a1);
}
+static struct fixed31_32 calculate_gamma22(struct fixed31_32 arg)
+{
+ struct fixed31_32 gamma = dc_fixpt_from_fraction(22, 10);
+
+ return translate_from_linear_space(arg,
+ dc_fixpt_zero,
+ dc_fixpt_zero,
+ dc_fixpt_zero,
+ dc_fixpt_zero,
+ gamma);
+}
+
static struct fixed31_32 translate_to_linear_space(
struct fixed31_32 arg,
struct fixed31_32 a0,
}
}
+static void hermite_spline_eetf(struct fixed31_32 input_x,
+ struct fixed31_32 max_display,
+ struct fixed31_32 min_display,
+ struct fixed31_32 max_content,
+ struct fixed31_32 *out_x)
+{
+ struct fixed31_32 min_lum_pq;
+ struct fixed31_32 max_lum_pq;
+ struct fixed31_32 max_content_pq;
+ struct fixed31_32 ks;
+ struct fixed31_32 E1;
+ struct fixed31_32 E2;
+ struct fixed31_32 E3;
+ struct fixed31_32 t;
+ struct fixed31_32 t2;
+ struct fixed31_32 t3;
+ struct fixed31_32 two;
+ struct fixed31_32 three;
+ struct fixed31_32 temp1;
+ struct fixed31_32 temp2;
+ struct fixed31_32 a = dc_fixpt_from_fraction(15, 10);
+ struct fixed31_32 b = dc_fixpt_from_fraction(5, 10);
+ struct fixed31_32 epsilon = dc_fixpt_from_fraction(1, 1000000); // dc_fixpt_epsilon is a bit too small
+
+ if (dc_fixpt_eq(max_content, dc_fixpt_zero)) {
+ *out_x = dc_fixpt_zero;
+ return;
+ }
+
+ compute_pq(input_x, &E1);
+ compute_pq(dc_fixpt_div(min_display, max_content), &min_lum_pq);
+ compute_pq(dc_fixpt_div(max_display, max_content), &max_lum_pq);
+ compute_pq(dc_fixpt_one, &max_content_pq); // always 1? DAL2 code is weird
+ a = dc_fixpt_div(dc_fixpt_add(dc_fixpt_one, b), max_content_pq); // (1+b)/maxContent
+ ks = dc_fixpt_sub(dc_fixpt_mul(a, max_lum_pq), b); // a * max_lum_pq - b
+
+ if (dc_fixpt_lt(E1, ks))
+ E2 = E1;
+ else if (dc_fixpt_le(ks, E1) && dc_fixpt_le(E1, dc_fixpt_one)) {
+ if (dc_fixpt_lt(epsilon, dc_fixpt_sub(dc_fixpt_one, ks)))
+ // t = (E1 - ks) / (1 - ks)
+ t = dc_fixpt_div(dc_fixpt_sub(E1, ks),
+ dc_fixpt_sub(dc_fixpt_one, ks));
+ else
+ t = dc_fixpt_zero;
+
+ two = dc_fixpt_from_int(2);
+ three = dc_fixpt_from_int(3);
+
+ t2 = dc_fixpt_mul(t, t);
+ t3 = dc_fixpt_mul(t2, t);
+ temp1 = dc_fixpt_mul(two, t3);
+ temp2 = dc_fixpt_mul(three, t2);
+
+ // (2t^3 - 3t^2 + 1) * ks
+ E2 = dc_fixpt_mul(ks, dc_fixpt_add(dc_fixpt_one,
+ dc_fixpt_sub(temp1, temp2)));
+
+ // (-2t^3 + 3t^2) * max_lum_pq
+ E2 = dc_fixpt_add(E2, dc_fixpt_mul(max_lum_pq,
+ dc_fixpt_sub(temp2, temp1)));
+
+ temp1 = dc_fixpt_mul(two, t2);
+ temp2 = dc_fixpt_sub(dc_fixpt_one, ks);
+
+ // (t^3 - 2t^2 + t) * (1-ks)
+ E2 = dc_fixpt_add(E2, dc_fixpt_mul(temp2,
+ dc_fixpt_add(t, dc_fixpt_sub(t3, temp1))));
+ }
+
+ temp1 = dc_fixpt_sub(dc_fixpt_one, E2);
+ temp2 = dc_fixpt_mul(temp1, temp1);
+ temp2 = dc_fixpt_mul(temp2, temp2);
+ // temp2 = (1-E2)^4
+
+ E3 = dc_fixpt_add(E2, dc_fixpt_mul(min_lum_pq, temp2));
+ compute_de_pq(E3, out_x);
+
+ *out_x = dc_fixpt_div(*out_x, dc_fixpt_div(max_display, max_content));
+}
+
+static bool build_freesync_hdr(struct pwl_float_data_ex *rgb_regamma,
