llx) returns 0x%016llx, expected 0x%016llx\n", func_name, a, result, expected);
     return 1;
   }

   return 0;
 }

 int
 test_i64_constant_shift(const char *func_name, int64_t (*func)(int64_t), int64_t a, int64_t expected) {
   int64_t result = (*func)(a);

   if (result != expected) {
     printf("%s(0x%016llx) returns 0x%016llx, expected 0x%016llx\n", func_name, a, result, expected);
     return 1;
   }

   return 0;
 }

 int
 test_u64_variable_shift(const char *func_name, uint64_t (*func)(uint64_t, int), uint64_t a, unsigned int b, uint64_t expected) {
   uint64_t result = (*func)(a, b);

   if (result != expected) {
     printf("%s(0x%016llx, %d) returns 0x%016llx, expected 0x%016llx\n", func_name, a, b, result, expected);
     return 1;
   }

   return 0;
 }

 int
 test_i64_variable_shift(const char *func_name, int64_t (*func)(int64_t, int), int64_t a, unsigned int b, int64_t expected) {
   int64_t result = (*func)(a, b);

   if (result != expected) {
     printf("%s(0x%016llx, %d) returns 0x%016llx, expected 0x%016llx\n", func_name, a, b, result, expected);
     return 1;
   }

   return 0;
 }

 /* ~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~- */

 int64_t i64_mul(int64_t a, int64_t b) {
   return a * b;
 }

 /* ~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~- */

 int
 main(void)
 {
   int             i, j, failed = 0;
   const char     *something_failed = "  %d tests failed.\n";
   const char     *all_tests_passed = "  All tests passed.\n";

   printf("tval_a = %20lld (0x%016llx)\n", tval_a, tval_a);
   printf("tval_b = %20lld (0x%016llx)\n", tval_b, tval_b);
   printf("tval_c = %20lld (0x%016llx)\n", tval_c, tval_c);
   printf("tval_d = %20lld (0x%016llx)\n", tval_d, tval_d);
   printf("tval_e = %20lld (0x%016llx)\n", tval_e, tval_e);
   printf("tval_f = %20llu (0x%016llx)\n", tval_f, tval_f);
   printf("tval_g = %20llu (0x%016llx)\n", tval_g, tval_g);
   printf("----------------------------------------\n");

   for (i = 0; i < ARR_SIZE(int64_preds); ++i) {
     printf("%s series:\n", int64_preds[i].name);
     if ((failed = compare_expect_int64(int64_preds + i)) > 0) {
       printf(something_failed, failed);
     } else {
       printf(all_tests_passed);
     }

     printf("----------------------------------------\n");
   }

   for (i = 0; i < ARR_SIZE(uint64_preds); ++i) {
     printf("%s series:\n", uint64_preds[i].name);
     if ((failed = compare_expect_uint64(uint64_preds + i)) > 0) {
       printf(something_failed, failed);
     } else {
       printf(all_tests_passed);
     }

     printf("----------------------------------------\n");
   }

   /*----------------------------------------------------------------------*/

   puts("signed/zero-extend tests:");

   failed = 0;
   failed += test_i64_sext_i32(-1, -1LL);
   failed += test_i64_sext_i32(10, 10LL);
   failed += test_i64_sext_i32(0x7fffffff, 0x7fffffffLL);
   failed += test_i64_sext_i16(-1, -1LL);
   failed += test_i64_sext_i16(10, 10LL);
   failed += test_i64_sext_i16(0x7fff, 0x7fffLL);
   failed += test_i64_sext_i8(-1, -1LL);
   failed += test_i64_sext_i8(10, 10LL);
   failed += test_i64_sext_i8(0x7f, 0x7fLL);

   failed += test_i64_zext_i32(0xffffffff, 0x00000000ffffffffLLU);
   failed += test_i64_zext_i32(0x01234567, 0x0000000001234567LLU);
   failed += test_i64_zext_i16(0xffff,     0x000000000000ffffLLU);
   failed += test_i64_zext_i16(0x569a,     0x000000000000569aLLU);
   failed += test_i64_zext_i8(0xff,        0x00000000000000ffLLU);
   failed += test_i64_zext_i8(0xa0,        0x00000000000000a0LLU);

   if (failed > 0) {
     printf("  %d tests failed.\n", failed);
   } else {
     printf("  All tests passed.\n");
   }

   printf("----------------------------------------\n");

