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Diffstat (limited to 'drivers/gpu/drm/amd/display/dc/basics/fixpt31_32.c')
-rw-r--r--drivers/gpu/drm/amd/display/dc/basics/fixpt31_32.c381
1 files changed, 130 insertions, 251 deletions
diff --git a/drivers/gpu/drm/amd/display/dc/basics/fixpt31_32.c b/drivers/gpu/drm/amd/display/dc/basics/fixpt31_32.c
index 8a9bba879207..f28989860fd8 100644
--- a/drivers/gpu/drm/amd/display/dc/basics/fixpt31_32.c
+++ b/drivers/gpu/drm/amd/display/dc/basics/fixpt31_32.c
@@ -26,13 +26,13 @@
#include "dm_services.h"
#include "include/fixed31_32.h"
-static inline uint64_t abs_i64(
- int64_t arg)
+static inline unsigned long long abs_i64(
+ long long arg)
{
if (arg > 0)
- return (uint64_t)arg;
+ return (unsigned long long)arg;
else
- return (uint64_t)(-arg);
+ return (unsigned long long)(-arg);
}
/*
@@ -40,12 +40,12 @@ static inline uint64_t abs_i64(
* result = dividend / divisor
* *remainder = dividend % divisor
*/
-static inline uint64_t complete_integer_division_u64(
- uint64_t dividend,
- uint64_t divisor,
- uint64_t *remainder)
+static inline unsigned long long complete_integer_division_u64(
+ unsigned long long dividend,
+ unsigned long long divisor,
+ unsigned long long *remainder)
{
- uint64_t result;
+ unsigned long long result;
ASSERT(divisor);
@@ -64,30 +64,28 @@ static inline uint64_t complete_integer_division_u64(
#define GET_FRACTIONAL_PART(x) \
(FRACTIONAL_PART_MASK & (x))
-struct fixed31_32 dal_fixed31_32_from_fraction(
- int64_t numerator,
- int64_t denominator)
+struct fixed31_32 dc_fixpt_from_fraction(long long numerator, long long denominator)
{
struct fixed31_32 res;
bool arg1_negative = numerator < 0;
bool arg2_negative = denominator < 0;
- uint64_t arg1_value = arg1_negative ? -numerator : numerator;
- uint64_t arg2_value = arg2_negative ? -denominator : denominator;
+ unsigned long long arg1_value = arg1_negative ? -numerator : numerator;
+ unsigned long long arg2_value = arg2_negative ? -denominator : denominator;
- uint64_t remainder;
+ unsigned long long remainder;
/* determine integer part */
- uint64_t res_value = complete_integer_division_u64(
+ unsigned long long res_value = complete_integer_division_u64(
arg1_value, arg2_value, &remainder);
ASSERT(res_value <= LONG_MAX);
/* determine fractional part */
{
- uint32_t i = FIXED31_32_BITS_PER_FRACTIONAL_PART;
+ unsigned int i = FIXED31_32_BITS_PER_FRACTIONAL_PART;
do {
remainder <<= 1;
@@ -103,14 +101,14 @@ struct fixed31_32 dal_fixed31_32_from_fraction(
/* round up LSB */
{
- uint64_t summand = (remainder << 1) >= arg2_value;
+ unsigned long long summand = (remainder << 1) >= arg2_value;
ASSERT(res_value <= LLONG_MAX - summand);
res_value += summand;
}
- res.value = (int64_t)res_value;
+ res.value = (long long)res_value;
