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path: root/drivers/gpu/drm/amd/display/dc/spl/dc_spl.c
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Diffstat (limited to 'drivers/gpu/drm/amd/display/dc/spl/dc_spl.c')
-rw-r--r--drivers/gpu/drm/amd/display/dc/spl/dc_spl.c1359
1 files changed, 828 insertions, 531 deletions
diff --git a/drivers/gpu/drm/amd/display/dc/spl/dc_spl.c b/drivers/gpu/drm/amd/display/dc/spl/dc_spl.c
index e3e20cd86af6..15f7eda903e6 100644
--- a/drivers/gpu/drm/amd/display/dc/spl/dc_spl.c
+++ b/drivers/gpu/drm/amd/display/dc/spl/dc_spl.c
@@ -4,9 +4,11 @@
#include "dc_spl.h"
#include "dc_spl_scl_filters.h"
+#include "dc_spl_scl_easf_filters.h"
#include "dc_spl_isharp_filters.h"
+#include "spl_debug.h"
-#define IDENTITY_RATIO(ratio) (dc_fixpt_u2d19(ratio) == (1 << 19))
+#define IDENTITY_RATIO(ratio) (spl_fixpt_u2d19(ratio) == (1 << 19))
#define MIN_VIEWPORT_SIZE 12
static struct spl_rect intersect_rec(const struct spl_rect *r0, const struct spl_rect *r1)
@@ -107,26 +109,26 @@ static struct spl_rect calculate_plane_rec_in_timing_active(
const struct spl_rect *stream_src = &spl_in->basic_out.src_rect;
const struct spl_rect *stream_dst = &spl_in->basic_out.dst_rect;
struct spl_rect rec_out = {0};
- struct fixed31_32 temp;
+ struct spl_fixed31_32 temp;
- temp = dc_fixpt_from_fraction(rec_in->x * (long long)stream_dst->width,
+ temp = spl_fixpt_from_fraction(rec_in->x * (long long)stream_dst->width,
stream_src->width);
- rec_out.x = stream_dst->x + dc_fixpt_round(temp);
+ rec_out.x = stream_dst->x + spl_fixpt_round(temp);
- temp = dc_fixpt_from_fraction(
+ temp = spl_fixpt_from_fraction(
(rec_in->x + rec_in->width) * (long long)stream_dst->width,
stream_src->width);
- rec_out.width = stream_dst->x + dc_fixpt_round(temp) - rec_out.x;
+ rec_out.width = stream_dst->x + spl_fixpt_round(temp) - rec_out.x;
- temp = dc_fixpt_from_fraction(rec_in->y * (long long)stream_dst->height,
+ temp = spl_fixpt_from_fraction(rec_in->y * (long long)stream_dst->height,
stream_src->height);
- rec_out.y = stream_dst->y + dc_fixpt_round(temp);
+ rec_out.y = stream_dst->y + spl_fixpt_round(temp);
- temp = dc_fixpt_from_fraction(
+ temp = spl_fixpt_from_fraction(
(rec_in->y + rec_in->height) * (long long)stream_dst->height,
stream_src->height);
- rec_out.height = stream_dst->y + dc_fixpt_round(temp) - rec_out.y;
+ rec_out.height = stream_dst->y + spl_fixpt_round(temp) - rec_out.y;
return rec_out;
}
@@ -144,7 +146,7 @@ static struct spl_rect calculate_mpc_slice_in_timing_active(
mpc_rec.x = plane_clip_rec->x + mpc_rec.width * mpc_slice_idx;
mpc_rec.height = plane_clip_rec->height;
mpc_rec.y = plane_clip_rec->y;
- ASSERT(mpc_slice_count == 1 ||
+ SPL_ASSERT(mpc_slice_count == 1 ||
spl_in->basic_out.view_format != SPL_VIEW_3D_SIDE_BY_SIDE ||
mpc_rec.width % 2 == 0);
@@ -157,7 +159,7 @@ static struct spl_rect calculate_mpc_slice_in_timing_active(
}
if (spl_in->basic_out.view_format == SPL_VIEW_3D_TOP_AND_BOTTOM) {
- ASSERT(mpc_rec.height % 2 == 0);
+ SPL_ASSERT(mpc_rec.height % 2 == 0);
mpc_rec.height /= 2;
}
return mpc_rec;
@@ -197,7 +199,7 @@ static struct spl_rect calculate_odm_slice_in_timing_active(struct spl_in *spl_i
return spl_in->basic_out.odm_slice_rect;
}
-static void spl_calculate_recout(struct spl_in *spl_in, struct spl_out *spl_out)
+static void spl_calculate_recout(struct spl_in *spl_in, struct spl_scratch *spl_scratch, struct spl_out *spl_out)
{
/*
* A plane clip represents the desired plane size and position in Stream
@@ -340,20 +342,23 @@ static void spl_calculate_recout(struct spl_in *spl_in, struct spl_out *spl_out)
/* shift the overlapping area so it is with respect to current
* ODM slice's position
*/
- spl_out->scl_data.recout = shift_rec(
+ spl_scratch->scl_data.recout = shift_rec(
&overlapping_area,
-odm_slice.x, -odm_slice.y);
- spl_out->scl_data.recout.height -=
+ spl_scratch->scl_data.recout.height -=
spl_in->debug.visual_confirm_base_offset;
- spl_out->scl_data.recout.height -=
+ spl_scratch->scl_data.recout.height -=
spl_in->debug.visual_confirm_dpp_offset;
} else
/* if there is no overlap, zero recout */
- memset(&spl_out->scl_data.recout, 0,
+ memset(&spl_scratch->scl_data.recout, 0,
sizeof(struct spl_rect));
}
+
/* Calculate scaling ratios */
-static void spl_calculate_scaling_ratios(struct spl_in *spl_in, struct spl_out *spl_out)
+static void spl_calculate_scaling_ratios(struct spl_in *spl_in,
+ struct spl_scratch *spl_scratch,
+ struct spl_out *spl_out)
{
const int in_w = spl_in->basic_out.src_rect.width;
const int in_h = spl_in->basic_out.src_rect.height;
@@ -364,59 +369,75 @@ static void spl_calculate_scaling_ratios(struct spl_in *spl_in, struct spl_out *
/*Swap surf_src height and width since scaling ratios are in recout rotation*/
if (spl_in->basic_in.rotation == SPL_ROTATION_ANGLE_90 ||
spl_in->basic_in.rotation == SPL_ROTATION_ANGLE_270)
- swap(surf_src.height, surf_src.width);
+ spl_swap(surf_src.height, surf_src.width);
- spl_out->scl_data.ratios.horz = dc_fixpt_from_fraction(
+ spl_scratch->scl_data.ratios.horz = spl_fixpt_from_fraction(
surf_src.width,
spl_in->basic_in.dst_rect.width);
- spl_out->scl_data.ratios.vert = dc_fixpt_from_fraction(
+ spl_scratch->scl_data.ratios.vert = spl_fixpt_from_fraction(
surf_src.height,
spl_in->basic_in.dst_rect.height);
if (spl_in->basic_out.view_format == SPL_VIEW_3D_SIDE_BY_SIDE)
- spl_out->scl_data.ratios.horz.value *= 2;
+ spl_scratch->scl_data.ratios.horz.value *= 2;
else if (spl_in->basic_out.view_format == SPL_VIEW_3D_TOP_AND_BOTTOM)
- spl_out->scl_data.ratios.vert.value *= 2;
+ spl_scratch->scl_data.ratios.vert.value *= 2;
- spl_out->scl_data.ratios.vert.value = div64_s64(
- spl_out->scl_data.ratios.vert.value * in_h, out_h);
- spl_out->scl_data.ratios.horz.value = div64_s64(
- spl_out->scl_data.ratios.horz.value * in_w, out_w);
+ spl_scratch->scl_data.ratios.vert.value = spl_div64_s64(
+ spl_scratch->scl_data.ratios.vert.value * in_h, out_h);
+ spl_scratch->scl_data.ratios.horz.value = spl_div64_s64(
+ spl_scratch->scl_data.ratios.horz.value * in_w, out_w);
- spl_out->scl_data.ratios.horz_c = spl_out->scl_data.ratios.horz;
- spl_out->scl_data.ratios.vert_c = spl_out->scl_data.ratios.vert;
+ spl_scratch->scl_data.ratios.horz_c = spl_scratch->scl_data.ratios.horz;
+ spl_scratch->scl_data.ratios.vert_c = spl_scratch->scl_data.ratios.vert;
if (spl_in->basic_in.format == SPL_PIXEL_FORMAT_420BPP8
|| spl_in->basic_in.format == SPL_PIXEL_FORMAT_420BPP10) {
- spl_out->scl_data.ratios.horz_c.value /= 2;
- spl_out->scl_data.ratios.vert_c.value /= 2;
+ spl_scratch->scl_data.ratios.horz_c.value /= 2;
+ spl_scratch->scl_data.ratios.vert_c.value /= 2;
}
- spl_out->scl_data.ratios.horz = dc_fixpt_truncate(
- spl_out->scl_data.ratios.horz, 19);
- spl_out->scl_data.ratios.vert = dc_fixpt_truncate(
- spl_out->scl_data.ratios.vert, 19);
- spl_out->scl_data.ratios.horz_c = dc_fixpt_truncate(
- spl_out->scl_data.ratios.horz_c, 19);
- spl_out->scl_data.ratios.vert_c = dc_fixpt_truncate(
- spl_out->scl_data.ratios.vert_c, 19);
+ spl_scratch->scl_data.ratios.horz = spl_fixpt_truncate(
+ spl_scratch->scl_data.ratios.horz, 19);
+ spl_scratch->scl_data.ratios.vert = spl_fixpt_truncate(
+ spl_scratch->scl_data.ratios.vert, 19);
+ spl_scratch->scl_data.ratios.horz_c = spl_fixpt_truncate(
+ spl_scratch->scl_data.ratios.horz_c, 19);
+ spl_scratch->scl_data.ratios.vert_c = spl_fixpt_truncate(
+ spl_scratch->scl_data.ratios.vert_c, 19);
+
+ /*
+ * Coefficient table and some registers are different based on ratio
+ * that is output/input. Currently we calculate input/output
+ * Store 1/ratio in recip_ratio for those lookups
+ */
+ spl_scratch->scl_data.recip_ratios.horz = spl_fixpt_recip(
+ spl_scratch->scl_data.ratios.horz);
+ spl_scratch->scl_data.recip_ratios.vert = spl_fixpt_recip(
+ spl_scratch->scl_data.ratios.vert);
+ spl_scratch->scl_data.recip_ratios.horz_c = spl_fixpt_recip(
+ spl_scratch->scl_data.ratios.horz_c);
+ spl_scratch->scl_data.recip_ratios.vert_c = spl_fixpt_recip(
+ spl_scratch->scl_data.ratios.vert_c);
}
+
/* Calculate Viewport size */
-static void spl_calculate_viewport_size(struct spl_in *spl_in, struct spl_out *spl_out)
+static void spl_calculate_viewport_size(struct spl_in *spl_in, struct spl_scratch *spl_scratch)
{
- spl_out->scl_data.viewport.width = dc_fixpt_ceil(dc_fixpt_mul_int(spl_out->scl_data.ratios.horz,
- spl_out->scl_data.recout.width));
- spl_out->scl_data.viewport.height = dc_fixpt_ceil(dc_fixpt_mul_int(spl_out->scl_data.ratios.vert,
- spl_out->scl_data.recout.height));
- spl_out->scl_data.viewport_c.width = dc_fixpt_ceil(dc_fixpt_mul_int(spl_out->scl_data.ratios.horz_c,
- spl_out->scl_data.recout.width));
- spl_out->scl_data.viewport_c.height = dc_fixpt_ceil(dc_fixpt_mul_int(spl_out->scl_data.ratios.vert_c,
- spl_out->scl_data.recout.height));
+ spl_scratch->scl_data.viewport.width = spl_fixpt_ceil(spl_fixpt_mul_int(spl_scratch->scl_data.ratios.horz,
+ spl_scratch->scl_data.recout.width));
+ spl_scratch->scl_data.viewport.height = spl_fixpt_ceil(spl_fixpt_mul_int(spl_scratch->scl_data.ratios.vert,
+ spl_scratch->scl_data.recout.height));
+ spl_scratch->scl_data.viewport_c.width = spl_fixpt_ceil(spl_fixpt_mul_int(spl_scratch->scl_data.ratios.horz_c,
+ spl_scratch->scl_data.recout.width));
+ spl_scratch->scl_data.viewport_c.height = spl_fixpt_ceil(spl_fixpt_mul_int(spl_scratch->scl_data.ratios.vert_c,
+ spl_scratch->scl_data.recout.height));
if (spl_in->basic_in.rotation == SPL_ROTATION_ANGLE_90 ||
spl_in->basic_in.rotation == SPL_ROTATION_ANGLE_270) {
- swap(spl_out->scl_data.viewport.width, spl_out->scl_data.viewport.height);
- swap(spl_out->scl_data.viewport_c.width, spl_out->scl_data.viewport_c.height);
+ spl_swap(spl_scratch->scl_data.viewport.width, spl_scratch->scl_data.viewport.height);
+ spl_swap(spl_scratch->scl_data.viewport_c.width, spl_scratch->scl_data.viewport_c.height);
}
}
+
static void spl_get_vp_scan_direction(enum spl_rotation_angle rotation,
bool horizontal_mirror,
bool *orthogonal_rotation,
@@ -440,6 +461,7 @@ static void spl_get_vp_scan_direction(enum spl_rotation_angle rotation,
if (horizontal_mirror)
*flip_horz_scan_dir = !*flip_horz_scan_dir;
}
+
/*
* We completely calculate vp offset, size and inits here based entirely on scaling
* ratios and recout for pixel perfect pipe combine.
@@ -449,13 +471,13 @@ static void spl_calculate_init_and_vp(bool flip_scan_dir,
int recout_size,
int src_size,
int taps,
- struct fixed31_32 ratio,
- struct fixed31_32 init_adj,
- struct fixed31_32 *init,
+ struct spl_fixed31_32 ratio,
+ struct spl_fixed31_32 init_adj,
+ struct spl_fixed31_32 *init,
int *vp_offset,
int *vp_size)
{
- struct fixed31_32 temp;
+ struct spl_fixed31_32 temp;
int int_part;
/*
@@ -468,33 +490,33 @@ static void spl_calculate_init_and_vp(bool flip_scan_dir,
* init_bot = init + scaling_ratio
* to get pixel perfect combine add the fraction from calculating vp offset
*/
- temp = dc_fixpt_mul_int(ratio, recout_offset_within_recout_full);
- *vp_offset = dc_fixpt_floor(temp);
+ temp = spl_fixpt_mul_int(ratio, recout_offset_within_recout_full);
+ *vp_offset = spl_fixpt_floor(temp);
temp.value &= 0xffffffff;
- *init = dc_fixpt_add(dc_fixpt_div_int(dc_fixpt_add_int(ratio, taps + 1), 2), temp);
- *init = dc_fixpt_add(*init, init_adj);
- *init = dc_fixpt_truncate(*init, 19);
+ *init = spl_fixpt_add(spl_fixpt_div_int(spl_fixpt_add_int(ratio, taps + 1), 2), temp);
+ *init = spl_fixpt_add(*init, init_adj);
+ *init = spl_fixpt_truncate(*init, 19);
/*
* If viewport has non 0 offset and there are more taps than covered by init then
* we should decrease the offset and increase init so we are never sampling
* outside of viewport.
*/
- int_part = dc_fixpt_floor(*init);
+ int_part = spl_fixpt_floor(*init);
if (int_part < taps) {
int_part = taps - int_part;
if (int_part > *vp_offset)
int_part = *vp_offset;
*vp_offset -= int_part;
- *init = dc_fixpt_add_int(*init, int_part);
+ *init = spl_fixpt_add_int(*init, int_part);
}
/*
* If taps are sampling outside of viewport at end of recout and there are more pixels
* available in the surface we should increase the viewport size, regardless set vp to
* only what is used.