   failed = 0;
   puts("signed left/right shift tests:");
   failed += test_i64_constant_shift("i64_shl_const", i64_shl_const, tval_a,     0x00047dc7ec114c00LL);
   failed += test_i64_variable_shift("i64_shl",       i64_shl,       tval_a, 10, 0x00047dc7ec114c00LL);
   failed += test_i64_constant_shift("i64_srl_const", i64_srl_const, tval_a,     0x0000000047dc7ec1LL);
   failed += test_i64_variable_shift("i64_srl",       i64_srl,       tval_a, 10, 0x0000000047dc7ec1LL);
   failed += test_i64_constant_shift("i64_sra_const", i64_sra_const, tval_a,     0x0000000047dc7ec1LL);
   failed += test_i64_variable_shift("i64_sra",       i64_sra,       tval_a, 10, 0x0000000047dc7ec1LL);

   if (failed > 0) {
     printf("  %d tests ailed.\n", failed);
   } else {
     printf("  All tests passed.\n");
   }

   printf("----------------------------------------\n");

   failed = 0;
   puts("unsigned left/right shift tests:");
   failed += test_u64_constant_shift("u64_shl_const", u64_shl_const,  tval_f,     0xfffc1d404d7ae400LL);
   failed += test_u64_variable_shift("u64_shl",       u64_shl,        tval_f, 10, 0xfffc1d404d7ae400LL);
   failed += test_u64_constant_shift("u64_srl_const", u64_srl_const,  tval_f,     0x003fffffc1d404d7LL);
   failed += test_u64_variable_shift("u64_srl",       u64_srl,        tval_f, 10, 0x003fffffc1d404d7LL);
   failed += test_i64_constant_shift("i64_sra_const", i64_sra_const,  tval_f,     0xffffffffc1d404d7LL);
   failed += test_i64_variable_shift("i64_sra",       i64_sra,        tval_f, 10, 0xffffffffc1d404d7LL);
   failed += test_u64_constant_shift("u64_sra_const", u64_sra_const,  tval_f,     0x003fffffc1d404d7LL);
   failed += test_u64_variable_shift("u64_sra",       u64_sra,        tval_f, 10, 0x003fffffc1d404d7LL);

   if (failed > 0) {
     printf("  %d tests ailed.\n", failed);
   } else {
     printf("  All tests passed.\n");
   }

   printf("----------------------------------------\n");

   int64_t result;

   result = i64_mul(tval_g, tval_g);
   printf("%20lld * %20lld = %20lld (0x%016llx)\n", tval_g, tval_g, result, result);
   result = i64_mul(tval_d, tval_e);
   printf("%20lld * %20lld = %20lld (0x%016llx)\n", tval_d, tval_e, result, result);
   /* 0xba7a664f13077c9 */
   result = i64_mul(tval_a, tval_b);
   printf("%20lld * %20lld = %20lld (0x%016llx)\n", tval_a, tval_b, result, result);

   printf("----------------------------------------\n");

   return 0;
 }
	#include <stdio.h>
	#include "i64operations.h"

	int64_t tval_a = 1234567890003LL;
	int64_t tval_b = 2345678901235LL;
	int64_t tval_c = 1234567890001LL;
	int64_t tval_d = 10001LL;
	int64_t tval_e = 10000LL;
	uint64_t tval_f = 0xffffff0750135eb9;
	int64_t tval_g = -1;

	/* ~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~- */

	int
	i64_eq(int64_t a, int64_t b)
	{
	return (a == b);
	}

	int
	i64_neq(int64_t a, int64_t b)
	{
	return (a != b);
	}

	int
	i64_gt(int64_t a, int64_t b)
	{
	return (a > b);
	}

	int
	i64_le(int64_t a, int64_t b)
	{
	return (a <= b);
	}

	int
	i64_ge(int64_t a, int64_t b) {
	return (a >= b);
	}

	int
	i64_lt(int64_t a, int64_t b) {
	return (a < b);
	}

	int
	i64_uge(uint64_t a, uint64_t b)
	{
	return (a >= b);
	}

	int
	i64_ult(uint64_t a, uint64_t b)
	{
	return (a < b);
	}

	int
	i64_ugt(uint64_t a, uint64_t b)
	{
	return (a > b);
	}

	int
	i64_ule(uint64_t a, uint64_t b)
	{
	return (a <= b);
	}

	int64_t
	i64_eq_select(int64_t a, int64_t b, int64_t c, int64_t d)
	{
	return ((a == b) ? c : d);
	}

