main/none/tests/mips32/round.c - platform/external/valgrind - Git at Google

 #include <stdio.h>

 typedef enum {
    CEILWS=0, CEILWD,
    FLOORWS, FLOORWD,
    ROUNDWS, ROUNDWD,
    TRUNCWS, TRUNCWD
 } flt_dir_op_t;

 typedef enum {
    CVTDS, CVTDW,
    CVTSD, CVTSW,
    CVTWS, CVTWD
 } flt_round_op_t;

 typedef enum {
    TO_NEAREST=0, TO_ZERO, TO_PLUS_INFINITY, TO_MINUS_INFINITY } round_mode_t;
 char *round_mode_name[] = { "near", "zero", "+inf", "-inf" };


 const char *flt_dir_op_names[] = {
    "ceil.w.s", "ceil.w.d",
    "floor.w.s", "floor.w.d",
    "round.w.s", "round.w.d",
    "trunc.w.s", "trunc.w.d"
 };

 const char *flt_round_op_names[] = {
    "cvt.d.s", "cvt.d.w",
    "cvt.s.d", "cvt.s.w",
    "cvt.w.s", "cvt.w.d"
 };

 const double fs_d[] = {
    0, 456.25, 3, -1,
    1384.5, -7.25, 1000000000, -5786.25,
    1752, 0.015625, 0.03125, -248562.75,
    -45786.5, 456, 34.03125, 45786.75,
    1752065, 107, -45667.25, -7,
    -347856.5, 356047, -1.25, 23.0625
 };

 const float fs_f[] = {
    0, 456.25, 3, -1,
    1384.5, -7.25, 1000000000, -5786.25,
    1752, 0.015625, 0.03125, -248562.75,
    -45786.5, 456, 34.03125, 45786.75,
    1752065, 107, -45667.25, -7,
    -347856.5, 356047, -1.25, 23.0625
 };

 const int fs_w[] = {
    0, 456, 3, -1,
    0xffffffff, 356, 1000000000, -5786,
    1752, 24575, 10, -248562,
    -45786, 456, 34, 45786,
    1752065, 107, -45667, -7,
    -347856, 0x80000000, 0xFFFFFFF, 23
 };

 #define BINOP(op)                                   \
         __asm__ volatile(op"   %1, %2, %3"  "\n\t"  \
                          "cfc1 %0, $31"     "\n\t"  \
                          : "=r" (fcsr), "=f"(fd)    \
                          : "f"(f) , "f"(fB));

 #define UNOPdd(op)                                  \
         fd_d = 0;                                   \
         __asm__ volatile(op"   %1, %2"      "\n\t"  \
                          "cfc1 %0, $31"     "\n\t"  \
                          : "=r" (fcsr), "=f"(fd_d)  \
                          : "f"(fs_d[i]));

 #define UNOPff(op)                                  \
         fd_f = 0;                                   \
         __asm__ volatile(op" %1, %2"        "\n\t"  \
                          "cfc1 %0, $31"     "\n\t"  \
                          : "=r" (fcsr), "=f"(fd_f)  \
                          : "f"(fs_f[i]));

 #define UNOPfd(op)                                  \
         fd_d = 0;                                   \
         __asm__ volatile(op"   %1, %2"   "\n\t"     \
                          "cfc1 %0, $31"  "\n\t"     \
                          : "=r" (fcsr), "=f"(fd_d)  \
                          : "f"(fs_f[i]));

 #define UNOPdf(op)                                  \
         fd_f = 0;                                   \
         __asm__ volatile(op"   %1, %2"   "\n\t"     \
                          "cfc1 %0, $31"  "\n\t"     \
                          : "=r" (fcsr), "=f"(fd_f)  \
                          : "f"(fs_d[i]));

 #define UNOPfw(op)                                  \
         fd_w = 0;                                   \
         __asm__ volatile(op"   $f0, %2"   "\n\t"    \
                          "mfc1 %1,  $f0"  "\n\t"    \
                          "cfc1 %0, $31"   "\n\t"    \
                          : "=r" (fcsr), "=r"(fd_w)  \
                          : "f"(fs_f[i])             \
                          : "$f0");

