Commit 195e4be9 authored by brian@avenger.(none)'s avatar brian@avenger.(none)

Merge baker@bk-internal.mysql.com:/home/bk/mysql-5.0/

into avenger.(none):/export/brian/mysql/acinclude-5.0
parents c7833807 2db2cda3
......@@ -2515,6 +2515,7 @@ btr_index_rec_validate(
for (i = 0; i < n; i++) {
dtype_t* type = dict_index_get_nth_type(index, i);
ulint fixed_size = dtype_get_fixed_size(type);
rec_get_nth_field(rec, offsets, i, &len);
......@@ -2522,8 +2523,8 @@ btr_index_rec_validate(
their type is CHAR. */
if ((dict_index_get_nth_field(index, i)->prefix_len == 0
&& len != UNIV_SQL_NULL && dtype_is_fixed_size(type)
&& len != dtype_get_fixed_size(type))
&& len != UNIV_SQL_NULL && fixed_size
&& len != fixed_size)
||
(dict_index_get_nth_field(index, i)->prefix_len > 0
&& len != UNIV_SQL_NULL
......
......@@ -8,6 +8,17 @@ Created 1/16/1996 Heikki Tuuri
#include "mach0data.h"
/**********************************************************************
Determines whether the given character set is of variable length.
NOTE: the prototype of this function is copied from ha_innodb.cc! If you change
this function, you MUST change also the prototype here! */
extern
ibool
innobase_is_mb_cset(
/*================*/
ulint cset); /* in: MySQL charset-collation code */
/*************************************************************************
Sets a data type structure. */
UNIV_INLINE
......@@ -293,7 +304,13 @@ dtype_get_fixed_size(
case DATA_FLOAT:
case DATA_DOUBLE:
case DATA_MYSQL:
return(dtype_get_len(type));
if ((type->prtype & DATA_BINARY_TYPE)
|| !innobase_is_mb_cset(
dtype_get_charset_coll(
type->prtype))) {
return(dtype_get_len(type));
}
/* fall through for variable-length charsets */
case DATA_VARCHAR:
case DATA_BINARY:
case DATA_DECIMAL:
......
......@@ -473,6 +473,8 @@ row_ins_cascade_calc_update_vec(
if (parent_ufield->field_no == parent_field_no) {
ulint fixed_size;
/* A field in the parent index record is
updated. Let us make the update vector
field for the child table. */
......@@ -512,22 +514,22 @@ row_ins_cascade_calc_update_vec(
need to pad with spaces the new value of the
child column */
if (dtype_is_fixed_size(type)
fixed_size = dtype_get_fixed_size(type);
if (fixed_size
&& ufield->new_val.len != UNIV_SQL_NULL
&& ufield->new_val.len
< dtype_get_fixed_size(type)) {
&& ufield->new_val.len < fixed_size) {
ufield->new_val.data =
mem_heap_alloc(heap,
dtype_get_fixed_size(type));
ufield->new_val.len =
dtype_get_fixed_size(type);
fixed_size);
ufield->new_val.len = fixed_size;
ut_a(dtype_get_pad_char(type)
!= ULINT_UNDEFINED);
memset(ufield->new_val.data,
(byte)dtype_get_pad_char(type),
dtype_get_fixed_size(type));
fixed_size);
ut_memcpy(ufield->new_val.data,
parent_ufield->new_val.data,
parent_ufield->new_val.len);
......
......@@ -3694,6 +3694,8 @@ rec_loop:
}
if (prebuilt->clust_index_was_generated) {
offsets = rec_reget_offsets(index_rec, index, offsets,
ULINT_UNDEFINED, heap);
row_sel_store_row_id_to_prebuilt(prebuilt, index_rec,
index, offsets);
}
......
......@@ -520,6 +520,25 @@ innobase_mysql_print_thd(
putc('\n', f);
}
/**********************************************************************
Determines whether the given character set is of variable length.
NOTE that the exact prototype of this function has to be in
/innobase/data/data0type.ic! */
extern "C"
ibool
innobase_is_mb_cset(
/*================*/
ulint cset) /* in: MySQL charset-collation code */
{
CHARSET_INFO* cs;
ut_ad(cset < 256);
cs = all_charsets[cset];
return(cs && cs->mbminlen != cs->mbmaxlen);
}
/**********************************************************************
Compares NUL-terminated UTF-8 strings case insensitively.
......
