# include "selfdrive/ui/qt/onroad.h"
# include <cmath>
# include <QDebug>
# include "common/timing.h"
# include "selfdrive/ui/qt/util.h"
# ifdef ENABLE_MAPS
# include "selfdrive/ui/qt/maps/map.h"
# include "selfdrive/ui/qt/maps/map_helpers.h"
# endif
OnroadWindow : : OnroadWindow ( QWidget * parent ) : QWidget ( parent ) {
QVBoxLayout * main_layout = new QVBoxLayout ( this ) ;
main_layout - > setMargin ( bdr_s ) ;
QStackedLayout * stacked_layout = new QStackedLayout ;
stacked_layout - > setStackingMode ( QStackedLayout : : StackAll ) ;
main_layout - > addLayout ( stacked_layout ) ;
nvg = new NvgWindow ( VISION_STREAM_ROAD , this ) ;
QWidget * split_wrapper = new QWidget ;
split = new QHBoxLayout ( split_wrapper ) ;
split - > setContentsMargins ( 0 , 0 , 0 , 0 ) ;
split - > setSpacing ( 0 ) ;
split - > addWidget ( nvg ) ;
stacked_layout - > addWidget ( split_wrapper ) ;
alerts = new OnroadAlerts ( this ) ;
alerts - > setAttribute ( Qt : : WA_TransparentForMouseEvents , true ) ;
stacked_layout - > addWidget ( alerts ) ;
// setup stacking order
alerts - > raise ( ) ;
setAttribute ( Qt : : WA_OpaquePaintEvent ) ;
QObject : : connect ( uiState ( ) , & UIState : : uiUpdate , this , & OnroadWindow : : updateState ) ;
QObject : : connect ( uiState ( ) , & UIState : : offroadTransition , this , & OnroadWindow : : offroadTransition ) ;
}
void OnroadWindow : : updateState ( const UIState & s ) {
QColor bgColor = bg_colors [ s . status ] ;
Alert alert = Alert : : get ( * ( s . sm ) , s . scene . started_frame ) ;
if ( s . sm - > updated ( " controlsState " ) | | ! alert . equal ( { } ) ) {
if ( alert . type = = " controlsUnresponsive " ) {
bgColor = bg_colors [ STATUS_ALERT ] ;
} else if ( alert . type = = " controlsUnresponsivePermanent " ) {
bgColor = bg_colors [ STATUS_DISENGAGED ] ;
}
alerts - > updateAlert ( alert , bgColor ) ;
}
nvg - > updateState ( s ) ;
if ( bg ! = bgColor ) {
// repaint border
bg = bgColor ;
update ( ) ;
}
}
void OnroadWindow : : mousePressEvent ( QMouseEvent * e ) {
if ( map ! = nullptr ) {
bool sidebarVisible = geometry ( ) . x ( ) > 0 ;
map - > setVisible ( ! sidebarVisible & & ! map - > isVisible ( ) ) ;
}
// propagation event to parent(HomeWindow)
QWidget : : mousePressEvent ( e ) ;
}
void OnroadWindow : : offroadTransition ( bool offroad ) {
# ifdef ENABLE_MAPS
if ( ! offroad ) {
if ( map = = nullptr & & ( uiState ( ) - > prime_type | | ! MAPBOX_TOKEN . isEmpty ( ) ) ) {
MapWindow * m = new MapWindow ( get_mapbox_settings ( ) ) ;
map = m ;
QObject : : connect ( uiState ( ) , & UIState : : offroadTransition , m , & MapWindow : : offroadTransition ) ;
m - > setFixedWidth ( topWidget ( this ) - > width ( ) / 2 ) ;
split - > addWidget ( m , 0 , Qt : : AlignRight ) ;
// Make map visible after adding to split
m - > offroadTransition ( offroad ) ;
}
}
# endif
alerts - > updateAlert ( { } , bg ) ;
// update stream type
bool wide_cam = Params ( ) . getBool ( " WideCameraOnly " ) ;
nvg - > setStreamType ( wide_cam ? VISION_STREAM_WIDE_ROAD : VISION_STREAM_ROAD ) ;
}
void OnroadWindow : : paintEvent ( QPaintEvent * event ) {
QPainter p ( this ) ;