 #define UNOPdw(op)                                  \
         fd_w = 0;                                   \
         __asm__ volatile(op" $f0, %2"    "\n\t"     \
                          "mfc1 %1, $f0"  "\n\t"     \
                          "cfc1 %0, $31"  "\n\t"     \
                          : "=r" (fcsr), "=r"(fd_w)  \
                          : "f"(fs_d[i])             \
                          : "$f0");

 #define UNOPwd(op)                                  \
         fd_d = 0;                                   \
         __asm__ volatile("mtc1 %2, $f0"  "\n\t"     \
                          op"   %1, $f0"  "\n\t"     \
                          "cfc1 %0, $31"  "\n\t"     \
                          : "=r" (fcsr), "=f"(fd_d)  \
                          : "r"(fs_w[i])             \
                          : "$f0", "$f1");

 #define UNOPwf(op)                                  \
         fd_f = 0;                                   \
         __asm__ volatile("mtc1 %2, $f0"  "\n\t"     \
                          op"   %1, $f0"  "\n\t"     \
                          "cfc1 %0, $31"  "\n\t"     \
                          : "=r" (fcsr), "=f"(fd_f)  \
                          : "r"(fs_w[i])             \
                          : "$f0");

 void set_rounding_mode(round_mode_t mode)
 {
    switch(mode) {
       case TO_NEAREST:
          __asm__ volatile("ctc1 $zero, $31"  "\n\t");
          break;
       case TO_ZERO:
          __asm__ volatile("li    $t0, 0x1"  "\n\t"
                           "ctc1  $t0, $31"  "\n\t");
          break;
       case TO_PLUS_INFINITY:
           __asm__ volatile("li    $t0, 0x2"  "\n\t"
                            "ctc1  $t0, $31"  "\n\t");
          break;
       case TO_MINUS_INFINITY:
           __asm__ volatile("li    $t0, 0x3"  "\n\t"
                            "ctc1  $t0, $31"  "\n\t");
          break;
    }
 }

 int directedRoundingMode(flt_dir_op_t op) {
    int fd_w = 0;
    int i;
    int fcsr = 0;
    round_mode_t rm = TO_NEAREST;
    for (i = 0; i < 24; i++) {
       set_rounding_mode(rm);
       switch(op) {
          case CEILWS:
               UNOPfw("ceil.w.s");
               printf("%s %d %f\n", flt_dir_op_names[op], fd_w, fs_f[i]);
               printf("fcsr: 0x%x\n", fcsr);
               break;
          case CEILWD:
               UNOPdw("ceil.w.d");
               printf("%s %d %lf\n", flt_dir_op_names[op], fd_w, fs_d[i]);
               printf("fcsr: 0x%x\n", fcsr);
               break;
          case FLOORWS:
               UNOPfw("floor.w.s");
               printf("%s %d %f\n", flt_dir_op_names[op], fd_w, fs_f[i]);
               printf("fcsr: 0x%x\n", fcsr);
               break;
          case FLOORWD:
               UNOPdw("floor.w.d");
               printf("%s %d %lf\n", flt_dir_op_names[op], fd_w, fs_d[i]);
               printf("fcsr: 0x%x\n", fcsr);
               break;
          case ROUNDWS:
               UNOPfw("round.w.s");
               printf("%s %d %f\n", flt_dir_op_names[op], fd_w, fs_f[i]);
               printf("fcsr: 0x%x\n", fcsr);
               break;
          case ROUNDWD:
               UNOPdw("round.w.d");
               printf("%s %d %lf\n", flt_dir_op_names[op], fd_w, fs_d[i]);
               printf("fcsr: 0x%x\n", fcsr);
               break;
          case TRUNCWS:
               UNOPfw("trunc.w.s");
               printf("%s %d %f\n", flt_dir_op_names[op], fd_w, fs_f[i]);
               printf("fcsr: 0x%x\n", fcsr);
               break;
          case TRUNCWD:
               UNOPdw("trunc.w.d");
               printf("%s %d %lf\n", flt_dir_op_names[op], fd_w, fs_d[i]);
               printf("fcsr: 0x%x\n", fcsr);
               break;
         default:
             printf("error\n");
             break;
         }
     }
    return 0;
 }

