Commit 4aee4c7d authored by Piotr Caban's avatar Piotr Caban Committed by Alexandre Julliard

msvcrt: Added $I10_OUTPUT implementation.

parent aff0eac2
...@@ -123,15 +123,3 @@ BOOL WINAPI DllMain(HINSTANCE hinstDLL, DWORD fdwReason, LPVOID lpvReserved) ...@@ -123,15 +123,3 @@ BOOL WINAPI DllMain(HINSTANCE hinstDLL, DWORD fdwReason, LPVOID lpvReserved)
} }
return TRUE; return TRUE;
} }
/*********************************************************************
* $I10_OUTPUT (MSVCRT.@)
* Function not really understood but needed to make the DLL work
*/
void CDECL MSVCRT_I10_OUTPUT(void)
{
/* FIXME: This is probably data, not a function */
/* no it is a function. I10 is an Int of 10 bytes */
/* also known as 80 bit floating point (long double */
/* for some compilers, not MSVC) */
}
# msvcrt.dll - MS VC++ Run Time Library # msvcrt.dll - MS VC++ Run Time Library
@ cdecl $I10_OUTPUT() MSVCRT_I10_OUTPUT @ cdecl -norelay $I10_OUTPUT(double long long long ptr) MSVCRT_I10_OUTPUT
@ cdecl -i386 -norelay ??0__non_rtti_object@@QAE@ABV0@@Z(ptr) __thiscall_MSVCRT___non_rtti_object_copy_ctor @ cdecl -i386 -norelay ??0__non_rtti_object@@QAE@ABV0@@Z(ptr) __thiscall_MSVCRT___non_rtti_object_copy_ctor
@ cdecl -i386 -norelay ??0__non_rtti_object@@QAE@PBD@Z(ptr) __thiscall_MSVCRT___non_rtti_object_ctor @ cdecl -i386 -norelay ??0__non_rtti_object@@QAE@PBD@Z(ptr) __thiscall_MSVCRT___non_rtti_object_ctor
@ cdecl -i386 -norelay ??0bad_cast@@AAE@PBQBD@Z(ptr) __thiscall_MSVCRT_bad_cast_ctor @ cdecl -i386 -norelay ??0bad_cast@@AAE@PBQBD@Z(ptr) __thiscall_MSVCRT_bad_cast_ctor
......
...@@ -26,6 +26,7 @@ ...@@ -26,6 +26,7 @@
#include "wine/port.h" #include "wine/port.h"
#include <stdlib.h> #include <stdlib.h>
#include <stdio.h>
#include <math.h> #include <math.h>
#include <limits.h> #include <limits.h>
#include <errno.h> #include <errno.h>
...@@ -669,3 +670,98 @@ int CDECL MSVCRT__ui64toa_s(unsigned __int64 value, char *str, ...@@ -669,3 +670,98 @@ int CDECL MSVCRT__ui64toa_s(unsigned __int64 value, char *str,
memcpy(str, pos, buffer-pos+65); memcpy(str, pos, buffer-pos+65);
return 0; return 0;
} }
#define I10_OUTPUT_MAX_PREC 21
/* Internal structure used by $I10_OUTPUT */
struct _I10_OUTPUT_DATA {
short pos;
char sign;
BYTE len;
char str[I10_OUTPUT_MAX_PREC+1]; /* add space for '\0' */
};
/*********************************************************************
* $I10_OUTPUT (MSVCRT.@)
* ld - long double to be printed to data
* prec - precision of part, we're interested in
* flag - 0 for first prec digits, 1 for fractional part
* data - data to be populated
*
* return value
* 0 if given double is NaN or INF
* 1 otherwise
*
* FIXME
* Native sets last byte of data->str to '0' or '9', I don't know what
* it means. Current implementation sets it always to '0'.
