void Statistics::RenderGlidePolar(HDC hdc, RECT rc)
{
ResetScale();
ScaleYFromValue(rc, 0);
ScaleYFromValue(rc, GlidePolar::SinkRateFast(0,(int)(SAFTEYSPEED-1)));
ScaleXFromValue(rc, 0); // GlidePolar::Vminsink);
ScaleXFromValue(rc, SAFTEYSPEED);
DrawXGrid(hdc, rc,
10.0/SPEEDMODIFY, 0,
STYLE_THINDASHPAPER);
DrawYGrid(hdc, rc,
1.0/LIFTMODIFY, 0,
STYLE_THINDASHPAPER);
int i;
double sinkrate0, sinkrate1;
for (i= GlidePolar::Vminsink; i< SAFTEYSPEED-1;
i++) {
sinkrate0 = GlidePolar::SinkRateFast(0,i);
sinkrate1 = GlidePolar::SinkRateFast(0,i+1);
DrawLine(hdc, rc,
i, sinkrate0 ,
i+1, sinkrate1,
STYLE_MEDIUMBLACK);
}
DrawXLabel(hdc, rc, TEXT("V"));
DrawYLabel(hdc, rc, TEXT("w"));
}
void Statistics::RenderClimb(HDC hdc, RECT rc)
{
ResetScale();
ScaleYFromData(rc, &flightstats.ThermalAverage);
ScaleYFromValue(rc, MACCREADY);
ScaleYFromValue(rc, 0);
ScaleXFromValue(rc, 0);
ScaleXFromValue(rc, flightstats.ThermalAverage.sum_n+1);
DrawYGrid(hdc, rc,
1.0/LIFTMODIFY, 0,
STYLE_THINDASHPAPER);
DrawBarChart(hdc, rc,
&flightstats.ThermalAverage);
DrawLine(hdc, rc,
0, MACCREADY,
flightstats.ThermalAverage.sum_n+1,
MACCREADY,
STYLE_REDTHICK);
DrawTrendN(hdc, rc,
&flightstats.ThermalAverage,
STYLE_BLUETHIN);
DrawXLabel(hdc, rc, TEXT("n"));
DrawYLabel(hdc, rc, TEXT("w"));
}
void Statistics::RenderTemperature(HDC hdc, RECT rc)
{
ResetScale();
int i;
float hmin= 10000;
float hmax= -10000;
float tmin= (float)CuSonde::maxGroundTemperature; //RB Type cast fixed
float tmax= (float)CuSonde::maxGroundTemperature; //RB Type cast fixed
// find range for scaling of graph
for (i=0; i<CUSONDE_NUMLEVELS-1; i++) {
if (CuSonde::cslevels[i].nmeasurements) {
hmin = min(hmin, i);
hmax = max(hmax, i);
tmin = (float)min(tmin, min(CuSonde::cslevels[i].tempDry,
min(CuSonde::cslevels[i].airTemp,
CuSonde::cslevels[i].dewpoint))); // RB fix casts
tmax = (float)max(tmax, max(CuSonde::cslevels[i].tempDry,
max(CuSonde::cslevels[i].airTemp,
CuSonde::cslevels[i].dewpoint))); // RB fix casts
}
}
ScaleYFromValue(rc, hmin);
ScaleYFromValue(rc, hmax);
ScaleXFromValue(rc, tmin);
ScaleXFromValue(rc, tmax);
for (i=0; i<CUSONDE_NUMLEVELS; i++) {
if (CuSonde::cslevels[i].nmeasurements &&
CuSonde::cslevels[i+1].nmeasurements) {
DrawLine(hdc, rc,
CuSonde::cslevels[i].tempDry, i,
CuSonde::cslevels[i+1].tempDry, (i+1),
STYLE_REDTHICK);
DrawLine(hdc, rc,
CuSonde::cslevels[i].airTemp, i,
CuSonde::cslevels[i+1].airTemp, (i+1),
STYLE_MEDIUMBLACK);