p . fillRect ( rect ( ) , QColor ( bg . red ( ) , bg . green ( ) , bg . blue ( ) , 255 ) ) ;
}
// ***** onroad widgets *****
// OnroadAlerts
void OnroadAlerts : : updateAlert ( const Alert & a , const QColor & color ) {
if ( ! alert . equal ( a ) | | color ! = bg ) {
alert = a ;
bg = color ;
update ( ) ;
}
}
void OnroadAlerts : : paintEvent ( QPaintEvent * event ) {
if ( alert . size = = cereal : : ControlsState : : AlertSize : : NONE ) {
return ;
}
static std : : map < cereal : : ControlsState : : AlertSize , const int > alert_sizes = {
{ cereal : : ControlsState : : AlertSize : : SMALL , 271 } ,
{ cereal : : ControlsState : : AlertSize : : MID , 420 } ,
{ cereal : : ControlsState : : AlertSize : : FULL , height ( ) } ,
} ;
int h = alert_sizes [ alert . size ] ;
QRect r = QRect ( 0 , height ( ) - h , width ( ) , h ) ;
QPainter p ( this ) ;
// draw background + gradient
p . setPen ( Qt : : NoPen ) ;
p . setCompositionMode ( QPainter : : CompositionMode_SourceOver ) ;
p . setBrush ( QBrush ( bg ) ) ;
p . drawRect ( r ) ;
QLinearGradient g ( 0 , r . y ( ) , 0 , r . bottom ( ) ) ;
g . setColorAt ( 0 , QColor : : fromRgbF ( 0 , 0 , 0 , 0.05 ) ) ;
g . setColorAt ( 1 , QColor : : fromRgbF ( 0 , 0 , 0 , 0.35 ) ) ;
p . setCompositionMode ( QPainter : : CompositionMode_DestinationOver ) ;
p . setBrush ( QBrush ( g ) ) ;
p . fillRect ( r , g ) ;
p . setCompositionMode ( QPainter : : CompositionMode_SourceOver ) ;
// text
const QPoint c = r . center ( ) ;
p . setPen ( QColor ( 0xff , 0xff , 0xff ) ) ;
p . setRenderHint ( QPainter : : TextAntialiasing ) ;
if ( alert . size = = cereal : : ControlsState : : AlertSize : : SMALL ) {
configFont ( p , " Open Sans " , 74 , " SemiBold " ) ;
p . drawText ( r , Qt : : AlignCenter , alert . text1 ) ;
} else if ( alert . size = = cereal : : ControlsState : : AlertSize : : MID ) {
configFont ( p , " Open Sans " , 88 , " Bold " ) ;
p . drawText ( QRect ( 0 , c . y ( ) - 125 , width ( ) , 150 ) , Qt : : AlignHCenter | Qt : : AlignTop , alert . text1 ) ;
configFont ( p , " Open Sans " , 66 , " Regular " ) ;
p . drawText ( QRect ( 0 , c . y ( ) + 21 , width ( ) , 90 ) , Qt : : AlignHCenter , alert . text2 ) ;
} else if ( alert . size = = cereal : : ControlsState : : AlertSize : : FULL ) {
bool l = alert . text1 . length ( ) > 15 ;
configFont ( p , " Open Sans " , l ? 132 : 177 , " Bold " ) ;
p . drawText ( QRect ( 0 , r . y ( ) + ( l ? 240 : 270 ) , width ( ) , 600 ) , Qt : : AlignHCenter | Qt : : TextWordWrap , alert . text1 ) ;
configFont ( p , " Open Sans " , 88 , " Regular " ) ;
p . drawText ( QRect ( 0 , r . height ( ) - ( l ? 361 : 420 ) , width ( ) , 300 ) , Qt : : AlignHCenter | Qt : : TextWordWrap , alert . text2 ) ;
}
}
// NvgWindow
NvgWindow : : NvgWindow ( VisionStreamType type , QWidget * parent ) : fps_filter ( UI_FREQ , 3 , 1. / UI_FREQ ) , CameraViewWidget ( " camerad " , type , true , parent ) {
engage_img = loadPixmap ( " ../assets/img_chffr_wheel.png " , { img_size , img_size } ) ;
dm_img = loadPixmap ( " ../assets/img_driver_face.png " , { img_size , img_size } ) ;
}
void NvgWindow : : updateState ( const UIState & s ) {
const int SET_SPEED_NA = 255 ;
