[igt-dev] [PATCH i-g-t v5 03/13] igt: fb: generic YUV convertion function
Lyude Paul
lyude at redhat.com
Tue Jan 29 19:42:11 UTC 2019
Acked-by: Lyude Paul <lyude at redhat.com>
On Fri, 2019-01-25 at 15:58 +0100, Maxime Ripard wrote:
> The current way we work when we want to support a new YUV format to IGT, we
> also need to add new function to convert to and from XRGB8888.
>
> This doesn't really scale however, and creates a lot of code to maintain.
> In order to work around this, create a generic function to convert to RGB
> and one to convert from RGB.
>
> The only thing that is needed now is to add new parameters, and that's it.
>
> Reviewed-by: Paul Kocialkowski <paul.kocialkowski at bootlin.com>
> Signed-off-by: Maxime Ripard <maxime.ripard at bootlin.com>
> ---
> lib/igt_fb.c | 537 ++++++++++++++++-----------------------------------
> 1 file changed, 171 insertions(+), 366 deletions(-)
>
> diff --git a/lib/igt_fb.c b/lib/igt_fb.c
> index 1a5c338ea532..45691fd441d9 100644
> --- a/lib/igt_fb.c
> +++ b/lib/igt_fb.c
> @@ -1577,424 +1577,237 @@ static void convert_src_put(const struct
> fb_convert *cvt,
> free(src_buf);
> }
>
> -static void convert_nv12_to_rgb24(struct fb_convert *cvt)
> +struct yuv_parameters {
> + unsigned y_inc;
> + unsigned uv_inc;
> + unsigned y_stride;
> + unsigned uv_stride;
> + unsigned y_offset;
> + unsigned u_offset;
> + unsigned v_offset;
> +};
> +
> +static void get_yuv_parameters(struct igt_fb *fb, struct yuv_parameters
> *params)
> {
> - int i, j;
> - const uint8_t *y, *uv;
> - uint8_t *rgb24 = cvt->dst.ptr;
> - unsigned int rgb24_stride = cvt->dst.fb->strides[0];
> - unsigned int planar_stride = cvt->src.fb->strides[0];
> - struct igt_mat4 m = igt_ycbcr_to_rgb_matrix(cvt->src.fb-
> >color_encoding,
> - cvt->src.fb->color_range);
> - uint8_t *buf;
> -
> - igt_assert(cvt->src.fb->drm_format == DRM_FORMAT_NV12 &&
> - cvt->dst.fb->drm_format == DRM_FORMAT_XRGB8888);
> -
> - buf = convert_src_get(cvt);
> - y = buf + cvt->src.fb->offsets[0];
> - uv = buf + cvt->src.fb->offsets[1];
> -
> - for (i = 0; i < cvt->dst.fb->height / 2; i++) {
> - for (j = 0; j < cvt->dst.fb->width / 2; j++) {
> - /* Convert 2x2 pixel blocks */
> - struct igt_vec4 yuv[4];
> - struct igt_vec4 rgb[4];
> -
> - yuv[0].d[0] = y[j * 2 + 0];
> - yuv[1].d[0] = y[j * 2 + 1];
> - yuv[2].d[0] = y[j * 2 + 0 + planar_stride];
> - yuv[3].d[0] = y[j * 2 + 1 + planar_stride];
> -
> - yuv[0].d[1] = yuv[1].d[1] = yuv[2].d[1] = yuv[3].d[1]