*/
- temp = dc_fixpt_add(*init, dc_fixpt_mul_int(ratio, recout_size - 1));
- *vp_size = dc_fixpt_floor(temp);
+ temp = spl_fixpt_add(*init, spl_fixpt_mul_int(ratio, recout_size - 1));
+ *vp_size = spl_fixpt_floor(temp);
if (*vp_size + *vp_offset > src_size)
*vp_size = src_size - *vp_offset;
@@ -509,15 +531,24 @@ static void spl_calculate_init_and_vp(bool flip_scan_dir,
static bool spl_is_yuv420(enum spl_pixel_format format)
{
- if ((format >= SPL_PIXEL_FORMAT_VIDEO_BEGIN) &&
- (format <= SPL_PIXEL_FORMAT_VIDEO_END))
+ if ((format >= SPL_PIXEL_FORMAT_420BPP8) &&
+ (format <= SPL_PIXEL_FORMAT_420BPP10))
+ return true;
+
+ return false;
+}
+
+static bool spl_is_rgb8(enum spl_pixel_format format)
+{
+ if (format == SPL_PIXEL_FORMAT_ARGB8888)
return true;
return false;
}
/*Calculate inits and viewport */
-static void spl_calculate_inits_and_viewports(struct spl_in *spl_in, struct spl_out *spl_out)
+static void spl_calculate_inits_and_viewports(struct spl_in *spl_in,
+ struct spl_scratch *spl_scratch)
{
struct spl_rect src = spl_in->basic_in.src_rect;
struct spl_rect recout_dst_in_active_timing;
@@ -528,11 +559,11 @@ static void spl_calculate_inits_and_viewports(struct spl_in *spl_in, struct spl_
int vpc_div = (spl_in->basic_in.format == SPL_PIXEL_FORMAT_420BPP8
|| spl_in->basic_in.format == SPL_PIXEL_FORMAT_420BPP10) ? 2 : 1;
bool orthogonal_rotation, flip_vert_scan_dir, flip_horz_scan_dir;
- struct fixed31_32 init_adj_h = dc_fixpt_zero;
- struct fixed31_32 init_adj_v = dc_fixpt_zero;
+ struct spl_fixed31_32 init_adj_h = spl_fixpt_zero;
+ struct spl_fixed31_32 init_adj_v = spl_fixpt_zero;
recout_clip_in_active_timing = shift_rec(
- &spl_out->scl_data.recout, odm_slice.x, odm_slice.y);
+ &spl_scratch->scl_data.recout, odm_slice.x, odm_slice.y);
recout_dst_in_active_timing = calculate_plane_rec_in_timing_active(
spl_in, &spl_in->basic_in.dst_rect);
overlap_in_active_timing = intersect_rec(&recout_clip_in_active_timing,
@@ -555,8 +586,8 @@ static void spl_calculate_inits_and_viewports(struct spl_in *spl_in, struct spl_
&flip_horz_scan_dir);
if (orthogonal_rotation) {
- swap(src.width, src.height);
- swap(flip_vert_scan_dir, flip_horz_scan_dir);
+ spl_swap(src.width, src.height);
+ spl_swap(flip_vert_scan_dir, flip_horz_scan_dir);
}
if (spl_is_yuv420(spl_in->basic_in.format)) {
@@ -568,17 +599,17 @@ static void spl_calculate_inits_and_viewports(struct spl_in *spl_in, struct spl_
switch (spl_in->basic_in.cositing) {
case CHROMA_COSITING_LEFT:
- init_adj_h = dc_fixpt_zero;
- init_adj_v = dc_fixpt_from_fraction(sign, 2);
+ init_adj_h = spl_fixpt_zero;
+ init_adj_v = spl_fixpt_from_fraction(sign, 4);
break;
case CHROMA_COSITING_NONE:
- init_adj_h = dc_fixpt_from_fraction(sign, 2);
- init_adj_v = dc_fixpt_from_fraction(sign, 2);
+ init_adj_h = spl_fixpt_from_fraction(sign, 4);
+ init_adj_v = spl_fixpt_from_fraction(sign, 4);
break;
case CHROMA_COSITING_TOPLEFT:
default:
- init_adj_h = dc_fixpt_zero;
- init_adj_v = dc_fixpt_zero;
+ init_adj_h = spl_fixpt_zero;
+ init_adj_v = spl_fixpt_zero;
break;
}
}
@@ -586,59 +617,60 @@ static void spl_calculate_inits_and_viewports(struct spl_in *spl_in, struct spl_
spl_calculate_init_and_vp(
flip_horz_scan_dir,
recout_clip_in_recout_dst.x,
- spl_out->scl_data.recout.width,
+ spl_scratch->scl_data.recout.width,
src.width,
- spl_out->scl_data.taps.h_taps,
- spl_out->scl_data.ratios.horz,
- dc_fixpt_zero,
- &spl_out->scl_data.inits.h,
- &spl_out->scl_data.viewport.x,
- &spl_out->scl_data.viewport.width);
+ spl_scratch->scl_data.taps.h_taps,
+ spl_scratch->scl_data.ratios.horz,
+ spl_fixpt_zero,
+ &spl_scratch->scl_data.inits.h,
+ &spl_scratch->scl_data.viewport.x,
+ &spl_scratch->scl_data.viewport.width);
spl_calculate_init_and_vp(
flip_horz_scan_dir,
recout_clip_in_recout_dst.x,
- spl_out->scl_data.recout.width,
+ spl_scratch->scl_data.recout.width,
src.width / vpc_div,
- spl_out->scl_data.taps.h_taps_c,
- spl_out->scl_data.ratios.horz_c,
+ spl_scratch->scl_data.taps.h_taps_c,
+ spl_scratch->scl_data.ratios.horz_c,
init_adj_h,
- &spl_out->scl_data.inits.h_c,
- &spl_out->scl_data.viewport_c.x,
- &spl_out->scl_data.viewport_c.width);
+ &spl_scratch->scl_data.inits.h_c,
+ &spl_scratch->scl_data.viewport_c.x,
+ &spl_scratch->scl_data.viewport_c.width);
spl_calculate_init_and_vp(
flip_vert_scan_dir,
recout_clip_in_recout_dst.y,
- spl_out->scl_data.recout.height,
+ spl_scratch->scl_data.recout.height,
src.height,
- spl_out->scl_data.taps.v_taps,
- spl_out->scl_data.ratios.vert,
- dc_fixpt_zero,
- &spl_out->scl_data.inits.v,
- &spl_out->scl_data.viewport.y,
- &spl_out->scl_data.viewport.height);
+ spl_scratch->scl_data.taps.v_taps,
+ spl_scratch->scl_data.ratios.vert,
+ spl_fixpt_zero,
+ &spl_scratch->scl_data.inits.v,
+ &spl_scratch->scl_data.viewport.y,
+ &spl_scratch->scl_data.viewport.height);
spl_calculate_init_and_vp(
flip_vert_scan_dir,
recout_clip_in_recout_dst.y,
- spl_out->scl_data.recout.height,
+ spl_scratch->scl_data.recout.height,
src.height / vpc_div,
- spl_out->scl_data.taps.v_taps_c,
- spl_out->scl_data.ratios.vert_c,
+ spl_scratch->scl_data.taps.v_taps_c,
+ spl_scratch->scl_data.ratios.vert_c,
init_adj_v,
- &spl_out->scl_data.inits.v_c,
- &spl_out->scl_data.viewport_c.y,
- &spl_out->scl_data.viewport_c.height);
+ &spl_scratch->scl_data.inits.v_c,
+ &spl_scratch->scl_data.viewport_c.y,
+ &spl_scratch->scl_data.viewport_c.height);
if (orthogonal_rotation) {
- swap(spl_out->scl_data.viewport.x, spl_out->scl_data.viewport.y);
- swap(spl_out->scl_data.viewport.width, spl_out->scl_data.viewport.height);
- swap(spl_out->scl_data.viewport_c.x, spl_out->scl_data.viewport_c.y);
- swap(spl_out->scl_data.viewport_c.width, spl_out->scl_data.viewport_c.height);
+ spl_swap(spl_scratch->scl_data.viewport.x, spl_scratch->scl_data.viewport.y);
+ spl_swap(spl_scratch->scl_data.viewport.width, spl_scratch->scl_data.viewport.height);
+ spl_swap(spl_scratch->scl_data.viewport_c.x, spl_scratch->scl_data.viewport_c.y);
+ spl_swap(spl_scratch->scl_data.viewport_c.width, spl_scratch->scl_data.viewport_c.height);
}
- spl_out->scl_data.viewport.x += src.x;
- spl_out->scl_data.viewport.y += src.y;
- ASSERT(src.x % vpc_div == 0 && src.y % vpc_div == 0);
- spl_out->scl_data.viewport_c.x += src.x / vpc_div;
- spl_out->scl_data.viewport_c.y += src.y / vpc_div;
+ spl_scratch->scl_data.viewport.x += src.x;
+ spl_scratch->scl_data.viewport.y += src.y;
+ SPL_ASSERT(src.x % vpc_div == 0 && src.y % vpc_div == 0);
+ spl_scratch->scl_data.viewport_c.x += src.x / vpc_div;
+ spl_scratch->scl_data.viewport_c.y += src.y / vpc_div;
}
+
static void spl_handle_3d_recout(struct spl_in *spl_in, struct spl_rect *recout)
{
/*
@@ -647,7 +679,7 @@ static void spl_handle_3d_recout(struct spl_in *spl_in, struct spl_rect *recout)
* This may break with rotation, good thing we aren't mixing hw rotation and 3d
*/
if (spl_in->basic_in.mpc_combine_v) {
- ASSERT(spl_in->basic_in.rotation == SPL_ROTATION_ANGLE_0 ||
+ SPL_ASSERT(spl_in->basic_in.rotation == SPL_ROTATION_ANGLE_0 ||
(spl_in->basic_out.view_format != SPL_VIEW_3D_TOP_AND_BOTTOM &&
spl_in->basic_out.view_format != SPL_VIEW_3D_SIDE_BY_SIDE));
if (spl_in->basic_out.view_format == SPL_VIEW_3D_TOP_AND_BOTTOM)
@@ -665,6 +697,7 @@ static void spl_clamp_viewport(struct spl_rect *viewport)
if (viewport->width < MIN_VIEWPORT_SIZE)
viewport->width = MIN_VIEWPORT_SIZE;
}
+
static bool spl_dscl_is_420_format(enum spl_pixel_format format)
{
if (format == SPL_PIXEL_FORMAT_420BPP8 ||
@@ -673,6 +706,7 @@ static bool spl_dscl_is_420_format(enum spl_pixel_format format)
else
return false;
}
+
static bool spl_dscl_is_video_format(enum spl_pixel_format format)
{
if (format >= SPL_PIXEL_FORMAT_VIDEO_BEGIN
@@ -681,17 +715,21 @@ static bool spl_dscl_is_video_format(enum spl_pixel_format format)
else
return false;
}
+
static enum scl_mode spl_get_dscl_mode(const struct spl_in *spl_in,
- const struct spl_scaler_data *data)
+ const struct spl_scaler_data *data,
+ bool enable_isharp, bool enable_easf)
{
- const long long one = dc_fixpt_one.value;
+ const long long one = spl_fixpt_one.value;
enum spl_pixel_format pixel_format = spl_in->basic_in.format;
+ /* Bypass if ratio is 1:1 with no ISHARP or force scale on */
if (data->ratios.horz.value == one
&& data->ratios.vert.value == one
&& data->ratios.horz_c.value == one
&& data->ratios.vert_c.value == one
- && !spl_in->basic_out.always_scale)
+ && !spl_in->basic_out.always_scale
+ && !enable_isharp)
return SCL_MODE_SCALING_444_BYPASS;
if (!spl_dscl_is_420_format(pixel_format)) {
@@ -700,69 +738,196 @@ static enum scl_mode spl_get_dscl_mode(const struct spl_in *spl_in,
else
return SCL_MODE_SCALING_444_RGB_ENABLE;
}
- if (data->ratios.horz.value == one && data->ratios.vert.value == one)
- return SCL_MODE_SCALING_420_LUMA_BYPASS;
- if (data->ratios.horz_c.value == one && data->ratios.vert_c.value == one)
- return SCL_MODE_SCALING_420_CHROMA_BYPASS;
+
+ /* Bypass YUV if at 1:1 with no ISHARP or if doing 2:1 YUV
+ * downscale without EASF
+ */
+ if ((!enable_isharp) && (!enable_easf)) {
+ if (data->ratios.horz.value == one && data->ratios.vert.value == one)
+ return SCL_MODE_SCALING_420_LUMA_BYPASS;
+ if (data->ratios.horz_c.value == one && data->ratios.vert_c.value == one)
+ return SCL_MODE_SCALING_420_CHROMA_BYPASS;
+ }
return SCL_MODE_SCALING_420_YCBCR_ENABLE;
}
+
+static bool spl_choose_lls_policy(enum spl_pixel_format format,
+ enum spl_transfer_func_type tf_type,
+ enum spl_transfer_func_predefined tf_predefined_type,
+ enum linear_light_scaling *lls_pref)
+{
+ if (spl_is_yuv420(format)) {
+ *lls_pref = LLS_PREF_NO;
+ if ((tf_type == SPL_TF_TYPE_PREDEFINED) ||
+ (tf_type == SPL_TF_TYPE_DISTRIBUTED_POINTS))
+ return true;
+ } else { /* RGB or YUV444 */
+ if ((tf_type == SPL_TF_TYPE_PREDEFINED) ||
+ (tf_type == SPL_TF_TYPE_BYPASS)) {
+ *lls_pref = LLS_PREF_YES;
+ return true;
+ }
+ }
+ *lls_pref = LLS_PREF_NO;
+ return false;
+}
+
+/* Enable EASF ?*/
+static bool enable_easf(struct spl_in *spl_in, struct spl_scratch *spl_scratch)
+{
+ int vratio = 0;
+ int hratio = 0;
+ bool skip_easf = false;
+ bool lls_enable_easf = true;
+
+ if (spl_in->disable_easf)
+ skip_easf = true;
+
+ vratio = spl_fixpt_ceil(spl_scratch->scl_data.ratios.vert);
+ hratio = spl_fixpt_ceil(spl_scratch->scl_data.ratios.horz);
+
+ /*
+ * No EASF support for downscaling > 2:1
+ * EASF support for upscaling or downscaling up to 2:1
+ */
+ if ((vratio > 2) || (hratio > 2))
+ skip_easf = true;
+
+ /*
+ * If lls_pref is LLS_PREF_DONT_CARE, then use pixel format and transfer
+ * function to determine whether to use LINEAR or NONLINEAR scaling
+ */
+ if (spl_in->lls_pref == LLS_PREF_DONT_CARE)
+ lls_enable_easf = spl_choose_lls_policy(spl_in->basic_in.format,
+ spl_in->basic_in.tf_type, spl_in->basic_in.tf_predefined_type,