DrawLine(hdc, rc,
CuSonde::cslevels[i].dewpoint, i,
CuSonde::cslevels[i+1].dewpoint, i+1,
STYLE_BLUETHIN);
}
}
DrawXLabel(hdc, rc, TEXT("T°"));
DrawYLabel(hdc, rc, TEXT("h"));
}
void
ChartRenderer::DrawXLabel(const TCHAR *text, const TCHAR *unit)
{
assert(text != nullptr);
assert(unit != nullptr);
StaticString<64> buffer;
buffer.UnsafeFormat(_T("%s [%s]"), text, unit);
DrawXLabel(buffer);
}
void Statistics::RenderBarograph(HDC hdc, RECT rc)
{
ResetScale();
ScaleXFromData(rc, &flightstats.Altitude);
ScaleYFromData(rc, &flightstats.Altitude);
ScaleXFromData(rc, &flightstats.Altitude_Base);
ScaleYFromData(rc, &flightstats.Altitude_Base);
ScaleXFromData(rc, &flightstats.Altitude_Ceiling);
ScaleYFromData(rc, &flightstats.Altitude_Ceiling);
DrawXGrid(hdc, rc,
0.25, flightstats.Altitude.x_min,
STYLE_THINDASHPAPER);
DrawYGrid(hdc, rc, 1000/ALTITUDEMODIFY, 0, STYLE_THINDASHPAPER);
DrawLineGraph(hdc, rc, &flightstats.Altitude,
STYLE_MEDIUMBLACK);
LockTaskData();
for(int j=0;j<MAXTASKPOINTS;j++) {
if (ValidTaskPoint(j) && (LegStartTime[j]>=0)) {
double xx = (LegStartTime[j]-Calculated->TakeOffTime)/3600;
if (xx>=0) {
DrawLine(hdc, rc,
xx, flightstats.Altitude.y_min,
xx, flightstats.Altitude.y_max,
STYLE_THINDASHPAPER);
}
}
}
UnlockTaskData();
DrawTrend(hdc, rc, &flightstats.Altitude_Base, STYLE_BLUETHIN);
DrawTrend(hdc, rc, &flightstats.Altitude_Ceiling, STYLE_BLUETHIN);
DrawXLabel(hdc, rc, TEXT("t"));
DrawYLabel(hdc, rc, TEXT("h"));
}
void Statistics::RenderTemperature(HDC hdc, const RECT rc)
{
ResetScale();
int i;
float hmin= 10000;
float hmax= -10000;
float tmin= (float)CuSonde::maxGroundTemperature;
float tmax= (float)CuSonde::maxGroundTemperature;
// find range for scaling of graph
for (i=0; i<CUSONDE_NUMLEVELS-1; i++) {
if (CuSonde::cslevels[i].nmeasurements) {
hmin = min(hmin, (float)i);
hmax = max(hmax, (float)i);
tmin = min(tmin, (float)min(CuSonde::cslevels[i].tempDry,
(double)min(CuSonde::cslevels[i].airTemp,
(double)CuSonde::cslevels[i].dewpoint)));
tmax = max(tmax, (float)max(CuSonde::cslevels[i].tempDry,
(double)max(CuSonde::cslevels[i].airTemp,
(double)CuSonde::cslevels[i].dewpoint)));
}
}
if (hmin>= hmax) {
DrawNoData(hdc, rc);
return;
}
ScaleYFromValue(rc, hmin);
ScaleYFromValue(rc, hmax);
ScaleXFromValue(rc, tmin);
ScaleXFromValue(rc, tmax);
bool labelDry = false;
bool labelAir = false;
bool labelDew = false;
int ipos = 0;
for (i=0; i<CUSONDE_NUMLEVELS-1; i++) {