> = uv[j * 2 + 0];
> - yuv[0].d[2] = yuv[1].d[2] = yuv[2].d[2] = yuv[3].d[2]
> = uv[j * 2 + 1];
> - yuv[0].d[3] = yuv[1].d[3] = yuv[2].d[3] = yuv[3].d[3]
> = 1.0f;
> -
> - rgb[0] = igt_matrix_transform(&m, &yuv[0]);
> - rgb[1] = igt_matrix_transform(&m, &yuv[1]);
> - rgb[2] = igt_matrix_transform(&m, &yuv[2]);
> - rgb[3] = igt_matrix_transform(&m, &yuv[3]);
> -
> - write_rgb(&rgb24[j * 8 + 0], &rgb[0]);
> - write_rgb(&rgb24[j * 8 + 4], &rgb[1]);
> - write_rgb(&rgb24[j * 8 + 0 + rgb24_stride], &rgb[2]);
> - write_rgb(&rgb24[j * 8 + 4 + rgb24_stride], &rgb[3]);
> - }
> -
> - if (cvt->dst.fb->width & 1) {
> - /* Convert 1x2 pixel block */
> - struct igt_vec4 yuv[2];
> - struct igt_vec4 rgb[2];
> -
> - yuv[0].d[0] = y[j * 2 + 0];
> - yuv[1].d[0] = y[j * 2 + 0 + planar_stride];
> + igt_assert(igt_format_is_yuv(fb->drm_format));
>
> - yuv[0].d[1] = yuv[1].d[1] = uv[j * 2 + 0];
> - yuv[0].d[2] = yuv[1].d[2] = uv[j * 2 + 1];
> - yuv[0].d[3] = yuv[1].d[3] = 1.0f;
> + switch (fb->drm_format) {
> + case DRM_FORMAT_NV12:
> + params->y_inc = 1;
> + params->uv_inc = 2;
> + break;
>
> - rgb[0] = igt_matrix_transform(&m, &yuv[0]);
> - rgb[1] = igt_matrix_transform(&m, &yuv[1]);
> -
> - write_rgb(&rgb24[j * 8 + 0], &rgb[0]);
> - write_rgb(&rgb24[j * 8 + 0 + rgb24_stride], &rgb[1]);
> - }
> -
> - rgb24 += 2 * rgb24_stride;
> - y += 2 * planar_stride;
> - uv += planar_stride;
> + case DRM_FORMAT_YUYV:
> + case DRM_FORMAT_YVYU:
> + case DRM_FORMAT_UYVY:
> + case DRM_FORMAT_VYUY:
> + params->y_inc = 2;
> + params->uv_inc = 4;
> + break;
> +
> + case DRM_FORMAT_XYUV8888:
> + params->y_inc = 4;
> + params->uv_inc = 4;
> + break;
> }
>
> - if (cvt->dst.fb->height & 1) {
> - /* Convert last row */
> - for (j = 0; j < cvt->dst.fb->width / 2; j++) {
> - /* Convert 2x1 pixel blocks */
> - struct igt_vec4 yuv[2];
> - struct igt_vec4 rgb[2];
> -
> - yuv[0].d[0] = y[j * 2 + 0];
> - yuv[1].d[0] = y[j * 2 + 1];
> - yuv[0].d[1] = yuv[1].d[1] = uv[j * 2 + 0];
> - yuv[0].d[2] = yuv[1].d[2] = uv[j * 2 + 1];
> - yuv[0].d[3] = yuv[1].d[3] = 1.0f;
> + switch (fb->drm_format) {
> + case DRM_FORMAT_NV12:
> + params->y_stride = fb->strides[0];
> + params->uv_stride = fb->strides[1];
> + break;
>
> - rgb[0] = igt_matrix_transform(&m, &yuv[0]);
> - rgb[1] = igt_matrix_transform(&m, &yuv[1]);
> + case DRM_FORMAT_YUYV:
> + case DRM_FORMAT_YVYU:
> + case DRM_FORMAT_UYVY:
> + case DRM_FORMAT_VYUY:
> + case DRM_FORMAT_XYUV8888:
> + params->y_stride = fb->strides[0];
> + params->uv_stride = fb->strides[0];
> + break;
> + }
>
> - write_rgb(&rgb24[j * 8 + 0], &rgb[0]);
> - write_rgb(&rgb24[j * 8 + 4], &rgb[0]);
> - }
> + switch (fb->drm_format) {
> + case DRM_FORMAT_NV12:
> + params->y_offset = fb->offsets[0];
> + params->u_offset = fb->offsets[1];
> + params->v_offset = fb->offsets[1] + 1;
> + break;
>
> - if (cvt->dst.fb->width & 1) {
> - /* Convert single pixel */
> - struct igt_vec4 yuv;
> - struct igt_vec4 rgb;
> + case DRM_FORMAT_YUYV:
> + params->y_offset = fb->offsets[0];
> + params->u_offset = fb->offsets[0] + 1;
> + params->v_offset = fb->offsets[0] + 3;
> + break;
>
> - yuv.d[0] = y[j * 2 + 0];
> - yuv.d[1] = uv[j * 2 + 0];
> - yuv.d[2] = uv[j * 2 + 1];
> - yuv.d[3] = 1.0f;
> + case DRM_FORMAT_YVYU:
> + params->y_offset = fb->offsets[0];
> + params->u_offset = fb->offsets[0] + 3;
> + params->v_offset = fb->offsets[0] + 1;
> + break;
>
> - rgb = igt_matrix_transform(&m, &yuv);
> + case DRM_FORMAT_UYVY:
> + params->y_offset = fb->offsets[0] + 1;
> + params->u_offset = fb->offsets[0];
> + params->v_offset = fb->offsets[0] + 2;
> + break;
>
> - write_rgb(&rgb24[j * 8 + 0], &rgb);
> - }
> + case DRM_FORMAT_VYUY:
> + params->y_offset = fb->offsets[0] + 1;
> + params->u_offset = fb->offsets[0] + 2;
> + params->v_offset = fb->offsets[0];
> + break;
> +
> + case DRM_FORMAT_XYUV8888:
> + params->y_offset = fb->offsets[0] + 1;
> + params->u_offset = fb->offsets[0] + 2;
> + params->v_offset = fb->offsets[0] + 3;
> + break;
> }
> -
> - convert_src_put(cvt, buf);
> }
>
> -static void convert_yuv444_to_rgb24(struct fb_convert *cvt)
> +static void convert_yuv_to_rgb24(struct fb_convert *cvt)
> {
> + const struct format_desc_struct *src_fmt =
> + lookup_drm_format(cvt->src.fb->drm_format);
> int i, j;
> - uint8_t *yuv24;
> + uint8_t bpp = 4;
> + uint8_t *y, *u, *v;
> uint8_t *rgb24 = cvt->dst.ptr;
> - unsigned rgb24_stride = cvt->dst.fb->strides[0], xyuv_stride = cvt-
> >src.fb->strides[0];
> - uint8_t *buf = malloc(cvt->src.fb->size);
> + unsigned int rgb24_stride = cvt->dst.fb->strides[0];
> struct igt_mat4 m = igt_ycbcr_to_rgb_matrix(cvt->src.fb-
> >color_encoding,
> cvt->src.fb->color_range);
> + uint8_t *buf;
> + struct yuv_parameters params = { };
>
> - /*
> - * Reading from the BO is awfully slow because of lack of read
> caching,
> - * it's faster to copy the whole BO to a temporary buffer and convert
> - * from there.
