提交 c233e91b 编写于 作者: D Dave Airlie 提交者: Alex Deucher

amdgpu/dc: use the builtin constant p trick on the 31/32 fixed point.

This only gets us 100 bytes, but may as well be consistent.
Signed-off-by: NDave Airlie <airlied@redhat.com>
Reviewed-by: NHarry Wentland <harry.wentland@amd.com>
Signed-off-by: NAlex Deucher <alexander.deucher@amd.com>
上级 dfd1e5ce
......@@ -54,14 +54,12 @@ static inline uint64_t complete_integer_division_u64(
return result;
}
#define BITS_PER_FRACTIONAL_PART \
32
#define FRACTIONAL_PART_MASK \
((1ULL << BITS_PER_FRACTIONAL_PART) - 1)
((1ULL << FIXED31_32_BITS_PER_FRACTIONAL_PART) - 1)
#define GET_INTEGER_PART(x) \
((x) >> BITS_PER_FRACTIONAL_PART)
((x) >> FIXED31_32_BITS_PER_FRACTIONAL_PART)
#define GET_FRACTIONAL_PART(x) \
(FRACTIONAL_PART_MASK & (x))
......@@ -89,7 +87,7 @@ struct fixed31_32 dal_fixed31_32_from_fraction(
/* determine fractional part */
{
uint32_t i = BITS_PER_FRACTIONAL_PART;
uint32_t i = FIXED31_32_BITS_PER_FRACTIONAL_PART;
do {
remainder <<= 1;
......@@ -120,14 +118,14 @@ struct fixed31_32 dal_fixed31_32_from_fraction(
return res;
}
struct fixed31_32 dal_fixed31_32_from_int(
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 << BITS_PER_FRACTIONAL_PART;
res.value = arg << FIXED31_32_BITS_PER_FRACTIONAL_PART;
return res;
}
......@@ -198,7 +196,7 @@ struct fixed31_32 dal_fixed31_32_mul(
ASSERT(res.value <= LONG_MAX);
res.value <<= BITS_PER_FRACTIONAL_PART;
res.value <<= FIXED31_32_BITS_PER_FRACTIONAL_PART;
tmp = arg1_int * arg2_fra;
......@@ -214,7 +212,7 @@ struct fixed31_32 dal_fixed31_32_mul(
tmp = arg1_fra * arg2_fra;
tmp = (tmp >> BITS_PER_FRACTIONAL_PART) +
tmp = (tmp >> FIXED31_32_BITS_PER_FRACTIONAL_PART) +
(tmp >= (uint64_t)dal_fixed31_32_half.value);
ASSERT(tmp <= (uint64_t)(LLONG_MAX - res.value));
......@@ -244,7 +242,7 @@ struct fixed31_32 dal_fixed31_32_sqr(
ASSERT(res.value <= LONG_MAX);
res.value <<= BITS_PER_FRACTIONAL_PART;
res.value <<= FIXED31_32_BITS_PER_FRACTIONAL_PART;
tmp = arg_int * arg_fra;
......@@ -258,7 +256,7 @@ struct fixed31_32 dal_fixed31_32_sqr(
tmp = arg_fra * arg_fra;
tmp = (tmp >> BITS_PER_FRACTIONAL_PART) +
tmp = (tmp >> FIXED31_32_BITS_PER_FRACTIONAL_PART) +
(tmp >= (uint64_t)dal_fixed31_32_half.value);
ASSERT(tmp <= (uint64_t)(LLONG_MAX - res.value));
......@@ -560,7 +558,7 @@ static inline uint32_t ux_dy(
/* 4. make space for fractional part to be filled in after integer */
result <<= fractional_bits;
/* 5. shrink fixed point fractional part to of fractional_bits width*/
fractional_part >>= BITS_PER_FRACTIONAL_PART - fractional_bits;
fractional_part >>= FIXED31_32_BITS_PER_FRACTIONAL_PART - fractional_bits;
/* 6. merge the result */
return result | fractional_part;
}
......
......@@ -28,6 +28,8 @@
#include "os_types.h"
#define FIXED31_32_BITS_PER_FRACTIONAL_PART 32
/*
* @brief
* Arithmetic operations on real numbers
......@@ -78,8 +80,17 @@ struct fixed31_32 dal_fixed31_32_from_fraction(
* @brief
* result = arg
*/
struct fixed31_32 dal_fixed31_32_from_int(
int64_t arg);
struct fixed31_32 dal_fixed31_32_from_int_nonconst(int64_t arg);
static inline struct fixed31_32 dal_fixed31_32_from_int(int64_t arg)
{
if (__builtin_constant_p(arg)) {
struct fixed31_32 res;
BUILD_BUG_ON((LONG_MIN > arg) || (arg > LONG_MAX));
res.value = arg << FIXED31_32_BITS_PER_FRACTIONAL_PART;
return res;
} else
return dal_fixed31_32_from_int_nonconst(arg);
}
/*
* @brief
......
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