if (CuSonde::cslevels[i].nmeasurements &&
CuSonde::cslevels[i+1].nmeasurements) {
ipos++;
DrawLine(hdc, rc,
CuSonde::cslevels[i].tempDry, i,
CuSonde::cslevels[i+1].tempDry, (i+1),
STYLE_REDTHICK);
DrawLine(hdc, rc,
CuSonde::cslevels[i].airTemp, i,
CuSonde::cslevels[i+1].airTemp, (i+1),
STYLE_MEDIUMBLACK);
DrawLine(hdc, rc,
CuSonde::cslevels[i].dewpoint, i,
CuSonde::cslevels[i+1].dewpoint, i+1,
STYLE_BLUETHIN);
if (ipos> 2) {
if (!labelDry) {
DrawLabel(hdc, rc, TEXT("DALR"),
CuSonde::cslevels[i+1].tempDry, i);
labelDry = true;
} else {
if (!labelAir) {
DrawLabel(hdc, rc, TEXT("Air"),
CuSonde::cslevels[i+1].airTemp, i);
labelAir = true;
} else {
if (!labelDew) {
DrawLabel(hdc, rc, TEXT("Dew"),
CuSonde::cslevels[i+1].dewpoint, i);
labelDew = true;
}
}
}
}
}
}
if(INVERTCOLORS)
SetTextColor(hdc,RGB_DARKGREEN);
else
SetTextColor(hdc,RGB_GREEN);
SetBkMode(hdc, OPAQUE);
TCHAR text[80];
_stprintf(text,TEXT(" T/°C "));
DrawXLabel(hdc, rc, text);
_stprintf(text,TEXT(" h/%s "),Units::GetAltitudeName());
DrawYLabel(hdc, rc, text);
// DrawXLabel(hdc, rc, TEXT("T")TEXT(DEG));
// DrawYLabel(hdc, rc, TEXT("h"));
}
void Statistics::RenderWind(HDC hdc, RECT rc)
{
int numsteps=10;
int i;
double h;
Vector wind;
bool found=true;
double mag;
LeastSquares windstats_mag;
if (fabs(flightstats.Altitude_Ceiling.y_max
-flightstats.Altitude_Base.y_min)<1) return;
for (i=0; i<numsteps ; i++) {
h = (flightstats.Altitude_Ceiling.y_max-flightstats.Altitude_Base.y_min)*
i/(double)(numsteps-1)+flightstats.Altitude_Base.y_min;
wind = windanalyser->windstore.getWind(h, &found);
mag = sqrt(wind.x*wind.x+wind.y*wind.y);
windstats_mag.least_squares_update(mag, h);
}
//
ResetScale();
ScaleXFromValue(rc, 0);
ScaleXFromData(rc, &windstats_mag);
ScaleYFromData(rc, &windstats_mag);
DrawYGrid(hdc, rc, 1000/ALTITUDEMODIFY, 0, STYLE_THINDASHPAPER);
DrawXGrid(hdc, rc, 5/LIFTMODIFY, 0, STYLE_THINDASHPAPER);
DrawLineGraph(hdc, rc, &windstats_mag,
STYLE_MEDIUMBLACK);
#define WINDVECTORMAG 25
numsteps = (int)((rc.bottom-rc.top)/WINDVECTORMAG)-1;
// draw direction vectors
POINT wv[4];
double dX, dY;
double angle;
double hfact;
for (i=0; i<numsteps ; i++) {
hfact = (i+1)/(double)(numsteps+1);
h = (flightstats.Altitude_Ceiling.y_max-flightstats.Altitude_Base.y_min)*
hfact+flightstats.Altitude_Base.y_min;
wind = windanalyser->windstore.getWind(h, &found);
if (windstats_mag.x_max == 0)
windstats_mag.x_max=1; // prevent /0 problems
