Commit c9e235aa authored by Ville Syrjälä's avatar Ville Syrjälä

drm/i915: Extract ilk_csc_convert_ctm()

Start splitting low level nuts and bolts stuff from
ilk_load_csc_matrix(). The goal is to leave only the clear
high level logic in place.
Signed-off-by: default avatarVille Syrjälä <ville.syrjala@linux.intel.com>
Link: https://patchwork.freedesktop.org/patch/msgid/20190218193137.22914-6-ville.syrjala@linux.intel.comReviewed-by: default avatarUma Shankar <uma.shankar@intel.com>
parent d2c19b06
...@@ -188,6 +188,58 @@ static bool ilk_csc_limited_range(const struct intel_crtc_state *crtc_state) ...@@ -188,6 +188,58 @@ static bool ilk_csc_limited_range(const struct intel_crtc_state *crtc_state)
IS_GEN_RANGE(dev_priv, 9, 10)); IS_GEN_RANGE(dev_priv, 9, 10));
} }
static void ilk_csc_convert_ctm(const struct intel_crtc_state *crtc_state,
u16 coeffs[9])
{
const struct drm_color_ctm *ctm = crtc_state->base.ctm->data;
const u64 *input;
u64 temp[9];
int i;
if (ilk_csc_limited_range(crtc_state))
input = ctm_mult_by_limited(temp, ctm->matrix);
else
input = ctm->matrix;
/*
* Convert fixed point S31.32 input to format supported by the
* hardware.
*/
for (i = 0; i < 9; i++) {
u64 abs_coeff = ((1ULL << 63) - 1) & input[i];
/*
* Clamp input value to min/max supported by
* hardware.
*/
abs_coeff = clamp_val(abs_coeff, 0, CTM_COEFF_4_0 - 1);
coeffs[i] = 0;
/* sign bit */
if (CTM_COEFF_NEGATIVE(input[i]))
coeffs[i] |= 1 << 15;
if (abs_coeff < CTM_COEFF_0_125)
coeffs[i] |= (3 << 12) |
ILK_CSC_COEFF_FP(abs_coeff, 12);
else if (abs_coeff < CTM_COEFF_0_25)
coeffs[i] |= (2 << 12) |
ILK_CSC_COEFF_FP(abs_coeff, 11);
else if (abs_coeff < CTM_COEFF_0_5)
coeffs[i] |= (1 << 12) |
ILK_CSC_COEFF_FP(abs_coeff, 10);
else if (abs_coeff < CTM_COEFF_1_0)
coeffs[i] |= ILK_CSC_COEFF_FP(abs_coeff, 9);
else if (abs_coeff < CTM_COEFF_2_0)
coeffs[i] |= (7 << 12) |
ILK_CSC_COEFF_FP(abs_coeff, 8);
else
coeffs[i] |= (6 << 12) |
ILK_CSC_COEFF_FP(abs_coeff, 7);
}
}
static void ilk_load_csc_matrix(const struct intel_crtc_state *crtc_state) static void ilk_load_csc_matrix(const struct intel_crtc_state *crtc_state)
{ {
struct intel_crtc *crtc = to_intel_crtc(crtc_state->base.crtc); struct intel_crtc *crtc = to_intel_crtc(crtc_state->base.crtc);
...@@ -218,50 +270,7 @@ static void ilk_load_csc_matrix(const struct intel_crtc_state *crtc_state) ...@@ -218,50 +270,7 @@ static void ilk_load_csc_matrix(const struct intel_crtc_state *crtc_state)
} }
if (crtc_state->base.ctm) { if (crtc_state->base.ctm) {
struct drm_color_ctm *ctm = crtc_state->base.ctm->data; ilk_csc_convert_ctm(crtc_state, coeffs);
const u64 *input;
u64 temp[9];
if (limited_color_range)
input = ctm_mult_by_limited(temp, ctm->matrix);
else
input = ctm->matrix;
/*
* Convert fixed point S31.32 input to format supported by the
* hardware.
*/
for (i = 0; i < ARRAY_SIZE(coeffs); i++) {
u64 abs_coeff = ((1ULL << 63) - 1) & input[i];
/*
* Clamp input value to min/max supported by
* hardware.
*/
abs_coeff = clamp_val(abs_coeff, 0, CTM_COEFF_4_0 - 1);
/* sign bit */
if (CTM_COEFF_NEGATIVE(input[i]))
coeffs[i] |= 1 << 15;
if (abs_coeff < CTM_COEFF_0_125)
coeffs[i] |= (3 << 12) |
ILK_CSC_COEFF_FP(abs_coeff, 12);
else if (abs_coeff < CTM_COEFF_0_25)
coeffs[i] |= (2 << 12) |
ILK_CSC_COEFF_FP(abs_coeff, 11);
else if (abs_coeff < CTM_COEFF_0_5)
coeffs[i] |= (1 << 12) |
ILK_CSC_COEFF_FP(abs_coeff, 10);
else if (abs_coeff < CTM_COEFF_1_0)
coeffs[i] |= ILK_CSC_COEFF_FP(abs_coeff, 9);
else if (abs_coeff < CTM_COEFF_2_0)
coeffs[i] |= (7 << 12) |
ILK_CSC_COEFF_FP(abs_coeff, 8);
else
coeffs[i] |= (6 << 12) |
ILK_CSC_COEFF_FP(abs_coeff, 7);
}
} else { } else {
/* /*
* Load an identity matrix if no coefficients are provided. * Load an identity matrix if no coefficients are provided.
......
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