> - */
> - igt_memcpy_from_wc(buf, cvt->src.ptr + cvt->src.fb->offsets[0], cvt-
> >src.fb->size);
> - yuv24 = buf;
> + igt_assert(cvt->dst.fb->drm_format == DRM_FORMAT_XRGB8888 &&
> + igt_format_is_yuv(cvt->src.fb->drm_format));
> +
> + buf = convert_src_get(cvt);
> + get_yuv_parameters(cvt->src.fb, ¶ms);
> + y = buf + params.y_offset;
> + u = buf + params.u_offset;
> + v = buf + params.v_offset;
>
> for (i = 0; i < cvt->dst.fb->height; i++) {
> + const uint8_t *y_tmp = y;
> + const uint8_t *u_tmp = u;
> + const uint8_t *v_tmp = v;
> + uint8_t *rgb_tmp = rgb24;
> +
> for (j = 0; j < cvt->dst.fb->width; j++) {
> - float y, u, v;
> - struct igt_vec4 yuv;
> - struct igt_vec4 rgb;
> -
> - v = yuv24[i * xyuv_stride + j * 4];
> - u = yuv24[i * xyuv_stride + j * 4 + 1];
> - y = yuv24[i * xyuv_stride + j * 4 + 2];
> - yuv.d[0] = y;
> - yuv.d[1] = u;
> - yuv.d[2] = v;
> + struct igt_vec4 rgb, yuv;
> +
> + yuv.d[0] = *y_tmp;
> + yuv.d[1] = *u_tmp;
> + yuv.d[2] = *v_tmp;
> yuv.d[3] = 1.0f;
>
> rgb = igt_matrix_transform(&m, &yuv);
> + write_rgb(rgb_tmp, &rgb);
>
> - write_rgb(&rgb24[i * rgb24_stride + j * 4], &rgb);
> - }
> - }
> -
> - free(buf);
> -}
> -
> -
> -static void convert_rgb24_to_yuv444(struct fb_convert *cvt)
> -{
> - int i, j;
> - uint8_t *rgb24;
> - uint8_t *yuv444 = cvt->dst.ptr + cvt->dst.fb->offsets[0];
> - unsigned int rgb24_stride = cvt->src.fb->strides[0], xyuv_stride =
> cvt->dst.fb->strides[0];
> - struct igt_mat4 m = igt_rgb_to_ycbcr_matrix(cvt->dst.fb-
> >color_encoding,
> - cvt->dst.fb->color_range);
> -
> - rgb24 = cvt->src.ptr;
> + rgb_tmp += bpp;
> + y_tmp += params.y_inc;
>
> - igt_assert_f(cvt->dst.fb->drm_format == DRM_FORMAT_XYUV8888,
> - "Conversion not implemented for !XYUV packed formats\n");
> -
> - for (i = 0; i < cvt->dst.fb->height; i++) {
> - for (j = 0; j < cvt->dst.fb->width; j++) {
> - struct igt_vec4 rgb;
> - struct igt_vec4 yuv;
> -
> - read_rgb(&rgb, &rgb24[i * rgb24_stride + j * 4]);
> + if ((src_fmt->hsub == 1) || (j % src_fmt->hsub)) {
> + u_tmp += params.uv_inc;
> + v_tmp += params.uv_inc;
> + }
> + }
>
> - yuv = igt_matrix_transform(&m, &rgb);
> + rgb24 += rgb24_stride;
> + y += params.y_stride;
>
> - yuv444[i * xyuv_stride + j * 4] = yuv.d[2];
> - yuv444[i * xyuv_stride + j * 4 + 1] = yuv.d[1];
> - yuv444[i * xyuv_stride + j * 4 + 2] = yuv.d[0];
> + if ((src_fmt->vsub == 1) || (i % src_fmt->vsub)) {
> + u += params.uv_stride;
> + v += params.uv_stride;
> }
> }
> +
> + convert_src_put(cvt, buf);
> }
>
> -static void convert_rgb24_to_nv12(struct fb_convert *cvt)
> +static void convert_rgb24_to_yuv(struct fb_convert *cvt)
> {
> + const struct format_desc_struct *dst_fmt =
> + lookup_drm_format(cvt->dst.fb->drm_format);
> int i, j;
> - uint8_t *y = cvt->dst.ptr + cvt->dst.fb->offsets[0];
> - uint8_t *uv = cvt->dst.ptr + cvt->dst.fb->offsets[1];
