log
return complex<FLOAT> (log (abs (x)), arg (x));
FLOAT logr = log (abs (x));
return exp (FLOAT (y) * log (x));
return exp (y * FLOAT (log (x)));
log (const complex<_FLT>&) __attribute__ ((const));
return log (x) / log (10.0);
_DEFINE_EXPR_UNARY_FUNCTION(log)
MAPM_1aryFunc(log)
MAPM_1aryFunc(log)
extern double log(double x);
#define LOG( li, what ) log( li, what, 0 )
#define LOG1( li, what, arg1 ) log( li, what, 1, arg1 );
#define LOG2( li, what, arg1, arg2 ) log( li, what, 2, arg1, arg2 );
#define LOG3( li, what, arg1, arg2, arg3 ) log( li, what, 3, arg1, arg2, arg3 );
void log( struct log_info_t *li, uint16 what, const uint8 num_args, ... );
struct log_info_t *log; // fast logger data
p_best = p = int(log(MAX_VCO_FREQ / f_target) / log((double)2));
LOG1( si->log, _GetAvailRingBufferQueue, space );
struct log_info_t *log;
FILE* log = fopen("/var/log/wacom.log", "a");
vfprintf(log, fmt, ap);
fflush(log);
fclose(log);
*log = logadr;
map_mem(void **log, phys_addr_t phy, size_t size, const char *name)
*log = (void *)((uintptr_t)mapadr + (uintptr_t)offset);
phy, *log, offset, phyadr, mapadr, size, area));
alloc_mem(phys_addr_t *phy, void **log, size_t size, const char *name, bool user)
if (log)
area_id alloc_mem(phys_addr_t *phy, void **log, size_t size, const char *name,
area_id map_mem(void **log, phys_addr_t phy, size_t size, const char *name);
alloc_mem(physical_entry *phy, addr_t *log, size_t size, const char *name)
if (log)
*log = (addr_t)logadr;
*log, phy->address);
area_id alloc_mem(physical_entry *phy, addr_t *log, size_t size,
LOG( di->si->log, _Radeon_WaitForIdle );
LOG( di->si->log, _Radeon_WaitForFifo );
LOG( di->si->log, _Radeon_FlushPixelCache );
*(uint32 *)buf = log_getsize( di->si->log );
log_getcopy( di->si->log, buf, ((uint32 *)buf)[0] );
si->log = log_init( 1000000 );
log_exit( di->si->log );
log(LOG_ERR, "an_cache_store, bad index: %d of "
cache_log *log = get_log_entry();
if (log == NULL)
strlcpy(log->file_name, name, B_FILE_NAME_LENGTH);
log->file_name[0] = '\0';
vfs_get_vnode_name(vnode, log->file_name, B_FILE_NAME_LENGTH);
log->action = 'o';
log->type = fdType;
log->device = device;
log->parent = parent;
log->node = node;
log->timestamp = system_time();
TRACE(("log: added entry %s, <%c%d> %ld:%lld:%lld:%s\n", log->team_name, log->action,
log->type, device, parent, node, log->file_name));
put_log_entry(log);
cache_log *log = get_log_entry();
if (log == NULL)
log->action = 'c';
log->type = fdType;
log->device = device;
log->parent = -1;
log->node = node;
log->access_type = accessType;
log->team_name, log->type, device, node, accessType));
put_log_entry(log);
cache_log *log = get_log_entry();
if (log == NULL)
log->action = 'l';
log->type = FDTYPE_FILE;
log->launch.args = (char **)malloc(argCount * sizeof(char *));
log->launch.arg_count = argCount;
log->launch.parent = team->parent->id;
log->launch.args[0] = strdup(name);
log->launch.args[i] = strdup(args[i]);
while ((newline = strchr(log->launch.args[i], '\n')) != NULL) {
if (vfs_get_cwd(&log->device, &log->parent) != B_OK) {
log->device = -1;
log->parent = -1;
TRACE(("log: added entry %s, <l> %ld:%lld %s ...\n", log->team_name,
log->device, log->parent, args[0]));
put_log_entry(log);
cache_log *log = &sLogEntries[i];
switch (log->action) {
log->team, log->timestamp, log->team_name,
log->device, log->parent, log->launch.parent,
log->launch.args[0]);
for (int32 j = 1; j < log->launch.arg_count; j++) {
strlcpy(line, log->launch.args[j], sizeof(line));
log->team, log->timestamp, log->team_name, log->type,
log->device, log->node, log->access_type);