......@@ -544,7 +544,7 @@ int decimal2longlong(decimal *from, longlong *to)
so we can convert -9223372036854775808 correctly
*/
x=x*DIG_BASE - *buf++;
if (unlikely(y < (LONGLONG_MAX/DIG_BASE) || x > y))
if (unlikely(y < (LONGLONG_MIN/DIG_BASE) || x > y))
{
*to= from->sign ? y : -y;
return E_DEC_OVERFLOW;
......@@ -921,6 +921,12 @@ int decimal_round(decimal *from, decimal *to, int scale, decimal_round_mode mode
x+=10;
*buf1=powers10[pos]*(x-y);
}
if (frac0 < 0)
{
dec1 *end=to->buf+intg0, *buf=buf1+1;
while (buf < end)
*buf++=0;
}
if (*buf1 >= DIG_BASE)
{
carry=1;
......@@ -1647,7 +1653,7 @@ void dump_decimal(decimal *d)
printf("%09d} */ ", d->buf[i]);
}
void print_decimal(decimal *d)
void print_decimal(decimal *d, char *orig)
{
char s[100];
int slen=sizeof(s);
......@@ -1655,6 +1661,11 @@ void print_decimal(decimal *d)
if (full) dump_decimal(d);
decimal2string(d, s, &slen);
printf("'%s'", s);
if (orig && strcmp(orig, s))
{
printf("\n^^^^^^^^^^^^^ must've been '%s'\n", orig);
exit(1);
}
}
void test_d2s()
......@@ -1693,12 +1704,12 @@ void test_d2s()
dump_decimal(&a); printf(" --> res=%d str='%s' len=%d\n", res, s, slen);
}
void test_s2d(char *s)
void test_s2d(char *s, char *orig)
{
char s1[100];
sprintf(s1, "'%s'", s);
printf("len=%2d %-30s => res=%d ", a.len, s1, string2decimal(s, &a, 0));
print_decimal(&a);
print_decimal(&a, orig);
printf("\n");
}
......@@ -1715,7 +1726,7 @@ void test_d2f(char *s)
printf("%-40s => res=%d %.*g\n", s1, res, a.intg+a.frac, x);
}
void test_d2b2d(char *str, int p, int s)
void test_d2b2d(char *str, int p, int s, char *orig)
{
char s1[100], buf[100];
double x;
......@@ -1733,7 +1744,7 @@ void test_d2b2d(char *str, int p, int s)
}
res=bin2decimal(buf, &a, p, s);
printf(" => res=%d ", res);
print_decimal(&a);
print_decimal(&a, orig);
printf("\n");
}
void test_f2d(double from)
......@@ -1742,11 +1753,11 @@ void test_f2d(double from)
res=double2decimal(from, &a);
printf("%-40.*f => res=%d ", DBL_DIG-2, from, res);
print_decimal(&a);
print_decimal(&a, 0);
printf("\n");
}
void test_ull2d(ulonglong from)
void test_ull2d(ulonglong from, char *orig)
{
char s[100];
int res;
......@@ -1754,11 +1765,11 @@ void test_ull2d(ulonglong from)
res=ulonglong2decimal(from, &a);
longlong10_to_str(from,s,10);
printf("%-40s => res=%d ", s, res);
print_decimal(&a);
print_decimal(&a, orig);
printf("\n");
}
void test_ll2d(longlong from)
void test_ll2d(longlong from, char *orig)
{
char s[100];
int res;
......@@ -1766,11 +1777,11 @@ void test_ll2d(longlong from)
res=longlong2decimal(from, &a);
longlong10_to_str(from,s,-10);
printf("%-40s => res=%d ", s, res);
print_decimal(&a);
print_decimal(&a, orig);
printf("\n");
}
void test_d2ull(char *s)
void test_d2ull(char *s, char *orig)
{
char s1[100];
ulonglong x;
......@@ -1781,9 +1792,14 @@ void test_d2ull(char *s)
if (full) dump_decimal(&a);
longlong10_to_str(x,s1,10);
printf("%-40s => res=%d %s\n", s, res, s1);
if (orig && strcmp(orig, s1))
{
printf("\n^^^^^^^^^^^^^ must've been '%s'\n", orig);
exit(1);
}
}
void test_d2ll(char *s)
void test_d2ll(char *s, char *orig)
{
char s1[100];
longlong x;
......@@ -1794,9 +1810,14 @@ void test_d2ll(char *s)
if (full) dump_decimal(&a);
longlong10_to_str(x,s1,-10);
printf("%-40s => res=%d %s\n", s, res, s1);
if (orig && strcmp(orig, s1))
{