 int FCSRRoundingMode(flt_round_op_t op1)
 {
    double fd_d = 0;
    float fd_f = 0;
    int fd_w = 0;
    int i;
    int fcsr = 0;
    round_mode_t rm;
    for (rm = TO_NEAREST; rm <= TO_MINUS_INFINITY; rm ++) {
       set_rounding_mode(rm);
       printf("roundig mode: %s\n", round_mode_name[rm]);
       for (i = 0; i < 24; i++) {
          set_rounding_mode(rm);
          switch(op1) {
             case CVTDS:
                  UNOPfd("cvt.d.s");
                  printf("%s %lf %lf\n", flt_round_op_names[op1], fd_d, fs_f[i]);
                  printf("fcsr: 0x%x\n", fcsr);
                  break;
             case CVTDW:
                  UNOPwd("cvt.d.w");
                  printf("%s %lf %d\n", flt_round_op_names[op1], fd_d, fs_w[i]);
                  printf("fcsr: 0x%x\n", fcsr);
                  break;
             case CVTSD:
                  UNOPdf("cvt.s.d");
                  printf("%s %f %lf\n", flt_round_op_names[op1], fd_f, fs_d[i]);
                  printf("fcsr: 0x%x\n", fcsr);
                  break;
             case CVTSW:
                  UNOPwf("cvt.s.w");
                  printf("%s %f %d\n", flt_round_op_names[op1], fd_f, fs_w[i]);
                  printf("fcsr: 0x%x\n", fcsr);
                  break;
             case CVTWS:
                  UNOPfw("cvt.w.s");
                  printf("%s %d %f\n", flt_round_op_names[op1], fd_w, fs_f[i]);
                  printf("fcsr: 0x%x\n", fcsr);
                  break;
             case CVTWD:
                  UNOPdw("cvt.w.d");
                  printf("%s %d %lf\n", flt_round_op_names[op1], fd_w, fs_d[i]);
                  printf("fcsr: 0x%x\n", fcsr);
                  break;
             default:
                  printf("error\n");
                  break;
          }
       }
    }
    return 0;
 }

 int main()
 {
    flt_dir_op_t op;
    flt_round_op_t op1;

    printf("-------------------------- %s --------------------------\n",
         "test FPU Conversion Operations Using a Directed Rounding Mode");
    for (op = CEILWS; op <= TRUNCWD; op++) {
       directedRoundingMode(op);
    }

    printf("-------------------------- %s --------------------------\n",
         "test FPU Conversion Operations Using the FCSR Rounding Mode");
    for (op1 = CVTDS; op1 <= CVTWD; op1++) {
       FCSRRoundingMode(op1);
    }
    return 0;
 }
	#include <stdio.h>

	typedef enum {
	CEILWS=0, CEILWD,
	FLOORWS, FLOORWD,
	ROUNDWS, ROUNDWD,
	TRUNCWS, TRUNCWD
	} flt_dir_op_t;

	typedef enum {
	CVTDS, CVTDW,
	CVTSD, CVTSW,
	CVTWS, CVTWD
	} flt_round_op_t;

	typedef enum {
	TO_NEAREST=0, TO_ZERO, TO_PLUS_INFINITY, TO_MINUS_INFINITY } round_mode_t;
	char *round_mode_name[] = { "near", "zero", "+inf", "-inf" };


	const char *flt_dir_op_names[] = {
	"ceil.w.s", "ceil.w.d",
	"floor.w.s", "floor.w.d",
	"round.w.s", "round.w.d",
	"trunc.w.s", "trunc.w.d"
	};

	const char *flt_round_op_names[] = {
	"cvt.d.s", "cvt.d.w",
	"cvt.s.d", "cvt.s.w",
	"cvt.w.s", "cvt.w.d"
	};

	const double fs_d[] = {
	0, 456.25, 3, -1,
	1384.5, -7.25, 1000000000, -5786.25,
	1752, 0.015625, 0.03125, -248562.75,
	-45786.5, 456, 34.03125, 45786.75,
	1752065, 107, -45667.25, -7,
	-347856.5, 356047, -1.25, 23.0625
	};

	const float fs_f[] = {
	0, 456.25, 3, -1,
	1384.5, -7.25, 1000000000, -5786.25,
	1752, 0.015625, 0.03125, -248562.75,
	-45786.5, 456, 34.03125, 45786.75,
	1752065, 107, -45667.25, -7,
	-347856.5, 356047, -1.25, 23.0625
	};

	const int fs_w[] = {
	0, 456, 3, -1,
	0xffffffff, 356, 1000000000, -5786,
	1752, 24575, 10, -248562,
	-45786, 456, 34, 45786,
	1752065, 107, -45667, -7,
	-347856, 0x80000000, 0xFFFFFFF, 23
	};