	int64_t
	i64_neq_select(int64_t a, int64_t b, int64_t c, int64_t d)
	{
	return ((a != b) ? c : d);
	}

	int64_t
	i64_gt_select(int64_t a, int64_t b, int64_t c, int64_t d) {
	return ((a > b) ? c : d);
	}

	int64_t
	i64_le_select(int64_t a, int64_t b, int64_t c, int64_t d) {
	return ((a <= b) ? c : d);
	}

	int64_t
	i64_ge_select(int64_t a, int64_t b, int64_t c, int64_t d) {
	return ((a >= b) ? c : d);
	}

	int64_t
	i64_lt_select(int64_t a, int64_t b, int64_t c, int64_t d) {
	return ((a < b) ? c : d);
	}

	uint64_t
	i64_ugt_select(uint64_t a, uint64_t b, uint64_t c, uint64_t d)
	{
	return ((a > b) ? c : d);
	}

	uint64_t
	i64_ule_select(uint64_t a, uint64_t b, uint64_t c, uint64_t d)
	{
	return ((a <= b) ? c : d);
	}

	uint64_t
	i64_uge_select(uint64_t a, uint64_t b, uint64_t c, uint64_t d) {
	return ((a >= b) ? c : d);
	}

	uint64_t
	i64_ult_select(uint64_t a, uint64_t b, uint64_t c, uint64_t d) {
	return ((a < b) ? c : d);
	}

	/* ~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~- */

	struct harness_int64_pred int64_tests_eq[] = {
	{"a %s a", &tval_a, &tval_a, &tval_c, &tval_d, TRUE_VAL, &tval_c},
	{"a %s b", &tval_a, &tval_b, &tval_c, &tval_d, FALSE_VAL, &tval_d},
	{"a %s c", &tval_a, &tval_c, &tval_c, &tval_d, FALSE_VAL, &tval_d},
	{"d %s e", &tval_d, &tval_e, &tval_c, &tval_d, FALSE_VAL, &tval_d},
	{"e %s e", &tval_e, &tval_e, &tval_c, &tval_d, TRUE_VAL, &tval_c}
	};

	struct harness_int64_pred int64_tests_neq[] = {
	{"a %s a", &tval_a, &tval_a, &tval_c, &tval_d, FALSE_VAL, &tval_d},
	{"a %s b", &tval_a, &tval_b, &tval_c, &tval_d, TRUE_VAL, &tval_c},
	{"a %s c", &tval_a, &tval_c, &tval_c, &tval_d, TRUE_VAL, &tval_c},
	{"d %s e", &tval_d, &tval_e, &tval_c, &tval_d, TRUE_VAL, &tval_c},
	{"e %s e", &tval_e, &tval_e, &tval_c, &tval_d, FALSE_VAL, &tval_d}
	};

	struct harness_int64_pred int64_tests_sgt[] = {
	{"a %s a", &tval_a, &tval_a, &tval_c, &tval_d, FALSE_VAL, &tval_d},
	{"a %s b", &tval_a, &tval_b, &tval_c, &tval_d, FALSE_VAL, &tval_d},
	{"a %s c", &tval_a, &tval_c, &tval_c, &tval_d, TRUE_VAL, &tval_c},
	{"d %s e", &tval_d, &tval_e, &tval_c, &tval_d, TRUE_VAL, &tval_c},
	{"e %s e", &tval_e, &tval_e, &tval_c, &tval_d, FALSE_VAL, &tval_d}
	};

	struct harness_int64_pred int64_tests_sle[] = {
	{"a %s a", &tval_a, &tval_a, &tval_c, &tval_d, TRUE_VAL, &tval_c},
	{"a %s b", &tval_a, &tval_b, &tval_c, &tval_d, TRUE_VAL, &tval_c},
	{"a %s c", &tval_a, &tval_c, &tval_c, &tval_d, FALSE_VAL, &tval_d},
	{"d %s e", &tval_d, &tval_e, &tval_c, &tval_d, FALSE_VAL, &tval_d},
	{"e %s e", &tval_e, &tval_e, &tval_c, &tval_d, TRUE_VAL, &tval_c}
	};