if (arg1_negative ^ arg2_negative)
res.value = -res.value;
@@ -118,79 +116,23 @@ struct fixed31_32 dal_fixed31_32_from_fraction(
return res;
}
-struct fixed31_32 dal_fixed31_32_from_int_nonconst(
- int64_t arg)
-{
- struct fixed31_32 res;
-
- ASSERT((LONG_MIN <= arg) && (arg <= LONG_MAX));
-
- res.value = arg << FIXED31_32_BITS_PER_FRACTIONAL_PART;
-
- return res;
-}
-
-struct fixed31_32 dal_fixed31_32_shl(
- struct fixed31_32 arg,
- uint8_t shift)
-{
- struct fixed31_32 res;
-
- ASSERT(((arg.value >= 0) && (arg.value <= LLONG_MAX >> shift)) ||
- ((arg.value < 0) && (arg.value >= LLONG_MIN >> shift)));
-
- res.value = arg.value << shift;
-
- return res;
-}
-
-struct fixed31_32 dal_fixed31_32_add(
- struct fixed31_32 arg1,
- struct fixed31_32 arg2)
-{
- struct fixed31_32 res;
-
- ASSERT(((arg1.value >= 0) && (LLONG_MAX - arg1.value >= arg2.value)) ||
- ((arg1.value < 0) && (LLONG_MIN - arg1.value <= arg2.value)));
-
- res.value = arg1.value + arg2.value;
-
- return res;
-}
-
-struct fixed31_32 dal_fixed31_32_sub(
- struct fixed31_32 arg1,
- struct fixed31_32 arg2)
-{
- struct fixed31_32 res;
-
- ASSERT(((arg2.value >= 0) && (LLONG_MIN + arg2.value <= arg1.value)) ||
- ((arg2.value < 0) && (LLONG_MAX + arg2.value >= arg1.value)));
-
- res.value = arg1.value - arg2.value;
-
- return res;
-}
-
-struct fixed31_32 dal_fixed31_32_mul(
- struct fixed31_32 arg1,
- struct fixed31_32 arg2)
+struct fixed31_32 dc_fixpt_mul(struct fixed31_32 arg1, struct fixed31_32 arg2)
{
struct fixed31_32 res;
bool arg1_negative = arg1.value < 0;
bool arg2_negative = arg2.value < 0;
- uint64_t arg1_value = arg1_negative ? -arg1.value : arg1.value;
- uint64_t arg2_value = arg2_negative ? -arg2.value : arg2.value;
+ unsigned long long arg1_value = arg1_negative ? -arg1.value : arg1.value;
+ unsigned long long arg2_value = arg2_negative ? -arg2.value : arg2.value;
- uint64_t arg1_int = GET_INTEGER_PART(arg1_value);
- uint64_t arg2_int = GET_INTEGER_PART(arg2_value);
+ unsigned long long arg1_int = GET_INTEGER_PART(arg1_value);
+ unsigned long long arg2_int = GET_INTEGER_PART(arg2_value);
- uint64_t arg1_fra = GET_FRACTIONAL_PART(arg1_value);
- uint64_t arg2_fra = GET_FRACTIONAL_PART(arg2_value);
+ unsigned long long arg1_fra = GET_FRACTIONAL_PART(arg1_value);
+ unsigned long long arg2_fra = GET_FRACTIONAL_PART(arg2_value);
- uint64_t tmp;
+ unsigned long long tmp;
res.value = arg1_int * arg2_int;
@@ -200,22 +142,22 @@ struct fixed31_32 dal_fixed31_32_mul(
tmp = arg1_int * arg2_fra;
- ASSERT(tmp <= (uint64_t)(LLONG_MAX - res.value));
+ ASSERT(tmp <= (unsigned long long)(LLONG_MAX - res.value));
res.value += tmp;
tmp = arg2_int * arg1_fra;
- ASSERT(tmp <= (uint64_t)(LLONG_MAX - res.value));
+ ASSERT(tmp <= (unsigned long long)(LLONG_MAX - res.value));