const SubMaster & sm = * ( s . sm ) ;
const auto cs = sm [ " controlsState " ] . getControlsState ( ) ;
float maxspeed = cs . getVCruise ( ) ;
bool cruise_set = maxspeed > 0 & & ( int ) maxspeed ! = SET_SPEED_NA ;
if ( cruise_set & & ! s . scene . is_metric ) {
maxspeed * = KM_TO_MILE ;
}
QString maxspeed_str = cruise_set ? QString : : number ( std : : nearbyint ( maxspeed ) ) : " N/A " ;
float cur_speed = std : : max ( 0.0 , sm [ " carState " ] . getCarState ( ) . getVEgo ( ) * ( s . scene . is_metric ? MS_TO_KPH : MS_TO_MPH ) ) ;
setProperty ( " is_cruise_set " , cruise_set ) ;
setProperty ( " speed " , QString : : number ( std : : nearbyint ( cur_speed ) ) ) ;
setProperty ( " maxSpeed " , maxspeed_str ) ;
setProperty ( " speedUnit " , s . scene . is_metric ? " km/h " : " mph " ) ;
setProperty ( " hideDM " , cs . getAlertSize ( ) ! = cereal : : ControlsState : : AlertSize : : NONE ) ;
setProperty ( " status " , s . status ) ;
// update engageability and DM icons at 2Hz
if ( sm . frame % ( UI_FREQ / 2 ) = = 0 ) {
setProperty ( " engageable " , cs . getEngageable ( ) | | cs . getEnabled ( ) ) ;
setProperty ( " dmActive " , sm [ " driverMonitoringState " ] . getDriverMonitoringState ( ) . getIsActiveMode ( ) ) ;
}
}
void NvgWindow : : drawHud ( QPainter & p ) {
p . save ( ) ;
// Header gradient
QLinearGradient bg ( 0 , header_h - ( header_h / 2.5 ) , 0 , header_h ) ;
bg . setColorAt ( 0 , QColor : : fromRgbF ( 0 , 0 , 0 , 0.45 ) ) ;
bg . setColorAt ( 1 , QColor : : fromRgbF ( 0 , 0 , 0 , 0 ) ) ;
p . fillRect ( 0 , 0 , width ( ) , header_h , bg ) ;
// max speed
QRect rc ( bdr_s * 2 , bdr_s * 1.5 , 184 , 202 ) ;
p . setPen ( QPen ( QColor ( 0xff , 0xff , 0xff , 100 ) , 10 ) ) ;
p . setBrush ( QColor ( 0 , 0 , 0 , 100 ) ) ;
p . drawRoundedRect ( rc , 20 , 20 ) ;
p . setPen ( Qt : : NoPen ) ;
configFont ( p , " Open Sans " , 48 , " Regular " ) ;
drawText ( p , rc . center ( ) . x ( ) , 118 , " MAX " , is_cruise_set ? 200 : 100 ) ;
if ( is_cruise_set ) {
configFont ( p , " Open Sans " , 88 , " Bold " ) ;
drawText ( p , rc . center ( ) . x ( ) , 212 , maxSpeed , 255 ) ;
} else {
configFont ( p , " Open Sans " , 80 , " SemiBold " ) ;
drawText ( p , rc . center ( ) . x ( ) , 212 , maxSpeed , 100 ) ;
}
// current speed
configFont ( p , " Open Sans " , 176 , " Bold " ) ;
drawText ( p , rect ( ) . center ( ) . x ( ) , 210 , speed ) ;
configFont ( p , " Open Sans " , 66 , " Regular " ) ;
drawText ( p , rect ( ) . center ( ) . x ( ) , 290 , speedUnit , 200 ) ;
// engage-ability icon
if ( engageable ) {
drawIcon ( p , rect ( ) . right ( ) - radius / 2 - bdr_s * 2 , radius / 2 + int ( bdr_s * 1.5 ) ,
engage_img , bg_colors [ status ] , 1.0 ) ;
}
// dm icon
if ( ! hideDM ) {
drawIcon ( p , radius / 2 + ( bdr_s * 2 ) , rect ( ) . bottom ( ) - footer_h / 2 ,
dm_img , QColor ( 0 , 0 , 0 , 70 ) , dmActive ? 1.0 : 0.2 ) ;
}
p . restore ( ) ;
}
void NvgWindow : : drawText ( QPainter & p , int x , int y , const QString & text , int alpha ) {
QFontMetrics fm ( p . font ( ) ) ;
QRect init_rect = fm . boundingRect ( text ) ;
QRect real_rect = fm . boundingRect ( init_rect , 0 , text ) ;