+ uint32_t hw_points_num,
+ const struct hw_x_point *coordinate_x,
+ const struct freesync_hdr_tf_params *fs_params)
+{
+ uint32_t i;
+ struct pwl_float_data_ex *rgb = rgb_regamma;
+ const struct hw_x_point *coord_x = coordinate_x;
+ struct fixed31_32 scaledX = dc_fixpt_zero;
+ struct fixed31_32 scaledX1 = dc_fixpt_zero;
+ struct fixed31_32 max_display = dc_fixpt_from_int(fs_params->max_display);
+ struct fixed31_32 min_display = dc_fixpt_from_fraction(fs_params->min_display, 10000);
+ struct fixed31_32 max_content = dc_fixpt_from_int(fs_params->max_content);
+ struct fixed31_32 min_content = dc_fixpt_from_fraction(fs_params->min_content, 10000);
+ struct fixed31_32 clip = dc_fixpt_one;
+ struct fixed31_32 output;
+ bool use_eetf = false;
+ struct fixed31_32 sdr_white_level = dc_fixpt_from_int(fs_params->sdr_white_level);
+
+ if (fs_params == NULL || fs_params->max_content == 0 ||
+ fs_params->max_display == 0)
+ return false;
+
+ if (fs_params->min_display > 1000) // cap at 0.1 at the bottom
+ min_display = dc_fixpt_from_fraction(1, 10);
+ if (fs_params->max_display < 100) // cap at 100 at the top
+ max_display = dc_fixpt_from_int(100);
+
+ if (fs_params->min_content < fs_params->min_display)
+ use_eetf = true;
+ else
+ min_content = min_display;
+
+ if (fs_params->max_content > fs_params->max_display)
+ use_eetf = true;
+ else
+ max_content = max_display;
+
+ rgb += 32; // first 32 points have problems with fixed point, too small
+ coord_x += 32;
+ for (i = 32; i <= hw_points_num; i++) {
+ if (use_eetf) {
+ /*max content is equal 1 */
+ scaledX1 = dc_fixpt_div(coord_x->x,
+ dc_fixpt_div(max_content, sdr_white_level));
+ hermite_spline_eetf(scaledX1, max_display, min_display,
+ max_content, &scaledX);
+ } else
+ scaledX = dc_fixpt_div(coord_x->x,
+ dc_fixpt_div(max_display, sdr_white_level));
+
+ if (dc_fixpt_lt(scaledX, clip)) {
+ if (dc_fixpt_lt(scaledX, dc_fixpt_zero))
+ output = dc_fixpt_zero;
+ else
+ output = calculate_gamma22(scaledX);
+
+ rgb->r = output;
+ rgb->g = output;
+ rgb->b = output;
+ } else {
+ rgb->r = clip;
+ rgb->g = clip;
+ rgb->b = clip;
+ }
+
+ ++coord_x;
+ ++rgb;
+ }
+
+ return true;
+}
+
static void build_degamma(struct pwl_float_data_ex *curve,
uint32_t hw_points_num,
const struct hw_x_point *coordinate_x, bool is_2_4)
#define _EXTRA_POINTS 3
bool mod_color_calculate_regamma_params(struct dc_transfer_func *output_tf,
- const struct dc_gamma *ramp, bool mapUserRamp, bool canRomBeUsed)
+ const struct dc_gamma *ramp, bool mapUserRamp, bool canRomBeUsed,
+ const struct freesync_hdr_tf_params *fs_params)
{
struct dc_transfer_func_distributed_points *tf_pts = &output_tf->tf_pts;
struct dividers dividers;
MAX_HW_POINTS,
coordinates_x,
output_tf->sdr_ref_white_level);
+ } else if (tf == TRANSFER_FUNCTION_GAMMA22 &&
+ fs_params != NULL) {
+ build_freesync_hdr(rgb_regamma,
+ MAX_HW_POINTS,
+ coordinates_x,
+ fs_params);
} else {
tf_pts->end_exponent = 0;
tf_pts->x_point_at_y1_red = 1;