	struct harness_int64_pred int64_tests_sge[] = {
	{"a %s a", &tval_a, &tval_a, &tval_c, &tval_d, TRUE_VAL, &tval_c},
	{"a %s b", &tval_a, &tval_b, &tval_c, &tval_d, FALSE_VAL, &tval_d},
	{"a %s c", &tval_a, &tval_c, &tval_c, &tval_d, TRUE_VAL, &tval_c},
	{"d %s e", &tval_d, &tval_e, &tval_c, &tval_d, TRUE_VAL, &tval_c},
	{"e %s e", &tval_e, &tval_e, &tval_c, &tval_d, TRUE_VAL, &tval_c}
	};

	struct harness_int64_pred int64_tests_slt[] = {
	{"a %s a", &tval_a, &tval_a, &tval_c, &tval_d, FALSE_VAL, &tval_d},
	{"a %s b", &tval_a, &tval_b, &tval_c, &tval_d, TRUE_VAL, &tval_c},
	{"a %s c", &tval_a, &tval_c, &tval_c, &tval_d, FALSE_VAL, &tval_d},
	{"d %s e", &tval_d, &tval_e, &tval_c, &tval_d, FALSE_VAL, &tval_d},
	{"e %s e", &tval_e, &tval_e, &tval_c, &tval_d, FALSE_VAL, &tval_d}
	};

	struct int64_pred_s int64_preds[] = {
	{"eq", i64_eq, i64_eq_select,
	int64_tests_eq, ARR_SIZE(int64_tests_eq)},
	{"neq", i64_neq, i64_neq_select,
	int64_tests_neq, ARR_SIZE(int64_tests_neq)},
	{"gt", i64_gt, i64_gt_select,
	int64_tests_sgt, ARR_SIZE(int64_tests_sgt)},
	{"le", i64_le, i64_le_select,
	int64_tests_sle, ARR_SIZE(int64_tests_sle)},
	{"ge", i64_ge, i64_ge_select,
	int64_tests_sge, ARR_SIZE(int64_tests_sge)},
	{"lt", i64_lt, i64_lt_select,
	int64_tests_slt, ARR_SIZE(int64_tests_slt)}
	};

	/* ~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~- */

	struct harness_uint64_pred uint64_tests_ugt[] = {
	{"a %s a", (uint64_t ) &tval_a, (uint64_t ) &tval_a, (uint64_t *) &tval_c,
	(uint64_t ) &tval_d, FALSE_VAL, (uint64_t ) &tval_d},
	{"a %s b", (uint64_t ) &tval_a, (uint64_t ) &tval_b, (uint64_t *) &tval_c,
	(uint64_t ) &tval_d, FALSE_VAL, (uint64_t ) &tval_d },
	{"a %s c", (uint64_t ) &tval_a, (uint64_t ) &tval_c, (uint64_t *) &tval_c,
	(uint64_t ) &tval_d, TRUE_VAL, (uint64_t ) &tval_c },
	{"d %s e", (uint64_t ) &tval_d, (uint64_t ) &tval_e, (uint64_t *) &tval_c,
	(uint64_t ) &tval_d, TRUE_VAL, (uint64_t ) &tval_c },
	{"e %s e", (uint64_t ) &tval_e, (uint64_t ) &tval_e, (uint64_t *) &tval_c,
	(uint64_t ) &tval_d, FALSE_VAL, (uint64_t ) &tval_d }
	};

	struct harness_uint64_pred uint64_tests_ule[] = {
	{"a %s a", (uint64_t ) &tval_a, (uint64_t ) &tval_a, (uint64_t *) &tval_c,
	(uint64_t ) &tval_d, TRUE_VAL, (uint64_t ) &tval_c},
	{"a %s b", (uint64_t ) &tval_a, (uint64_t ) &tval_b, (uint64_t *) &tval_c,
	(uint64_t ) &tval_d, TRUE_VAL, (uint64_t ) &tval_c},
	{"a %s c", (uint64_t ) &tval_a, (uint64_t ) &tval_c, (uint64_t *) &tval_c,
	(uint64_t ) &tval_d, FALSE_VAL, (uint64_t ) &tval_d},
	{"d %s e", (uint64_t ) &tval_d, (uint64_t ) &tval_e, (uint64_t *) &tval_c,
	(uint64_t ) &tval_d, FALSE_VAL, (uint64_t ) &tval_d},
	{"e %s e", (uint64_t ) &tval_e, (uint64_t ) &tval_e, (uint64_t *) &tval_c,
	(uint64_t ) &tval_d, TRUE_VAL, (uint64_t ) &tval_c}
	};