log->team, log->timestamp, log->team_name, log->action, log->type, log->device,
log->parent, log->node, log->file_name);
cache_log *log = &sLogEntries[i];
if (log->action != 'l')
for (int32 j = 0; j < log->launch.arg_count; j++)
free(log->launch.args[j]);
free(log->launch.args);
put_log_entry(cache_log *log)
cache_log *log = &sLogEntries[sCurrentEntry++];
log->team = thread->team->id;
strlcpy(log->team_name, thread->name, B_OS_NAME_LENGTH);
log->timestamp = system_time();
return log;
return static_cast<int32>(floor(4 * log(4 / closest)));
return static_cast<int32>(floor(4 * log(4 / closest)));
void SetLogFileName(const char* log)
fLogFileName->SetText(log);
BString log;
log.SetTo("Sending file: ");
log << hc->hs->cwd;
log << '/' << hc->expnfilename << '\n';
poorman_log(log.String(), true, &hc->client_addr);
log.SetTo("Error sending file: ");
log << hc->hs->cwd;
log << '/' << hc->expnfilename << '\n';
poorman_log(log.String(), true, &hc->client_addr, RED);
print_log(const BMessage& log)
if (log.FindMessage("item", index, &item) != B_OK)
ProductLogSpam += log (ProductSpam);
ProductLogGenuine += log (ProductGenuine);
ProductLogSpam += log (ProductSpam);
ProductLogGenuine += log (ProductGenuine);
return _ParseFactorial(values[0].log());
log(LOG_WARNING, "%s: Michael MIC failure\n", ic->ic_if.if_xname);
log(LOG_WARNING, "%s: HostAP will be disabled for %d seconds "
maxiter = (int)(log((double)(places + 2)) * 1.442695) + 3;
maxiter = (int)(log((double)(places + 2)) * 1.442695) + 3;
dd = log(dd) / 3.0; /* cbrt algorithm actually finds 1/cbrt */
m_apm_set_double(r, (1.00001 * log(dd))); /* induce error of 10 ^ -5 */
gamma = exp((Value() * log(2.0) * 0.01) );
fGamma->SetValue((int32)(100 * log(fJobData->GetGamma()) / log(2.0)));
template c log (ccr);
int32 value = int32((log(settings->trackpad_speed / 8192.0) / log(2)) * 1000 / 6);
value = int32((log(fSettings.MouseSpeed() / 8192.0) / log(2)) * 1000 / 6);
FILE* log = fopen("/var/log/input_server.log", "a");
fputs(buf, log);
fflush(log);
fclose(log);
#define Setscreen(log, phys, mode, command) toscallPPWW(XBIOS_TRAP, 5, (void *)log, (void *)phys, (int16)mode, (int16)command)
#define VsetScreen(log, phys, mode, modecode) toscallPPWW(XBIOS_TRAP, 5, (void *)log, (void *)phys, (int16)mode, (int16)modecode)
__real__ result = log (hypot (__real__ x,
# define ALIGN(log) .align 1<<log
# define ALIGN(log) .align log
#define ALIGN(log) .align 1<<log
w = CMPLX(w, 0.25 * log(a));
return log(2*x - 1/(x+sqrt(x*x-1)));
return log(x) + 0.693147180559945309417232121458176568;
x = log(x) + 0.693147180559945309417232121458176568;
x = log(2*x + 1/(sqrt(x*x+1)+x));
return u/v + tpi*(j0(x)*log(x));
return u00 + tpi*log(x);
return x*(u/v) + tpi*(j1(x)*log(x)-1/x);
tmp = nf*log(fabs(w));
return -log(x);
nadj = log(pi/(t*x));
r = -log(x);
r += log(z);
t = log(x);
r = x*(log(x)-1.0);
return log(x);
return log(x);
return -log(absx);
return log(fabs(x));
r = (absx-0.5)*(log(absx+gmhalf)-1) + (log(S(absx)) - (gmhalf+0.5));
r = log(pi/(fabs(x)*absx)) - r;
fNextSettings.refresh_rate = exp(slider->Value()*0.001*(log(REFRESH_RATE_MAX/REFRESH_RATE_MIN)))*
slider->SetValue((int32)(1000 * log(fCurrentSettings.refresh_rate / REFRESH_RATE_MIN) /
log(REFRESH_RATE_MAX/REFRESH_RATE_MIN)));
GLchar log[1000];
glGetProgramInfoLog(program, 1000, &len, log);
fprintf(stderr, "Shader link error:\n%s\n", log);
GLchar log[1000];
glGetProgramInfoLog(program, 1000, &len, log);
fprintf(stderr, "Program validation error:\n%s\n", log);
GLchar log[1000];
glGetShaderInfoLog(shader, 1000, &len, log);
fprintf(stderr, "Error: problem compiling shader: %s\n", log);