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Date: Sun, 1 May 2022 21:33:14 -0700
From: Guenter Roeck <linux@...ck-us.net>
To: Michael Walle <michael@...le.cc>
Cc: Jean Delvare <jdelvare@...e.com>, Rob Herring <robh+dt@...nel.org>,
Krzysztof Kozlowski <krzk+dt@...nel.org>,
linux-hwmon@...r.kernel.org, devicetree@...r.kernel.org,
linux-kernel@...r.kernel.org
Subject: Re: [PATCH v4 2/4] hwmon: (bt1-pvt) use generic polynomial functions
On Fri, Apr 01, 2022 at 11:40:30PM +0200, Michael Walle wrote:
> The polynomial calculation function was moved into lib/ to be able to
> reuse it. Move over to this one.
>
> Signed-off-by: Michael Walle <michael@...le.cc>
> Reviewed-by: Guenter Roeck <linux@...ck-us.net>
Applied to hwmon-next.
Thanks,
Guenter
> ---
> drivers/hwmon/Kconfig | 1 +
> drivers/hwmon/bt1-pvt.c | 50 +++++++++++------------------------------
> 2 files changed, 14 insertions(+), 37 deletions(-)
>
> diff --git a/drivers/hwmon/Kconfig b/drivers/hwmon/Kconfig
> index 68a8a27ab3b7..be9773270e53 100644
> --- a/drivers/hwmon/Kconfig
> +++ b/drivers/hwmon/Kconfig
> @@ -415,6 +415,7 @@ config SENSORS_ATXP1
> config SENSORS_BT1_PVT
> tristate "Baikal-T1 Process, Voltage, Temperature sensor driver"
> depends on MIPS_BAIKAL_T1 || COMPILE_TEST
> + select POLYNOMIAL
> help
> If you say yes here you get support for Baikal-T1 PVT sensor
> embedded into the SoC.
> diff --git a/drivers/hwmon/bt1-pvt.c b/drivers/hwmon/bt1-pvt.c
> index 74ce5211eb75..21ab172774ec 100644
> --- a/drivers/hwmon/bt1-pvt.c
> +++ b/drivers/hwmon/bt1-pvt.c
> @@ -26,6 +26,7 @@
> #include <linux/mutex.h>
> #include <linux/of.h>
> #include <linux/platform_device.h>
> +#include <linux/polynomial.h>
> #include <linux/seqlock.h>
> #include <linux/sysfs.h>
> #include <linux/types.h>
> @@ -65,7 +66,7 @@ static const struct pvt_sensor_info pvt_info[] = {
> * 48380,
> * where T = [-48380, 147438] mC and N = [0, 1023].
> */
> -static const struct pvt_poly __maybe_unused poly_temp_to_N = {
> +static const struct polynomial __maybe_unused poly_temp_to_N = {
> .total_divider = 10000,
> .terms = {
> {4, 18322, 10000, 10000},
> @@ -76,7 +77,7 @@ static const struct pvt_poly __maybe_unused poly_temp_to_N = {
> }
> };
>
> -static const struct pvt_poly poly_N_to_temp = {
> +static const struct polynomial poly_N_to_temp = {
> .total_divider = 1,
> .terms = {
> {4, -16743, 1000, 1},
> @@ -97,7 +98,7 @@ static const struct pvt_poly poly_N_to_temp = {
> * N = (18658e-3*V - 11572) / 10,
> * V = N * 10^5 / 18658 + 11572 * 10^4 / 18658.
> */
> -static const struct pvt_poly __maybe_unused poly_volt_to_N = {
> +static const struct polynomial __maybe_unused poly_volt_to_N = {
> .total_divider = 10,
> .terms = {
> {1, 18658, 1000, 1},
> @@ -105,7 +106,7 @@ static const struct pvt_poly __maybe_unused poly_volt_to_N = {
> }
> };
>
> -static const struct pvt_poly poly_N_to_volt = {
> +static const struct polynomial poly_N_to_volt = {
> .total_divider = 10,
> .terms = {
> {1, 100000, 18658, 1},
> @@ -113,31 +114,6 @@ static const struct pvt_poly poly_N_to_volt = {
> }
> };
>
> -/*
> - * Here is the polynomial calculation function, which performs the
> - * redistributed terms calculations. It's pretty straightforward. We walk
> - * over each degree term up to the free one, and perform the redistributed
> - * multiplication of the term coefficient, its divider (as for the rationale
> - * fraction representation), data power and the rational fraction divider
> - * leftover. Then all of this is collected in a total sum variable, which
> - * value is normalized by the total divider before being returned.
> - */
> -static long pvt_calc_poly(const struct pvt_poly *poly, long data)
> -{
> - const struct pvt_poly_term *term = poly->terms;
> - long tmp, ret = 0;
> - int deg;
> -
> - do {
> - tmp = term->coef;
> - for (deg = 0; deg < term->deg; ++deg)
> - tmp = mult_frac(tmp, data, term->divider);
> - ret += tmp / term->divider_leftover;
> - } while ((term++)->deg);
> -
> - return ret / poly->total_divider;
> -}
> -
> static inline u32 pvt_update(void __iomem *reg, u32 mask, u32 data)
> {
> u32 old;
> @@ -324,9 +300,9 @@ static int pvt_read_data(struct pvt_hwmon *pvt, enum pvt_sensor_type type,
> } while (read_seqretry(&cache->data_seqlock, seq));
>
> if (type == PVT_TEMP)
> - *val = pvt_calc_poly(&poly_N_to_temp, data);
> + *val = polynomial_calc(&poly_N_to_temp, data);
> else
> - *val = pvt_calc_poly(&poly_N_to_volt, data);
> + *val = polynomial_calc(&poly_N_to_volt, data);
>
> return 0;
> }
> @@ -345,9 +321,9 @@ static int pvt_read_limit(struct pvt_hwmon *pvt, enum pvt_sensor_type type,
> data = FIELD_GET(PVT_THRES_HI_MASK, data);
>
> if (type == PVT_TEMP)
> - *val = pvt_calc_poly(&poly_N_to_temp, data);
> + *val = polynomial_calc(&poly_N_to_temp, data);
> else
> - *val = pvt_calc_poly(&poly_N_to_volt, data);
> + *val = polynomial_calc(&poly_N_to_volt, data);
>
> return 0;
> }
> @@ -360,10 +336,10 @@ static int pvt_write_limit(struct pvt_hwmon *pvt, enum pvt_sensor_type type,
>
> if (type == PVT_TEMP) {
> val = clamp(val, PVT_TEMP_MIN, PVT_TEMP_MAX);
> - data = pvt_calc_poly(&poly_temp_to_N, val);
> + data = polynomial_calc(&poly_temp_to_N, val);
> } else {
> val = clamp(val, PVT_VOLT_MIN, PVT_VOLT_MAX);
> - data = pvt_calc_poly(&poly_volt_to_N, val);
> + data = polynomial_calc(&poly_volt_to_N, val);
> }
>
> /* Serialize limit update, since a part of the register is changed. */
> @@ -522,9 +498,9 @@ static int pvt_read_data(struct pvt_hwmon *pvt, enum pvt_sensor_type type,
> return -ETIMEDOUT;
>
> if (type == PVT_TEMP)
> - *val = pvt_calc_poly(&poly_N_to_temp, data);
> + *val = polynomial_calc(&poly_N_to_temp, data);
> else
> - *val = pvt_calc_poly(&poly_N_to_volt, data);
> + *val = polynomial_calc(&poly_N_to_volt, data);
>
> return 0;
> }
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