real_rect . moveCenter ( { x , y - real_rect . height ( ) / 2 } ) ;
p . setPen ( QColor ( 0xff , 0xff , 0xff , alpha ) ) ;
p . drawText ( real_rect . x ( ) , real_rect . bottom ( ) , text ) ;
}
void NvgWindow : : drawIcon ( QPainter & p , int x , int y , QPixmap & img , QBrush bg , float opacity ) {
p . setPen ( Qt : : NoPen ) ;
p . setBrush ( bg ) ;
p . drawEllipse ( x - radius / 2 , y - radius / 2 , radius , radius ) ;
p . setOpacity ( opacity ) ;
p . drawPixmap ( x - img_size / 2 , y - img_size / 2 , img ) ;
}
void NvgWindow : : initializeGL ( ) {
CameraViewWidget : : initializeGL ( ) ;
qInfo ( ) < < " OpenGL version: " < < QString ( ( const char * ) glGetString ( GL_VERSION ) ) ;
qInfo ( ) < < " OpenGL vendor: " < < QString ( ( const char * ) glGetString ( GL_VENDOR ) ) ;
qInfo ( ) < < " OpenGL renderer: " < < QString ( ( const char * ) glGetString ( GL_RENDERER ) ) ;
qInfo ( ) < < " OpenGL language version: " < < QString ( ( const char * ) glGetString ( GL_SHADING_LANGUAGE_VERSION ) ) ;
prev_draw_t = millis_since_boot ( ) ;
setBackgroundColor ( bg_colors [ STATUS_DISENGAGED ] ) ;
}
void NvgWindow : : updateFrameMat ( int w , int h ) {
CameraViewWidget : : updateFrameMat ( w , h ) ;
UIState * s = uiState ( ) ;
s - > fb_w = w ;
s - > fb_h = h ;
auto intrinsic_matrix = s - > wide_camera ? ecam_intrinsic_matrix : fcam_intrinsic_matrix ;
float zoom = ZOOM / intrinsic_matrix . v [ 0 ] ;
if ( s - > wide_camera ) {
zoom * = 0.5 ;
}
// Apply transformation such that video pixel coordinates match video
// 1) Put (0, 0) in the middle of the video
// 2) Apply same scaling as video
// 3) Put (0, 0) in top left corner of video
s - > car_space_transform . reset ( ) ;
s - > car_space_transform . translate ( w / 2 , h / 2 + y_offset )
. scale ( zoom , zoom )
. translate ( - intrinsic_matrix . v [ 2 ] , - intrinsic_matrix . v [ 5 ] ) ;
}
void NvgWindow : : drawLaneLines ( QPainter & painter , const UIState * s ) {
painter . save ( ) ;
const UIScene & scene = s - > scene ;
// lanelines
for ( int i = 0 ; i < std : : size ( scene . lane_line_vertices ) ; + + i ) {
painter . setBrush ( QColor : : fromRgbF ( 1.0 , 1.0 , 1.0 , std : : clamp < float > ( scene . lane_line_probs [ i ] , 0.0 , 0.7 ) ) ) ;
painter . drawPolygon ( scene . lane_line_vertices [ i ] . v , scene . lane_line_vertices [ i ] . cnt ) ;
}
// road edges
for ( int i = 0 ; i < std : : size ( scene . road_edge_vertices ) ; + + i ) {
painter . setBrush ( QColor : : fromRgbF ( 1.0 , 0 , 0 , std : : clamp < float > ( 1.0 - scene . road_edge_stds [ i ] , 0.0 , 1.0 ) ) ) ;
painter . drawPolygon ( scene . road_edge_vertices [ i ] . v , scene . road_edge_vertices [ i ] . cnt ) ;
}
// paint path
QLinearGradient bg ( 0 , height ( ) , 0 , height ( ) / 4 ) ;
const auto & orientation = ( * s - > sm ) [ " modelV2 " ] . getModelV2 ( ) . getOrientation ( ) ;
float orientation_future = 0 ;
if ( orientation . getZ ( ) . size ( ) > 16 ) {
orientation_future = std : : abs ( orientation . getZ ( ) [ 16 ] ) ; // 2.5 seconds
}
// straight: 112, in turns: 70
float curve_hue = fmax ( 70 , 112 - ( orientation_future * 420 ) ) ;