printf("\n^^^^^^^^^^^^^ must've been '%s'\n", orig);
exit(1);
}
}
void test_da(char *s1, char *s2)
void test_da(char *s1, char *s2, char *orig)
{
char s[100];
int res;
......@@ -1805,11 +1826,11 @@ void test_da(char *s1, char *s2)
string2decimal(s2, &b, 0);
res=decimal_add(&a, &b, &c);
printf("%-40s => res=%d ", s, res);
print_decimal(&c);
print_decimal(&c, orig);
printf("\n");
}
void test_ds(char *s1, char *s2)
void test_ds(char *s1, char *s2, char *orig)
{
char s[100];
int res;
......@@ -1818,11 +1839,11 @@ void test_ds(char *s1, char *s2)
string2decimal(s2, &b, 0);
res=decimal_sub(&a, &b, &c);
printf("%-40s => res=%d ", s, res);
print_decimal(&c);
print_decimal(&c, orig);
printf("\n");
}
void test_dc(char *s1, char *s2)
void test_dc(char *s1, char *s2, int orig)
{
char s[100];
int res;
......@@ -1831,9 +1852,14 @@ void test_dc(char *s1, char *s2)
string2decimal(s2, &b, 0);
res=decimal_cmp(&a, &b);
printf("%-40s => res=%d\n", s, res);
if (orig != res)
{
printf("\n^^^^^^^^^^^^^ must've been %d\n", orig);
exit(1);
}
}
void test_dm(char *s1, char *s2)
void test_dm(char *s1, char *s2, char *orig)
{
char s[100];
int res;
......@@ -1842,11 +1868,11 @@ void test_dm(char *s1, char *s2)
string2decimal(s2, &b, 0);
res=decimal_mul(&a, &b, &c);
printf("%-40s => res=%d ", s, res);
print_decimal(&c);
print_decimal(&c, orig);
printf("\n");
}
void test_dv(char *s1, char *s2)
void test_dv(char *s1, char *s2, char *orig)
{
char s[100];
int res;
......@@ -1858,11 +1884,11 @@ void test_dv(char *s1, char *s2)
if (res == E_DEC_DIV_ZERO)
printf("E_DEC_DIV_ZERO");
else
print_decimal(&c);
print_decimal(&c, orig);
printf("\n");
}
void test_md(char *s1, char *s2)
void test_md(char *s1, char *s2, char *orig)
{
char s[100];
int res;
......@@ -1874,13 +1900,13 @@ void test_md(char *s1, char *s2)
if (res == E_DEC_DIV_ZERO)
printf("E_DEC_DIV_ZERO");
else
print_decimal(&c);
print_decimal(&c, orig);
printf("\n");
}
char *round_mode[]={"TRUNCATE", "HALF_EVEN", "HALF_UP", "CEILING", "FLOOR"};
void test_ro(char *s1, int n, decimal_round_mode mode)
void test_ro(char *s1, int n, decimal_round_mode mode, char *orig)
{
char s[100];
int res;
......@@ -1888,7 +1914,7 @@ void test_ro(char *s1, int n, decimal_round_mode mode)
string2decimal(s1, &a, 0);
res=decimal_round(&a, &b, n, mode);
printf("%-40s => res=%d ", s, res);
print_decimal(&b);
print_decimal(&b, orig);
printf("\n");
}
......@@ -1905,17 +1931,17 @@ main()
test_d2s();
printf("==== string2decimal ====\n");
test_s2d("12345");
test_s2d("12345.");
test_s2d("123.45");
test_s2d("-123.45");
test_s2d(".00012345000098765");
test_s2d(".12345000098765");
test_s2d("-.000000012345000098765");
test_s2d("1234500009876.5");
test_s2d("12345", "12345");
test_s2d("12345.", "12345");
test_s2d("123.45", "123.45");
test_s2d("-123.45", "-123.45");
test_s2d(".00012345000098765", ".00012345000098765");
test_s2d(".12345000098765", ".12345000098765");
test_s2d("-.000000012345000098765", "-.000000012345000098765");
test_s2d("1234500009876.5", "1234500009876.5");
a.len=1;
test_s2d("123450000098765");
test_s2d("123450.000098765");
test_s2d("123450000098765", "98765");
test_s2d("123450.000098765", "123450");
a.len=sizeof(buf1)/sizeof(dec1);
printf("==== decimal2double ====\n");
......@@ -1933,159 +1959,160 @@ main()
test_f2d(1234500009876.5);
printf("==== ulonglong2decimal ====\n");