	#define BINOP(op) \
	__asm__ volatile(op" %1, %2, %3" "\n\t" \
	"cfc1 %0, $31" "\n\t" \
	: "=r" (fcsr), "=f"(fd) \
	: "f"(f) , "f"(fB));

	#define UNOPdd(op) \
	fd_d = 0; \
	__asm__ volatile(op" %1, %2" "\n\t" \
	"cfc1 %0, $31" "\n\t" \
	: "=r" (fcsr), "=f"(fd_d) \
	: "f"(fs_d[i]));

	#define UNOPff(op) \
	fd_f = 0; \
	__asm__ volatile(op" %1, %2" "\n\t" \
	"cfc1 %0, $31" "\n\t" \
	: "=r" (fcsr), "=f"(fd_f) \
	: "f"(fs_f[i]));

	#define UNOPfd(op) \
	fd_d = 0; \
	__asm__ volatile(op" %1, %2" "\n\t" \
	"cfc1 %0, $31" "\n\t" \
	: "=r" (fcsr), "=f"(fd_d) \
	: "f"(fs_f[i]));

	#define UNOPdf(op) \
	fd_f = 0; \
	__asm__ volatile(op" %1, %2" "\n\t" \
	"cfc1 %0, $31" "\n\t" \
	: "=r" (fcsr), "=f"(fd_f) \
	: "f"(fs_d[i]));

	#define UNOPfw(op) \
	fd_w = 0; \
	__asm__ volatile(op" $f0, %2" "\n\t" \
	"mfc1 %1, $f0" "\n\t" \
	"cfc1 %0, $31" "\n\t" \
	: "=r" (fcsr), "=r"(fd_w) \
	: "f"(fs_f[i]) \
	: "$f0");

	#define UNOPdw(op) \
	fd_w = 0; \
	__asm__ volatile(op" $f0, %2" "\n\t" \
	"mfc1 %1, $f0" "\n\t" \
	"cfc1 %0, $31" "\n\t" \
	: "=r" (fcsr), "=r"(fd_w) \
	: "f"(fs_d[i]) \
	: "$f0");

	#define UNOPwd(op) \
	fd_d = 0; \
	__asm__ volatile("mtc1 %2, $f0" "\n\t" \
	op" %1, $f0" "\n\t" \
	"cfc1 %0, $31" "\n\t" \
	: "=r" (fcsr), "=f"(fd_d) \
	: "r"(fs_w[i]) \
	: "$f0", "$f1");

	#define UNOPwf(op) \
	fd_f = 0; \
	__asm__ volatile("mtc1 %2, $f0" "\n\t" \
	op" %1, $f0" "\n\t" \
	"cfc1 %0, $31" "\n\t" \
	: "=r" (fcsr), "=f"(fd_f) \
	: "r"(fs_w[i]) \
	: "$f0");

	void set_rounding_mode(round_mode_t mode)
	{
	switch(mode) {
	case TO_NEAREST:
	__asm__ volatile("ctc1 $zero, $31" "\n\t");
	break;
	case TO_ZERO:
	__asm__ volatile("li $t0, 0x1" "\n\t"
	"ctc1 $t0, $31" "\n\t");
	break;
	case TO_PLUS_INFINITY:
	__asm__ volatile("li $t0, 0x2" "\n\t"
	"ctc1 $t0, $31" "\n\t");
	break;
	case TO_MINUS_INFINITY:
	__asm__ volatile("li $t0, 0x3" "\n\t"
	"ctc1 $t0, $31" "\n\t");
	break;
	}
	}