	struct harness_uint64_pred uint64_tests_uge[] = {
	{"a %s a", (uint64_t ) &tval_a, (uint64_t ) &tval_a, (uint64_t *) &tval_c,
	(uint64_t ) &tval_d, TRUE_VAL, (uint64_t ) &tval_c},
	{"a %s b", (uint64_t ) &tval_a, (uint64_t ) &tval_b, (uint64_t *) &tval_c,
	(uint64_t ) &tval_d, FALSE_VAL, (uint64_t ) &tval_d},
	{"a %s c", (uint64_t ) &tval_a, (uint64_t ) &tval_c, (uint64_t *) &tval_c,
	(uint64_t ) &tval_d, TRUE_VAL, (uint64_t ) &tval_c},
	{"d %s e", (uint64_t ) &tval_d, (uint64_t ) &tval_e, (uint64_t *) &tval_c,
	(uint64_t ) &tval_d, TRUE_VAL, (uint64_t ) &tval_c},
	{"e %s e", (uint64_t ) &tval_e, (uint64_t ) &tval_e, (uint64_t *) &tval_c,
	(uint64_t ) &tval_d, TRUE_VAL, (uint64_t ) &tval_c}
	};

	struct harness_uint64_pred uint64_tests_ult[] = {
	{"a %s a", (uint64_t ) &tval_a, (uint64_t ) &tval_a, (uint64_t *) &tval_c,
	(uint64_t ) &tval_d, FALSE_VAL, (uint64_t ) &tval_d},
	{"a %s b", (uint64_t ) &tval_a, (uint64_t ) &tval_b, (uint64_t *) &tval_c,
	(uint64_t ) &tval_d, TRUE_VAL, (uint64_t ) &tval_c},
	{"a %s c", (uint64_t ) &tval_a, (uint64_t ) &tval_c, (uint64_t *) &tval_c,
	(uint64_t ) &tval_d, FALSE_VAL, (uint64_t ) &tval_d},
	{"d %s e", (uint64_t ) &tval_d, (uint64_t ) &tval_e, (uint64_t *) &tval_c,
	(uint64_t ) &tval_d, FALSE_VAL, (uint64_t ) &tval_d},
	{"e %s e", (uint64_t ) &tval_e, (uint64_t ) &tval_e, (uint64_t *) &tval_c,
	(uint64_t ) &tval_d, FALSE_VAL, (uint64_t ) &tval_d}
	};

	struct uint64_pred_s uint64_preds[] = {
	{"ugt", i64_ugt, i64_ugt_select,
	uint64_tests_ugt, ARR_SIZE(uint64_tests_ugt)},
	{"ule", i64_ule, i64_ule_select,
	uint64_tests_ule, ARR_SIZE(uint64_tests_ule)},
	{"uge", i64_uge, i64_uge_select,
	uint64_tests_uge, ARR_SIZE(uint64_tests_uge)},
	{"ult", i64_ult, i64_ult_select,
	uint64_tests_ult, ARR_SIZE(uint64_tests_ult)}
	};

	int
	compare_expect_int64(const struct int64_pred_s * pred)
	{
	int j, failed = 0;

	for (j = 0; j < pred->n_tests; ++j) {
	int pred_result;

	pred_result = (pred->predfunc) (pred->tests[j].lhs, *pred->tests[j].rhs);

	if (pred_result != pred->tests[j].expected) {
	char str[64];

	sprintf(str, pred->tests[j].fmt_string, pred->name);
	printf("%s: returned value is %d, expecting %d\n", str,
	pred_result, pred->tests[j].expected);
	printf(" lhs = %19lld (0x%016llx)\n", *pred->tests[j].lhs,
	*pred->tests[j].lhs);
	printf(" rhs = %19lld (0x%016llx)\n", *pred->tests[j].rhs,
	*pred->tests[j].rhs);
	++failed;
	} else {
	int64_t selresult;

	selresult = (pred->selfunc) (pred->tests[j].lhs, pred->tests[j].rhs,
	*pred->tests[j].select_a,
	*pred->tests[j].select_b);

	if (selresult != *pred->tests[j].select_expected) {
	char str[64];