test_ull2d(ULL(12345));
test_ull2d(ULL(0));
test_ull2d(ULL(18446744073709551615));
test_ull2d(ULL(12345), "12345");
test_ull2d(ULL(0), "0");
test_ull2d(ULL(18446744073709551615), "18446744073709551615");
printf("==== decimal2ulonglong ====\n");
test_d2ull("12345");
test_d2ull("0");
test_d2ull("18446744073709551615");
test_d2ull("18446744073709551616");
test_d2ull("-1");
test_d2ull("1.23");
test_d2ull("9999999999999999999999999.000");
test_d2ull("12345", "12345");
test_d2ull("0", "0");
test_d2ull("18446744073709551615", "18446744073709551615");
test_d2ull("18446744073709551616", "18446744073");
test_d2ull("-1", "0");
test_d2ull("1.23", "1");
test_d2ull("9999999999999999999999999.000", "9999999999999999");
printf("==== longlong2decimal ====\n");
test_ll2d(LL(-12345));
test_ll2d(LL(-1));
test_ll2d(LL(-9223372036854775807));
test_ll2d(ULL(9223372036854775808));
test_ll2d(LL(-12345), "-12345");
test_ll2d(LL(-1), "-1");
test_ll2d(LL(-9223372036854775807), "-9223372036854775807");
test_ll2d(ULL(9223372036854775808), "-9223372036854775808");
printf("==== decimal2longlong ====\n");
test_d2ll("18446744073709551615");
test_d2ll("-1");
test_d2ll("-1.23");
test_d2ll("-9223372036854775807");
test_d2ll("-9223372036854775808");
test_d2ll("9223372036854775808");
test_d2ll("18446744073709551615", "18446744073");
test_d2ll("-1", "-1");
test_d2ll("-1.23", "-1");
test_d2ll("-9223372036854775807", "-9223372036854775807");
test_d2ll("-9223372036854775808", "-9223372036854775808");
test_d2ll("9223372036854775808", "9223372036854775807");
printf("==== do_add ====\n");
test_da(".00012345000098765" ,"123.45");
test_da(".1" ,".45");
test_da("1234500009876.5" ,".00012345000098765");
test_da("9999909999999.5" ,".555");
test_da("99999999" ,"1");
test_da("989999999" ,"1");
test_da("999999999" ,"1");
test_da("12345" ,"123.45");
test_da("-12345" ,"-123.45");
test_ds("-12345" ,"123.45");
test_ds("12345" ,"-123.45");
test_da(".00012345000098765" ,"123.45", "123.45012345000098765");
test_da(".1" ,".45", ".55");
test_da("1234500009876.5" ,".00012345000098765", "1234500009876.50012345000098765");
test_da("9999909999999.5" ,".555", "9999910000000.055");
test_da("99999999" ,"1", "100000000");
test_da("989999999" ,"1", "990000000");
test_da("999999999" ,"1", "1000000000");
test_da("12345" ,"123.45", "12468.45");
test_da("-12345" ,"-123.45", "-12468.45");
test_ds("-12345" ,"123.45", "-12468.45");
test_ds("12345" ,"-123.45", "12468.45");
printf("==== do_sub ====\n");
test_ds(".00012345000098765", "123.45");
test_ds("1234500009876.5", ".00012345000098765");
test_ds("9999900000000.5", ".555");
test_ds("1111.5551", "1111.555");
test_ds(".555", ".555");
test_ds("10000000", "1");
test_ds("1000001000", ".1");
test_ds("1000000000", ".1");
test_ds("12345", "123.45");
test_ds("-12345", "-123.45");
test_da("-12345", "123.45");
test_da("12345", "-123.45");
test_ds("123.45", "12345");
test_ds("-123.45", "-12345");
test_da("123.45", "-12345");
test_da("-123.45", "12345");
test_da("5", "-6.0");
test_ds(".00012345000098765", "123.45","-123.44987654999901235");
test_ds("1234500009876.5", ".00012345000098765","1234500009876.49987654999901235");
test_ds("9999900000000.5", ".555","9999899999999.945");
test_ds("1111.5551", "1111.555",".0001");
test_ds(".555", ".555","0");
test_ds("10000000", "1","9999999");