res.value += tmp;
tmp = arg1_fra * arg2_fra;
tmp = (tmp >> FIXED31_32_BITS_PER_FRACTIONAL_PART) +
- (tmp >= (uint64_t)dal_fixed31_32_half.value);
+ (tmp >= (unsigned long long)dc_fixpt_half.value);
- ASSERT(tmp <= (uint64_t)(LLONG_MAX - res.value));
+ ASSERT(tmp <= (unsigned long long)(LLONG_MAX - res.value));
res.value += tmp;
@@ -225,18 +167,17 @@ struct fixed31_32 dal_fixed31_32_mul(
return res;
}
-struct fixed31_32 dal_fixed31_32_sqr(
- struct fixed31_32 arg)
+struct fixed31_32 dc_fixpt_sqr(struct fixed31_32 arg)
{
struct fixed31_32 res;
- uint64_t arg_value = abs_i64(arg.value);
+ unsigned long long arg_value = abs_i64(arg.value);
- uint64_t arg_int = GET_INTEGER_PART(arg_value);
+ unsigned long long arg_int = GET_INTEGER_PART(arg_value);
- uint64_t arg_fra = GET_FRACTIONAL_PART(arg_value);
+ unsigned long long arg_fra = GET_FRACTIONAL_PART(arg_value);
- uint64_t tmp;
+ unsigned long long tmp;
res.value = arg_int * arg_int;
@@ -246,28 +187,27 @@ struct fixed31_32 dal_fixed31_32_sqr(
tmp = arg_int * arg_fra;
- ASSERT(tmp <= (uint64_t)(LLONG_MAX - res.value));
+ ASSERT(tmp <= (unsigned long long)(LLONG_MAX - res.value));
res.value += tmp;
- ASSERT(tmp <= (uint64_t)(LLONG_MAX - res.value));
+ ASSERT(tmp <= (unsigned long long)(LLONG_MAX - res.value));
res.value += tmp;
tmp = arg_fra * arg_fra;
tmp = (tmp >> FIXED31_32_BITS_PER_FRACTIONAL_PART) +
- (tmp >= (uint64_t)dal_fixed31_32_half.value);
+ (tmp >= (unsigned long long)dc_fixpt_half.value);
- ASSERT(tmp <= (uint64_t)(LLONG_MAX - res.value));
+ ASSERT(tmp <= (unsigned long long)(LLONG_MAX - res.value));
res.value += tmp;
return res;
}
-struct fixed31_32 dal_fixed31_32_recip(
- struct fixed31_32 arg)
+struct fixed31_32 dc_fixpt_recip(struct fixed31_32 arg)
{
/*
* @note
@@ -276,41 +216,40 @@ struct fixed31_32 dal_fixed31_32_recip(
ASSERT(arg.value);
- return dal_fixed31_32_from_fraction(
- dal_fixed31_32_one.value,
+ return dc_fixpt_from_fraction(
+ dc_fixpt_one.value,
arg.value);
}
-struct fixed31_32 dal_fixed31_32_sinc(
- struct fixed31_32 arg)
+struct fixed31_32 dc_fixpt_sinc(struct fixed31_32 arg)
{
struct fixed31_32 square;
- struct fixed31_32 res = dal_fixed31_32_one;
+ struct fixed31_32 res = dc_fixpt_one;
- int32_t n = 27;
+ int n = 27;
struct fixed31_32 arg_norm = arg;
- if (dal_fixed31_32_le(
- dal_fixed31_32_two_pi,
- dal_fixed31_32_abs(arg))) {
- arg_norm = dal_fixed31_32_sub(
+ if (dc_fixpt_le(
+ dc_fixpt_two_pi,
+ dc_fixpt_abs(arg))) {
+ arg_norm = dc_fixpt_sub(
arg_norm,
- dal_fixed31_32_mul_int(
- dal_fixed31_32_two_pi,
- (int32_t)div64_s64(
+ dc_fixpt_mul_int(
+ dc_fixpt_two_pi,
+ (int)div64_s64(
arg_norm.value,
- dal_fixed31_32_two_pi.value)));
+ dc_fixpt_two_pi.value)));
}
- square = dal_fixed31_32_sqr(arg_norm);
+ square = dc_fixpt_sqr(arg_norm);