	sprintf(str, pred->tests[j].fmt_string, pred->name);
	printf("%s select: returned value is %d, expecting %d\n", str,
	pred_result, pred->tests[j].expected);
	printf(" lhs = %19lld (0x%016llx)\n", *pred->tests[j].lhs,
	*pred->tests[j].lhs);
	printf(" rhs = %19lld (0x%016llx)\n", *pred->tests[j].rhs,
	*pred->tests[j].rhs);
	printf(" true = %19lld (0x%016llx)\n", *pred->tests[j].select_a,
	*pred->tests[j].select_a);
	printf(" false = %19lld (0x%016llx)\n", *pred->tests[j].select_b,
	*pred->tests[j].select_b);
	++failed;
	}
	}
	}

	printf(" %d tests performed, should be %d.\n", j, pred->n_tests);

	return failed;
	}

	int
	compare_expect_uint64(const struct uint64_pred_s * pred)
	{
	int j, failed = 0;

	for (j = 0; j < pred->n_tests; ++j) {
	int pred_result;

	pred_result = (pred->predfunc) (pred->tests[j].lhs, *pred->tests[j].rhs);
	if (pred_result != pred->tests[j].expected) {
	char str[64];

	sprintf(str, pred->tests[j].fmt_string, pred->name);
	printf("%s: returned value is %d, expecting %d\n", str,
	pred_result, pred->tests[j].expected);
	printf(" lhs = %19llu (0x%016llx)\n", *pred->tests[j].lhs,
	*pred->tests[j].lhs);
	printf(" rhs = %19llu (0x%016llx)\n", *pred->tests[j].rhs,
	*pred->tests[j].rhs);
	++failed;
	} else {
	uint64_t selresult;

	selresult = (pred->selfunc) (pred->tests[j].lhs, pred->tests[j].rhs,
	*pred->tests[j].select_a,
	*pred->tests[j].select_b);
	if (selresult != *pred->tests[j].select_expected) {
	char str[64];

	sprintf(str, pred->tests[j].fmt_string, pred->name);
	printf("%s select: returned value is %d, expecting %d\n", str,
	pred_result, pred->tests[j].expected);
	printf(" lhs = %19llu (0x%016llx)\n", *pred->tests[j].lhs,
	*pred->tests[j].lhs);
	printf(" rhs = %19llu (0x%016llx)\n", *pred->tests[j].rhs,
	*pred->tests[j].rhs);
	printf(" true = %19llu (0x%016llx)\n", *pred->tests[j].select_a,
	*pred->tests[j].select_a);
	printf(" false = %19llu (0x%016llx)\n", *pred->tests[j].select_b,
	*pred->tests[j].select_b);
	++failed;
	}
	}
	}

	printf(" %d tests performed, should be %d.\n", j, pred->n_tests);

	return failed;
	}

	/* ~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~- */

	int
	test_i64_sext_i32(int in, int64_t expected) {
	int64_t result = (int64_t) in;

	if (result != expected) {
	char str[64];
	sprintf(str, "i64_sext_i32(%d) returns %lld\n", in, result);
	return 1;
	}

	return 0;
	}

	int
	test_i64_sext_i16(short in, int64_t expected) {
	int64_t result = (int64_t) in;

	if (result != expected) {
	char str[64];
	sprintf(str, "i64_sext_i16(%hd) returns %lld\n", in, result);
	return 1;
	}

	return 0;
	}

	int
	test_i64_sext_i8(signed char in, int64_t expected) {
	int64_t result = (int64_t) in;

	if (result != expected) {
	char str[64];
	sprintf(str, "i64_sext_i8(%d) returns %lld\n", in, result);
	return 1;
	}

	return 0;
	}

	int
	test_i64_zext_i32(unsigned int in, uint64_t expected) {
	uint64_t result = (uint64_t) in;

	if (result != expected) {
	char str[64];
	sprintf(str, "i64_zext_i32(%u) returns %llu\n", in, result);
	return 1;
	}

	return 0;
	}

	int
	test_i64_zext_i16(unsigned short in, uint64_t expected) {
	uint64_t result = (uint64_t) in;

	if (result != expected) {
	char str[64];
	sprintf(str, "i64_zext_i16(%hu) returns %llu\n", in, result);
	return 1;
	}

	return 0;
	}

	int
	test_i64_zext_i8(unsigned char in, uint64_t expected) {
	uint64_t result = (uint64_t) in;