wind.x /= windstats_mag.x_max;
wind.y /= windstats_mag.x_max;
mag = sqrt(wind.x*wind.x+wind.y*wind.y);
if (mag<= 0.0) continue;
angle = atan2(wind.x,-wind.y)*RAD_TO_DEG;
wv[0].y = (int)((1-hfact)*(rc.bottom-rc.top))+rc.top;
wv[0].x = (rc.right+rc.left)/2;
dX = (mag*WINDVECTORMAG);
dY = 0;
rotate(dX,dY,angle);
wv[1].x = (int)(wv[0].x + dX);
wv[1].y = (int)(wv[0].y + dY);
StyleLine(hdc, wv[0], wv[1], STYLE_MEDIUMBLACK);
dX = (mag*WINDVECTORMAG-5);
dY = -3;
rotate(dX,dY,angle);
wv[2].x = (int)(wv[0].x + dX);
wv[2].y = (int)(wv[0].y + dY);
StyleLine(hdc, wv[1], wv[2], STYLE_MEDIUMBLACK);
dX = (mag*WINDVECTORMAG-5);
dY = 3;
rotate(dX,dY,angle);
wv[3].x = (int)(wv[0].x + dX);
wv[3].y = (int)(wv[0].y + dY);
StyleLine(hdc, wv[1], wv[3], STYLE_MEDIUMBLACK);
}
DrawXLabel(hdc, rc, TEXT("w"));
DrawYLabel(hdc, rc, TEXT("h"));
}
void Statistics::RenderSpeed(LKSurface& Surface, const RECT& rc)
{
if ((flightstats.Task_Speed.sum_n<2)
|| !ValidTaskPoint(ActiveTaskPoint)) {
DrawNoData(Surface, rc);
return;
}
ResetScale();
ScaleXFromData(rc, &flightstats.Task_Speed);
ScaleYFromData(rc, &flightstats.Task_Speed);
ScaleYFromValue(rc, 0);
ScaleXFromValue(rc, flightstats.Task_Speed.x_min+1.0); // in case no data
ScaleXFromValue(rc, flightstats.Task_Speed.x_min);
for(int j=1;j<MAXTASKPOINTS;j++) {
if (ValidTaskPoint(j) && (flightstats.LegStartTime[j]>=0)) {
double xx =
(flightstats.LegStartTime[j]-CALCULATED_INFO.TaskStartTime)/3600.0;
if (xx>=0) {
DrawLine(Surface, rc,
xx, y_min,
xx, y_max,
STYLE_REDTHICK);
}
}
}
DrawXGrid(Surface, rc,
0.5, flightstats.Task_Speed.x_min,
STYLE_THINDASHPAPER, 0.5, true);
/* DrawYGrid(hdc, rc, 10/TASKSPEEDMODIFY, 0, STYLE_THINDASHPAPER,
10, true);*/
if(Units::GetUserHorizontalSpeedUnit() == unStatuteMilesPerHour) {
DrawYGrid(Surface, rc, 5.0/TASKSPEEDMODIFY, 0, STYLE_THINDASHPAPER, 5.0, true);
} else {
DrawYGrid(Surface, rc, 10/TASKSPEEDMODIFY, 0, STYLE_THINDASHPAPER, 10, true);
}
DrawLineGraph(Surface, rc, &flightstats.Task_Speed,STYLE_MEDIUMBLACK);
DrawTrend(Surface, rc, &flightstats.Task_Speed, STYLE_BLUETHIN);
if(INVERTCOLORS || IsDithered())
Surface.SetTextColor(RGB_DARKGREEN);
else
Surface.SetTextColor(RGB_GREEN);
Surface.SetBackgroundOpaque();
TCHAR text[80];
DrawXLabel(Surface, rc, TEXT(" t/h "));
_stprintf(text,TEXT(" v/%s "),Units::GetHorizontalSpeedName());
DrawYLabel(Surface, rc, text);
// DrawXLabel(hdc, rc, TEXT("t"));
// DrawYLabel(hdc, rc, TEXT("V"));
}