do {
- res = dal_fixed31_32_sub(
- dal_fixed31_32_one,
- dal_fixed31_32_div_int(
- dal_fixed31_32_mul(
+ res = dc_fixpt_sub(
+ dc_fixpt_one,
+ dc_fixpt_div_int(
+ dc_fixpt_mul(
square,
res),
n * (n - 1)));
@@ -319,37 +258,35 @@ struct fixed31_32 dal_fixed31_32_sinc(
} while (n > 2);
if (arg.value != arg_norm.value)
- res = dal_fixed31_32_div(
- dal_fixed31_32_mul(res, arg_norm),
+ res = dc_fixpt_div(
+ dc_fixpt_mul(res, arg_norm),
arg);
return res;
}
-struct fixed31_32 dal_fixed31_32_sin(
- struct fixed31_32 arg)
+struct fixed31_32 dc_fixpt_sin(struct fixed31_32 arg)
{
- return dal_fixed31_32_mul(
+ return dc_fixpt_mul(
arg,
- dal_fixed31_32_sinc(arg));
+ dc_fixpt_sinc(arg));
}
-struct fixed31_32 dal_fixed31_32_cos(
- struct fixed31_32 arg)
+struct fixed31_32 dc_fixpt_cos(struct fixed31_32 arg)
{
/* TODO implement argument normalization */
- const struct fixed31_32 square = dal_fixed31_32_sqr(arg);
+ const struct fixed31_32 square = dc_fixpt_sqr(arg);
- struct fixed31_32 res = dal_fixed31_32_one;
+ struct fixed31_32 res = dc_fixpt_one;
- int32_t n = 26;
+ int n = 26;
do {
- res = dal_fixed31_32_sub(
- dal_fixed31_32_one,
- dal_fixed31_32_div_int(
- dal_fixed31_32_mul(
+ res = dc_fixpt_sub(
+ dc_fixpt_one,
+ dc_fixpt_div_int(
+ dc_fixpt_mul(
square,
res),
n * (n - 1)));
@@ -367,37 +304,35 @@ struct fixed31_32 dal_fixed31_32_cos(
*
* Calculated as Taylor series.
*/
-static struct fixed31_32 fixed31_32_exp_from_taylor_series(
- struct fixed31_32 arg)
+static struct fixed31_32 fixed31_32_exp_from_taylor_series(struct fixed31_32 arg)
{
- uint32_t n = 9;
+ unsigned int n = 9;
- struct fixed31_32 res = dal_fixed31_32_from_fraction(
+ struct fixed31_32 res = dc_fixpt_from_fraction(
n + 2,
n + 1);
/* TODO find correct res */
- ASSERT(dal_fixed31_32_lt(arg, dal_fixed31_32_one));
+ ASSERT(dc_fixpt_lt(arg, dc_fixpt_one));
do
- res = dal_fixed31_32_add(
- dal_fixed31_32_one,
- dal_fixed31_32_div_int(
- dal_fixed31_32_mul(
+ res = dc_fixpt_add(
+ dc_fixpt_one,
+ dc_fixpt_div_int(
+ dc_fixpt_mul(
arg,
res),
n));
while (--n != 1);
- return dal_fixed31_32_add(
- dal_fixed31_32_one,
- dal_fixed31_32_mul(
+ return dc_fixpt_add(
+ dc_fixpt_one,
+ dc_fixpt_mul(
arg,
res));
}
-struct fixed31_32 dal_fixed31_32_exp(
- struct fixed31_32 arg)
+struct fixed31_32 dc_fixpt_exp(struct fixed31_32 arg)
{
/*
* @brief
@@ -406,44 +341,43 @@ struct fixed31_32 dal_fixed31_32_exp(
* where m = round(x / ln(2)), r = x - m * ln(2)
*/
- if (dal_fixed31_32_le(
- dal_fixed31_32_ln2_div_2,
- dal_fixed31_32_abs(arg))) {
- int32_t m = dal_fixed31_32_round(
- dal_fixed31_32_div(
+ if (dc_fixpt_le(
+ dc_fixpt_ln2_div_2,
+ dc_fixpt_abs(arg))) {
+ int m = dc_fixpt_round(
+ dc_fixpt_div(
arg,
- dal_fixed31_32_ln2));
+ dc_fixpt_ln2));
- struct fixed31_32 r = dal_fixed31_32_sub(