	if (result != expected) {
	char str[64];
	sprintf(str, "i64_zext_i8(%u) returns %llu\n", in, result);
	return 1;
	}

	return 0;
	}

	/* ~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~- */

	int64_t
	i64_shl_const(int64_t a) {
	return a << 10;
	}

	int64_t
	i64_shl(int64_t a, int amt) {
	return a << amt;
	}

	uint64_t
	u64_shl_const(uint64_t a) {
	return a << 10;
	}

	uint64_t
	u64_shl(uint64_t a, int amt) {
	return a << amt;
	}

	int64_t
	i64_srl_const(int64_t a) {
	return a >> 10;
	}

	int64_t
	i64_srl(int64_t a, int amt) {
	return a >> amt;
	}

	uint64_t
	u64_srl_const(uint64_t a) {
	return a >> 10;
	}

	uint64_t
	u64_srl(uint64_t a, int amt) {
	return a >> amt;
	}

	int64_t
	i64_sra_const(int64_t a) {
	return a >> 10;
	}

	int64_t
	i64_sra(int64_t a, int amt) {
	return a >> amt;
	}

	uint64_t
	u64_sra_const(uint64_t a) {
	return a >> 10;
	}

	uint64_t
	u64_sra(uint64_t a, int amt) {
	return a >> amt;
	}

	int
	test_u64_constant_shift(const char func_name, uint64_t (func)(uint64_t), uint64_t a, uint64_t expected) {
	uint64_t result = (*func)(a);

	if (result != expected) {
	printf("%s(0x%016llx) returns 0x%016llx, expected 0x%016llx\n", func_name, a, result, expected);
	return 1;
	}

	return 0;
	}

	int
	test_i64_constant_shift(const char func_name, int64_t (func)(int64_t), int64_t a, int64_t expected) {
	int64_t result = (*func)(a);

	if (result != expected) {
	printf("%s(0x%016llx) returns 0x%016llx, expected 0x%016llx\n", func_name, a, result, expected);
	return 1;
	}

	return 0;
	}

	int
	test_u64_variable_shift(const char func_name, uint64_t (func)(uint64_t, int), uint64_t a, unsigned int b, uint64_t expected) {
	uint64_t result = (*func)(a, b);

	if (result != expected) {
	printf("%s(0x%016llx, %d) returns 0x%016llx, expected 0x%016llx\n", func_name, a, b, result, expected);
	return 1;
	}

	return 0;
	}

	int
	test_i64_variable_shift(const char func_name, int64_t (func)(int64_t, int), int64_t a, unsigned int b, int64_t expected) {
	int64_t result = (*func)(a, b);

	if (result != expected) {
	printf("%s(0x%016llx, %d) returns 0x%016llx, expected 0x%016llx\n", func_name, a, b, result, expected);
	return 1;
	}

	return 0;
	}

	/* ~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~- */

	int64_t i64_mul(int64_t a, int64_t b) {
	return a * b;
	}

	/* ~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~-~- */

	int
	main(void)
	{
	int i, j, failed = 0;
	const char *something_failed = " %d tests failed.\n";
	const char *all_tests_passed = " All tests passed.\n";

	printf("tval_a = %20lld (0x%016llx)\n", tval_a, tval_a);
	printf("tval_b = %20lld (0x%016llx)\n", tval_b, tval_b);
	printf("tval_c = %20lld (0x%016llx)\n", tval_c, tval_c);
	printf("tval_d = %20lld (0x%016llx)\n", tval_d, tval_d);
	printf("tval_e = %20lld (0x%016llx)\n", tval_e, tval_e);
	printf("tval_f = %20llu (0x%016llx)\n", tval_f, tval_f);
	printf("tval_g = %20llu (0x%016llx)\n", tval_g, tval_g);
	printf("----------------------------------------\n");

	for (i = 0; i < ARR_SIZE(int64_preds); ++i) {
	printf("%s series:\n", int64_preds[i].name);
	if ((failed = compare_expect_int64(int64_preds + i)) > 0) {
	printf(something_failed, failed);
	} else {
	printf(all_tests_passed);
	}

	printf("----------------------------------------\n");
	}

	for (i = 0; i < ARR_SIZE(uint64_preds); ++i) {
	printf("%s series:\n", uint64_preds[i].name);
	if ((failed = compare_expect_uint64(uint64_preds + i)) > 0) {
	printf(something_failed, failed);
	} else {
	printf(all_tests_passed);
	}