+ &spl_in->lls_pref);
+
+ if (!lls_enable_easf)
+ skip_easf = true;
+
+ /* Check for linear scaling or EASF preferred */
+ if (spl_in->lls_pref != LLS_PREF_YES && !spl_in->prefer_easf)
+ skip_easf = true;
+
+ return skip_easf;
+}
+
+static bool spl_get_isharp_en(struct spl_in *spl_in,
+ struct spl_scratch *spl_scratch)
+{
+ bool enable_isharp = false;
+ int vratio = 0;
+ int hratio = 0;
+ struct spl_taps taps = spl_scratch->scl_data.taps;
+
+ /* Return if adaptive sharpness is disabled */
+ if (spl_in->adaptive_sharpness.enable == false)
+ return enable_isharp;
+
+ vratio = spl_fixpt_ceil(spl_scratch->scl_data.ratios.vert);
+ hratio = spl_fixpt_ceil(spl_scratch->scl_data.ratios.horz);
+
+ /* No iSHARP support for downscaling */
+ if (vratio > 1 || hratio > 1)
+ return enable_isharp;
+
+ // Scaling is up to 1:1 (no scaling) or upscaling
+
+ /*
+ * Apply sharpness to all RGB surfaces and to
+ * NV12/P010 surfaces
+ */
+
+ /*
+ * Apply sharpness if supports horizontal taps 4,6 AND
+ * vertical taps 3, 4, 6
+ */
+ if ((taps.h_taps == 4 || taps.h_taps == 6) &&
+ (taps.v_taps == 3 || taps.v_taps == 4 || taps.v_taps == 6))
+ enable_isharp = true;
+
+ return enable_isharp;
+}
+
/* Calculate optimal number of taps */
static bool spl_get_optimal_number_of_taps(
- int max_downscale_src_width, struct spl_in *spl_in, struct spl_out *spl_out,
- const struct spl_taps *in_taps)
+ int max_downscale_src_width, struct spl_in *spl_in, struct spl_scratch *spl_scratch,
+ const struct spl_taps *in_taps, bool *enable_easf_v, bool *enable_easf_h,
+ bool *enable_isharp)
{
int num_part_y, num_part_c;
int max_taps_y, max_taps_c;
int min_taps_y, min_taps_c;
enum lb_memory_config lb_config;
+ bool skip_easf = false;
- if (spl_out->scl_data.viewport.width > spl_out->scl_data.h_active &&
+ if (spl_scratch->scl_data.viewport.width > spl_scratch->scl_data.h_active &&
max_downscale_src_width != 0 &&
- spl_out->scl_data.viewport.width > max_downscale_src_width)
+ spl_scratch->scl_data.viewport.width > max_downscale_src_width)
return false;
+
+ /* Check if we are using EASF or not */
+ skip_easf = enable_easf(spl_in, spl_scratch);
+
/*
* Set default taps if none are provided
* From programming guide: taps = min{ ceil(2*H_RATIO,1), 8} for downscaling
* taps = 4 for upscaling
*/
- if (in_taps->h_taps == 0) {
- if (dc_fixpt_ceil(spl_out->scl_data.ratios.horz) > 1)
- spl_out->scl_data.taps.h_taps = min(2 * dc_fixpt_ceil(spl_out->scl_data.ratios.horz), 8);
- else
- spl_out->scl_data.taps.h_taps = 4;
- } else
- spl_out->scl_data.taps.h_taps = in_taps->h_taps;
- if (in_taps->v_taps == 0) {
- if (dc_fixpt_ceil(spl_out->scl_data.ratios.vert) > 1)
- spl_out->scl_data.taps.v_taps = min(dc_fixpt_ceil(dc_fixpt_mul_int(
- spl_out->scl_data.ratios.vert, 2)), 8);
- else
- spl_out->scl_data.taps.v_taps = 4;
- } else
- spl_out->scl_data.taps.v_taps = in_taps->v_taps;
- if (in_taps->v_taps_c == 0) {
- if (dc_fixpt_ceil(spl_out->scl_data.ratios.vert_c) > 1)
- spl_out->scl_data.taps.v_taps_c = min(dc_fixpt_ceil(dc_fixpt_mul_int(
- spl_out->scl_data.ratios.vert_c, 2)), 8);
- else
- spl_out->scl_data.taps.v_taps_c = 4;
- } else
- spl_out->scl_data.taps.v_taps_c = in_taps->v_taps_c;
- if (in_taps->h_taps_c == 0) {
- if (dc_fixpt_ceil(spl_out->scl_data.ratios.horz_c) > 1)
- spl_out->scl_data.taps.h_taps_c = min(2 * dc_fixpt_ceil(spl_out->scl_data.ratios.horz_c), 8);
+ if (skip_easf) {
+ if (in_taps->h_taps == 0) {
+ if (spl_fixpt_ceil(spl_scratch->scl_data.ratios.horz) > 1)
+ spl_scratch->scl_data.taps.h_taps = spl_min(2 * spl_fixpt_ceil(
+ spl_scratch->scl_data.ratios.horz), 8);
+ else
+ spl_scratch->scl_data.taps.h_taps = 4;
+ } else
+ spl_scratch->scl_data.taps.h_taps = in_taps->h_taps;
+ if (in_taps->v_taps == 0) {
+ if (spl_fixpt_ceil(spl_scratch->scl_data.ratios.vert) > 1)
+ spl_scratch->scl_data.taps.v_taps = spl_min(spl_fixpt_ceil(spl_fixpt_mul_int(
+ spl_scratch->scl_data.ratios.vert, 2)), 8);
+ else
+ spl_scratch->scl_data.taps.v_taps = 4;
+ } else
+ spl_scratch->scl_data.taps.v_taps = in_taps->v_taps;
+ if (in_taps->v_taps_c == 0) {
+ if (spl_fixpt_ceil(spl_scratch->scl_data.ratios.vert_c) > 1)
+ spl_scratch->scl_data.taps.v_taps_c = spl_min(spl_fixpt_ceil(spl_fixpt_mul_int(
+ spl_scratch->scl_data.ratios.vert_c, 2)), 8);
+ else
+ spl_scratch->scl_data.taps.v_taps_c = 4;
+ } else
+ spl_scratch->scl_data.taps.v_taps_c = in_taps->v_taps_c;
+ if (in_taps->h_taps_c == 0) {
+ if (spl_fixpt_ceil(spl_scratch->scl_data.ratios.horz_c) > 1)
+ spl_scratch->scl_data.taps.h_taps_c = spl_min(2 * spl_fixpt_ceil(
+ spl_scratch->scl_data.ratios.horz_c), 8);
+ else
+ spl_scratch->scl_data.taps.h_taps_c = 4;
+ } else if ((in_taps->h_taps_c % 2) != 0 && in_taps->h_taps_c != 1)
+ /* Only 1 and even h_taps_c are supported by hw */
+ spl_scratch->scl_data.taps.h_taps_c = in_taps->h_taps_c - 1;
else
- spl_out->scl_data.taps.h_taps_c = 4;
- } else if ((in_taps->h_taps_c % 2) != 0 && in_taps->h_taps_c != 1)
- /* Only 1 and even h_taps_c are supported by hw */
- spl_out->scl_data.taps.h_taps_c = in_taps->h_taps_c - 1;
- else
- spl_out->scl_data.taps.h_taps_c = in_taps->h_taps_c;
+ spl_scratch->scl_data.taps.h_taps_c = in_taps->h_taps_c;
+ } else {
+ if (spl_is_yuv420(spl_in->basic_in.format)) {
+ spl_scratch->scl_data.taps.h_taps = 6;
+ spl_scratch->scl_data.taps.v_taps = 6;
+ spl_scratch->scl_data.taps.h_taps_c = 4;
+ spl_scratch->scl_data.taps.v_taps_c = 4;
+ } else { /* RGB */
+ spl_scratch->scl_data.taps.h_taps = 6;
+ spl_scratch->scl_data.taps.v_taps = 6;
+ spl_scratch->scl_data.taps.h_taps_c = 6;
+ spl_scratch->scl_data.taps.v_taps_c = 6;
+ }
+ }
/*Ensure we can support the requested number of vtaps*/
- min_taps_y = dc_fixpt_ceil(spl_out->scl_data.ratios.vert);
- min_taps_c = dc_fixpt_ceil(spl_out->scl_data.ratios.vert_c);
+ min_taps_y = spl_fixpt_ceil(spl_scratch->scl_data.ratios.vert);
+ min_taps_c = spl_fixpt_ceil(spl_scratch->scl_data.ratios.vert_c);
/* Use LB_MEMORY_CONFIG_3 for 4:2:0 */
if ((spl_in->basic_in.format == SPL_PIXEL_FORMAT_420BPP8)
@@ -771,16 +936,16 @@ static bool spl_get_optimal_number_of_taps(
else
lb_config = LB_MEMORY_CONFIG_0;
// Determine max vtap support by calculating how much line buffer can fit
- spl_in->funcs->spl_calc_lb_num_partitions(spl_in->basic_out.alpha_en, &spl_out->scl_data,
+ spl_in->funcs->spl_calc_lb_num_partitions(spl_in->basic_out.alpha_en, &spl_scratch->scl_data,
lb_config, &num_part_y, &num_part_c);
/* MAX_V_TAPS = MIN (NUM_LINES - MAX(CEILING(V_RATIO,1)-2, 0), 8) */
- if (dc_fixpt_ceil(spl_out->scl_data.ratios.vert) > 2)
- max_taps_y = num_part_y - (dc_fixpt_ceil(spl_out->scl_data.ratios.vert) - 2);
+ if (spl_fixpt_ceil(spl_scratch->scl_data.ratios.vert) > 2)
+ max_taps_y = num_part_y - (spl_fixpt_ceil(spl_scratch->scl_data.ratios.vert) - 2);
else
max_taps_y = num_part_y;
- if (dc_fixpt_ceil(spl_out->scl_data.ratios.vert_c) > 2)
- max_taps_c = num_part_c - (dc_fixpt_ceil(spl_out->scl_data.ratios.vert_c) - 2);
+ if (spl_fixpt_ceil(spl_scratch->scl_data.ratios.vert_c) > 2)
+ max_taps_c = num_part_c - (spl_fixpt_ceil(spl_scratch->scl_data.ratios.vert_c) - 2);
else
max_taps_c = num_part_c;
@@ -789,48 +954,108 @@ static bool spl_get_optimal_number_of_taps(
else if (max_taps_c < min_taps_c)
return false;
- if (spl_out->scl_data.taps.v_taps > max_taps_y)
- spl_out->scl_data.taps.v_taps = max_taps_y;
-
- if (spl_out->scl_data.taps.v_taps_c > max_taps_c)
- spl_out->scl_data.taps.v_taps_c = max_taps_c;
- if (spl_in->prefer_easf) {
- // EASF can be enabled only for taps 3,4,6
- // If optimal no of taps is 5, then set it to 4
- // If optimal no of taps is 7 or 8, then set it to 6
- if (spl_out->scl_data.taps.v_taps == 5)
- spl_out->scl_data.taps.v_taps = 4;
- if (spl_out->scl_data.taps.v_taps == 7 || spl_out->scl_data.taps.v_taps == 8)
- spl_out->scl_data.taps.v_taps = 6;
-
- if (spl_out->scl_data.taps.v_taps_c == 5)
- spl_out->scl_data.taps.v_taps_c = 4;
- if (spl_out->scl_data.taps.v_taps_c == 7 || spl_out->scl_data.taps.v_taps_c == 8)
- spl_out->scl_data.taps.v_taps_c = 6;
-
- if (spl_out->scl_data.taps.h_taps == 5)
- spl_out->scl_data.taps.h_taps = 4;
- if (spl_out->scl_data.taps.h_taps == 7 || spl_out->scl_data.taps.h_taps == 8)
- spl_out->scl_data.taps.h_taps = 6;
-
- if (spl_out->scl_data.taps.h_taps_c == 5)
- spl_out->scl_data.taps.h_taps_c = 4;
- if (spl_out->scl_data.taps.h_taps_c == 7 || spl_out->scl_data.taps.h_taps_c == 8)
- spl_out->scl_data.taps.h_taps_c = 6;
+ if (spl_scratch->scl_data.taps.v_taps > max_taps_y)
+ spl_scratch->scl_data.taps.v_taps = max_taps_y;
+ if (spl_scratch->scl_data.taps.v_taps_c > max_taps_c)
+ spl_scratch->scl_data.taps.v_taps_c = max_taps_c;
+
+ if (!skip_easf) {
+ /*
+ * RGB ( L + NL ) and Linear HDR support 6x6, 6x4, 6x3, 4x4, 4x3
+ * NL YUV420 only supports 6x6, 6x4 for Y and 4x4 for UV
+ *
+ * If LB does not support 3, 4, or 6 taps, then disable EASF_V
+ * and only enable EASF_H. So for RGB, support 6x2, 4x2
+ * and for NL YUV420, support 6x2 for Y and 4x2 for UV
+ *
+ * All other cases, have to disable EASF_V and EASF_H
+ *
+ * If optimal no of taps is 5, then set it to 4
+ * If optimal no of taps is 7 or 8, then fine since max tap is 6
+ *
+ */
+ if (spl_scratch->scl_data.taps.v_taps == 5)
+ spl_scratch->scl_data.taps.v_taps = 4;
+
+ if (spl_scratch->scl_data.taps.v_taps_c == 5)
+ spl_scratch->scl_data.taps.v_taps_c = 4;
+
+ if (spl_scratch->scl_data.taps.h_taps == 5)
+ spl_scratch->scl_data.taps.h_taps = 4;
+
+ if (spl_scratch->scl_data.taps.h_taps_c == 5)
+ spl_scratch->scl_data.taps.h_taps_c = 4;
+
+ if (spl_is_yuv420(spl_in->basic_in.format)) {
+ if ((spl_scratch->scl_data.taps.h_taps <= 4) ||
+ (spl_scratch->scl_data.taps.h_taps_c <= 3)) {
+ *enable_easf_v = false;
+ *enable_easf_h = false;
+ } else if ((spl_scratch->scl_data.taps.v_taps <= 3) ||
+ (spl_scratch->scl_data.taps.v_taps_c <= 3)) {
+ *enable_easf_v = false;
+ *enable_easf_h = true;
+ } else {
+ *enable_easf_v = true;
+ *enable_easf_h = true;
+ }
+ SPL_ASSERT((spl_scratch->scl_data.taps.v_taps > 1) &&
+ (spl_scratch->scl_data.taps.v_taps_c > 1));
+ } else { /* RGB */
+ if (spl_scratch->scl_data.taps.h_taps <= 3) {
+ *enable_easf_v = false;
+ *enable_easf_h = false;
+ } else if (spl_scratch->scl_data.taps.v_taps < 3) {
+ *enable_easf_v = false;
+ *enable_easf_h = true;
+ } else {
+ *enable_easf_v = true;
+ *enable_easf_h = true;
+ }
+ SPL_ASSERT(spl_scratch->scl_data.taps.v_taps > 1);
+ }
+ } else {
+ *enable_easf_v = false;
+ *enable_easf_h = false;
} // end of if prefer_easf
- if (!spl_in->basic_out.always_scale) {
- if (IDENTITY_RATIO(spl_out->scl_data.ratios.horz))
- spl_out->scl_data.taps.h_taps = 1;
- if (IDENTITY_RATIO(spl_out->scl_data.ratios.vert))
- spl_out->scl_data.taps.v_taps = 1;