	int directedRoundingMode(flt_dir_op_t op) {
	int fd_w = 0;
	int i;
	int fcsr = 0;
	round_mode_t rm = TO_NEAREST;
	for (i = 0; i < 24; i++) {
	set_rounding_mode(rm);
	switch(op) {
	case CEILWS:
	UNOPfw("ceil.w.s");
	printf("%s %d %f\n", flt_dir_op_names[op], fd_w, fs_f[i]);
	printf("fcsr: 0x%x\n", fcsr);
	break;
	case CEILWD:
	UNOPdw("ceil.w.d");
	printf("%s %d %lf\n", flt_dir_op_names[op], fd_w, fs_d[i]);
	printf("fcsr: 0x%x\n", fcsr);
	break;
	case FLOORWS:
	UNOPfw("floor.w.s");
	printf("%s %d %f\n", flt_dir_op_names[op], fd_w, fs_f[i]);
	printf("fcsr: 0x%x\n", fcsr);
	break;
	case FLOORWD:
	UNOPdw("floor.w.d");
	printf("%s %d %lf\n", flt_dir_op_names[op], fd_w, fs_d[i]);
	printf("fcsr: 0x%x\n", fcsr);
	break;
	case ROUNDWS:
	UNOPfw("round.w.s");
	printf("%s %d %f\n", flt_dir_op_names[op], fd_w, fs_f[i]);
	printf("fcsr: 0x%x\n", fcsr);
	break;
	case ROUNDWD:
	UNOPdw("round.w.d");
	printf("%s %d %lf\n", flt_dir_op_names[op], fd_w, fs_d[i]);
	printf("fcsr: 0x%x\n", fcsr);
	break;
	case TRUNCWS:
	UNOPfw("trunc.w.s");
	printf("%s %d %f\n", flt_dir_op_names[op], fd_w, fs_f[i]);
	printf("fcsr: 0x%x\n", fcsr);
	break;
	case TRUNCWD:
	UNOPdw("trunc.w.d");
	printf("%s %d %lf\n", flt_dir_op_names[op], fd_w, fs_d[i]);
	printf("fcsr: 0x%x\n", fcsr);
	break;
	default:
	printf("error\n");
	break;
	}
	}
	return 0;
	}

	int FCSRRoundingMode(flt_round_op_t op1)
	{
	double fd_d = 0;
	float fd_f = 0;
	int fd_w = 0;
	int i;
	int fcsr = 0;
	round_mode_t rm;
	for (rm = TO_NEAREST; rm <= TO_MINUS_INFINITY; rm ++) {
	set_rounding_mode(rm);
	printf("roundig mode: %s\n", round_mode_name[rm]);
	for (i = 0; i < 24; i++) {
	set_rounding_mode(rm);
	switch(op1) {
	case CVTDS:
	UNOPfd("cvt.d.s");
	printf("%s %lf %lf\n", flt_round_op_names[op1], fd_d, fs_f[i]);
	printf("fcsr: 0x%x\n", fcsr);
	break;
	case CVTDW:
	UNOPwd("cvt.d.w");
	printf("%s %lf %d\n", flt_round_op_names[op1], fd_d, fs_w[i]);
	printf("fcsr: 0x%x\n", fcsr);
	break;
	case CVTSD:
	UNOPdf("cvt.s.d");
	printf("%s %f %lf\n", flt_round_op_names[op1], fd_f, fs_d[i]);
	printf("fcsr: 0x%x\n", fcsr);
	break;
	case CVTSW:
	UNOPwf("cvt.s.w");
	printf("%s %f %d\n", flt_round_op_names[op1], fd_f, fs_w[i]);
	printf("fcsr: 0x%x\n", fcsr);
	break;
	case CVTWS:
	UNOPfw("cvt.w.s");
	printf("%s %d %f\n", flt_round_op_names[op1], fd_w, fs_f[i]);
	printf("fcsr: 0x%x\n", fcsr);
	break;
	case CVTWD:
	UNOPdw("cvt.w.d");
	printf("%s %d %lf\n", flt_round_op_names[op1], fd_w, fs_d[i]);
	printf("fcsr: 0x%x\n", fcsr);
	break;
	default:
	printf("error\n");
	break;
	}
	}
	}
	return 0;
	}

	int main()
	{
	flt_dir_op_t op;
	flt_round_op_t op1;

	printf("-------------------------- %s --------------------------\n",
	"test FPU Conversion Operations Using a Directed Rounding Mode");
	for (op = CEILWS; op <= TRUNCWD; op++) {
	directedRoundingMode(op);
	}

	printf("-------------------------- %s --------------------------\n",
	"test FPU Conversion Operations Using the FCSR Rounding Mode");
	for (op1 = CVTDS; op1 <= CVTWD; op1++) {
	FCSRRoundingMode(op1);
	}
	return 0;
	}