[PATCH 04/36] drm/amd/display: fix segment distribution for linear LUTs

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From: Harry Wentland <harry.wentland@xxxxxxx>

The region and segment calculation was incapable of dealing
with regions of more than 16 segments. We first fix this.

Now that we can support regions up to 256 elements we can
define a better segment distribution for near-linear LUTs
for our maximum of 256 HW-supported points.

With these changes an "identity" LUT looks visually
indistinguishable from bypass and allows us to use
our 3DLUT.

Signed-off-by: Harry Wentland <harry.wentland@xxxxxxx>
Signed-off-by: Melissa Wen <mwen@xxxxxxxxxx>
---
 .../amd/display/dc/dcn10/dcn10_cm_common.c    | 93 +++++++++++++++----
 1 file changed, 75 insertions(+), 18 deletions(-)

diff --git a/drivers/gpu/drm/amd/display/dc/dcn10/dcn10_cm_common.c b/drivers/gpu/drm/amd/display/dc/dcn10/dcn10_cm_common.c
index 7a00fe525dfb..f27413e94280 100644
--- a/drivers/gpu/drm/amd/display/dc/dcn10/dcn10_cm_common.c
+++ b/drivers/gpu/drm/amd/display/dc/dcn10/dcn10_cm_common.c
@@ -346,20 +346,37 @@ bool cm_helper_translate_curve_to_hw_format(
 		 * segment is from 2^-10 to 2^1
 		 * There are less than 256 points, for optimization
 		 */
-		seg_distr[0] = 3;
-		seg_distr[1] = 4;
-		seg_distr[2] = 4;
-		seg_distr[3] = 4;
-		seg_distr[4] = 4;
-		seg_distr[5] = 4;
-		seg_distr[6] = 4;
-		seg_distr[7] = 4;
-		seg_distr[8] = 4;
-		seg_distr[9] = 4;
-		seg_distr[10] = 1;
+		if (output_tf->tf == TRANSFER_FUNCTION_LINEAR) {
+			seg_distr[0] = 0; /* 2 */
+			seg_distr[1] = 1; /* 4 */
+			seg_distr[2] = 2; /* 4 */
+			seg_distr[3] = 3; /* 8 */
+			seg_distr[4] = 4; /* 16 */
+			seg_distr[5] = 5; /* 32 */
+			seg_distr[6] = 6; /* 64 */
+			seg_distr[7] = 7; /* 128 */
+
+			region_start = -8;
+			region_end = 1;
+		} else {
+			seg_distr[0] = 3; /* 8 */
+			seg_distr[1] = 4; /* 16 */
+			seg_distr[2] = 4;
+			seg_distr[3] = 4;
+			seg_distr[4] = 4;
+			seg_distr[5] = 4;
+			seg_distr[6] = 4;
+			seg_distr[7] = 4;
+			seg_distr[8] = 4;
+			seg_distr[9] = 4;
+			seg_distr[10] = 1; /* 2 */
+			/* total = 8*16 + 8 + 64 + 2 = */
+
+			region_start = -10;
+			region_end = 1;
+		}
+
 
-		region_start = -10;
-		region_end = 1;
 	}
 
 	for (i = region_end - region_start; i < MAX_REGIONS_NUMBER ; i++)
@@ -372,16 +389,56 @@ bool cm_helper_translate_curve_to_hw_format(
 
 	j = 0;
 	for (k = 0; k < (region_end - region_start); k++) {
-		increment = NUMBER_SW_SEGMENTS / (1 << seg_distr[k]);
+		/*
+		 * We're using an ugly-ish hack here. Our HW allows for
+		 * 256 segments per region but SW_SEGMENTS is 16.
+		 * SW_SEGMENTS has some undocumented relationship to
+		 * the number of points in the tf_pts struct, which
+		 * is 512, unlike what's suggested TRANSFER_FUNC_POINTS.
+		 *
+		 * In order to work past this dilemma we'll scale our
+		 * increment by (1 << 4) and then do the inverse (1 >> 4)
+		 * when accessing the elements in tf_pts.
+		 *
+		 * TODO: find a better way using SW_SEGMENTS and
+		 *       TRANSFER_FUNC_POINTS definitions
+		 */
+		increment = (NUMBER_SW_SEGMENTS << 4) / (1 << seg_distr[k]);
 		start_index = (region_start + k + MAX_LOW_POINT) *
 				NUMBER_SW_SEGMENTS;
-		for (i = start_index; i < start_index + NUMBER_SW_SEGMENTS;
+		for (i = (start_index << 4); i < (start_index << 4) + (NUMBER_SW_SEGMENTS << 4);
 				i += increment) {
+			struct fixed31_32 in_plus_one, in;
+			struct fixed31_32 value, red_value, green_value, blue_value;
+			uint32_t t = i & 0xf;
+
 			if (j == hw_points - 1)
 				break;
-			rgb_resulted[j].red = output_tf->tf_pts.red[i];
-			rgb_resulted[j].green = output_tf->tf_pts.green[i];
-			rgb_resulted[j].blue = output_tf->tf_pts.blue[i];
+
+			in_plus_one = output_tf->tf_pts.red[(i >> 4) + 1];
+			in = output_tf->tf_pts.red[i >> 4];
+			value = dc_fixpt_sub(in_plus_one, in);
+			value = dc_fixpt_shr(dc_fixpt_mul_int(value, t),  4);
+			value = dc_fixpt_add(in, value);
+			red_value = value;
+
+			in_plus_one = output_tf->tf_pts.green[(i >> 4) + 1];
+			in = output_tf->tf_pts.green[i >> 4];
+			value = dc_fixpt_sub(in_plus_one, in);
+			value = dc_fixpt_shr(dc_fixpt_mul_int(value, t),  4);
+			value = dc_fixpt_add(in, value);
+			green_value = value;
+
+			in_plus_one = output_tf->tf_pts.blue[(i >> 4) + 1];
+			in = output_tf->tf_pts.blue[i >> 4];
+			value = dc_fixpt_sub(in_plus_one, in);
+			value = dc_fixpt_shr(dc_fixpt_mul_int(value, t),  4);
+			value = dc_fixpt_add(in, value);
+			blue_value = value;
+
+			rgb_resulted[j].red = red_value;
+			rgb_resulted[j].green = green_value;
+			rgb_resulted[j].blue = blue_value;
 			j++;
 		}
 	}
-- 
2.39.2




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