- if (IDENTITY_RATIO(spl_out->scl_data.ratios.horz_c))
- spl_out->scl_data.taps.h_taps_c = 1;
- if (IDENTITY_RATIO(spl_out->scl_data.ratios.vert_c))
- spl_out->scl_data.taps.v_taps_c = 1;
+
+ /* Sharpener requires scaler to be enabled, including for 1:1
+ * Check if ISHARP can be enabled
+ * If ISHARP is not enabled, for 1:1, set taps to 1 and disable
+ * EASF
+ * For case of 2:1 YUV where chroma is 1:1, set taps to 1 if
+ * EASF is not enabled
+ */
+
+ *enable_isharp = spl_get_isharp_en(spl_in, spl_scratch);
+ if (!*enable_isharp && !spl_in->basic_out.always_scale) {
+ if ((IDENTITY_RATIO(spl_scratch->scl_data.ratios.horz)) &&
+ (IDENTITY_RATIO(spl_scratch->scl_data.ratios.vert))) {
+ spl_scratch->scl_data.taps.h_taps = 1;
+ spl_scratch->scl_data.taps.v_taps = 1;
+
+ if (IDENTITY_RATIO(spl_scratch->scl_data.ratios.horz_c))
+ spl_scratch->scl_data.taps.h_taps_c = 1;
+
+ if (IDENTITY_RATIO(spl_scratch->scl_data.ratios.vert_c))
+ spl_scratch->scl_data.taps.v_taps_c = 1;
+
+ *enable_easf_v = false;
+ *enable_easf_h = false;
+ } else {
+ if ((!*enable_easf_h) &&
+ (IDENTITY_RATIO(spl_scratch->scl_data.ratios.horz_c)))
+ spl_scratch->scl_data.taps.h_taps_c = 1;
+
+ if ((!*enable_easf_v) &&
+ (IDENTITY_RATIO(spl_scratch->scl_data.ratios.vert_c)))
+ spl_scratch->scl_data.taps.v_taps_c = 1;
+ }
}
return true;
}
+
static void spl_set_black_color_data(enum spl_pixel_format format,
struct scl_black_color *scl_black_color)
{
@@ -848,38 +1073,38 @@ static void spl_set_black_color_data(enum spl_pixel_format format,
static void spl_set_manual_ratio_init_data(struct dscl_prog_data *dscl_prog_data,
const struct spl_scaler_data *scl_data)
{
- struct fixed31_32 bot;
+ struct spl_fixed31_32 bot;
- dscl_prog_data->ratios.h_scale_ratio = dc_fixpt_u3d19(scl_data->ratios.horz) << 5;
- dscl_prog_data->ratios.v_scale_ratio = dc_fixpt_u3d19(scl_data->ratios.vert) << 5;
- dscl_prog_data->ratios.h_scale_ratio_c = dc_fixpt_u3d19(scl_data->ratios.horz_c) << 5;
- dscl_prog_data->ratios.v_scale_ratio_c = dc_fixpt_u3d19(scl_data->ratios.vert_c) << 5;
+ dscl_prog_data->ratios.h_scale_ratio = spl_fixpt_u3d19(scl_data->ratios.horz) << 5;
+ dscl_prog_data->ratios.v_scale_ratio = spl_fixpt_u3d19(scl_data->ratios.vert) << 5;
+ dscl_prog_data->ratios.h_scale_ratio_c = spl_fixpt_u3d19(scl_data->ratios.horz_c) << 5;
+ dscl_prog_data->ratios.v_scale_ratio_c = spl_fixpt_u3d19(scl_data->ratios.vert_c) << 5;
/*
* 0.24 format for fraction, first five bits zeroed
*/
dscl_prog_data->init.h_filter_init_frac =
- dc_fixpt_u0d19(scl_data->inits.h) << 5;
+ spl_fixpt_u0d19(scl_data->inits.h) << 5;
dscl_prog_data->init.h_filter_init_int =
- dc_fixpt_floor(scl_data->inits.h);
+ spl_fixpt_floor(scl_data->inits.h);
dscl_prog_data->init.h_filter_init_frac_c =
- dc_fixpt_u0d19(scl_data->inits.h_c) << 5;
+ spl_fixpt_u0d19(scl_data->inits.h_c) << 5;
dscl_prog_data->init.h_filter_init_int_c =
- dc_fixpt_floor(scl_data->inits.h_c);
+ spl_fixpt_floor(scl_data->inits.h_c);
dscl_prog_data->init.v_filter_init_frac =
- dc_fixpt_u0d19(scl_data->inits.v) << 5;
+ spl_fixpt_u0d19(scl_data->inits.v) << 5;
dscl_prog_data->init.v_filter_init_int =
- dc_fixpt_floor(scl_data->inits.v);
+ spl_fixpt_floor(scl_data->inits.v);
dscl_prog_data->init.v_filter_init_frac_c =
- dc_fixpt_u0d19(scl_data->inits.v_c) << 5;
+ spl_fixpt_u0d19(scl_data->inits.v_c) << 5;
dscl_prog_data->init.v_filter_init_int_c =
- dc_fixpt_floor(scl_data->inits.v_c);
-
- bot = dc_fixpt_add(scl_data->inits.v, scl_data->ratios.vert);
- dscl_prog_data->init.v_filter_init_bot_frac = dc_fixpt_u0d19(bot) << 5;
- dscl_prog_data->init.v_filter_init_bot_int = dc_fixpt_floor(bot);
- bot = dc_fixpt_add(scl_data->inits.v_c, scl_data->ratios.vert_c);
- dscl_prog_data->init.v_filter_init_bot_frac_c = dc_fixpt_u0d19(bot) << 5;
- dscl_prog_data->init.v_filter_init_bot_int_c = dc_fixpt_floor(bot);
+ spl_fixpt_floor(scl_data->inits.v_c);
+
+ bot = spl_fixpt_add(scl_data->inits.v, scl_data->ratios.vert);
+ dscl_prog_data->init.v_filter_init_bot_frac = spl_fixpt_u0d19(bot) << 5;
+ dscl_prog_data->init.v_filter_init_bot_int = spl_fixpt_floor(bot);
+ bot = spl_fixpt_add(scl_data->inits.v_c, scl_data->ratios.vert_c);
+ dscl_prog_data->init.v_filter_init_bot_frac_c = spl_fixpt_u0d19(bot) << 5;
+ dscl_prog_data->init.v_filter_init_bot_int_c = spl_fixpt_floor(bot);
}
static void spl_set_taps_data(struct dscl_prog_data *dscl_prog_data,
@@ -890,77 +1115,28 @@ static void spl_set_taps_data(struct dscl_prog_data *dscl_prog_data,
dscl_prog_data->taps.v_taps_c = scl_data->taps.v_taps_c - 1;
dscl_prog_data->taps.h_taps_c = scl_data->taps.h_taps_c - 1;
}
-static const uint16_t *spl_dscl_get_filter_coeffs_64p(int taps, struct fixed31_32 ratio)
-{
- if (taps == 8)
- return spl_get_filter_8tap_64p(ratio);
- else if (taps == 7)
- return spl_get_filter_7tap_64p(ratio);
- else if (taps == 6)
- return spl_get_filter_6tap_64p(ratio);
- else if (taps == 5)
- return spl_get_filter_5tap_64p(ratio);
- else if (taps == 4)
- return spl_get_filter_4tap_64p(ratio);
- else if (taps == 3)
- return spl_get_filter_3tap_64p(ratio);
- else if (taps == 2)
- return spl_get_filter_2tap_64p();
- else if (taps == 1)
- return NULL;
- else {
- /* should never happen, bug */
- return NULL;
- }
-}
-static void spl_set_filters_data(struct dscl_prog_data *dscl_prog_data,
- const struct spl_scaler_data *data)
-{
- dscl_prog_data->filter_h = spl_dscl_get_filter_coeffs_64p(
- data->taps.h_taps, data->ratios.horz);
- dscl_prog_data->filter_v = spl_dscl_get_filter_coeffs_64p(
- data->taps.v_taps, data->ratios.vert);
- dscl_prog_data->filter_h_c = spl_dscl_get_filter_coeffs_64p(
- data->taps.h_taps_c, data->ratios.horz_c);
- dscl_prog_data->filter_v_c = spl_dscl_get_filter_coeffs_64p(
- data->taps.v_taps_c, data->ratios.vert_c);
-}
-
-static const uint16_t *spl_dscl_get_blur_scale_coeffs_64p(int taps)
-{
- if ((taps == 3) || (taps == 4) || (taps == 6))
- return spl_get_filter_isharp_bs_4tap_64p();
- else {
- /* should never happen, bug */
- return NULL;
- }
-}
-static void spl_set_blur_scale_data(struct dscl_prog_data *dscl_prog_data,
- const struct spl_scaler_data *data)
-{
- dscl_prog_data->filter_blur_scale_h = spl_dscl_get_blur_scale_coeffs_64p(
- data->taps.h_taps);
- dscl_prog_data->filter_blur_scale_v = spl_dscl_get_blur_scale_coeffs_64p(
- data->taps.v_taps);
-}
/* Populate dscl prog data structure from scaler data calculated by SPL */
-static void spl_set_dscl_prog_data(struct spl_in *spl_in, struct spl_out *spl_out)
+static void spl_set_dscl_prog_data(struct spl_in *spl_in, struct spl_scratch *spl_scratch,
+ struct spl_out *spl_out, bool enable_easf_v, bool enable_easf_h, bool enable_isharp)
{
struct dscl_prog_data *dscl_prog_data = spl_out->dscl_prog_data;
- const struct spl_scaler_data *data = &spl_out->scl_data;
+ const struct spl_scaler_data *data = &spl_scratch->scl_data;
struct scl_black_color *scl_black_color = &dscl_prog_data->scl_black_color;
+ bool enable_easf = enable_easf_v || enable_easf_h;
+
// Set values for recout
- dscl_prog_data->recout = spl_out->scl_data.recout;
+ dscl_prog_data->recout = spl_scratch->scl_data.recout;
// Set values for MPC Size
- dscl_prog_data->mpc_size.width = spl_out->scl_data.h_active;
- dscl_prog_data->mpc_size.height = spl_out->scl_data.v_active;
+ dscl_prog_data->mpc_size.width = spl_scratch->scl_data.h_active;
+ dscl_prog_data->mpc_size.height = spl_scratch->scl_data.v_active;
// SCL_MODE - Set SCL_MODE data
- dscl_prog_data->dscl_mode = spl_get_dscl_mode(spl_in, data);
+ dscl_prog_data->dscl_mode = spl_get_dscl_mode(spl_in, data, enable_isharp,
+ enable_easf);
// SCL_BLACK_COLOR
spl_set_black_color_data(spl_in->basic_in.format, scl_black_color);
@@ -971,103 +1147,135 @@ static void spl_set_dscl_prog_data(struct spl_in *spl_in, struct spl_out *spl_ou
// Set HTaps/VTaps
spl_set_taps_data(dscl_prog_data, data);
// Set viewport
- dscl_prog_data->viewport = spl_out->scl_data.viewport;
+ dscl_prog_data->viewport = spl_scratch->scl_data.viewport;
// Set viewport_c
- dscl_prog_data->viewport_c = spl_out->scl_data.viewport_c;
+ dscl_prog_data->viewport_c = spl_scratch->scl_data.viewport_c;
// Set filters data
- spl_set_filters_data(dscl_prog_data, data);
+ spl_set_filters_data(dscl_prog_data, data, enable_easf_v, enable_easf_h);
}
-/* Enable EASF ?*/
-static bool enable_easf(int scale_ratio, int taps,
- enum linear_light_scaling lls_pref, bool prefer_easf)
+
+/* Calculate C0-C3 coefficients based on HDR_mult */
+static void spl_calculate_c0_c3_hdr(struct dscl_prog_data *dscl_prog_data, uint32_t hdr_multx100)
{
- // Is downscaling > 6:1 ?
- if (scale_ratio > 6) {
- // END - No EASF support for downscaling > 6:1
- return false;
- }
- // Is upscaling or downscaling up to 2:1?
- if (scale_ratio <= 2) {
- // Is linear scaling or EASF preferred?
- if (lls_pref == LLS_PREF_YES || prefer_easf) {
- // LB support taps 3, 4, 6
- if (taps == 3 || taps == 4 || taps == 6) {
- // END - EASF supported
- return true;
- }
- }
- }
- // END - EASF not supported
- return false;
+ struct spl_fixed31_32 hdr_mult, c0_mult, c1_mult, c2_mult;
+ struct spl_fixed31_32 c0_calc, c1_calc, c2_calc;
+ struct spl_custom_float_format fmt;
+
+ SPL_ASSERT(hdr_multx100);
+ hdr_mult = spl_fixpt_from_fraction((long long)hdr_multx100, 100LL);
+ c0_mult = spl_fixpt_from_fraction(2126LL, 10000LL);
+ c1_mult = spl_fixpt_from_fraction(7152LL, 10000LL);
+ c2_mult = spl_fixpt_from_fraction(722LL, 10000LL);
+
+ c0_calc = spl_fixpt_mul(hdr_mult, spl_fixpt_mul(c0_mult, spl_fixpt_from_fraction(
+ 16384LL, 125LL)));
+ c1_calc = spl_fixpt_mul(hdr_mult, spl_fixpt_mul(c1_mult, spl_fixpt_from_fraction(
+ 16384LL, 125LL)));
+ c2_calc = spl_fixpt_mul(hdr_mult, spl_fixpt_mul(c2_mult, spl_fixpt_from_fraction(
+ 16384LL, 125LL)));
+
+ fmt.exponenta_bits = 5;
+ fmt.mantissa_bits = 10;
+ fmt.sign = true;
+
+ // fp1.5.10, C0 coefficient (LN_rec709: HDR_MULT * 0.212600 * 2^14/125)
+ spl_convert_to_custom_float_format(c0_calc, &fmt, &dscl_prog_data->easf_matrix_c0);
+ // fp1.5.10, C1 coefficient (LN_rec709: HDR_MULT * 0.715200 * 2^14/125)
+ spl_convert_to_custom_float_format(c1_calc, &fmt, &dscl_prog_data->easf_matrix_c1);
+ // fp1.5.10, C2 coefficient (LN_rec709: HDR_MULT * 0.072200 * 2^14/125)
+ spl_convert_to_custom_float_format(c2_calc, &fmt, &dscl_prog_data->easf_matrix_c2);
+ dscl_prog_data->easf_matrix_c3 = 0x0; // fp1.5.10, C3 coefficient
}
+
/* Set EASF data */
-static void spl_set_easf_data(struct dscl_prog_data *dscl_prog_data,
- bool enable_easf_v, bool enable_easf_h, enum linear_light_scaling lls_pref,
- enum spl_pixel_format format)
+static void spl_set_easf_data(struct spl_scratch *spl_scratch, struct spl_out *spl_out, bool enable_easf_v,
+ bool enable_easf_h, enum linear_light_scaling lls_pref,
+ enum spl_pixel_format format, enum system_setup setup,
