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mfd: si476x: Do not use binary constants

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Gcc < 4.3 doesn't understand binary constanrs (0b*):

drivers/mfd/si476x-cmd.c:153:22: error: invalid suffix "b11111" on integer constant
drivers/mfd/si476x-cmd.c:775:20: error: invalid suffix "b00001000" on integer constant
drivers/mfd/si476x-cmd.c:776:20: error: invalid suffix "b00000100" on integer constant
drivers/mfd/si476x-cmd.c:777:21: error: invalid suffix "b00000010" on integer constant
drivers/mfd/si476x-cmd.c:778:21: error: invalid suffix "b00000001" on integer constant
drivers/mfd/si476x-cmd.c:780:17: error: invalid suffix "b10000000" on integer constant
drivers/mfd/si476x-cmd.c:781:22: error: invalid suffix "b00100000" on integer constant
...

Hence use hexadecimal constants (0x*) instead.

Signed-off-by: Geert Uytterhoeven <geert@linux-m68k.org>
Acked-by: Andrey Smirnov <andrew.smirnov@gmail.com>
Signed-off-by: Samuel Ortiz <sameo@linux.intel.com>
This commit is contained in:
Geert Uytterhoeven 2013-05-08 22:23:42 +02:00 committed by Samuel Ortiz
parent c972c12803
commit b0222afa5b
1 changed files with 60 additions and 60 deletions
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120
drivers/mfd/si476x-cmd.c
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@ -150,7 +150,7 @@ enum si476x_acf_status_report_bits {
SI476X_ACF_SOFTMUTE_INT = (1 << 0),
SI476X_ACF_SMUTE = (1 << 0),
SI476X_ACF_SMATTN = 0b11111,
SI476X_ACF_SMATTN = 0x1f,
SI476X_ACF_PILOT = (1 << 7),
SI476X_ACF_STBLEND = ~SI476X_ACF_PILOT,
};
@ -772,16 +772,16 @@ int si476x_core_cmd_am_rsq_status(struct si476x_core *core,
if (!report)
return err;
report->snrhint = 0b00001000 & resp[1];
report->snrlint = 0b00000100 & resp[1];
report->rssihint = 0b00000010 & resp[1];
report->rssilint = 0b00000001 & resp[1];
report->snrhint = 0x08 & resp[1];
report->snrlint = 0x04 & resp[1];
report->rssihint = 0x02 & resp[1];
report->rssilint = 0x01 & resp[1];
report->bltf = 0b10000000 & resp[2];
report->snr_ready = 0b00100000 & resp[2];
report->rssiready = 0b00001000 & resp[2];
report->afcrl = 0b00000010 & resp[2];
report->valid = 0b00000001 & resp[2];
report->bltf = 0x80 & resp[2];
report->snr_ready = 0x20 & resp[2];
report->rssiready = 0x08 & resp[2];
report->afcrl = 0x02 & resp[2];
report->valid = 0x01 & resp[2];
report->readfreq = be16_to_cpup((__be16 *)(resp + 3));
report->freqoff = resp[5];
@ -931,26 +931,26 @@ int si476x_core_cmd_fm_rds_status(struct si476x_core *core,
if (err < 0 || report == NULL)
return err;
report->rdstpptyint = 0b00010000 & resp[1];
report->rdspiint = 0b00001000 & resp[1];
report->rdssyncint = 0b00000010 & resp[1];
report->rdsfifoint = 0b00000001 & resp[1];
report->rdstpptyint = 0x10 & resp[1];
report->rdspiint = 0x08 & resp[1];
report->rdssyncint = 0x02 & resp[1];
report->rdsfifoint = 0x01 & resp[1];
report->tpptyvalid = 0b00010000 & resp[2];
report->pivalid = 0b00001000 & resp[2];
report->rdssync = 0b00000010 & resp[2];
report->rdsfifolost = 0b00000001 & resp[2];
report->tpptyvalid = 0x10 & resp[2];
report->pivalid = 0x08 & resp[2];
report->rdssync = 0x02 & resp[2];
report->rdsfifolost = 0x01 & resp[2];
report->tp = 0b00100000 & resp[3];
report->pty = 0b00011111 & resp[3];
report->tp = 0x20 & resp[3];
report->pty = 0x1f & resp[3];
report->pi = be16_to_cpup((__be16 *)(resp + 4));
report->rdsfifoused = resp[6];
report->ble[V4L2_RDS_BLOCK_A] = 0b11000000 & resp[7];
report->ble[V4L2_RDS_BLOCK_B] = 0b00110000 & resp[7];
report->ble[V4L2_RDS_BLOCK_C] = 0b00001100 & resp[7];
report->ble[V4L2_RDS_BLOCK_D] = 0b00000011 & resp[7];
report->ble[V4L2_RDS_BLOCK_A] = 0xc0 & resp[7];
report->ble[V4L2_RDS_BLOCK_B] = 0x30 & resp[7];
report->ble[V4L2_RDS_BLOCK_C] = 0x0c & resp[7];
report->ble[V4L2_RDS_BLOCK_D] = 0x03 & resp[7];
report->rds[V4L2_RDS_BLOCK_A].block = V4L2_RDS_BLOCK_A;