> + uint8_t *y, *u, *v;
> const uint8_t *rgb24 = cvt->src.ptr;
> + uint8_t bpp = 4;
> unsigned rgb24_stride = cvt->src.fb->strides[0];
> - unsigned planar_stride = cvt->dst.fb->strides[0];
> struct igt_mat4 m = igt_rgb_to_ycbcr_matrix(cvt->dst.fb-
> >color_encoding,
> cvt->dst.fb->color_range);
> + struct yuv_parameters params = { };
>
> igt_assert(cvt->src.fb->drm_format == DRM_FORMAT_XRGB8888 &&
> - cvt->dst.fb->drm_format == DRM_FORMAT_NV12);
> + igt_format_is_yuv(cvt->dst.fb->drm_format));
>
> - for (i = 0; i < cvt->dst.fb->height / 2; i++) {
> - for (j = 0; j < cvt->dst.fb->width / 2; j++) {
> - /* Convert 2x2 pixel blocks */
> - struct igt_vec4 rgb[4];
> - struct igt_vec4 yuv[4];
> + get_yuv_parameters(cvt->dst.fb, ¶ms);
> + y = cvt->dst.ptr + params.y_offset;
> + u = cvt->dst.ptr + params.u_offset;
> + v = cvt->dst.ptr + params.v_offset;
>
> - read_rgb(&rgb[0], &rgb24[j * 8 + 0]);
> - read_rgb(&rgb[1], &rgb24[j * 8 + 4]);
> - read_rgb(&rgb[2], &rgb24[j * 8 + 0 + rgb24_stride]);
> - read_rgb(&rgb[3], &rgb24[j * 8 + 4 + rgb24_stride]);
> -
> - yuv[0] = igt_matrix_transform(&m, &rgb[0]);
> - yuv[1] = igt_matrix_transform(&m, &rgb[1]);
> - yuv[2] = igt_matrix_transform(&m, &rgb[2]);
> - yuv[3] = igt_matrix_transform(&m, &rgb[3]);
> -
> - y[j * 2 + 0] = yuv[0].d[0];
> - y[j * 2 + 1] = yuv[1].d[0];
> - y[j * 2 + 0 + planar_stride] = yuv[2].d[0];
> - y[j * 2 + 1 + planar_stride] = yuv[3].d[0];
> + for (i = 0; i < cvt->dst.fb->height; i++) {
> + const uint8_t *rgb_tmp = rgb24;
> + uint8_t *y_tmp = y;
> + uint8_t *u_tmp = u;
> + uint8_t *v_tmp = v;
>
> - /*
> - * We assume the MPEG2 chroma siting convention, where
> - * pixel center for Cb'Cr' is between the left top and
> - * bottom pixel in a 2x2 block, so take the average.
> - */
> - uv[j * 2 + 0] = (yuv[0].d[1] + yuv[2].d[1]) / 2.0f;
> - uv[j * 2 + 1] = (yuv[0].d[2] + yuv[2].d[2]) / 2.0f;
> - }
> + for (j = 0; j < cvt->dst.fb->width; j++) {
> + const uint8_t *pair_rgb24 = rgb_tmp;
> + struct igt_vec4 pair_rgb, rgb;
> + struct igt_vec4 pair_yuv, yuv;
>
> - if (cvt->dst.fb->width & 1) {
> - /* Convert 1x2 pixel block */
> - struct igt_vec4 rgb[2];
> - struct igt_vec4 yuv[2];
> + read_rgb(&rgb, rgb_tmp);
> + yuv = igt_matrix_transform(&m, &rgb);
>
> - read_rgb(&rgb[0], &rgb24[j * 8 + 0]);
> - read_rgb(&rgb[1], &rgb24[j * 8 + 0 + rgb24_stride]);
> + rgb_tmp += bpp;
>
> - yuv[0] = igt_matrix_transform(&m, &rgb[0]);
> - yuv[1] = igt_matrix_transform(&m, &rgb[1]);
> + *y_tmp = yuv.d[0];
> + y_tmp += params.y_inc;
>
> - y[j * 2 + 0] = yuv[0].d[0];
> - y[j * 2 + 0 + planar_stride] = yuv[1].d[0];
> + if ((i % dst_fmt->vsub) || (j % dst_fmt->hsub))
> + continue;
>
> /*
> * We assume the MPEG2 chroma siting convention, where
> * pixel center for Cb'Cr' is between the left top and
> * bottom pixel in a 2x2 block, so take the average.