+ uint32_t hdr_multx100)
{
- if (spl_is_yuv420(format)) /* TODO: 0 = RGB, 1 = YUV */
- dscl_prog_data->easf_matrix_mode = 1;
- else
- dscl_prog_data->easf_matrix_mode = 0;
-
+ struct dscl_prog_data *dscl_prog_data = spl_out->dscl_prog_data;
if (enable_easf_v) {
dscl_prog_data->easf_v_en = true;
dscl_prog_data->easf_v_ring = 0;
- dscl_prog_data->easf_v_sharp_factor = 1;
+ dscl_prog_data->easf_v_sharp_factor = 0;
dscl_prog_data->easf_v_bf1_en = 1; // 1-bit, BF1 calculation enable, 0=disable, 1=enable
dscl_prog_data->easf_v_bf2_mode = 0xF; // 4-bit, BF2 calculation mode
- dscl_prog_data->easf_v_bf3_mode = 2; // 2-bit, BF3 chroma mode correction calculation mode
- dscl_prog_data->easf_v_bf2_flat1_gain = 4; // U1.3, BF2 Flat1 Gain control
- dscl_prog_data->easf_v_bf2_flat2_gain = 8; // U4.0, BF2 Flat2 Gain control
- dscl_prog_data->easf_v_bf2_roc_gain = 4; // U2.2, Rate Of Change control
+ /* 2-bit, BF3 chroma mode correction calculation mode */
+ dscl_prog_data->easf_v_bf3_mode = spl_get_v_bf3_mode(
+ spl_scratch->scl_data.recip_ratios.vert);
+ /* FP1.5.10 [ minCoef ]*/
dscl_prog_data->easf_v_ringest_3tap_dntilt_uptilt =
- 0x9F00;// FP1.5.10 [minCoef] (-0.036109167214271)
+ spl_get_3tap_dntilt_uptilt_offset(spl_scratch->scl_data.taps.v_taps,
+ spl_scratch->scl_data.recip_ratios.vert);
+ /* FP1.5.10 [ upTiltMaxVal ]*/
dscl_prog_data->easf_v_ringest_3tap_uptilt_max =
- 0x24FE; // FP1.5.10 [upTiltMaxVal] ( 0.904556445553545)
+ spl_get_3tap_uptilt_maxval(spl_scratch->scl_data.taps.v_taps,
+ spl_scratch->scl_data.recip_ratios.vert);
+ /* FP1.5.10 [ dnTiltSlope ]*/
dscl_prog_data->easf_v_ringest_3tap_dntilt_slope =
- 0x3940; // FP1.5.10 [dnTiltSlope] ( 0.910488988173371)
+ spl_get_3tap_dntilt_slope(spl_scratch->scl_data.taps.v_taps,
+ spl_scratch->scl_data.recip_ratios.vert);
+ /* FP1.5.10 [ upTilt1Slope ]*/
dscl_prog_data->easf_v_ringest_3tap_uptilt1_slope =
- 0x359C; // FP1.5.10 [upTilt1Slope] ( 0.125620179040899)
+ spl_get_3tap_uptilt1_slope(spl_scratch->scl_data.taps.v_taps,
+ spl_scratch->scl_data.recip_ratios.vert);
+ /* FP1.5.10 [ upTilt2Slope ]*/
dscl_prog_data->easf_v_ringest_3tap_uptilt2_slope =
- 0x359C; // FP1.5.10 [upTilt2Slope] ( 0.006786817723568)
+ spl_get_3tap_uptilt2_slope(spl_scratch->scl_data.taps.v_taps,
+ spl_scratch->scl_data.recip_ratios.vert);
+ /* FP1.5.10 [ upTilt2Offset ]*/
dscl_prog_data->easf_v_ringest_3tap_uptilt2_offset =
- 0x9F00; // FP1.5.10 [upTilt2Offset] (-0.006139059716651)
+ spl_get_3tap_uptilt2_offset(spl_scratch->scl_data.taps.v_taps,
+ spl_scratch->scl_data.recip_ratios.vert);
+ /* FP1.5.10; (2.0) Ring reducer gain for 4 or 6-tap mode [H_REDUCER_GAIN4] */
dscl_prog_data->easf_v_ringest_eventap_reduceg1 =
- 0x4000; // FP1.5.10; (2.0) Ring reducer gain for 4 or 6-tap mode [H_REDUCER_GAIN4]
+ spl_get_reducer_gain4(spl_scratch->scl_data.taps.v_taps,
+ spl_scratch->scl_data.recip_ratios.vert);
+ /* FP1.5.10; (2.5) Ring reducer gain for 6-tap mode [V_REDUCER_GAIN6] */
dscl_prog_data->easf_v_ringest_eventap_reduceg2 =
- 0x4100; // FP1.5.10; (2.5) Ring reducer gain for 6-tap mode [V_REDUCER_GAIN6]
+ spl_get_reducer_gain6(spl_scratch->scl_data.taps.v_taps,
+ spl_scratch->scl_data.recip_ratios.vert);
+ /* FP1.5.10; (-0.135742) Ring gain for 6-tap set to -139/1024 */
dscl_prog_data->easf_v_ringest_eventap_gain1 =
- 0xB058; // FP1.5.10; (-0.135742) Ring gain for 6-tap set to -139/1024
+ spl_get_gainRing4(spl_scratch->scl_data.taps.v_taps,
+ spl_scratch->scl_data.recip_ratios.vert);
+ /* FP1.5.10; (-0.024414) Ring gain for 6-tap set to -25/1024 */
dscl_prog_data->easf_v_ringest_eventap_gain2 =
- 0xA640; // FP1.5.10; (-0.024414) Ring gain for 6-tap set to -25/1024
+ spl_get_gainRing6(spl_scratch->scl_data.taps.v_taps,
+ spl_scratch->scl_data.recip_ratios.vert);
dscl_prog_data->easf_v_bf_maxa = 63; //Vertical Max BF value A in U0.6 format.Selected if V_FCNTL == 0
dscl_prog_data->easf_v_bf_maxb = 63; //Vertical Max BF value A in U0.6 format.Selected if V_FCNTL == 1
dscl_prog_data->easf_v_bf_mina = 0; //Vertical Min BF value A in U0.6 format.Selected if V_FCNTL == 0
dscl_prog_data->easf_v_bf_minb = 0; //Vertical Min BF value A in U0.6 format.Selected if V_FCNTL == 1
- dscl_prog_data->easf_v_bf1_pwl_in_seg0 = -512; // S0.10, BF1 PWL Segment 0
- dscl_prog_data->easf_v_bf1_pwl_base_seg0 = 0; // U0.6, BF1 Base PWL Segment 0
- dscl_prog_data->easf_v_bf1_pwl_slope_seg0 = 3; // S7.3, BF1 Slope PWL Segment 0
- dscl_prog_data->easf_v_bf1_pwl_in_seg1 = -20; // S0.10, BF1 PWL Segment 1
- dscl_prog_data->easf_v_bf1_pwl_base_seg1 = 12; // U0.6, BF1 Base PWL Segment 1
- dscl_prog_data->easf_v_bf1_pwl_slope_seg1 = 326; // S7.3, BF1 Slope PWL Segment 1
- dscl_prog_data->easf_v_bf1_pwl_in_seg2 = 0; // S0.10, BF1 PWL Segment 2
- dscl_prog_data->easf_v_bf1_pwl_base_seg2 = 63; // U0.6, BF1 Base PWL Segment 2
- dscl_prog_data->easf_v_bf1_pwl_slope_seg2 = 0; // S7.3, BF1 Slope PWL Segment 2
- dscl_prog_data->easf_v_bf1_pwl_in_seg3 = 16; // S0.10, BF1 PWL Segment 3
- dscl_prog_data->easf_v_bf1_pwl_base_seg3 = 63; // U0.6, BF1 Base PWL Segment 3
- dscl_prog_data->easf_v_bf1_pwl_slope_seg3 = -56; // S7.3, BF1 Slope PWL Segment 3
- dscl_prog_data->easf_v_bf1_pwl_in_seg4 = 32; // S0.10, BF1 PWL Segment 4
- dscl_prog_data->easf_v_bf1_pwl_base_seg4 = 56; // U0.6, BF1 Base PWL Segment 4
- dscl_prog_data->easf_v_bf1_pwl_slope_seg4 = -48; // S7.3, BF1 Slope PWL Segment 4
- dscl_prog_data->easf_v_bf1_pwl_in_seg5 = 48; // S0.10, BF1 PWL Segment 5
- dscl_prog_data->easf_v_bf1_pwl_base_seg5 = 50; // U0.6, BF1 Base PWL Segment 5
- dscl_prog_data->easf_v_bf1_pwl_slope_seg5 = -240; // S7.3, BF1 Slope PWL Segment 5
- dscl_prog_data->easf_v_bf1_pwl_in_seg6 = 64; // S0.10, BF1 PWL Segment 6
- dscl_prog_data->easf_v_bf1_pwl_base_seg6 = 20; // U0.6, BF1 Base PWL Segment 6
- dscl_prog_data->easf_v_bf1_pwl_slope_seg6 = -160; // S7.3, BF1 Slope PWL Segment 6
- dscl_prog_data->easf_v_bf1_pwl_in_seg7 = 80; // S0.10, BF1 PWL Segment 7
- dscl_prog_data->easf_v_bf1_pwl_base_seg7 = 0; // U0.6, BF1 Base PWL Segment 7
if (lls_pref == LLS_PREF_YES) {
+ dscl_prog_data->easf_v_bf2_flat1_gain = 4; // U1.3, BF2 Flat1 Gain control
+ dscl_prog_data->easf_v_bf2_flat2_gain = 8; // U4.0, BF2 Flat2 Gain control
+ dscl_prog_data->easf_v_bf2_roc_gain = 4; // U2.2, Rate Of Change control
+
+ dscl_prog_data->easf_v_bf1_pwl_in_seg0 = 0x600; // S0.10, BF1 PWL Segment 0 = -512
+ dscl_prog_data->easf_v_bf1_pwl_base_seg0 = 0; // U0.6, BF1 Base PWL Segment 0
+ dscl_prog_data->easf_v_bf1_pwl_slope_seg0 = 3; // S7.3, BF1 Slope PWL Segment 0
+ dscl_prog_data->easf_v_bf1_pwl_in_seg1 = 0x7EC; // S0.10, BF1 PWL Segment 1 = -20
+ dscl_prog_data->easf_v_bf1_pwl_base_seg1 = 12; // U0.6, BF1 Base PWL Segment 1
+ dscl_prog_data->easf_v_bf1_pwl_slope_seg1 = 326; // S7.3, BF1 Slope PWL Segment 1
+ dscl_prog_data->easf_v_bf1_pwl_in_seg2 = 0; // S0.10, BF1 PWL Segment 2
+ dscl_prog_data->easf_v_bf1_pwl_base_seg2 = 63; // U0.6, BF1 Base PWL Segment 2
+ dscl_prog_data->easf_v_bf1_pwl_slope_seg2 = 0; // S7.3, BF1 Slope PWL Segment 2
+ dscl_prog_data->easf_v_bf1_pwl_in_seg3 = 16; // S0.10, BF1 PWL Segment 3
+ dscl_prog_data->easf_v_bf1_pwl_base_seg3 = 63; // U0.6, BF1 Base PWL Segment 3
+ dscl_prog_data->easf_v_bf1_pwl_slope_seg3 = 0x7C8; // S7.3, BF1 Slope PWL Segment 3 = -56
+ dscl_prog_data->easf_v_bf1_pwl_in_seg4 = 32; // S0.10, BF1 PWL Segment 4
+ dscl_prog_data->easf_v_bf1_pwl_base_seg4 = 56; // U0.6, BF1 Base PWL Segment 4
+ dscl_prog_data->easf_v_bf1_pwl_slope_seg4 = 0x7D0; // S7.3, BF1 Slope PWL Segment 4 = -48
+ dscl_prog_data->easf_v_bf1_pwl_in_seg5 = 48; // S0.10, BF1 PWL Segment 5
+ dscl_prog_data->easf_v_bf1_pwl_base_seg5 = 50; // U0.6, BF1 Base PWL Segment 5
+ dscl_prog_data->easf_v_bf1_pwl_slope_seg5 = 0x710; // S7.3, BF1 Slope PWL Segment 5 = -240
+ dscl_prog_data->easf_v_bf1_pwl_in_seg6 = 64; // S0.10, BF1 PWL Segment 6
+ dscl_prog_data->easf_v_bf1_pwl_base_seg6 = 20; // U0.6, BF1 Base PWL Segment 6
+ dscl_prog_data->easf_v_bf1_pwl_slope_seg6 = 0x760; // S7.3, BF1 Slope PWL Segment 6 = -160
+ dscl_prog_data->easf_v_bf1_pwl_in_seg7 = 80; // S0.10, BF1 PWL Segment 7
+ dscl_prog_data->easf_v_bf1_pwl_base_seg7 = 0; // U0.6, BF1 Base PWL Segment 7
+
dscl_prog_data->easf_v_bf3_pwl_in_set0 = 0x000; // FP0.6.6, BF3 Input value PWL Segment 0
dscl_prog_data->easf_v_bf3_pwl_base_set0 = 63; // S0.6, BF3 Base PWL Segment 0
dscl_prog_data->easf_v_bf3_pwl_slope_set0 = 0x12C5; // FP1.6.6, BF3 Slope PWL Segment 0
@@ -1088,13 +1296,41 @@ static void spl_set_easf_data(struct dscl_prog_data *dscl_prog_data,
0x136B; // FP1.6.6, BF3 Slope PWL Segment 3
dscl_prog_data->easf_v_bf3_pwl_in_set4 =
0x0C37; // FP0.6.6, BF3 Input value PWL Segment 4 (0.125 * 125^3)
- dscl_prog_data->easf_v_bf3_pwl_base_set4 = -50; // S0.6, BF3 Base PWL Segment 4
+ dscl_prog_data->easf_v_bf3_pwl_base_set4 = 0x4E; // S0.6, BF3 Base PWL Segment 4 = -50
dscl_prog_data->easf_v_bf3_pwl_slope_set4 =
0x1200; // FP1.6.6, BF3 Slope PWL Segment 4
dscl_prog_data->easf_v_bf3_pwl_in_set5 =
0x0CF7; // FP0.6.6, BF3 Input value PWL Segment 5 (1.0 * 125^3)
- dscl_prog_data->easf_v_bf3_pwl_base_set5 = -63; // S0.6, BF3 Base PWL Segment 5
+ dscl_prog_data->easf_v_bf3_pwl_base_set5 = 0x41; // S0.6, BF3 Base PWL Segment 5 = -63
} else {
+ dscl_prog_data->easf_v_bf2_flat1_gain = 13; // U1.3, BF2 Flat1 Gain control
+ dscl_prog_data->easf_v_bf2_flat2_gain = 15; // U4.0, BF2 Flat2 Gain control
+ dscl_prog_data->easf_v_bf2_roc_gain = 14; // U2.2, Rate Of Change control
+
+ dscl_prog_data->easf_v_bf1_pwl_in_seg0 = 0x440; // S0.10, BF1 PWL Segment 0 = -960
+ dscl_prog_data->easf_v_bf1_pwl_base_seg0 = 0; // U0.6, BF1 Base PWL Segment 0
+ dscl_prog_data->easf_v_bf1_pwl_slope_seg0 = 2; // S7.3, BF1 Slope PWL Segment 0
+ dscl_prog_data->easf_v_bf1_pwl_in_seg1 = 0x7C4; // S0.10, BF1 PWL Segment 1 = -60
+ dscl_prog_data->easf_v_bf1_pwl_base_seg1 = 12; // U0.6, BF1 Base PWL Segment 1
+ dscl_prog_data->easf_v_bf1_pwl_slope_seg1 = 109; // S7.3, BF1 Slope PWL Segment 1
+ dscl_prog_data->easf_v_bf1_pwl_in_seg2 = 0; // S0.10, BF1 PWL Segment 2
+ dscl_prog_data->easf_v_bf1_pwl_base_seg2 = 63; // U0.6, BF1 Base PWL Segment 2
+ dscl_prog_data->easf_v_bf1_pwl_slope_seg2 = 0; // S7.3, BF1 Slope PWL Segment 2
+ dscl_prog_data->easf_v_bf1_pwl_in_seg3 = 48; // S0.10, BF1 PWL Segment 3
+ dscl_prog_data->easf_v_bf1_pwl_base_seg3 = 63; // U0.6, BF1 Base PWL Segment 3
+ dscl_prog_data->easf_v_bf1_pwl_slope_seg3 = 0x7ED; // S7.3, BF1 Slope PWL Segment 3 = -19
+ dscl_prog_data->easf_v_bf1_pwl_in_seg4 = 96; // S0.10, BF1 PWL Segment 4
+ dscl_prog_data->easf_v_bf1_pwl_base_seg4 = 56; // U0.6, BF1 Base PWL Segment 4
+ dscl_prog_data->easf_v_bf1_pwl_slope_seg4 = 0x7F0; // S7.3, BF1 Slope PWL Segment 4 = -16
+ dscl_prog_data->easf_v_bf1_pwl_in_seg5 = 144; // S0.10, BF1 PWL Segment 5