+ struct fixed31_32 r = dc_fixpt_sub(
arg,
- dal_fixed31_32_mul_int(
- dal_fixed31_32_ln2,
+ dc_fixpt_mul_int(
+ dc_fixpt_ln2,
m));
ASSERT(m != 0);
- ASSERT(dal_fixed31_32_lt(
- dal_fixed31_32_abs(r),
- dal_fixed31_32_one));
+ ASSERT(dc_fixpt_lt(
+ dc_fixpt_abs(r),
+ dc_fixpt_one));
if (m > 0)
- return dal_fixed31_32_shl(
+ return dc_fixpt_shl(
fixed31_32_exp_from_taylor_series(r),
- (uint8_t)m);
+ (unsigned char)m);
else
- return dal_fixed31_32_div_int(
+ return dc_fixpt_div_int(
fixed31_32_exp_from_taylor_series(r),
1LL << -m);
} else if (arg.value != 0)
return fixed31_32_exp_from_taylor_series(arg);
else
- return dal_fixed31_32_one;
+ return dc_fixpt_one;
}
-struct fixed31_32 dal_fixed31_32_log(
- struct fixed31_32 arg)
+struct fixed31_32 dc_fixpt_log(struct fixed31_32 arg)
{
- struct fixed31_32 res = dal_fixed31_32_neg(dal_fixed31_32_one);
+ struct fixed31_32 res = dc_fixpt_neg(dc_fixpt_one);
/* TODO improve 1st estimation */
struct fixed31_32 error;
@@ -453,15 +387,15 @@ struct fixed31_32 dal_fixed31_32_log(
/* TODO if arg is zero, return -INF */
do {
- struct fixed31_32 res1 = dal_fixed31_32_add(
- dal_fixed31_32_sub(
+ struct fixed31_32 res1 = dc_fixpt_add(
+ dc_fixpt_sub(
res,
- dal_fixed31_32_one),
- dal_fixed31_32_div(
+ dc_fixpt_one),
+ dc_fixpt_div(
arg,
- dal_fixed31_32_exp(res)));
+ dc_fixpt_exp(res)));
- error = dal_fixed31_32_sub(
+ error = dc_fixpt_sub(
res,
res1);
@@ -472,78 +406,23 @@ struct fixed31_32 dal_fixed31_32_log(
return res;
}
-struct fixed31_32 dal_fixed31_32_pow(
- struct fixed31_32 arg1,
- struct fixed31_32 arg2)
-{
- return dal_fixed31_32_exp(
- dal_fixed31_32_mul(
- dal_fixed31_32_log(arg1),
- arg2));
-}
-
-int32_t dal_fixed31_32_floor(
- struct fixed31_32 arg)
-{
- uint64_t arg_value = abs_i64(arg.value);
-
- if (arg.value >= 0)
- return (int32_t)GET_INTEGER_PART(arg_value);
- else
- return -(int32_t)GET_INTEGER_PART(arg_value);
-}
-
-int32_t dal_fixed31_32_round(
- struct fixed31_32 arg)
-{
- uint64_t arg_value = abs_i64(arg.value);
-
- const int64_t summand = dal_fixed31_32_half.value;
-
- ASSERT(LLONG_MAX - (int64_t)arg_value >= summand);
-
- arg_value += summand;
-
- if (arg.value >= 0)
- return (int32_t)GET_INTEGER_PART(arg_value);
- else
- return -(int32_t)GET_INTEGER_PART(arg_value);
-}
-
-int32_t dal_fixed31_32_ceil(
- struct fixed31_32 arg)
-{
- uint64_t arg_value = abs_i64(arg.value);
-
- const int64_t summand = dal_fixed31_32_one.value -
- dal_fixed31_32_epsilon.value;
-
- ASSERT(LLONG_MAX - (int64_t)arg_value >= summand);
-
- arg_value += summand;
-
- if (arg.value >= 0)
- return (int32_t)GET_INTEGER_PART(arg_value);
- else
- return -(int32_t)GET_INTEGER_PART(arg_value);
-}
/* this function is a generic helper to translate fixed point value to