> + *
> + * Therefore, if we use subsampling, we only really
> care
> + * about two pixels all the time, either the two
> + * subsequent pixels horizontally, vertically, or the
> + * two corners in a 2x2 block.
> + *
> + * The only corner case is when we have an odd number
> of
> + * pixels, but this can be handled pretty easily by
> not
> + * incrementing the paired pixel pointer in the
> + * direction it's odd in.
> */
> - uv[j * 2 + 0] = (yuv[0].d[1] + yuv[1].d[1]) / 2.0f;
> - uv[j * 2 + 1] = (yuv[0].d[2] + yuv[1].d[2]) / 2.0f;
> - }
> -
> - rgb24 += 2 * rgb24_stride;
> - y += 2 * planar_stride;
> - uv += planar_stride;
> - }
> -
> - /* Last row cannot be interpolated between 2 pixels, take the single
> value */
> - if (cvt->dst.fb->height & 1) {
> - for (j = 0; j < cvt->dst.fb->width / 2; j++) {
> - /* Convert 2x1 pixel blocks */
> - struct igt_vec4 rgb[2];
> - struct igt_vec4 yuv[2];
> -
> - read_rgb(&rgb[0], &rgb24[j * 8 + 0]);
> - read_rgb(&rgb[1], &rgb24[j * 8 + 4]);
> -
> - yuv[0] = igt_matrix_transform(&m, &rgb[0]);
> - yuv[1] = igt_matrix_transform(&m, &rgb[1]);
> + if (j != (cvt->dst.fb->width - 1))
> + pair_rgb24 += (dst_fmt->hsub - 1) * bpp;
>
> - y[j * 2 + 0] = yuv[0].d[0];
> - y[j * 2 + 1] = yuv[1].d[0];
> - uv[j * 2 + 0] = yuv[0].d[1];
> - uv[j * 2 + 1] = yuv[0].d[2];
> - }
> -
> - if (cvt->dst.fb->width & 1) {
> - /* Convert single pixel */
> - struct igt_vec4 rgb;
> - struct igt_vec4 yuv;
> + if (i != (cvt->dst.fb->height - 1))
> + pair_rgb24 += rgb24_stride * (dst_fmt->vsub -
> 1);
>
> - read_rgb(&rgb, &rgb24[j * 8 + 0]);
> + read_rgb(&pair_rgb, pair_rgb24);
> + pair_yuv = igt_matrix_transform(&m, &pair_rgb);
>
> - yuv = igt_matrix_transform(&m, &rgb);
> + *u_tmp = (yuv.d[1] + pair_yuv.d[1]) / 2.0f;
> + *v_tmp = (yuv.d[2] + pair_yuv.d[2]) / 2.0f;
>
> - y[j * 2 + 0] = yuv.d[0];
> - uv[j * 2 + 0] = yuv.d[1];
> - uv[j * 2 + 1] = yuv.d[2];
> - }
> - }
> -}
> -
> -/* { Y0, U, Y1, V } */
> -static const unsigned char swizzle_yuyv[] = { 0, 1, 2, 3 };
> -static const unsigned char swizzle_yvyu[] = { 0, 3, 2, 1 };
> -static const unsigned char swizzle_uyvy[] = { 1, 0, 3, 2 };
> -static const unsigned char swizzle_vyuy[] = { 1, 2, 3, 0 };
> -
> -static const unsigned char *yuyv_swizzle(uint32_t format)
> -{
> - switch (format) {
> - default:
> - case DRM_FORMAT_YUYV:
> - return swizzle_yuyv;
> - case DRM_FORMAT_YVYU:
> - return swizzle_yvyu;
> - case DRM_FORMAT_UYVY:
> - return swizzle_uyvy;
> - case DRM_FORMAT_VYUY:
> - return swizzle_vyuy;
> - }
> -}
> -
> -static void convert_yuyv_to_rgb24(struct fb_convert *cvt)
> -{
> - int i, j;
> - const uint8_t *yuyv;
> - uint8_t *rgb24 = cvt->dst.ptr;
> - unsigned int rgb24_stride = cvt->dst.fb->strides[0];
> - unsigned int yuyv_stride = cvt->src.fb->strides[0];
> - struct igt_mat4 m = igt_ycbcr_to_rgb_matrix(cvt->src.fb-
> >color_encoding,
> - cvt->src.fb->color_range);
> - const unsigned char *swz = yuyv_swizzle(cvt->src.fb->drm_format);
> - uint8_t *buf;
> -
> - igt_assert((cvt->src.fb->drm_format == DRM_FORMAT_YUYV ||
> - cvt->src.fb->drm_format == DRM_FORMAT_UYVY ||
> - cvt->src.fb->drm_format == DRM_FORMAT_YVYU ||
> - cvt->src.fb->drm_format == DRM_FORMAT_VYUY) &&
> - cvt->dst.fb->drm_format == DRM_FORMAT_XRGB8888);
> -
> - buf = convert_src_get(cvt);
> - yuyv = buf;
> -
> - for (i = 0; i < cvt->dst.fb->height; i++) {
> - for (j = 0; j < cvt->dst.fb->width / 2; j++) {
> - /* Convert 2x1 pixel blocks */
> - struct igt_vec4 yuv[2];
> - struct igt_vec4 rgb[2];
> -
> - yuv[0].d[0] = yuyv[j * 4 + swz[0]];
> - yuv[1].d[0] = yuyv[j * 4 + swz[2]];
> - yuv[0].d[1] = yuv[1].d[1] = yuyv[j * 4 + swz[1]];
> - yuv[0].d[2] = yuv[1].d[2] = yuyv[j * 4 + swz[3]];
> - yuv[0].d[3] = yuv[1].d[3] = 1.0f;
> -
> - rgb[0] = igt_matrix_transform(&m, &yuv[0]);
> - rgb[1] = igt_matrix_transform(&m, &yuv[1]);
> -
> - write_rgb(&rgb24[j * 8 + 0], &rgb[0]);
> - write_rgb(&rgb24[j * 8 + 4], &rgb[1]);
> - }
> -
> - if (cvt->dst.fb->width & 1) {
> - struct igt_vec4 yuv;
> - struct igt_vec4 rgb;
> -
> - yuv.d[0] = yuyv[j * 4 + swz[0]];
> - yuv.d[1] = yuyv[j * 4 + swz[1]];
> - yuv.d[2] = yuyv[j * 4 + swz[3]];
> - yuv.d[3] = 1.0f;
> -
> - rgb = igt_matrix_transform(&m, &yuv);
> -
> - write_rgb(&rgb24[j * 8 + 0], &rgb);
> + u_tmp += params.uv_inc;
> + v_tmp += params.uv_inc;
> }
>
> rgb24 += rgb24_stride;
> - yuyv += yuyv_stride;
> - }
> -
> - convert_src_put(cvt, buf);
> -}
> -
> -static void convert_rgb24_to_yuyv(struct fb_convert *cvt)
> -{
> - int i, j;
> - uint8_t *yuyv = cvt->dst.ptr;
> - const uint8_t *rgb24 = cvt->src.ptr;
> - unsigned rgb24_stride = cvt->src.fb->strides[0];
> - unsigned yuyv_stride = cvt->dst.fb->strides[0];
> - struct igt_mat4 m = igt_rgb_to_ycbcr_matrix(cvt->dst.fb-
> >color_encoding,
> - cvt->dst.fb->color_range);
> - const unsigned char *swz = yuyv_swizzle(cvt->dst.fb->drm_format);