+ dscl_prog_data->easf_v_bf1_pwl_base_seg5 = 50; // U0.6, BF1 Base PWL Segment 5
+ dscl_prog_data->easf_v_bf1_pwl_slope_seg5 = 0x7B0; // S7.3, BF1 Slope PWL Segment 5 = -80
+ dscl_prog_data->easf_v_bf1_pwl_in_seg6 = 192; // S0.10, BF1 PWL Segment 6
+ dscl_prog_data->easf_v_bf1_pwl_base_seg6 = 20; // U0.6, BF1 Base PWL Segment 6
+ dscl_prog_data->easf_v_bf1_pwl_slope_seg6 = 0x7CB; // S7.3, BF1 Slope PWL Segment 6 = -53
+ dscl_prog_data->easf_v_bf1_pwl_in_seg7 = 240; // S0.10, BF1 PWL Segment 7
+ dscl_prog_data->easf_v_bf1_pwl_base_seg7 = 0; // U0.6, BF1 Base PWL Segment 7
+
dscl_prog_data->easf_v_bf3_pwl_in_set0 = 0x000; // FP0.6.6, BF3 Input value PWL Segment 0
dscl_prog_data->easf_v_bf3_pwl_base_set0 = 63; // S0.6, BF3 Base PWL Segment 0
dscl_prog_data->easf_v_bf3_pwl_slope_set0 = 0x0000; // FP1.6.6, BF3 Slope PWL Segment 0
@@ -1113,11 +1349,11 @@ static void spl_set_easf_data(struct dscl_prog_data *dscl_prog_data,
0x1878; // FP1.6.6, BF3 Slope PWL Segment 3
dscl_prog_data->easf_v_bf3_pwl_in_set4 =
0x0761; // FP0.6.6, BF3 Input value PWL Segment 4 (0.375)
- dscl_prog_data->easf_v_bf3_pwl_base_set4 = -60; // S0.6, BF3 Base PWL Segment 4
+ dscl_prog_data->easf_v_bf3_pwl_base_set4 = 0x44; // S0.6, BF3 Base PWL Segment 4 = -60
dscl_prog_data->easf_v_bf3_pwl_slope_set4 = 0x1760; // FP1.6.6, BF3 Slope PWL Segment 4
dscl_prog_data->easf_v_bf3_pwl_in_set5 =
0x0780; // FP0.6.6, BF3 Input value PWL Segment 5 (0.5)
- dscl_prog_data->easf_v_bf3_pwl_base_set5 = -63; // S0.6, BF3 Base PWL Segment 5
+ dscl_prog_data->easf_v_bf3_pwl_base_set5 = 0x41; // S0.6, BF3 Base PWL Segment 5 = -63
}
} else
dscl_prog_data->easf_v_en = false;
@@ -1125,52 +1361,63 @@ static void spl_set_easf_data(struct dscl_prog_data *dscl_prog_data,
if (enable_easf_h) {
dscl_prog_data->easf_h_en = true;
dscl_prog_data->easf_h_ring = 0;
- dscl_prog_data->easf_h_sharp_factor = 1;
+ dscl_prog_data->easf_h_sharp_factor = 0;
dscl_prog_data->easf_h_bf1_en =
1; // 1-bit, BF1 calculation enable, 0=disable, 1=enable
dscl_prog_data->easf_h_bf2_mode =
0xF; // 4-bit, BF2 calculation mode
- dscl_prog_data->easf_h_bf3_mode =
- 2; // 2-bit, BF3 chroma mode correction calculation mode
- dscl_prog_data->easf_h_bf2_flat1_gain = 4; // U1.3, BF2 Flat1 Gain control
- dscl_prog_data->easf_h_bf2_flat2_gain = 8; // U4.0, BF2 Flat2 Gain control
- dscl_prog_data->easf_h_bf2_roc_gain = 4; // U2.2, Rate Of Change control
+ /* 2-bit, BF3 chroma mode correction calculation mode */
+ dscl_prog_data->easf_h_bf3_mode = spl_get_h_bf3_mode(
+ spl_scratch->scl_data.recip_ratios.horz);
+ /* FP1.5.10; (2.0) Ring reducer gain for 4 or 6-tap mode [H_REDUCER_GAIN4] */
dscl_prog_data->easf_h_ringest_eventap_reduceg1 =
- 0x4000; // FP1.5.10; (2.0) Ring reducer gain for 4 or 6-tap mode [H_REDUCER_GAIN4]
+ spl_get_reducer_gain4(spl_scratch->scl_data.taps.h_taps,
+ spl_scratch->scl_data.recip_ratios.horz);
+ /* FP1.5.10; (2.5) Ring reducer gain for 6-tap mode [V_REDUCER_GAIN6] */
dscl_prog_data->easf_h_ringest_eventap_reduceg2 =
- 0x4100; // FP1.5.10; (2.5) Ring reducer gain for 6-tap mode [V_REDUCER_GAIN6]
+ spl_get_reducer_gain6(spl_scratch->scl_data.taps.h_taps,
+ spl_scratch->scl_data.recip_ratios.horz);
+ /* FP1.5.10; (-0.135742) Ring gain for 6-tap set to -139/1024 */
dscl_prog_data->easf_h_ringest_eventap_gain1 =
- 0xB058; // FP1.5.10; (-0.135742) Ring gain for 6-tap set to -139/1024
+ spl_get_gainRing4(spl_scratch->scl_data.taps.h_taps,
+ spl_scratch->scl_data.recip_ratios.horz);
+ /* FP1.5.10; (-0.024414) Ring gain for 6-tap set to -25/1024 */
dscl_prog_data->easf_h_ringest_eventap_gain2 =
- 0xA640; // FP1.5.10; (-0.024414) Ring gain for 6-tap set to -25/1024
+ spl_get_gainRing6(spl_scratch->scl_data.taps.h_taps,
+ spl_scratch->scl_data.recip_ratios.horz);
dscl_prog_data->easf_h_bf_maxa = 63; //Horz Max BF value A in U0.6 format.Selected if H_FCNTL==0
dscl_prog_data->easf_h_bf_maxb = 63; //Horz Max BF value B in U0.6 format.Selected if H_FCNTL==1
dscl_prog_data->easf_h_bf_mina = 0; //Horz Min BF value B in U0.6 format.Selected if H_FCNTL==0
dscl_prog_data->easf_h_bf_minb = 0; //Horz Min BF value B in U0.6 format.Selected if H_FCNTL==1
- dscl_prog_data->easf_h_bf1_pwl_in_seg0 = -512; // S0.10, BF1 PWL Segment 0
- dscl_prog_data->easf_h_bf1_pwl_base_seg0 = 0; // U0.6, BF1 Base PWL Segment 0
- dscl_prog_data->easf_h_bf1_pwl_slope_seg0 = 3; // S7.3, BF1 Slope PWL Segment 0
- dscl_prog_data->easf_h_bf1_pwl_in_seg1 = -20; // S0.10, BF1 PWL Segment 1
- dscl_prog_data->easf_h_bf1_pwl_base_seg1 = 12; // U0.6, BF1 Base PWL Segment 1
- dscl_prog_data->easf_h_bf1_pwl_slope_seg1 = 326; // S7.3, BF1 Slope PWL Segment 1
- dscl_prog_data->easf_h_bf1_pwl_in_seg2 = 0; // S0.10, BF1 PWL Segment 2
- dscl_prog_data->easf_h_bf1_pwl_base_seg2 = 63; // U0.6, BF1 Base PWL Segment 2
- dscl_prog_data->easf_h_bf1_pwl_slope_seg2 = 0; // S7.3, BF1 Slope PWL Segment 2
- dscl_prog_data->easf_h_bf1_pwl_in_seg3 = 16; // S0.10, BF1 PWL Segment 3
- dscl_prog_data->easf_h_bf1_pwl_base_seg3 = 63; // U0.6, BF1 Base PWL Segment 3
- dscl_prog_data->easf_h_bf1_pwl_slope_seg3 = -56; // S7.3, BF1 Slope PWL Segment 3
- dscl_prog_data->easf_h_bf1_pwl_in_seg4 = 32; // S0.10, BF1 PWL Segment 4
- dscl_prog_data->easf_h_bf1_pwl_base_seg4 = 56; // U0.6, BF1 Base PWL Segment 4
- dscl_prog_data->easf_h_bf1_pwl_slope_seg4 = -48; // S7.3, BF1 Slope PWL Segment 4
- dscl_prog_data->easf_h_bf1_pwl_in_seg5 = 48; // S0.10, BF1 PWL Segment 5
- dscl_prog_data->easf_h_bf1_pwl_base_seg5 = 50; // U0.6, BF1 Base PWL Segment 5
- dscl_prog_data->easf_h_bf1_pwl_slope_seg5 = -240; // S7.3, BF1 Slope PWL Segment 5
- dscl_prog_data->easf_h_bf1_pwl_in_seg6 = 64; // S0.10, BF1 PWL Segment 6
- dscl_prog_data->easf_h_bf1_pwl_base_seg6 = 20; // U0.6, BF1 Base PWL Segment 6
- dscl_prog_data->easf_h_bf1_pwl_slope_seg6 = -160; // S7.3, BF1 Slope PWL Segment 6
- dscl_prog_data->easf_h_bf1_pwl_in_seg7 = 80; // S0.10, BF1 PWL Segment 7
- dscl_prog_data->easf_h_bf1_pwl_base_seg7 = 0; // U0.6, BF1 Base PWL Segment 7
if (lls_pref == LLS_PREF_YES) {
+ dscl_prog_data->easf_h_bf2_flat1_gain = 4; // U1.3, BF2 Flat1 Gain control
+ dscl_prog_data->easf_h_bf2_flat2_gain = 8; // U4.0, BF2 Flat2 Gain control
+ dscl_prog_data->easf_h_bf2_roc_gain = 4; // U2.2, Rate Of Change control
+
+ dscl_prog_data->easf_h_bf1_pwl_in_seg0 = 0x600; // S0.10, BF1 PWL Segment 0 = -512
+ dscl_prog_data->easf_h_bf1_pwl_base_seg0 = 0; // U0.6, BF1 Base PWL Segment 0
+ dscl_prog_data->easf_h_bf1_pwl_slope_seg0 = 3; // S7.3, BF1 Slope PWL Segment 0
+ dscl_prog_data->easf_h_bf1_pwl_in_seg1 = 0x7EC; // S0.10, BF1 PWL Segment 1 = -20
+ dscl_prog_data->easf_h_bf1_pwl_base_seg1 = 12; // U0.6, BF1 Base PWL Segment 1
+ dscl_prog_data->easf_h_bf1_pwl_slope_seg1 = 326; // S7.3, BF1 Slope PWL Segment 1
+ dscl_prog_data->easf_h_bf1_pwl_in_seg2 = 0; // S0.10, BF1 PWL Segment 2
+ dscl_prog_data->easf_h_bf1_pwl_base_seg2 = 63; // U0.6, BF1 Base PWL Segment 2
+ dscl_prog_data->easf_h_bf1_pwl_slope_seg2 = 0; // S7.3, BF1 Slope PWL Segment 2
+ dscl_prog_data->easf_h_bf1_pwl_in_seg3 = 16; // S0.10, BF1 PWL Segment 3
+ dscl_prog_data->easf_h_bf1_pwl_base_seg3 = 63; // U0.6, BF1 Base PWL Segment 3
+ dscl_prog_data->easf_h_bf1_pwl_slope_seg3 = 0x7C8; // S7.3, BF1 Slope PWL Segment 3 = -56
+ dscl_prog_data->easf_h_bf1_pwl_in_seg4 = 32; // S0.10, BF1 PWL Segment 4
+ dscl_prog_data->easf_h_bf1_pwl_base_seg4 = 56; // U0.6, BF1 Base PWL Segment 4
+ dscl_prog_data->easf_h_bf1_pwl_slope_seg4 = 0x7D0; // S7.3, BF1 Slope PWL Segment 4 = -48
+ dscl_prog_data->easf_h_bf1_pwl_in_seg5 = 48; // S0.10, BF1 PWL Segment 5
+ dscl_prog_data->easf_h_bf1_pwl_base_seg5 = 50; // U0.6, BF1 Base PWL Segment 5
+ dscl_prog_data->easf_h_bf1_pwl_slope_seg5 = 0x710; // S7.3, BF1 Slope PWL Segment 5 = -240
+ dscl_prog_data->easf_h_bf1_pwl_in_seg6 = 64; // S0.10, BF1 PWL Segment 6
+ dscl_prog_data->easf_h_bf1_pwl_base_seg6 = 20; // U0.6, BF1 Base PWL Segment 6
+ dscl_prog_data->easf_h_bf1_pwl_slope_seg6 = 0x760; // S7.3, BF1 Slope PWL Segment 6 = -160
+ dscl_prog_data->easf_h_bf1_pwl_in_seg7 = 80; // S0.10, BF1 PWL Segment 7
+ dscl_prog_data->easf_h_bf1_pwl_base_seg7 = 0; // U0.6, BF1 Base PWL Segment 7
+
dscl_prog_data->easf_h_bf3_pwl_in_set0 = 0x000; // FP0.6.6, BF3 Input value PWL Segment 0
dscl_prog_data->easf_h_bf3_pwl_base_set0 = 63; // S0.6, BF3 Base PWL Segment 0
dscl_prog_data->easf_h_bf3_pwl_slope_set0 = 0x12C5; // FP1.6.6, BF3 Slope PWL Segment 0
@@ -1188,12 +1435,40 @@ static void spl_set_easf_data(struct dscl_prog_data *dscl_prog_data,
dscl_prog_data->easf_h_bf3_pwl_slope_set3 = 0x136B; // FP1.6.6, BF3 Slope PWL Segment 3
dscl_prog_data->easf_h_bf3_pwl_in_set4 =
0x0C37; // FP0.6.6, BF3 Input value PWL Segment 4 (0.125 * 125^3)
- dscl_prog_data->easf_h_bf3_pwl_base_set4 = -50; // S0.6, BF3 Base PWL Segment 4
+ dscl_prog_data->easf_h_bf3_pwl_base_set4 = 0x4E; // S0.6, BF3 Base PWL Segment 4 = -50
dscl_prog_data->easf_h_bf3_pwl_slope_set4 = 0x1200; // FP1.6.6, BF3 Slope PWL Segment 4
dscl_prog_data->easf_h_bf3_pwl_in_set5 =
0x0CF7; // FP0.6.6, BF3 Input value PWL Segment 5 (1.0 * 125^3)
- dscl_prog_data->easf_h_bf3_pwl_base_set5 = -63; // S0.6, BF3 Base PWL Segment 5
+ dscl_prog_data->easf_h_bf3_pwl_base_set5 = 0x41; // S0.6, BF3 Base PWL Segment 5 = -63
} else {
+ dscl_prog_data->easf_h_bf2_flat1_gain = 13; // U1.3, BF2 Flat1 Gain control
+ dscl_prog_data->easf_h_bf2_flat2_gain = 15; // U4.0, BF2 Flat2 Gain control
+ dscl_prog_data->easf_h_bf2_roc_gain = 14; // U2.2, Rate Of Change control
+
+ dscl_prog_data->easf_h_bf1_pwl_in_seg0 = 0x440; // S0.10, BF1 PWL Segment 0 = -960
+ dscl_prog_data->easf_h_bf1_pwl_base_seg0 = 0; // U0.6, BF1 Base PWL Segment 0
+ dscl_prog_data->easf_h_bf1_pwl_slope_seg0 = 2; // S7.3, BF1 Slope PWL Segment 0
+ dscl_prog_data->easf_h_bf1_pwl_in_seg1 = 0x7C4; // S0.10, BF1 PWL Segment 1 = -60
+ dscl_prog_data->easf_h_bf1_pwl_base_seg1 = 12; // U0.6, BF1 Base PWL Segment 1
+ dscl_prog_data->easf_h_bf1_pwl_slope_seg1 = 109; // S7.3, BF1 Slope PWL Segment 1
+ dscl_prog_data->easf_h_bf1_pwl_in_seg2 = 0; // S0.10, BF1 PWL Segment 2
+ dscl_prog_data->easf_h_bf1_pwl_base_seg2 = 63; // U0.6, BF1 Base PWL Segment 2
+ dscl_prog_data->easf_h_bf1_pwl_slope_seg2 = 0; // S7.3, BF1 Slope PWL Segment 2
+ dscl_prog_data->easf_h_bf1_pwl_in_seg3 = 48; // S0.10, BF1 PWL Segment 3
+ dscl_prog_data->easf_h_bf1_pwl_base_seg3 = 63; // U0.6, BF1 Base PWL Segment 3
+ dscl_prog_data->easf_h_bf1_pwl_slope_seg3 = 0x7ED; // S7.3, BF1 Slope PWL Segment 3 = -19
+ dscl_prog_data->easf_h_bf1_pwl_in_seg4 = 96; // S0.10, BF1 PWL Segment 4
+ dscl_prog_data->easf_h_bf1_pwl_base_seg4 = 56; // U0.6, BF1 Base PWL Segment 4
+ dscl_prog_data->easf_h_bf1_pwl_slope_seg4 = 0x7F0; // S7.3, BF1 Slope PWL Segment 4 = -16