report->rds[V4L2_RDS_BLOCK_A].msb = resp[8];
@ -1005,7 +1005,7 @@ int si476x_core_cmd_fm_phase_diversity(struct si476x_core *core,
{
u8 resp[CMD_FM_PHASE_DIVERSITY_NRESP];
const u8 args[CMD_FM_PHASE_DIVERSITY_NARGS] = {
mode & 0b111,
mode & 0x07,
};
return si476x_core_send_command(core, CMD_FM_PHASE_DIVERSITY,
@ -1162,7 +1162,7 @@ static int si476x_core_cmd_am_tune_freq_a20(struct si476x_core *core,
const int am_freq = tuneargs->freq;
u8 resp[CMD_AM_TUNE_FREQ_NRESP];
const u8 args[CMD_AM_TUNE_FREQ_NARGS] = {
(tuneargs->zifsr << 6) | (tuneargs->injside & 0b11),
(tuneargs->zifsr << 6) | (tuneargs->injside & 0x03),
msb(am_freq),
lsb(am_freq),
};
@ -1197,18 +1197,18 @@ static int si476x_core_cmd_fm_rsq_status_a10(struct si476x_core *core,
if (err < 0 || report == NULL)
return err;
report->multhint = 0b10000000 & resp[1];
report->multlint = 0b01000000 & resp[1];
report->snrhint = 0b00001000 & resp[1];
report->snrlint = 0b00000100 & resp[1];
report->rssihint = 0b00000010 & resp[1];
report->rssilint = 0b00000001 & resp[1];
report->multhint = 0x80 & resp[1];
report->multlint = 0x40 & resp[1];
report->snrhint = 0x08 & resp[1];
report->snrlint = 0x04 & resp[1];
report->rssihint = 0x02 & resp[1];
report->rssilint = 0x01 & resp[1];
report->bltf = 0b10000000 & resp[2];
report->snr_ready = 0b00100000 & resp[2];
report->rssiready = 0b00001000 & resp[2];
report->afcrl = 0b00000010 & resp[2];
report->valid = 0b00000001 & resp[2];
report->bltf = 0x80 & resp[2];
report->snr_ready = 0x20 & resp[2];
report->rssiready = 0x08 & resp[2];
report->afcrl = 0x02 & resp[2];
report->valid = 0x01 & resp[2];
report->readfreq = be16_to_cpup((__be16 *)(resp + 3));
report->freqoff = resp[5];
@ -1251,18 +1251,18 @@ static int si476x_core_cmd_fm_rsq_status_a20(struct si476x_core *core,
if (err < 0 || report == NULL)
return err;
report->multhint = 0b10000000 & resp[1];
report->multlint = 0b01000000 & resp[1];
report->snrhint = 0b00001000 & resp[1];
report->snrlint = 0b00000100 & resp[1];
report->rssihint = 0b00000010 & resp[1];
report->rssilint = 0b00000001 & resp[1];
report->multhint = 0x80 & resp[1];
report->multlint = 0x40 & resp[1];
report->snrhint = 0x08 & resp[1];
report->snrlint = 0x04 & resp[1];
report->rssihint = 0x02 & resp[1];
report->rssilint = 0x01 & resp[1];
report->bltf = 0b10000000 & resp[2];
report->snr_ready = 0b00100000 & resp[2];
report->rssiready = 0b00001000 & resp[2];
report->afcrl = 0b00000010 & resp[2];
report->valid = 0b00000001 & resp[2];
report->bltf = 0x80 & resp[2];
report->snr_ready = 0x20 & resp[2];
report->rssiready = 0x08 & resp[2];
report->afcrl = 0x02 & resp[2];
report->valid = 0x01 & resp[2];
report->readfreq = be16_to_cpup((__be16 *)(resp + 3));
report->freqoff = resp[5];
@ -1306,19 +1306,19 @@ static int si476x_core_cmd_fm_rsq_status_a30(struct si476x_core *core,
if (err < 0 || report == NULL)
return err;
report->multhint = 0b10000000 & resp[1];
report->multlint = 0b01000000 & resp[1];
report->snrhint = 0b00001000 & resp[1];
report->snrlint = 0b00000100 & resp[1];
report->rssihint = 0b00000010 & resp[1];
report->rssilint = 0b00000001 & resp[1];
report->multhint = 0x80 & resp[1];
report->multlint = 0x40 & resp[1];
report->snrhint = 0x08 & resp[1];
report->snrlint = 0x04 & resp[1];
report->rssihint = 0x02 & resp[1];
report->rssilint = 0x01 & resp[1];
report->bltf = 0b10000000 & resp[2];
report->snr_ready = 0b00100000 & resp[2];
report->rssiready = 0b00001000 & resp[2];
report->injside = 0b00000100 & resp[2];
report->afcrl = 0b00000010 & resp[2];
report->valid = 0b00000001 & resp[2];
report->bltf = 0x80 & resp[2];
report->snr_ready = 0x20 & resp[2];
report->rssiready = 0x08 & resp[2];
report->injside = 0x04 & resp[2];
report->afcrl = 0x02 & resp[2];
report->valid = 0x01 & resp[2];
report->readfreq = be16_to_cpup((__be16 *)(resp + 3));
report->freqoff = resp[5];