> -
> - igt_assert(cvt->src.fb->drm_format == DRM_FORMAT_XRGB8888 &&
> - (cvt->dst.fb->drm_format == DRM_FORMAT_YUYV ||
> - cvt->dst.fb->drm_format == DRM_FORMAT_UYVY ||
> - cvt->dst.fb->drm_format == DRM_FORMAT_YVYU ||
> - cvt->dst.fb->drm_format == DRM_FORMAT_VYUY));
> -
> - for (i = 0; i < cvt->dst.fb->height; i++) {
> - for (j = 0; j < cvt->dst.fb->width / 2; j++) {
> - /* Convert 2x1 pixel blocks */
> - struct igt_vec4 rgb[2];
> - struct igt_vec4 yuv[2];
> -
> - read_rgb(&rgb[0], &rgb24[j * 8 + 0]);
> - read_rgb(&rgb[1], &rgb24[j * 8 + 4]);
> -
> - yuv[0] = igt_matrix_transform(&m, &rgb[0]);
> - yuv[1] = igt_matrix_transform(&m, &rgb[1]);
> + y += params.y_stride;
>
> - yuyv[j * 4 + swz[0]] = yuv[0].d[0];
> - yuyv[j * 4 + swz[2]] = yuv[1].d[0];
> - yuyv[j * 4 + swz[1]] = (yuv[0].d[1] + yuv[1].d[1]) /
> 2.0f;
> - yuyv[j * 4 + swz[3]] = (yuv[0].d[2] + yuv[1].d[2]) /
> 2.0f;
> + if ((i % dst_fmt->vsub) == (dst_fmt->vsub - 1)) {
> + u += params.uv_stride;
> + v += params.uv_stride;
> }
> -
> - if (cvt->dst.fb->width & 1) {
> - struct igt_vec4 rgb;
> - struct igt_vec4 yuv;
> -
> - read_rgb(&rgb, &rgb24[j * 8 + 0]);
> -
> - yuv = igt_matrix_transform(&m, &rgb);
> -
> - yuyv[j * 4 + swz[0]] = yuv.d[0];
> - yuyv[j * 4 + swz[1]] = yuv.d[1];
> - yuyv[j * 4 + swz[3]] = yuv.d[2];
> - }
> -
> - rgb24 += rgb24_stride;
> - yuyv += yuyv_stride;
> }
> }
>
> @@ -2046,31 +1859,23 @@ static void fb_convert(struct fb_convert *cvt)
> } else if (cvt->dst.fb->drm_format == DRM_FORMAT_XRGB8888) {
> switch (cvt->src.fb->drm_format) {
> case DRM_FORMAT_XYUV8888:
> - convert_yuv444_to_rgb24(cvt);
> - return;
> case DRM_FORMAT_NV12:
> - convert_nv12_to_rgb24(cvt);
> - return;
> - case DRM_FORMAT_YUYV:
> - case DRM_FORMAT_YVYU:
> case DRM_FORMAT_UYVY:
> case DRM_FORMAT_VYUY:
> - convert_yuyv_to_rgb24(cvt);
> + case DRM_FORMAT_YUYV:
> + case DRM_FORMAT_YVYU:
> + convert_yuv_to_rgb24(cvt);
> return;
> }
> } else if (cvt->src.fb->drm_format == DRM_FORMAT_XRGB8888) {
> switch (cvt->dst.fb->drm_format) {
> case DRM_FORMAT_XYUV8888:
> - convert_rgb24_to_yuv444(cvt);
> - return;
> case DRM_FORMAT_NV12:
> - convert_rgb24_to_nv12(cvt);
> - return;
> case DRM_FORMAT_YUYV:
> case DRM_FORMAT_YVYU:
> case DRM_FORMAT_UYVY:
> case DRM_FORMAT_VYUY:
> - convert_rgb24_to_yuyv(cvt);
> + convert_rgb24_to_yuv(cvt);
> return;
> }
> }
--
Cheers,
Lyude Paul
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