test_ds("1000001000", ".1","1000000999.9");
test_ds("1000000000", ".1","999999999.9");
test_ds("12345", "123.45","12221.55");
test_ds("-12345", "-123.45","-12221.55");
test_da("-12345", "123.45","-12221.55");
test_da("12345", "-123.45","12221.55");
test_ds("123.45", "12345","-12221.55");
test_ds("-123.45", "-12345","12221.55");
test_da("123.45", "-12345","-12221.55");
test_da("-123.45", "12345","12221.55");
test_da("5", "-6.0","-1.0");
printf("==== decimal_mul ====\n");
test_dm("12", "10");
test_dm("-123.456", "98765.4321");
test_dm("-123456000000", "98765432100000");
test_dm("123456", "987654321");
test_dm("123456", "9876543210");
test_dm("123", "0.01");
test_dm("123", "0");
test_dm("12", "10","120");
test_dm("-123.456", "98765.4321","-12193185.1853376");
test_dm("-123456000000", "98765432100000","-12193185185337600000000000");
test_dm("123456", "987654321","121931851853376");
test_dm("123456", "9876543210","1219318518533760");
test_dm("123", "0.01","1.23");
test_dm("123", "0","0");
printf("==== decimal_div ====\n");
test_dv("120", "10");
test_dv("123", "0.01");
test_dv("120", "100000000000.00000");
test_dv("123", "0");
test_dv("-12193185.1853376", "98765.4321");
test_dv("121931851853376", "987654321");
test_dv("0", "987");
test_dv("1", "3");
test_dv("1.000000000000", "3");
test_dv("1", "1");
test_dv("0.0123456789012345678912345", "9999999999");
test_dv("120", "10","12.000000000");
test_dv("123", "0.01","12300.000000000");
test_dv("120", "100000000000.00000",".000000001200000000");
test_dv("123", "0","");
test_dv("-12193185.1853376", "98765.4321","-123.456000000000000000");
test_dv("121931851853376", "987654321","123456.000000000");
test_dv("0", "987","0");
test_dv("1", "3",".333333333");
test_dv("1.000000000000", "3",".333333333333333333");
test_dv("1", "1","1.000000000");
test_dv("0.0123456789012345678912345", "9999999999",".000000000001234567890246913578148141");
printf("==== decimal_mod ====\n");
test_md("234","10");
test_md("234.567","10.555");
test_md("-234.567","10.555");
test_md("234.567","-10.555");
test_md("234","10","4");
test_md("234.567","10.555","2.357");
test_md("-234.567","10.555","-2.357");
test_md("234.567","-10.555","2.357");
if (full)
{
c.buf[1]=0x3ABECA;
test_md("99999999999999999999999999999999999999","3");
test_md("99999999999999999999999999999999999999","3","0");
printf("%X\n", c.buf[1]);
}
printf("==== decimal2bin/bin2decimal ====\n");
test_d2b2d("-10.55", 4, 2);
test_d2b2d("0.0123456789012345678912345", 30, 25);
test_d2b2d("12345", 5, 0);
test_d2b2d("12345", 10, 3);
test_d2b2d("123.45", 10, 3);
test_d2b2d("-123.45", 20, 10);
test_d2b2d(".00012345000098765", 15, 14);
test_d2b2d(".00012345000098765", 22, 20);
test_d2b2d(".12345000098765", 30, 20);
test_d2b2d("-.000000012345000098765", 30, 20);
test_d2b2d("1234500009876.5", 30, 5);
test_d2b2d("111111111.11", 10, 2);
test_d2b2d("-10.55", 4, 2,"-10.55");
test_d2b2d("0.0123456789012345678912345", 30, 25,".0123456789012345678912345");
test_d2b2d("12345", 5, 0,"12345");
test_d2b2d("12345", 10, 3,"12345.000");
test_d2b2d("123.45", 10, 3,"123.450");
test_d2b2d("-123.45", 20, 10,"-123.4500000000");
test_d2b2d(".00012345000098765", 15, 14,".00012345000098");
test_d2b2d(".00012345000098765", 22, 20,".00012345000098765000");
test_d2b2d(".12345000098765", 30, 20,".12345000098765000000");