*/
int CDECL MSVCRT_I10_OUTPUT(MSVCRT__LDOUBLE ld, int prec, int flag, struct _I10_OUTPUT_DATA *data)
{
static const char inf_str[] = "1#INF";
static const char nan_str[] = "1#QNAN";
double d = ld.x;
char format[8];
char buf[I10_OUTPUT_MAX_PREC+9]; /* 9 = strlen("0.e+0000") + '\0' */
char *p;
TRACE("(%lf %d %x %p)\n", d, prec, flag, data);
if(d<0) {
data->sign = '-';
d = -d;
} else
data->sign = ' ';
if(isinf(d)) {
data->pos = 1;
data->len = 5;
memcpy(data->str, inf_str, sizeof(inf_str));
return 0;
}
if(isnan(d)) {
data->pos = 1;
data->len = 6;
memcpy(data->str, nan_str, sizeof(nan_str));
return 0;
}
if(flag&1) {
int exp = 1+floor(log10(d));
prec += exp;
if(exp < 0)
prec--;
}
prec--;
if(prec+1 > I10_OUTPUT_MAX_PREC)
prec = I10_OUTPUT_MAX_PREC-1;
else if(prec < 0) {
d = 0.0;
prec = 0;
}
sprintf(format, "%%.%dle", prec);
sprintf(buf, format, d);
buf[1] = buf[0];
data->pos = atoi(buf+prec+3);
if(buf[1] != '0')
data->pos++;
for(p = buf+prec+1; p>buf+1 && *p=='0'; p--);
data->len = p-buf;
memcpy(data->str, buf+1, data->len);
data->str[data->len] = '\0';
if(buf[1]!='0' && prec-data->len+1>0)
memcpy(data->str+data->len+1, buf+data->len+1, prec-data->len+1);
return 1;
}
#undef I10_OUTPUT_MAX_PREC
...@@ -24,6 +24,7 @@ ...@@ -24,6 +24,7 @@
static int (__cdecl *prand_s)(unsigned int *); static int (__cdecl *prand_s)(unsigned int *);
static int (__cdecl *memcpy_s)(void *, MSVCRT_size_t, void*, MSVCRT_size_t); static int (__cdecl *memcpy_s)(void *, MSVCRT_size_t, void*, MSVCRT_size_t);
static int (__cdecl *pI10_OUTPUT)(long double, int, int, void*);
static void init(void) static void init(void)
{ {
...@@ -31,6 +32,7 @@ static void init(void) ...@@ -31,6 +32,7 @@ static void init(void)
prand_s = (void *)GetProcAddress(hmod, "rand_s"); prand_s = (void *)GetProcAddress(hmod, "rand_s");
memcpy_s = (void*)GetProcAddress(hmod, "memcpy_s"); memcpy_s = (void*)GetProcAddress(hmod, "memcpy_s");
pI10_OUTPUT = (void*)GetProcAddress(hmod, "$I10_OUTPUT");
} }
static void test_rand_s(void) static void test_rand_s(void)
...@@ -104,10 +106,97 @@ static void test_memcpy_s(void) ...@@ -104,10 +106,97 @@ static void test_memcpy_s(void)
ok(dest[0] == '\0', "dest[0] != \'\\0\'\n"); ok(dest[0] == '\0', "dest[0] != \'\\0\'\n");
} }
typedef struct _I10_OUTPUT_data {
short pos;
char sign;
BYTE len;
char str[100];
} I10_OUTPUT_data;
typedef struct _I10_OUTPUT_test {
long double d;
int size;
int flags;
I10_OUTPUT_data out;
int ret;
const char *remain;
} I10_OUTPUT_test;
static const I10_OUTPUT_test I10_OUTPUT_tests[] = {
/* arg3 = 0 */
{ 0.0, 10, 0, {0, ' ', 1, "0"}, 1, "" },
{ 1.0, 10, 0, {1, ' ', 1, "1"}, 1, "000000009" },
{ -1.0, 10, 0, {1, '-', 1, "1"}, 1, "000000009" },
{ 1.23, 10, 0, {1, ' ', 3, "123"}, 1, "0000009" },