* specified integer format that will consist of integer_bits integer part and
* fractional_bits fractional part. For example it is used in
- * dal_fixed31_32_u2d19 to receive 2 bits integer part and 19 bits fractional
+ * dc_fixpt_u2d19 to receive 2 bits integer part and 19 bits fractional
* part in 32 bits. It is used in hw programming (scaler)
*/
-static inline uint32_t ux_dy(
- int64_t value,
- uint32_t integer_bits,
- uint32_t fractional_bits)
+static inline unsigned int ux_dy(
+ long long value,
+ unsigned int integer_bits,
+ unsigned int fractional_bits)
{
/* 1. create mask of integer part */
- uint32_t result = (1 << integer_bits) - 1;
+ unsigned int result = (1 << integer_bits) - 1;
/* 2. mask out fractional part */
- uint32_t fractional_part = FRACTIONAL_PART_MASK & value;
+ unsigned int fractional_part = FRACTIONAL_PART_MASK & value;
/* 3. shrink fixed point integer part to be of integer_bits width*/
result &= GET_INTEGER_PART(value);
/* 4. make space for fractional part to be filled in after integer */
@@ -554,13 +433,13 @@ static inline uint32_t ux_dy(
return result | fractional_part;
}
-static inline uint32_t clamp_ux_dy(
- int64_t value,
- uint32_t integer_bits,
- uint32_t fractional_bits,
- uint32_t min_clamp)
+static inline unsigned int clamp_ux_dy(
+ long long value,
+ unsigned int integer_bits,
+ unsigned int fractional_bits,
+ unsigned int min_clamp)
{
- uint32_t truncated_val = ux_dy(value, integer_bits, fractional_bits);
+ unsigned int truncated_val = ux_dy(value, integer_bits, fractional_bits);
if (value >= (1LL << (integer_bits + FIXED31_32_BITS_PER_FRACTIONAL_PART)))
return (1 << (integer_bits + fractional_bits)) - 1;
@@ -570,35 +449,35 @@ static inline uint32_t clamp_ux_dy(
return min_clamp;
}
-uint32_t dal_fixed31_32_u2d19(
- struct fixed31_32 arg)
+unsigned int dc_fixpt_u3d19(struct fixed31_32 arg)
+{
+ return ux_dy(arg.value, 3, 19);
+}
+
+unsigned int dc_fixpt_u2d19(struct fixed31_32 arg)
{
return ux_dy(arg.value, 2, 19);
}
-uint32_t dal_fixed31_32_u0d19(
- struct fixed31_32 arg)
+unsigned int dc_fixpt_u0d19(struct fixed31_32 arg)
{
return ux_dy(arg.value, 0, 19);
}
-uint32_t dal_fixed31_32_clamp_u0d14(
- struct fixed31_32 arg)
+unsigned int dc_fixpt_clamp_u0d14(struct fixed31_32 arg)
{
return clamp_ux_dy(arg.value, 0, 14, 1);
}
-uint32_t dal_fixed31_32_clamp_u0d10(
- struct fixed31_32 arg)
+unsigned int dc_fixpt_clamp_u0d10(struct fixed31_32 arg)
{
return clamp_ux_dy(arg.value, 0, 10, 1);
}
-int32_t dal_fixed31_32_s4d19(
- struct fixed31_32 arg)
+int dc_fixpt_s4d19(struct fixed31_32 arg)
{
if (arg.value < 0)
- return -(int32_t)ux_dy(dal_fixed31_32_abs(arg).value, 4, 19);
+ return -(int)ux_dy(dc_fixpt_abs(arg).value, 4, 19);
else
return ux_dy(arg.value, 4, 19);
}
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