	printf("----------------------------------------\n");
	}

	/----------------------------------------------------------------------/

	puts("signed/zero-extend tests:");

	failed = 0;
	failed += test_i64_sext_i32(-1, -1LL);
	failed += test_i64_sext_i32(10, 10LL);
	failed += test_i64_sext_i32(0x7fffffff, 0x7fffffffLL);
	failed += test_i64_sext_i16(-1, -1LL);
	failed += test_i64_sext_i16(10, 10LL);
	failed += test_i64_sext_i16(0x7fff, 0x7fffLL);
	failed += test_i64_sext_i8(-1, -1LL);
	failed += test_i64_sext_i8(10, 10LL);
	failed += test_i64_sext_i8(0x7f, 0x7fLL);

	failed += test_i64_zext_i32(0xffffffff, 0x00000000ffffffffLLU);
	failed += test_i64_zext_i32(0x01234567, 0x0000000001234567LLU);
	failed += test_i64_zext_i16(0xffff, 0x000000000000ffffLLU);
	failed += test_i64_zext_i16(0x569a, 0x000000000000569aLLU);
	failed += test_i64_zext_i8(0xff, 0x00000000000000ffLLU);
	failed += test_i64_zext_i8(0xa0, 0x00000000000000a0LLU);

	if (failed > 0) {
	printf(" %d tests failed.\n", failed);
	} else {
	printf(" All tests passed.\n");
	}

	printf("----------------------------------------\n");

	failed = 0;
	puts("signed left/right shift tests:");
	failed += test_i64_constant_shift("i64_shl_const", i64_shl_const, tval_a, 0x00047dc7ec114c00LL);
	failed += test_i64_variable_shift("i64_shl", i64_shl, tval_a, 10, 0x00047dc7ec114c00LL);
	failed += test_i64_constant_shift("i64_srl_const", i64_srl_const, tval_a, 0x0000000047dc7ec1LL);
	failed += test_i64_variable_shift("i64_srl", i64_srl, tval_a, 10, 0x0000000047dc7ec1LL);
	failed += test_i64_constant_shift("i64_sra_const", i64_sra_const, tval_a, 0x0000000047dc7ec1LL);
	failed += test_i64_variable_shift("i64_sra", i64_sra, tval_a, 10, 0x0000000047dc7ec1LL);

	if (failed > 0) {
	printf(" %d tests ailed.\n", failed);
	} else {
	printf(" All tests passed.\n");
	}

	printf("----------------------------------------\n");

	failed = 0;
	puts("unsigned left/right shift tests:");
	failed += test_u64_constant_shift("u64_shl_const", u64_shl_const, tval_f, 0xfffc1d404d7ae400LL);
	failed += test_u64_variable_shift("u64_shl", u64_shl, tval_f, 10, 0xfffc1d404d7ae400LL);
	failed += test_u64_constant_shift("u64_srl_const", u64_srl_const, tval_f, 0x003fffffc1d404d7LL);
	failed += test_u64_variable_shift("u64_srl", u64_srl, tval_f, 10, 0x003fffffc1d404d7LL);
	failed += test_i64_constant_shift("i64_sra_const", i64_sra_const, tval_f, 0xffffffffc1d404d7LL);
	failed += test_i64_variable_shift("i64_sra", i64_sra, tval_f, 10, 0xffffffffc1d404d7LL);
	failed += test_u64_constant_shift("u64_sra_const", u64_sra_const, tval_f, 0x003fffffc1d404d7LL);
	failed += test_u64_variable_shift("u64_sra", u64_sra, tval_f, 10, 0x003fffffc1d404d7LL);

	if (failed > 0) {
	printf(" %d tests ailed.\n", failed);
	} else {
	printf(" All tests passed.\n");
	}

	printf("----------------------------------------\n");

	int64_t result;

	result = i64_mul(tval_g, tval_g);
	printf("%20lld * %20lld = %20lld (0x%016llx)\n", tval_g, tval_g, result, result);
	result = i64_mul(tval_d, tval_e);
	printf("%20lld * %20lld = %20lld (0x%016llx)\n", tval_d, tval_e, result, result);
	/* 0xba7a664f13077c9 */
	result = i64_mul(tval_a, tval_b);
	printf("%20lld * %20lld = %20lld (0x%016llx)\n", tval_a, tval_b, result, result);

	printf("----------------------------------------\n");

	return 0;
	}