{ 1e13, 10, 0, {14, ' ', 1, "1"}, 1, "000000009" },
{ 1e30, 30, 0, {31, ' ', 21, "100000000000000001988"}, 1, "" },
{ 1e-13, 10, 0, {-12, ' ', 1, "1"}, 1, "000000000" },
{ 0.25, 10, 0, {0, ' ', 2, "25"}, 1, "00000000" },
{ 1.0000001, 10, 0, {1, ' ', 8, "10000001"}, 1, "00" },
/* arg3 = 1 */
{ 0.0, 10, 1, {0, ' ', 1, "0"}, 1, "" },
{ 1.0, 10, 1, {1, ' ', 1, "1"}, 1, "0000000009" },
{ -1.0, 10, 1, {1, '-', 1, "1"}, 1, "0000000009" },
{ 1.23, 10, 1, {1, ' ', 3, "123"}, 1, "00000009" },
{ 1e13, 10, 1, {14, ' ', 1, "1"}, 1, "00000000000000000009" },
{ 1e30, 30, 1, {31, ' ', 21, "100000000000000001988"}, 1, "" },
{ 1e-13, 10, 1, {0, ' ', 1, "0"}, 1, "" },
{ 1e-7, 10, 1, {-6, ' ', 1, "1"}, 1, "09" },
{ 0.25, 10, 1, {0, ' ', 2, "25"}, 1, "00000000" },
{ 1.0000001, 10, 1, {1, ' ', 8, "10000001"}, 1, "000" },
/* too small buffer */
{ 0.0, 0, 0, {0, ' ', 1, "0"}, 1, "" },
{ 0.0, 0, 1, {0, ' ', 1, "0"}, 1, "" },
{ 123.0, 2, 0, {3, ' ', 2, "12"}, 1, "" },
{ 123.0, 0, 0, {0, ' ', 1, "0"}, 1, "" },
{ 123.0, 2, 1, {3, ' ', 3, "123"}, 1, "09" },
{ 0.99, 1, 0, {1, ' ', 1, "1"}, 1, "" },
{ 1264567.0, 2, 0, {7, ' ', 2, "13"}, 1, "" },
{ 1264567.0, 2, 1, {7, ' ', 7, "1264567"}, 1, "00" },
{ 1234567891.0, 2, 1, {10, ' ', 10, "1234567891"}, 1, "09" }
};
static void test_I10_OUTPUT(void)
{
I10_OUTPUT_data out;
int i, j, ret;
if(!pI10_OUTPUT) {
win_skip("I10_OUTPUT not available\n");
return;
}
for(i=0; i<sizeof(I10_OUTPUT_tests)/sizeof(I10_OUTPUT_test); i++) {
memset(out.str, '#', sizeof(out.str));
ret = pI10_OUTPUT(I10_OUTPUT_tests[i].d, I10_OUTPUT_tests[i].size, I10_OUTPUT_tests[i].flags, &out);
ok(ret == I10_OUTPUT_tests[i].ret, "%d: ret = %d\n", i, ret);
ok(out.pos == I10_OUTPUT_tests[i].out.pos, "%d: out.pos = %hd\n", i, out.pos);
ok(out.sign == I10_OUTPUT_tests[i].out.sign, "%d: out.size = %c\n", i, out.sign);
ok(out.len == I10_OUTPUT_tests[i].out.len, "%d: out.len = %d\n", i, (int)out.len);
ok(!strcmp(out.str, I10_OUTPUT_tests[i].out.str), "%d: out.str = %s\n", i, out.str);
j = strlen(I10_OUTPUT_tests[i].remain);
if(j && I10_OUTPUT_tests[i].remain[j-1]=='9')
todo_wine ok(!strncmp(out.str+out.len+1, I10_OUTPUT_tests[i].remain, j),
"%d: &out.str[%d] = %.25s...\n", i, out.len+1, out.str+out.len+1);
else
ok(!strncmp(out.str+out.len+1, I10_OUTPUT_tests[i].remain, j),
"%d: &out.str[%d] = %.25s...\n", i, out.len+1, out.str+out.len+1);
for(j=out.len+strlen(I10_OUTPUT_tests[i].remain)+1; j<sizeof(out.str); j++)
if(out.str[j] != '#')
ok(0, "%d: out.str[%d] = %c (expected \'#\')\n", i, j, out.str[j]);
}
}
START_TEST(misc) START_TEST(misc)
{ {
init(); init();
test_rand_s(); test_rand_s();
test_memcpy_s(); test_memcpy_s();
test_I10_OUTPUT();
} }
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