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cellCamera: fix regular YUV422 conversion of qt camera handler

This commit is contained in:
Megamouse 2021-10-19 19:22:33 +02:00
parent 67ba381dfe
commit 76c1681173

View File

@ -173,49 +173,69 @@ bool qt_camera_video_surface::present(const QVideoFrame& frame)
synchronizer.waitForFinished();
break;
}
//case CELL_CAMERA_Y0_U_Y1_V:
case CELL_CAMERA_YUV422:
//case CELL_CAMERA_YUV422:
case CELL_CAMERA_Y0_U_Y1_V:
case CELL_CAMERA_V_Y1_U_Y0:
{
// Simple conversion from stackoverflow.
const int rgb_bytes_per_pixel = 4;
const int yuv_bytes_per_pixel = 2;
// Simple RGB to Y0_U_Y1_V conversion from stackoverflow.
const auto convert_to_yuv422 = [&image_buffer, &image, format = m_format](int y_begin, int y_end)
{
constexpr int yuv_bytes_per_pixel = 2;
const int yuv_pitch = image_buffer.width * yuv_bytes_per_pixel;
for (u32 y = 0; y < image_buffer.height; y++)
const int y0_offset = (format == CELL_CAMERA_Y0_U_Y1_V) ? 0 : 3;
const int u_offset = (format == CELL_CAMERA_Y0_U_Y1_V) ? 1 : 2;
const int y1_offset = (format == CELL_CAMERA_Y0_U_Y1_V) ? 2 : 1;
const int v_offset = (format == CELL_CAMERA_Y0_U_Y1_V) ? 3 : 0;
for (u32 y = y_begin; y < std::min<int>(image_buffer.height, image.height()) && y < y_end; y++)
{
const uint8_t* rgb_row_ptr = image.constScanLine(y);
uint8_t* yuv_row_ptr = &image_buffer.data[y * yuv_pitch];
for (u32 x = 0; x < image_buffer.width - 1; x += 2)
for (u32 x = 0; x < std::min<int>(image_buffer.width, image.width()) - 1; x += 2)
{
const int rgb_index = x * rgb_bytes_per_pixel;
const QRgb pixel_1 = image.pixel(x, y);
const QRgb pixel_2 = image.pixel(x + 1, y);
const double r1 = qRed(pixel_1);
const double g1 = qGreen(pixel_1);
const double b1 = qBlue(pixel_1);
const double r2 = qRed(pixel_2);
const double g2 = qGreen(pixel_2);
const double b2 = qBlue(pixel_2);
const int y0 = (0.257 * r1) + (0.504 * g1) + (0.098 * b1) + 16.0;
const int u = -(0.148 * r1) - (0.291 * g1) + (0.439 * b1) + 128.0;
const int v = (0.439 * r1) - (0.368 * g1) - (0.071 * b1) + 128.0;
const int y1 = (0.257 * r2) + (0.504 * g2) + (0.098 * b2) + 16.0;
const int yuv_index = x * yuv_bytes_per_pixel;
const uint8_t R1 = rgb_row_ptr[rgb_index + 0];
const uint8_t G1 = rgb_row_ptr[rgb_index + 1];
const uint8_t B1 = rgb_row_ptr[rgb_index + 2];
//const uint8_t A1 = rgb_row_ptr[rgb_index + 3];
const uint8_t R2 = rgb_row_ptr[rgb_index + 4];
const uint8_t G2 = rgb_row_ptr[rgb_index + 5];
const uint8_t B2 = rgb_row_ptr[rgb_index + 6];
//const uint8_t A2 = rgb_row_ptr[rgb_index + 7];
const int Y = (0.257f * R1) + (0.504f * G1) + (0.098f * B1) + 16.0f;
const int U = -(0.148f * R1) - (0.291f * G1) + (0.439f * B1) + 128.0f;
const int V = (0.439f * R1) - (0.368f * G1) - (0.071f * B1) + 128.0f;
const int Y2 = (0.257f * R2) + (0.504f * G2) + (0.098f * B2) + 16.0f;
yuv_row_ptr[yuv_index + 0] = std::max<u8>(0, std::min<u8>(Y, 255));
yuv_row_ptr[yuv_index + 1] = std::max<u8>(0, std::min<u8>(U, 255));
yuv_row_ptr[yuv_index + 2] = std::max<u8>(0, std::min<u8>(Y2, 255));
yuv_row_ptr[yuv_index + 3] = std::max<u8>(0, std::min<u8>(V, 255));
yuv_row_ptr[yuv_index + y0_offset] = std::max<u8>(0, std::min<u8>(y0, 255));
yuv_row_ptr[yuv_index + u_offset] = std::max<u8>(0, std::min<u8>( u, 255));
yuv_row_ptr[yuv_index + y1_offset] = std::max<u8>(0, std::min<u8>(y1, 255));
yuv_row_ptr[yuv_index + v_offset] = std::max<u8>(0, std::min<u8>( v, 255));
}
}
};
// Use a multithreaded workload. The faster we get this done, the better.
constexpr u32 thread_count = 4;
const int lines_per_thread = std::ceil(image_buffer.height / static_cast<double>(thread_count));
int y_begin = 0;
int y_end = lines_per_thread;
QFutureSynchronizer<void> synchronizer;
for (u32 i = 0; i < thread_count; i++)
{
synchronizer.addFuture(QtConcurrent::run(convert_to_yuv422, y_begin, y_end));
y_begin = y_end;
y_end += lines_per_thread;
}
synchronizer.waitForFinished();
break;
}
case CELL_CAMERA_RAW10:
case CELL_CAMERA_YUV420:
case CELL_CAMERA_V_Y1_U_Y0:
case CELL_CAMERA_FORMAT_UNKNOWN:
default:
std::memcpy(image_buffer.data, image.constBits(), std::min<usz>(image_buffer.size, image.height() * image.bytesPerLine()));