adr
adr : 4
adr : 4 // see scsi_adr
uint8* adr;
adr = (uint8*)si->fbc.frame_buffer;
adr += screensize;
*(adr + x) = 0x00;
OcoresI2c::WriteAddress(i2c_addr adr, bool isRead)
uint8 val = OcoresI2cRegsAddress7{.read = isRead, .address = (uint8)adr}.val;
ReadReg8(addr_t adr)
uint32 ofs = adr % 4;
adr = adr / 4 * 4;
} val{.in = *(vuint32*)adr};
ReadReg16(addr_t adr)
uint32 ofs = adr / 2 % 2;
adr = adr / 4 * 4;
} val{.in = *(vuint32*)adr};
WriteReg8(addr_t adr, uint32 value)
uint32 ofs = adr % 4;
adr = adr / 4 * 4;
} val{.in = *(vuint32*)adr};
*(vuint32*)adr = val.in;
WriteReg16(addr_t adr, uint32 value)
uint32 ofs = adr / 2 % 2;
adr = adr / 4 * 4;
} val{.in = *(vuint32*)adr};
*(vuint32*)adr = val.in;
#define ACC_CODEC_ADDR2REG(adr) (((adr) >> 24) & 0x7f)
uint8 adr;
adr = 0;
res = i2c_xfer(device->i2c_bus, I2C_ADDR_EEPROM, &adr, 1, d, sizeof(d));
#define RADEON_BIOS8(adr, v) (adr[v])
#define RADEON_BIOS16(adr, v) ((adr[v]) | (adr[(v) + 1] << 8))
#define RADEON_BIOS32(adr, v) \
((RADEON_BIOS16(adr, v) | RADEON_BIOS16(adr, v + 2) << 16))
if (track->adr != session->adr) {
kModuleDebugName, track->index, track->adr, session->index,
session->adr));
int8 adr;
TRACE((" adr = %d\n", entries[i].adr));
adr(-1),
TRACE((" adr: %d\n", session->adr));
track(uint32 index, off_t startLBA, uint8 control, uint8 adr,
adr(adr)
session->adr = entries[i].adr;
uint8 adr;
startLBA, entries[i].control, entries[i].adr);
adr:4;
adr:4;
phys_addr_t adr = ROUNDUP(gFreeVirtMem, B_PAGE_SIZE);
gFreeVirtMem = adr + size;
return adr;
MapRangeIdentity(addr_t adr, size_t size, uint64 flags)
MapRange(adr, adr, size, flags);
phys_addr_t adr = ROUNDUP((addr_t)gFreeMem, B_PAGE_SIZE);
if (adr + size - (addr_t)gMemBase > gTotalMem)
gFreeMem = (uint8*)(adr + size);
return adr;
char *adr;
adr = (char *)info.address;
offset = (ptrdiff_t)ptr - (ptrdiff_t)adr;
CPPUNIT_ASSERT(adr != adrclone1);
CPPUNIT_ASSERT(adr != adrclone2);