// FIXME: painter.drawPolygon can be slow if hue is not rounded
curve_hue = int ( curve_hue * 100 + 0.5 ) / 100 ;
bg . setColorAt ( 0.0 , QColor : : fromHslF ( 148 / 360. , 0.94 , 0.51 , 0.4 ) ) ;
bg . setColorAt ( 0.75 / 1.5 , QColor : : fromHslF ( curve_hue / 360. , 1.0 , 0.68 , 0.35 ) ) ;
bg . setColorAt ( 1.0 , QColor : : fromHslF ( curve_hue / 360. , 1.0 , 0.68 , 0.0 ) ) ;
painter . setBrush ( bg ) ;
painter . drawPolygon ( scene . track_vertices . v , scene . track_vertices . cnt ) ;
painter . restore ( ) ;
}
void NvgWindow : : drawLead ( QPainter & painter , const cereal : : ModelDataV2 : : LeadDataV3 : : Reader & lead_data , const QPointF & vd ) {
painter . save ( ) ;
const float speedBuff = 10. ;
const float leadBuff = 40. ;
const float d_rel = lead_data . getX ( ) [ 0 ] ;
const float v_rel = lead_data . getV ( ) [ 0 ] ;
float fillAlpha = 0 ;
if ( d_rel < leadBuff ) {
fillAlpha = 255 * ( 1.0 - ( d_rel / leadBuff ) ) ;
if ( v_rel < 0 ) {
fillAlpha + = 255 * ( - 1 * ( v_rel / speedBuff ) ) ;
}
fillAlpha = ( int ) ( fmin ( fillAlpha , 255 ) ) ;
}
float sz = std : : clamp ( ( 25 * 30 ) / ( d_rel / 3 + 30 ) , 15.0f , 30.0f ) * 2.35 ;
float x = std : : clamp ( ( float ) vd . x ( ) , 0.f , width ( ) - sz / 2 ) ;
float y = std : : fmin ( height ( ) - sz * .6 , ( float ) vd . y ( ) ) ;
float g_xo = sz / 5 ;
float g_yo = sz / 10 ;
QPointF glow [ ] = { { x + ( sz * 1.35 ) + g_xo , y + sz + g_yo } , { x , y - g_yo } , { x - ( sz * 1.35 ) - g_xo , y + sz + g_yo } } ;
painter . setBrush ( QColor ( 218 , 202 , 37 , 255 ) ) ;
painter . drawPolygon ( glow , std : : size ( glow ) ) ;
// chevron
QPointF chevron [ ] = { { x + ( sz * 1.25 ) , y + sz } , { x , y } , { x - ( sz * 1.25 ) , y + sz } } ;
painter . setBrush ( redColor ( fillAlpha ) ) ;
painter . drawPolygon ( chevron , std : : size ( chevron ) ) ;
painter . restore ( ) ;
}
void NvgWindow : : paintGL ( ) {
UIState * s = uiState ( ) ;
const cereal : : ModelDataV2 : : Reader & model = ( * s - > sm ) [ " modelV2 " ] . getModelV2 ( ) ;
CameraViewWidget : : setFrameId ( model . getFrameId ( ) ) ;
CameraViewWidget : : paintGL ( ) ;
QPainter painter ( this ) ;
painter . setRenderHint ( QPainter : : Antialiasing ) ;
painter . setPen ( Qt : : NoPen ) ;
if ( s - > worldObjectsVisible ( ) ) {
drawLaneLines ( painter , s ) ;
if ( s - > scene . longitudinal_control ) {
const auto leads = model . getLeadsV3 ( ) ;
if ( leads [ 0 ] . getProb ( ) > .5 ) {
drawLead ( painter , leads [ 0 ] , s - > scene . lead_vertices [ 0 ] ) ;
}
if ( leads [ 1 ] . getProb ( ) > .5 & & ( std : : abs ( leads [ 1 ] . getX ( ) [ 0 ] - leads [ 0 ] . getX ( ) [ 0 ] ) > 3.0 ) ) {
drawLead ( painter , leads [ 1 ] , s - > scene . lead_vertices [ 1 ] ) ;
}
}
}
drawHud ( painter ) ;
double cur_draw_t = millis_since_boot ( ) ;
double dt = cur_draw_t - prev_draw_t ;
double fps = fps_filter . update ( 1. / dt * 1000 ) ;
if ( fps < 15 ) {
LOGW ( " slow frame rate: %.2f fps " , fps ) ;
}
prev_draw_t = cur_draw_t ;
}
void NvgWindow : : showEvent ( QShowEvent * event ) {
CameraViewWidget : : showEvent ( event ) ;
ui_update_params ( uiState ( ) ) ;
prev_draw_t = millis_since_boot ( ) ;
}