+ dscl_prog_data->easf_h_bf1_pwl_in_seg5 = 144; // S0.10, BF1 PWL Segment 5
+ dscl_prog_data->easf_h_bf1_pwl_base_seg5 = 50; // U0.6, BF1 Base PWL Segment 5
+ dscl_prog_data->easf_h_bf1_pwl_slope_seg5 = 0x7B0; // S7.3, BF1 Slope PWL Segment 5 = -80
+ dscl_prog_data->easf_h_bf1_pwl_in_seg6 = 192; // S0.10, BF1 PWL Segment 6
+ dscl_prog_data->easf_h_bf1_pwl_base_seg6 = 20; // U0.6, BF1 Base PWL Segment 6
+ dscl_prog_data->easf_h_bf1_pwl_slope_seg6 = 0x7CB; // S7.3, BF1 Slope PWL Segment 6 = -53
+ dscl_prog_data->easf_h_bf1_pwl_in_seg7 = 240; // S0.10, BF1 PWL Segment 7
+ dscl_prog_data->easf_h_bf1_pwl_base_seg7 = 0; // U0.6, BF1 Base PWL Segment 7
+
dscl_prog_data->easf_h_bf3_pwl_in_set0 = 0x000; // FP0.6.6, BF3 Input value PWL Segment 0
dscl_prog_data->easf_h_bf3_pwl_base_set0 = 63; // S0.6, BF3 Base PWL Segment 0
dscl_prog_data->easf_h_bf3_pwl_slope_set0 = 0x0000; // FP1.6.6, BF3 Slope PWL Segment 0
@@ -1211,25 +1486,30 @@ static void spl_set_easf_data(struct dscl_prog_data *dscl_prog_data,
dscl_prog_data->easf_h_bf3_pwl_slope_set3 = 0x1878; // FP1.6.6, BF3 Slope PWL Segment 3
dscl_prog_data->easf_h_bf3_pwl_in_set4 =
0x0761; // FP0.6.6, BF3 Input value PWL Segment 4 (0.375)
- dscl_prog_data->easf_h_bf3_pwl_base_set4 = -60; // S0.6, BF3 Base PWL Segment 4
+ dscl_prog_data->easf_h_bf3_pwl_base_set4 = 0x44; // S0.6, BF3 Base PWL Segment 4 = -60
dscl_prog_data->easf_h_bf3_pwl_slope_set4 = 0x1760; // FP1.6.6, BF3 Slope PWL Segment 4
dscl_prog_data->easf_h_bf3_pwl_in_set5 =
0x0780; // FP0.6.6, BF3 Input value PWL Segment 5 (0.5)
- dscl_prog_data->easf_h_bf3_pwl_base_set5 = -63; // S0.6, BF3 Base PWL Segment 5
+ dscl_prog_data->easf_h_bf3_pwl_base_set5 = 0x41; // S0.6, BF3 Base PWL Segment 5 = -63
} // if (lls_pref == LLS_PREF_YES)
} else
dscl_prog_data->easf_h_en = false;
if (lls_pref == LLS_PREF_YES) {
dscl_prog_data->easf_ltonl_en = 1; // Linear input
- dscl_prog_data->easf_matrix_c0 =
- 0x504E; // fp1.5.10, C0 coefficient (LN_BT2020: 0.2627 * (2^14)/125 = 34.43750000)
- dscl_prog_data->easf_matrix_c1 =
- 0x558E; // fp1.5.10, C1 coefficient (LN_BT2020: 0.6780 * (2^14)/125 = 88.87500000)
- dscl_prog_data->easf_matrix_c2 =
- 0x47C6; // fp1.5.10, C2 coefficient (LN_BT2020: 0.0593 * (2^14)/125 = 7.77343750)
- dscl_prog_data->easf_matrix_c3 =
- 0x0; // fp1.5.10, C3 coefficient
+ if ((setup == HDR_L) && (spl_is_rgb8(format))) {
+ /* Calculate C0-C3 coefficients based on HDR multiplier */
+ spl_calculate_c0_c3_hdr(dscl_prog_data, hdr_multx100);
+ } else { // HDR_L ( DWM ) and SDR_L
+ dscl_prog_data->easf_matrix_c0 =
+ 0x4EF7; // fp1.5.10, C0 coefficient (LN_rec709: 0.2126 * (2^14)/125 = 27.86590720)
+ dscl_prog_data->easf_matrix_c1 =
+ 0x55DC; // fp1.5.10, C1 coefficient (LN_rec709: 0.7152 * (2^14)/125 = 93.74269440)
+ dscl_prog_data->easf_matrix_c2 =
+ 0x48BB; // fp1.5.10, C2 coefficient (LN_rec709: 0.0722 * (2^14)/125 = 9.46339840)
+ dscl_prog_data->easf_matrix_c3 =
+ 0x0; // fp1.5.10, C3 coefficient
+ }
} else {
dscl_prog_data->easf_ltonl_en = 0; // Non-Linear input
dscl_prog_data->easf_matrix_c0 =
@@ -1241,27 +1521,43 @@ static void spl_set_easf_data(struct dscl_prog_data *dscl_prog_data,
dscl_prog_data->easf_matrix_c3 =
0x0; // fp1.5.10, C3 coefficient
}
+
+ if (spl_is_yuv420(format)) { /* TODO: 0 = RGB, 1 = YUV */
+ dscl_prog_data->easf_matrix_mode = 1;
+ /*
+ * 2-bit, BF3 chroma mode correction calculation mode
+ * Needs to be disabled for YUV420 mode
+ * Override lookup value
+ */
+ dscl_prog_data->easf_v_bf3_mode = 0;
+ dscl_prog_data->easf_h_bf3_mode = 0;
+ } else
+ dscl_prog_data->easf_matrix_mode = 0;
+
}
+
/*Set isharp noise detection */
-static void spl_set_isharp_noise_det_mode(struct dscl_prog_data *dscl_prog_data)
+static void spl_set_isharp_noise_det_mode(struct dscl_prog_data *dscl_prog_data,
+ const struct spl_scaler_data *data)
{
// ISHARP_NOISEDET_MODE
// 0: 3x5 as VxH
// 1: 4x5 as VxH
// 2:
// 3: 5x5 as VxH
- if (dscl_prog_data->taps.v_taps == 6)
- dscl_prog_data->isharp_noise_det.mode = 3; // ISHARP_NOISEDET_MODE
- else if (dscl_prog_data->taps.h_taps == 4)
- dscl_prog_data->isharp_noise_det.mode = 1; // ISHARP_NOISEDET_MODE
- else if (dscl_prog_data->taps.h_taps == 3)
- dscl_prog_data->isharp_noise_det.mode = 0; // ISHARP_NOISEDET_MODE
+ if (data->taps.v_taps == 6)
+ dscl_prog_data->isharp_noise_det.mode = 3;
+ else if (data->taps.v_taps == 4)
+ dscl_prog_data->isharp_noise_det.mode = 1;
+ else if (data->taps.v_taps == 3)
+ dscl_prog_data->isharp_noise_det.mode = 0;
};
/* Set Sharpener data */
static void spl_set_isharp_data(struct dscl_prog_data *dscl_prog_data,
struct adaptive_sharpness adp_sharpness, bool enable_isharp,
enum linear_light_scaling lls_pref, enum spl_pixel_format format,
- const struct spl_scaler_data *data)
+ const struct spl_scaler_data *data, struct spl_fixed31_32 ratio,
+ enum system_setup setup)
{
/* Turn off sharpener if not required */
if (!enable_isharp) {
@@ -1270,10 +1566,12 @@ static void spl_set_isharp_data(struct dscl_prog_data *dscl_prog_data,
}
dscl_prog_data->isharp_en = 1; // ISHARP_EN
- dscl_prog_data->isharp_noise_det.enable = 1; // ISHARP_NOISEDET_EN
// Set ISHARP_NOISEDET_MODE if htaps = 6-tap
- if (dscl_prog_data->taps.h_taps == 6)
- spl_set_isharp_noise_det_mode(dscl_prog_data); // ISHARP_NOISEDET_MODE
+ if (data->taps.h_taps == 6) {
+ dscl_prog_data->isharp_noise_det.enable = 1; /* ISHARP_NOISEDET_EN */
+ spl_set_isharp_noise_det_mode(dscl_prog_data, data); /* ISHARP_NOISEDET_MODE */
+ } else
+ dscl_prog_data->isharp_noise_det.enable = 0; // ISHARP_NOISEDET_EN
// Program noise detection threshold
dscl_prog_data->isharp_noise_det.uthreshold = 24; // ISHARP_NOISEDET_UTHRE
dscl_prog_data->isharp_noise_det.dthreshold = 4; // ISHARP_NOISEDET_DTHRE
@@ -1282,50 +1580,93 @@ static void spl_set_isharp_data(struct dscl_prog_data *dscl_prog_data,
dscl_prog_data->isharp_noise_det.pwl_end_in = 13; // ISHARP_NOISEDET_PWL_END_IN
dscl_prog_data->isharp_noise_det.pwl_slope = 1623; // ISHARP_NOISEDET_PWL_SLOPE
- if ((lls_pref == LLS_PREF_NO) && !spl_is_yuv420(format)) /* ISHARP_FMT_MODE */
+ if (lls_pref == LLS_PREF_NO) /* ISHARP_FMT_MODE */
dscl_prog_data->isharp_fmt.mode = 1;
else
dscl_prog_data->isharp_fmt.mode = 0;
dscl_prog_data->isharp_fmt.norm = 0x3C00; // ISHARP_FMT_NORM
dscl_prog_data->isharp_lba.mode = 0; // ISHARP_LBA_MODE
- // ISHARP_LBA_PWL_SEG0: ISHARP Local Brightness Adjustment PWL Segment 0
- dscl_prog_data->isharp_lba.in_seg[0] = 0; // ISHARP LBA PWL for Seg 0. INPUT value in U0.10 format
- dscl_prog_data->isharp_lba.base_seg[0] = 0; // ISHARP LBA PWL for Seg 0. BASE value in U0.6 format
- dscl_prog_data->isharp_lba.slope_seg[0] = 32; // ISHARP LBA for Seg 0. SLOPE value in S5.3 format
- // ISHARP_LBA_PWL_SEG1: ISHARP LBA PWL Segment 1
- dscl_prog_data->isharp_lba.in_seg[1] = 256; // ISHARP LBA PWL for Seg 1. INPUT value in U0.10 format
- dscl_prog_data->isharp_lba.base_seg[1] = 63; // ISHARP LBA PWL for Seg 1. BASE value in U0.6 format
- dscl_prog_data->isharp_lba.slope_seg[1] = 0; // ISHARP LBA for Seg 1. SLOPE value in S5.3 format
- // ISHARP_LBA_PWL_SEG2: ISHARP LBA PWL Segment 2
- dscl_prog_data->isharp_lba.in_seg[2] = 614; // ISHARP LBA PWL for Seg 2. INPUT value in U0.10 format
- dscl_prog_data->isharp_lba.base_seg[2] = 63; // ISHARP LBA PWL for Seg 2. BASE value in U0.6 format
- dscl_prog_data->isharp_lba.slope_seg[2] = -20; // ISHARP LBA for Seg 2. SLOPE value in S5.3 format
- // ISHARP_LBA_PWL_SEG3: ISHARP LBA PWL Segment 3
- dscl_prog_data->isharp_lba.in_seg[3] = 1023; // ISHARP LBA PWL for Seg 3.INPUT value in U0.10 format
- dscl_prog_data->isharp_lba.base_seg[3] = 0; // ISHARP LBA PWL for Seg 3. BASE value in U0.6 format
- dscl_prog_data->isharp_lba.slope_seg[3] = 0; // ISHARP LBA for Seg 3. SLOPE value in S5.3 format
- // ISHARP_LBA_PWL_SEG4: ISHARP LBA PWL Segment 4
- dscl_prog_data->isharp_lba.in_seg[4] = 1023; // ISHARP LBA PWL for Seg 4.INPUT value in U0.10 format
- dscl_prog_data->isharp_lba.base_seg[4] = 0; // ISHARP LBA PWL for Seg 4. BASE value in U0.6 format
- dscl_prog_data->isharp_lba.slope_seg[4] = 0; // ISHARP LBA for Seg 4. SLOPE value in S5.3 format
- // ISHARP_LBA_PWL_SEG5: ISHARP LBA PWL Segment 5
- dscl_prog_data->isharp_lba.in_seg[5] = 1023; // ISHARP LBA PWL for Seg 5.INPUT value in U0.10 format
- dscl_prog_data->isharp_lba.base_seg[5] = 0; // ISHARP LBA PWL for Seg 5. BASE value in U0.6 format
- switch (adp_sharpness.sharpness) {
- case SHARPNESS_LOW:
- dscl_prog_data->isharp_delta = spl_get_filter_isharp_1D_lut_0p5x();
- break;
- case SHARPNESS_MID:
- dscl_prog_data->isharp_delta = spl_get_filter_isharp_1D_lut_1p0x();
- break;
- case SHARPNESS_HIGH:
- dscl_prog_data->isharp_delta = spl_get_filter_isharp_1D_lut_2p0x();
- break;
- default:
- BREAK_TO_DEBUGGER();
+
+ if (setup == SDR_L) {
+ // ISHARP_LBA_PWL_SEG0: ISHARP Local Brightness Adjustment PWL Segment 0
+ dscl_prog_data->isharp_lba.in_seg[0] = 0; // ISHARP LBA PWL for Seg 0. INPUT value in U0.10 format
+ dscl_prog_data->isharp_lba.base_seg[0] = 0; // ISHARP LBA PWL for Seg 0. BASE value in U0.6 format
+ dscl_prog_data->isharp_lba.slope_seg[0] = 62; // ISHARP LBA for Seg 0. SLOPE value in S5.3 format
+ // ISHARP_LBA_PWL_SEG1: ISHARP LBA PWL Segment 1
+ dscl_prog_data->isharp_lba.in_seg[1] = 130; // ISHARP LBA PWL for Seg 1. INPUT value in U0.10 format
+ dscl_prog_data->isharp_lba.base_seg[1] = 63; // ISHARP LBA PWL for Seg 1. BASE value in U0.6 format
+ dscl_prog_data->isharp_lba.slope_seg[1] = 0; // ISHARP LBA for Seg 1. SLOPE value in S5.3 format
+ // ISHARP_LBA_PWL_SEG2: ISHARP LBA PWL Segment 2
+ dscl_prog_data->isharp_lba.in_seg[2] = 450; // ISHARP LBA PWL for Seg 2. INPUT value in U0.10 format
+ dscl_prog_data->isharp_lba.base_seg[2] = 63; // ISHARP LBA PWL for Seg 2. BASE value in U0.6 format
+ dscl_prog_data->isharp_lba.slope_seg[2] = 0x18D; // ISHARP LBA for Seg 2. SLOPE value in S5.3 format = -115
+ // ISHARP_LBA_PWL_SEG3: ISHARP LBA PWL Segment 3
+ dscl_prog_data->isharp_lba.in_seg[3] = 520; // ISHARP LBA PWL for Seg 3.INPUT value in U0.10 format
+ dscl_prog_data->isharp_lba.base_seg[3] = 0; // ISHARP LBA PWL for Seg 3. BASE value in U0.6 format
+ dscl_prog_data->isharp_lba.slope_seg[3] = 0; // ISHARP LBA for Seg 3. SLOPE value in S5.3 format
+ // ISHARP_LBA_PWL_SEG4: ISHARP LBA PWL Segment 4
+ dscl_prog_data->isharp_lba.in_seg[4] = 520; // ISHARP LBA PWL for Seg 4.INPUT value in U0.10 format
+ dscl_prog_data->isharp_lba.base_seg[4] = 0; // ISHARP LBA PWL for Seg 4. BASE value in U0.6 format
+ dscl_prog_data->isharp_lba.slope_seg[4] = 0; // ISHARP LBA for Seg 4. SLOPE value in S5.3 format
+ // ISHARP_LBA_PWL_SEG5: ISHARP LBA PWL Segment 5
+ dscl_prog_data->isharp_lba.in_seg[5] = 520; // ISHARP LBA PWL for Seg 5.INPUT value in U0.10 format