test_d2b2d("-.000000012345000098765", 30, 20,"-.00000001234500009876");
test_d2b2d("1234500009876.5", 30, 5,"1234500009876.50000");
test_d2b2d("111111111.11", 10, 2,"11111111.11");
printf("==== decimal_cmp ====\n");
test_dc("12","13");
test_dc("13","12");
test_dc("-10","10");
test_dc("10","-10");
test_dc("-12","-13");
test_dc("0","12");
test_dc("-10","0");
test_dc("4","4");
test_dc("12","13",-1);
test_dc("13","12",1);
test_dc("-10","10",-1);
test_dc("10","-10",1);
test_dc("-12","-13",1);
test_dc("0","12",-1);
test_dc("-10","0",-1);
test_dc("4","4",0);
printf("==== decimal_round ====\n");
test_ro("5678.123451",-4,TRUNCATE);
test_ro("5678.123451",-3,TRUNCATE);
test_ro("5678.123451",-2,TRUNCATE);
test_ro("5678.123451",-1,TRUNCATE);
test_ro("5678.123451",0,TRUNCATE);
test_ro("5678.123451",1,TRUNCATE);
test_ro("5678.123451",2,TRUNCATE);
test_ro("5678.123451",3,TRUNCATE);
test_ro("5678.123451",4,TRUNCATE);
test_ro("5678.123451",5,TRUNCATE);
test_ro("5678.123451",6,TRUNCATE);
test_ro("-5678.123451",-4,TRUNCATE);
test_ro("99999999999999999999999999999999999999",-31,TRUNCATE);
test_ro("15.1",0,HALF_UP);
test_ro("15.5",0,HALF_UP);
test_ro("15.9",0,HALF_UP);
test_ro("-15.1",0,HALF_UP);
test_ro("-15.5",0,HALF_UP);
test_ro("-15.9",0,HALF_UP);
test_ro("15.1",1,HALF_UP);
test_ro("-15.1",1,HALF_UP);
test_ro("15.17",1,HALF_UP);
test_ro("15.4",-1,HALF_UP);
test_ro("-15.4",-1,HALF_UP);
test_ro("5.4",-1,HALF_UP);
test_ro("15.1",0,HALF_EVEN);
test_ro("15.5",0,HALF_EVEN);
test_ro("14.5",0,HALF_EVEN);
test_ro("15.9",0,HALF_EVEN);
test_ro("15.1",0,CEILING);
test_ro("-15.1",0,CEILING);
test_ro("15.1",0,FLOOR);
test_ro("-15.1",0,FLOOR);
test_ro("999999999999999999999.999", 0, CEILING);
test_ro("-999999999999999999999.999", 0, FLOOR);
test_ro("5678.123451",-4,TRUNCATE,"0");
test_ro("5678.123451",-3,TRUNCATE,"5000");
test_ro("5678.123451",-2,TRUNCATE,"5600");
test_ro("5678.123451",-1,TRUNCATE,"5670");
test_ro("5678.123451",0,TRUNCATE,"5678");
test_ro("5678.123451",1,TRUNCATE,"5678.1");
test_ro("5678.123451",2,TRUNCATE,"5678.12");
test_ro("5678.123451",3,TRUNCATE,"5678.123");
test_ro("5678.123451",4,TRUNCATE,"5678.1234");
test_ro("5678.123451",5,TRUNCATE,"5678.12345");
test_ro("5678.123451",6,TRUNCATE,"5678.123451");
test_ro("-5678.123451",-4,TRUNCATE,"0");
memset(buf2, 33, sizeof(buf2));
test_ro("99999999999999999999999999999999999999",-31,TRUNCATE,"99999990000000000000000000000000000000");
test_ro("15.1",0,HALF_UP,"15");
test_ro("15.5",0,HALF_UP,"16");
test_ro("15.9",0,HALF_UP,"16");
test_ro("-15.1",0,HALF_UP,"-15");
test_ro("-15.5",0,HALF_UP,"-16");
test_ro("-15.9",0,HALF_UP,"-16");
test_ro("15.1",1,HALF_UP,"15.1");
test_ro("-15.1",1,HALF_UP,"-15.1");
test_ro("15.17",1,HALF_UP,"15.2");
test_ro("15.4",-1,HALF_UP,"20");
test_ro("-15.4",-1,HALF_UP,"-20");
test_ro("5.4",-1,HALF_UP,"10");
test_ro("15.1",0,HALF_EVEN,"15");
test_ro("15.5",0,HALF_EVEN,"16");
test_ro("14.5",0,HALF_EVEN,"14");
test_ro("15.9",0,HALF_EVEN,"16");
test_ro("15.1",0,CEILING,"16");
test_ro("-15.1",0,CEILING,"-15");
test_ro("15.1",0,FLOOR,"15");
test_ro("-15.1",0,FLOOR,"-16");
test_ro("999999999999999999999.999", 0, CEILING,"1000000000000000000000");
test_ro("-999999999999999999999.999", 0, FLOOR,"-1000000000000000000000");
return 0;
}
......
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