+ dscl_prog_data->isharp_lba.base_seg[5] = 0; // ISHARP LBA PWL for Seg 5. BASE value in U0.6 format
+ } else if (setup == HDR_L) {
+ // ISHARP_LBA_PWL_SEG0: ISHARP Local Brightness Adjustment PWL Segment 0
+ dscl_prog_data->isharp_lba.in_seg[0] = 0; // ISHARP LBA PWL for Seg 0. INPUT value in U0.10 format
+ dscl_prog_data->isharp_lba.base_seg[0] = 0; // ISHARP LBA PWL for Seg 0. BASE value in U0.6 format
+ dscl_prog_data->isharp_lba.slope_seg[0] = 32; // ISHARP LBA for Seg 0. SLOPE value in S5.3 format
+ // ISHARP_LBA_PWL_SEG1: ISHARP LBA PWL Segment 1
+ dscl_prog_data->isharp_lba.in_seg[1] = 254; // ISHARP LBA PWL for Seg 1. INPUT value in U0.10 format
+ dscl_prog_data->isharp_lba.base_seg[1] = 63; // ISHARP LBA PWL for Seg 1. BASE value in U0.6 format
+ dscl_prog_data->isharp_lba.slope_seg[1] = 0; // ISHARP LBA for Seg 1. SLOPE value in S5.3 format
+ // ISHARP_LBA_PWL_SEG2: ISHARP LBA PWL Segment 2
+ dscl_prog_data->isharp_lba.in_seg[2] = 559; // ISHARP LBA PWL for Seg 2. INPUT value in U0.10 format
+ dscl_prog_data->isharp_lba.base_seg[2] = 63; // ISHARP LBA PWL for Seg 2. BASE value in U0.6 format
+ dscl_prog_data->isharp_lba.slope_seg[2] = 0x10C; // ISHARP LBA for Seg 2. SLOPE value in S5.3 format = -244
+ // ISHARP_LBA_PWL_SEG3: ISHARP LBA PWL Segment 3
+ dscl_prog_data->isharp_lba.in_seg[3] = 592; // ISHARP LBA PWL for Seg 3.INPUT value in U0.10 format
+ dscl_prog_data->isharp_lba.base_seg[3] = 0; // ISHARP LBA PWL for Seg 3. BASE value in U0.6 format
+ dscl_prog_data->isharp_lba.slope_seg[3] = 0; // ISHARP LBA for Seg 3. SLOPE value in S5.3 format
+ // ISHARP_LBA_PWL_SEG4: ISHARP LBA PWL Segment 4
+ dscl_prog_data->isharp_lba.in_seg[4] = 1023; // ISHARP LBA PWL for Seg 4.INPUT value in U0.10 format
+ dscl_prog_data->isharp_lba.base_seg[4] = 0; // ISHARP LBA PWL for Seg 4. BASE value in U0.6 format
+ dscl_prog_data->isharp_lba.slope_seg[4] = 0; // ISHARP LBA for Seg 4. SLOPE value in S5.3 format
+ // ISHARP_LBA_PWL_SEG5: ISHARP LBA PWL Segment 5
+ dscl_prog_data->isharp_lba.in_seg[5] = 1023; // ISHARP LBA PWL for Seg 5.INPUT value in U0.10 format
+ dscl_prog_data->isharp_lba.base_seg[5] = 0; // ISHARP LBA PWL for Seg 5. BASE value in U0.6 format
+ } else {
+ // ISHARP_LBA_PWL_SEG0: ISHARP Local Brightness Adjustment PWL Segment 0
+ dscl_prog_data->isharp_lba.in_seg[0] = 0; // ISHARP LBA PWL for Seg 0. INPUT value in U0.10 format
+ dscl_prog_data->isharp_lba.base_seg[0] = 0; // ISHARP LBA PWL for Seg 0. BASE value in U0.6 format
+ dscl_prog_data->isharp_lba.slope_seg[0] = 40; // ISHARP LBA for Seg 0. SLOPE value in S5.3 format
+ // ISHARP_LBA_PWL_SEG1: ISHARP LBA PWL Segment 1
+ dscl_prog_data->isharp_lba.in_seg[1] = 204; // ISHARP LBA PWL for Seg 1. INPUT value in U0.10 format
+ dscl_prog_data->isharp_lba.base_seg[1] = 63; // ISHARP LBA PWL for Seg 1. BASE value in U0.6 format
+ dscl_prog_data->isharp_lba.slope_seg[1] = 0; // ISHARP LBA for Seg 1. SLOPE value in S5.3 format
+ // ISHARP_LBA_PWL_SEG2: ISHARP LBA PWL Segment 2
+ dscl_prog_data->isharp_lba.in_seg[2] = 818; // ISHARP LBA PWL for Seg 2. INPUT value in U0.10 format
+ dscl_prog_data->isharp_lba.base_seg[2] = 63; // ISHARP LBA PWL for Seg 2. BASE value in U0.6 format
+ dscl_prog_data->isharp_lba.slope_seg[2] = 0x1D9; // ISHARP LBA for Seg 2. SLOPE value in S5.3 format = -39
+ // ISHARP_LBA_PWL_SEG3: ISHARP LBA PWL Segment 3
+ dscl_prog_data->isharp_lba.in_seg[3] = 1023; // ISHARP LBA PWL for Seg 3.INPUT value in U0.10 format
+ dscl_prog_data->isharp_lba.base_seg[3] = 0; // ISHARP LBA PWL for Seg 3. BASE value in U0.6 format
+ dscl_prog_data->isharp_lba.slope_seg[3] = 0; // ISHARP LBA for Seg 3. SLOPE value in S5.3 format
+ // ISHARP_LBA_PWL_SEG4: ISHARP LBA PWL Segment 4
+ dscl_prog_data->isharp_lba.in_seg[4] = 1023; // ISHARP LBA PWL for Seg 4.INPUT value in U0.10 format
+ dscl_prog_data->isharp_lba.base_seg[4] = 0; // ISHARP LBA PWL for Seg 4. BASE value in U0.6 format
+ dscl_prog_data->isharp_lba.slope_seg[4] = 0; // ISHARP LBA for Seg 4. SLOPE value in S5.3 format
+ // ISHARP_LBA_PWL_SEG5: ISHARP LBA PWL Segment 5
+ dscl_prog_data->isharp_lba.in_seg[5] = 1023; // ISHARP LBA PWL for Seg 5.INPUT value in U0.10 format
+ dscl_prog_data->isharp_lba.base_seg[5] = 0; // ISHARP LBA PWL for Seg 5. BASE value in U0.6 format
}
+
+ spl_build_isharp_1dlut_from_reference_curve(ratio, setup, adp_sharpness);
+ dscl_prog_data->isharp_delta = spl_get_pregen_filter_isharp_1D_lut(setup);
+ dscl_prog_data->sharpness_level = adp_sharpness.sharpness_level;
+
// Program the nldelta soft clip values
if (lls_pref == LLS_PREF_YES) {
dscl_prog_data->isharp_nldelta_sclip.enable_p = 0; /* ISHARP_NLDELTA_SCLIP_EN_P */
@@ -1346,59 +1687,6 @@ static void spl_set_isharp_data(struct dscl_prog_data *dscl_prog_data,
// Set the values as per lookup table
spl_set_blur_scale_data(dscl_prog_data, data);
}
-static bool spl_get_isharp_en(struct adaptive_sharpness adp_sharpness,
- int vscale_ratio, int hscale_ratio, struct spl_taps taps,
- enum spl_pixel_format format)
-{
- bool enable_isharp = false;
-
- if (adp_sharpness.enable == false)
- return enable_isharp; // Return if adaptive sharpness is disabled
- // Is downscaling ?
- if (vscale_ratio > 1 || hscale_ratio > 1) {
- // END - No iSHARP support for downscaling
- return enable_isharp;
- }
- // Scaling is up to 1:1 (no scaling) or upscaling
-
- /* Only apply sharpness to NV12 and not P010 */
- if (format != SPL_PIXEL_FORMAT_420BPP8)
- return enable_isharp;
-
- // LB support horizontal taps 4,6 or vertical taps 3, 4, 6
- if (taps.h_taps == 4 || taps.h_taps == 6 ||
- taps.v_taps == 3 || taps.v_taps == 4 || taps.v_taps == 6) {
- // END - iSHARP supported
- enable_isharp = true;
- }
- return enable_isharp;
-}
-
-static bool spl_choose_lls_policy(enum spl_pixel_format format,
- enum spl_transfer_func_type tf_type,
- enum spl_transfer_func_predefined tf_predefined_type,
- enum linear_light_scaling *lls_pref)
-{
- if (spl_is_yuv420(format)) {
- *lls_pref = LLS_PREF_NO;
- if ((tf_type == SPL_TF_TYPE_PREDEFINED) || (tf_type == SPL_TF_TYPE_DISTRIBUTED_POINTS))
- return true;
- } else { /* RGB or YUV444 */
- if (tf_type == SPL_TF_TYPE_PREDEFINED) {
- if ((tf_predefined_type == SPL_TRANSFER_FUNCTION_HLG) ||
- (tf_predefined_type == SPL_TRANSFER_FUNCTION_HLG12))
- *lls_pref = LLS_PREF_NO;
- else
- *lls_pref = LLS_PREF_YES;
- return true;
- } else if (tf_type == SPL_TF_TYPE_BYPASS) {
- *lls_pref = LLS_PREF_YES;
- return true;
- }
- }
- *lls_pref = LLS_PREF_NO;
- return false;
-}
/* Calculate scaler parameters */
bool spl_calculate_scaler_params(struct spl_in *spl_in, struct spl_out *spl_out)
@@ -1406,65 +1694,74 @@ bool spl_calculate_scaler_params(struct spl_in *spl_in, struct spl_out *spl_out)
bool res = false;
bool enable_easf_v = false;
bool enable_easf_h = false;
- bool lls_enable_easf = true;
- const struct spl_scaler_data *data = &spl_out->scl_data;
+ int vratio = 0;
+ int hratio = 0;
+ struct spl_scratch spl_scratch;
+ struct spl_fixed31_32 isharp_scale_ratio;
+ enum system_setup setup;
+ bool enable_isharp = false;
+ const struct spl_scaler_data *data = &spl_scratch.scl_data;
+
+ memset(&spl_scratch, 0, sizeof(struct spl_scratch));
+ spl_scratch.scl_data.h_active = spl_in->h_active;
+ spl_scratch.scl_data.v_active = spl_in->v_active;
+
// All SPL calls
/* recout calculation */
/* depends on h_active */
- spl_calculate_recout(spl_in, spl_out);
+ spl_calculate_recout(spl_in, &spl_scratch, spl_out);
/* depends on pixel format */
- spl_calculate_scaling_ratios(spl_in, spl_out);
+ spl_calculate_scaling_ratios(spl_in, &spl_scratch, spl_out);
/* depends on scaling ratios and recout, does not calculate offset yet */
- spl_calculate_viewport_size(spl_in, spl_out);
+ spl_calculate_viewport_size(spl_in, &spl_scratch);
res = spl_get_optimal_number_of_taps(
spl_in->basic_out.max_downscale_src_width, spl_in,
- spl_out, &spl_in->scaling_quality);
+ &spl_scratch, &spl_in->scaling_quality, &enable_easf_v,
+ &enable_easf_h, &enable_isharp);
/*
* Depends on recout, scaling ratios, h_active and taps
* May need to re-check lb size after this in some obscure scenario
*/
if (res)
- spl_calculate_inits_and_viewports(spl_in, spl_out);
+ spl_calculate_inits_and_viewports(spl_in, &spl_scratch);
// Handle 3d recout
- spl_handle_3d_recout(spl_in, &spl_out->scl_data.recout);
+ spl_handle_3d_recout(spl_in, &spl_scratch.scl_data.recout);
// Clamp
- spl_clamp_viewport(&spl_out->scl_data.viewport);
+ spl_clamp_viewport(&spl_scratch.scl_data.viewport);
if (!res)
return res;
- /*
- * If lls_pref is LLS_PREF_DONT_CARE, then use pixel format and transfer
- * function to determine whether to use LINEAR or NONLINEAR scaling
- */
- if (spl_in->lls_pref == LLS_PREF_DONT_CARE)
- lls_enable_easf = spl_choose_lls_policy(spl_in->basic_in.format,
- spl_in->basic_in.tf_type, spl_in->basic_in.tf_predefined_type,
- &spl_in->lls_pref);
-
// Save all calculated parameters in dscl_prog_data structure to program hw registers
- spl_set_dscl_prog_data(spl_in, spl_out);
+ spl_set_dscl_prog_data(spl_in, &spl_scratch, spl_out, enable_easf_v, enable_easf_h, enable_isharp);
- int vratio = dc_fixpt_ceil(spl_out->scl_data.ratios.vert);
- int hratio = dc_fixpt_ceil(spl_out->scl_data.ratios.horz);
- if (!lls_enable_easf || spl_in->disable_easf) {
- enable_easf_v = false;
- enable_easf_h = false;
+ if (spl_in->lls_pref == LLS_PREF_YES) {
+ if (spl_in->is_hdr_on)
+ setup = HDR_L;
+ else
+ setup = SDR_L;
} else {
- /* Enable EASF on vertical? */
- enable_easf_v = enable_easf(vratio, spl_out->scl_data.taps.v_taps, spl_in->lls_pref, spl_in->prefer_easf);
- /* Enable EASF on horizontal? */
- enable_easf_h = enable_easf(hratio, spl_out->scl_data.taps.h_taps, spl_in->lls_pref, spl_in->prefer_easf);
+ if (spl_in->is_hdr_on)
+ setup = HDR_NL;
+ else
+ setup = SDR_NL;
}
+
// Set EASF
- spl_set_easf_data(spl_out->dscl_prog_data, enable_easf_v, enable_easf_h, spl_in->lls_pref,
- spl_in->basic_in.format);
+ spl_set_easf_data(&spl_scratch, spl_out, enable_easf_v, enable_easf_h, spl_in->lls_pref,
+ spl_in->basic_in.format, setup, spl_in->hdr_multx100);
+
// Set iSHARP
- bool enable_isharp = spl_get_isharp_en(spl_in->adaptive_sharpness, vratio, hratio,
- spl_out->scl_data.taps, spl_in->basic_in.format);
+ vratio = spl_fixpt_ceil(spl_scratch.scl_data.ratios.vert);
+ hratio = spl_fixpt_ceil(spl_scratch.scl_data.ratios.horz);
+ if (vratio <= hratio)
+ isharp_scale_ratio = spl_scratch.scl_data.recip_ratios.vert;
+ else
+ isharp_scale_ratio = spl_scratch.scl_data.recip_ratios.horz;
+
spl_set_isharp_data(spl_out->dscl_prog_data, spl_in->adaptive_sharpness, enable_isharp,
- spl_in->lls_pref, spl_in->basic_in.format, data);
+ spl_in->lls_pref, spl_in->basic_in.format, data, isharp_scale_ratio, setup);
return res;
}
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